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MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer
Operation Manual
Signal Analyzer Function
Remote Control
32th Edition
• For safety and warning information, please read this manual before attempting to use the equipment.
• Additional safety and warning information is provided within the MS2690A/MS2691A/MS2692A Signal
Analyzer Operation Manual (Mainframe Operation),
MS2830A Signal Analyzer Operation Manual
(Mainframe Operation) or MS2840A Signal Analyzer
Operation Manual (Mainframe Operation). Please also refer to this document before using the equipment.
• Keep this manual with the equipment.
ANRITSU CORPORATION
Document No.: M-W2853AE-32.0
Safety Symbols
To prevent the risk of personal injury or loss related to equipment malfunction, Anritsu Corporation uses the following safety symbols to indicate safety-related information. Ensure that you clearly understand the meanings of the symbols BEFORE using the equipment. Some or all of the following symbols may be used on all Anritsu equipment.
In addition, there may be other labels attached to products that are not shown in the diagrams in this manual.
Symbols used in manual
DANGER
This indicates a very dangerous procedure that could result in serious injury or death if not performed properly.
WARNING
CAUTION
This indicates a hazardous procedure that could result in serious injury or death if not performed properly.
This indicates a hazardous procedure or danger that could result in light-to-severe injury, or loss related to equipment malfunction, if proper precautions are not taken.
Safety Symbols Used on Equipment and in Manual
The following safety symbols are used inside or on the equipment near operation locations to provide information about safety items and operation precautions. Ensure that you clearly understand the meanings of the symbols and take the necessary precautions BEFORE using the equipment.
This indicates a prohibited operation. The prohibited operation is indicated symbolically in or near the barred circle.
This indicates an obligatory safety precaution. The obligatory operation is indicated symbolically in or near the circle.
This indicates a warning or caution. The contents are indicated symbolically in or near the triangle.
This indicates a note. The contents are described in the box.
These indicate that the marked part should be recycled.
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer
Operation Manual Signal Analyzer Function Remote Control
25 April 2007 (First Edition)
20 October 2016 (32th Edition)
Copyright © 2007-2016, ANRITSU CORPORATION.
All rights reserved. No part of this manual may be reproduced without the prior written permission of the publisher.
The contents of this manual may be changed without prior notice.
Printed in Japan ii
Notes On Export Management
This product and its manuals may require an Export License/Approval by the Government of the product's country of origin for re-export from your country.
Before re-exporting the product or manuals, please contact us to confirm whether they are export-controlled items or not.
When you dispose of export-controlled items, the products/manuals need to be broken/shredded so as not to be unlawfully used for military purpose. iii
iv
About This Manual
Operation manual configuration
The operation manual configuration of the MS2690A/MS2691A/MS2692A,
MS2830A and MS2840A Signal Analyzer is shown below.
Or
MS2690A/MS2691A/MS2692A Signal Analyzer Operation Manual
(Main Frame Operation)
MS2830A Signal Analyzer Operation Manual
(Main Frame Operation)
MS2840A Signal Analyzer Operation Manual
(Main Frame Operation)
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer Operation Manual (Main Frame Remote Control)
MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual
(Signal Analyzer Function
Operation)
Or
MS2830A/MS2840A
Signal Analyzer Operation Manual
(Signal Analyzer Function
Operation)
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer Operation Manual (Signal Analyzer Function Remote Control)
MS2690A/MS2691A/MS2692A
Spectrum Analyzer Operation Manual
(Spectrum Analyzer Function
Operation)
Or
MS2830A/MS2840A
Spectrum Analyzer Operation Manual
(Spectrum Analyzer Function
Operation)
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer Operation Manual (Spectrum Analyzer Function Remote Control)
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer Operation Manual (Phase Noise Measurement Function Operation)
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer Operation Manual (Phase Noise Measurement Function Remote Control)
I
II
Signal Analyzer Operation Manual (Mainframe Operation)
Signal Analyzer Operation Manual (Mainframe Remote Control)
Description of basic operations, maintenance procedures, common functions and common remote functions of the mainframe
Signal Analyzer Operation Manual (Signal Analyzer Function)
Signal Analyzer Operation Manual (Signal Analyzer Function Remote
Control) <This document>
Description of basic operations, functions and remote functions of the signal analyzer
Signal Analyzer Operation Manual (Spectrum Analyzer Function)
Signal Analyzer Operation Manual (Spectrum Analyzer Function Remote
Control)
Description of basic operations, functions and remote functions of the spectrum analyzer
Signal Analyzer Operation Manual (Phase Noise Measurement Function)
Signal Analyzer Operation Manual (Phase Noise Measurement Function
Remote Control)
Description of basic operations, common functions and common remote functions of the Phase Noise Measurement function
Convention Used in This Manual
Except where there is a good reason to do otherwise, this manual assumes the use of MS269xA.
Note that the descriptions in this manual also apply to MS2830A or
MS2840A.
Table of Contents
About This Manual........................................ I
Chapter 1 Overview .................................... 1-1
1
2
Chapter 2 SCPI Device Message Details .. 2-1
3
4
2.8 Measure Common Function Settings ........................ 2-292
2.9 Adjacent Channel Power Measurement Settings ...... 2-304
2.10 Channel Power Measurement Settings ..................... 2-382
2.11 Occupied Bandwidth Measurement Settings ............. 2-421
2.12 Burst Average Power Measurement Settings ............ 2-454
2.13 AM Depth Measurement Settings .............................. 2-475
2.16 Setting Replay function .............................................. 2-506
2.17 Sub Trace Settings .................................................... 2-514
2.21 Batch Processing Function Setting ............................ 2-573
2.23 FM CW Measurement Settings .................................. 2-587
III
Chapter 3 Native Device Message List ..... 3-1
3.1 IEEE488.2 Common Device Messages .................... 3-2
3.5 Measurement/Trigger Settings .................................. 3-9
3.6 Common Settings for Each Trace.............................. 3-10
3.7 Spectrum Trace Settings ........................................... 3-11
3.8 Power vs Time Trace Settings ................................... 3-22
3.9 Frequency vs Time Trace Settings ............................ 3-27
3.10 CCDF Trace Settings ................................................. 3-31
3.12 DigRF 3G Measurement Settings .............................. 3-42
3.13 Waveform Data Saving Function Settings ................. 3-44
3.14 Replay Function Settings ........................................... 3-45
3.15 Sub Trace Settings .................................................... 3-47
3.16 Reference Signal Settings ......................................... 3-49
3.19 Setting External Mixer ................................................ 3-52
Chapter 4 Native Device Message Details 4-1
IV.
Chapter 1 Overview
This chapter provides an overview of the remote control of the Spectrum
Analyzer function (hereinafter, referred to as “this application”). 1
Overview .................................................................... 1-2
1-1
Chapter 1 Overview
1.1 Overview
Automatic measurement can be performed by using this instrument in connection with an external controller (PC). This instrument is standardly equipped with GPIB, Ethernet, and USB interfaces. You can also select a remote control command from the SCPI mode, which is a command format defined by the SCPI Consortium, and Native mode, which is our unique format.
See the MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal
Analyzer Operation Manual (Mainframe Remote Control) for how to switch the language mode.
You can use the Native mode by converting SCPI commands into Native ones. See the MS2690A/MS2691A/MS2692A and MS2830A/MS2840A
Signal Analyzer Operation Manual (Mainframe Remote Control) for details.
To use the Signal Analyzer function on the MS2830A or MS2840A,
Analysis Bandwidth 10 MHz Option or greater is required.
1-2.
Chapter 2 SCPI Device Message Details
This chapter provides detailed specifications of SCPI Remote Control
Command to execute the functions of this application by functions. Refer to the MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal
Analyzer Operation Manual (Mainframe Remote Control) for detailed specifications on IEEE488.2 common device message and application common device messages.
[:SENSe]:FREQuency:SYNThesis[:STATe] BPHase|NORMal|FAST ..................................... 2-43
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing LINear|LOGarithmic ................................. 2-53
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet <rel_ampl> ................................... 2-56
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet:STATe ON|OFF|1|0 ...................... 2-58
2
2-1
Chapter 2 SCPI Device Message Details
:TRIGger[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF|
:TRIGger[:SEQuence]:FRAMe:SYNC EXTernal[1]|IMMediate|Off|WIF|RFBurst .................... 2-82
2-2
Chapter 2 SCPI Device Message Details
:CALCulate:MARKer:RESult INTegation|TOTal|DENSity|AVERage|PEAK|PACCuracy ...... 2-132
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE POSitive|NORMal|DELTa|FIXed|OFF ..... 2-149
2-3
2
Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh:TYPE ZONE|SPOT ................................. 2-159
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion <rel_ampl>|<percent>|<freq> ............ 2-165
:CALCulate:MARKer:SIGNal:THReshold:MODE ABOVe|BELow ......................................... 2-171
:TRACe:MODE SPECtrum|PVTime|FVTime|PHASe|CCDF|SPGRam|NONE ...................... 2-188
:CALCulate:ATIMe:GMODe:RANGe:STATe ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0, ........... 2-198
2-4
Chapter 2 SCPI Device Message Details
:CALCulate:ATIMe:GMODe:RANGe:STARt <time_1>,<time_2>,<time_3> .......................... 2-200
:CALCulate:ATIMe:GMODe:RANGe:STOP <time_1>,<time_2>,<time_3>........................... 2-201
[:SENSe]:DETector[:FUNCtion] NORMal|POSitive|NEGative|SAMPle|AVERage ................ 2-218
:CALCulate:DETector[:FUNCtion] NORMal|POSitive|NEGative|SAMPle|AVERage ............. 2-220
:TRACe:STORage:MODE OFF|MAXHold|LAVerage|MINHold ............................................. 2-221
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmic] <rel_ampl> .................... 2-225
:CALCulate:FILTer:TYPE OFF|RECT|GAUSsian|NYQuist|RNYQuist ................................... 2-234
2-5
2
Chapter 2 SCPI Device Message Details
2-6
:TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe <rel_ampl> .............................. 2-280
Chapter 2 SCPI Device Message Details
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE <mode> ........................................ 2-288
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence <time> ................................... 2-290
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE <switch> .................... 2-291
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE? ................................. 2-291
[:SENSe]:RADio:STANdard[:SELect]
OFF|WCDMADN|WCDMAUP|MWIMAXDL|MWIMAXUL|3GLTE_DL|
3GLTE_UL|ETC_DSRC|TDSCDMA|XGPHS|CDMA2KFWD|EVDOFWD|
3GLTE_TDD_DL|3GLTE_TDD_UL|ISDBTMM .......................................................... 2-293
[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod STOTal|CTOTal|BSIDes|CSELect ...... 2-313
:CALCulate:ACPower:CARRier[1]:RCARrier:METHod STOTal|CTOTal|BSIDes|CSELect .. 2-314
2-7
2
Chapter 2 SCPI Device Message Details
2-8
:CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration] <bandwidth> ............................ 2-319
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration] <bandwidth> ..................... 2-321
:CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration] <bandwidth> .................. 2-322
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0 ............ 2-333
:CALCulate:ACPower:OFFSet[1]:LIST:STATe ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0 ......... 2-334
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency] <freq>,<freq>,<freq> ............................. 2-336
:CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency] <freq>,<freq>,<freq> ......................... 2-337
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist ............................. 2-341
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist ......................... 2-342
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist .............................. 2-346
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist ........................... 2-347
Chapter 2 SCPI Device Message Details
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT ................................. 2-363
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist> ....... 2-364
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision <rel_ampl> ............. 2-366
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ? ............................. 2-367
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real> ........................ 2-367
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel? .................................. 2-368
:TRIGger:ACPower[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|
[:SENSe]:ACPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage .............. 2-375
2-9
2
Chapter 2 SCPI Device Message Details
:CALCulate:ACPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage .......... 2-376
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE NORMal|POSition|
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer> .......................... 2-381
2-10
Chapter 2 SCPI Device Message Details
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist> ....... 2-404
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision <rel_ampl> ............. 2-406
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ? ............................. 2-407
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real> ........................ 2-407
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel? ................................. 2-408
:TRIGger:CHPower[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0 .................................... 2-413
[:SENSe]:CHPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage .............. 2-414
:CALCulate:CHPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage .......... 2-415
2-11
2
Chapter 2 SCPI Device Message Details
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE NORMal|POSition|
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer> .......................... 2-420
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist> ........ 2-437
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision <rel_ampl> .............. 2-439
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ? .............................. 2-440
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real> ......................... 2-440
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel? .................................. 2-441
:TRIGger:OBWidth[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|
2-12
Chapter 2 SCPI Device Message Details
[:SENSe]:OBWidth:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage ............... 2-448
:CALCulate:OBWidth:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage ........... 2-448
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE NORMal|POSition|
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0 .............................. 2-458
:CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0 .......................... 2-459
2-13
2
Chapter 2 SCPI Device Message Details
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ? ............. 2-465
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real> ........ 2-466
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel? .................. 2-467
:TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum ............................ 2-472
2-14
Chapter 2 SCPI Device Message Details
:CALCulate:STRace:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage ............. 2-516
2-15
2
Chapter 2 SCPI Device Message Details
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic <rel_ampl> ....... 2-527
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic? ........................ 2-528
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear <percent> ................... 2-529
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear? .................................. 2-530
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0 ........................ 2-532
2-16
Chapter 2 SCPI Device Message Details
:MEASure:POWadj? <span>,<length>,<sg_start_level>,<sg_max_level>,<target>,
<range> [,<frequency>[,<count>[,<adjust_log>[,<sg_offset_switch>]]]] .................... 2-574
[:SENSe]:MIXer[:HARMonic]:BAND VHP|EHP|A|Q|U|V|E|W|F|D|G|Y|J ................................ 2-581
2-17
2
Chapter 2 SCPI Device Message Details
2-18
2.1 Frequency Settings
2.1 Frequency Settings
Table 2.1-1 lists device messages for setting frequency.
Table 2.1-1 Device messages for setting frequency
Function
Center Frequency
Frequency Step
Size
Start Frequency
Stop Frequency
Span Frequency
Frequency Band
Mode
Sampling Rate
Switching Speed
Device Message
[:SENSe]:FREQuency:CENTer <freq>
[:SENSe]:FREQuency:CENTer?
[:SENSe]:FREQuency:CENTer:STEP[:INCRement] <freq>
[:SENSe]:FREQuency:CENTer:STEP[:INCRement]?
[:SENSe]:FREQuency:STARt <freq>
[:SENSe]:FREQuency:STARt?
[:SENSe]:FREQuency:STOP <freq>
[:SENSe]:FREQuency:STOP?
[:SENSe]:FREQuency:SPAN <freq>
[:SENSe]:FREQuency:SPAN?
[:SENSe]:FREQuency:BAND:MODE NORMal|SPURious
[:SENSe]:FREQuency:BAND:MODE?
[:SENSe]:FREQuency:SRATe?
[:SENSe]:FREQuency:SYNThesis[:STATe] BPHase |NORMal |FAST
[:SENSe]:FREQuency:SYNThesis[:STATe]?
2
2-19
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:CENTer <freq>
Center Frequency
Function
This command sets the center frequency.
Command
[:SENSe]:FREQuency:CENTer <freq>
Parameter
<freq>
Range
Center frequency
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 43 GHz (Option 045)
2-20
Details
Example of Use
2.1 Frequency Settings
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
Resolution
Suffix code
300 MHz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Default
[MS269xA]
[MS2830A]
[MS2840A]
6.00 GHz (MS2690A/91A/92A)
3.6 GHz (Option 040/041/043/044/045)
3.6 GHz (Option 040/041/044/046)
2
This command is not available while the Replay function is being executed.
This command is limited by the Frequency Span settings.
When MS2690A/91/92A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 100 MHz.
When MS2830A, MS2840A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 300 MHz.
This function is restricted in the following condition:
• Center frequency is fixed to 0 Hz when Terminal is set to DigRF 3G
(only for MS269x Series).
To set the center frequency to 123.456 kHz.
FREQ:CENT 123456
2-21
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:CENTer?
Center Frequency Query
Function
This command queries the center frequency.
Query
[:SENSe]:FREQuency:CENTer?
Response
<freq>
Parameter
<freq>
Range
Center frequency
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
2-22
Example of Use
2.1 Frequency Settings
300 MHz to 26.5 GHz (Option 044)
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167,
Resolution
Suffix code and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
None. Value is returned in Hz units.
2
To query the center frequency.
FREQ:CENT?
> 123456
2-23
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:CENTer:STEP[:INCRement] <freq>
Frequency Step Size
Function
This command sets the step size of the center, start and stop frequency.
Command
[:SENSe]:FREQuency:CENTer:STEP[:INCRement] <freq>
Parameter
<freq>
Range
Step size
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
1 Hz to 6 GHz (MS2690A)
1 Hz to 13.5 GHz (MS2691A)
1 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
1 Hz to 6 GHz (MS2690A)
1 Hz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
1 Hz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 13.5 GHz (Option 043)
1 Hz to 26.5 GHz (Option 044)
1 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (Option 044)
1 Hz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
1 Hz to 26.5 GHz (Option 044)
1 Hz to 43 GHz (Option 045)
2-24
Example of Use
2.1 Frequency Settings
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 26.5 GHz (Option 044)
1 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (Option 044)
1 Hz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167, and frequency span > 31.25 MHz
1 Hz to 26.5 GHz (Option 044)
Resolution
Suffix code
Default
1 Hz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
1 GHz
2
To set the step size to 100.0 kHz.
FREQ:CENT:STEP 100000
2-25
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:CENTer:STEP[:INCRement]?
Frequency Step Size Query
Function
This command queries the step size of the center, start and stop frequency.
Query
[:SENSe]:FREQuency:CENTer:STEP?
Response
<freq>
Parameter
<freq>
Range
Step size
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
1 Hz to 6 GHz (MS2690A)
1 Hz to 13.5 GHz (MS2691A)
1 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
1 Hz to 6 GHz (MS2690A)
1 Hz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
1 Hz to 26.5GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 13.5 GHz (Option 043)
1 Hz to 26.5 GHz (Option 044)
1 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (Option 044)
2-26
Example of Use
2.1 Frequency Settings
1 Hz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
1 Hz to 26.5 GHz (Option 044)
1 Hz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 26.5 GHz (Option 044)
1 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (Option 044)
1 Hz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167, and frequency span > 31.25 MHz
Resolution
Suffix code
1 Hz to 26.5 GHz (Option 044)
1 Hz to 44.5 GHz (Option 046)
1 Hz
None. Value is returned in Hz units.
2
To query the step size.
FREQ:CENT:STEP?
> 100000
2-27
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:STARt <freq>
Start Frequency
Function
This command sets the start frequency.
Command
[:SENSe]:FREQuency:STARt <freq>
Parameter
<freq>
Range
Start frequency
Range subtracting Frequency Span/2 from any of the following center frequency ranges:
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
2-28
Details
2.1 Frequency Settings
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167, and frequency span > 31.25 MHz
Resolution
Suffix code
Default
[MS269xA]
[MS2830A]
[MS2840A]
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
5.984375 GHz
3.584375 GHz
(Option 005/105/007/009/109/077/078)
3.595 GHz (Option 006/106)
3.584375 GHz
(Option 005/105/009/109/077/177/078/178)
3.595 GHz (Option 006/106)
2
This command is not available while the Replay function is being executed.
This command is limited by the Frequency Span settings.
• When MS2690A/91/92A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 100 MHz.
• When MS2830A, MS2840A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 300 MHz.
This function is restricted in the following condition:
• Start frequency is fixed to
–270.833 kHz (for GSM) or –3.84 MHz (for W-CDMA) when Terminal is set to DigRF 3G (only for MS269x Series).
2-29
Chapter 2 SCPI Device Message Details
Example of Use
[:SENSe]:FREQuency:STARt?
Start Frequency Query
Function
This command queries the start frequency.
Query
[:SENSe]:FREQuency:STARt?
Response
<freq>
Parameter
To set the start frequency to 1 GHz.
FREQ:STAR 1GHZ
<freq>
Range
Start frequency
Range subtracting Frequency Span/2 from any of the following center frequency ranges:
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167,
2-30
Example of Use
2.1 Frequency Settings and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167, and frequency span > 31.25 MHz
Resolution
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
No suffix code. Value is returned in Hz units.
2
To query the start frequency.
FREQ:STAR?
> 1000000000
2-31
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:STOP <freq>
Stop Frequency
Function
This command sets the stop frequency.
Command
[:SENSe]:FREQuency:STOP <freq>
Parameter
<freq>
Range
Stop frequency
Range adding Frequency Span/2 to any of the following center frequency ranges:
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
2-32
Details
Example of Use
2.1 Frequency Settings
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167, and frequency span > 31.25 MHz
Resolution
Suffix code
Default
[MS269xA]
[MS2830A]
[MS2840A]
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
6.015625 GHz
3.615625 GHz
(Option 005/105/007/009/109/077/078)
3.605 GHz (Option 006/106)
3.615625 GHz
(Option 005/105/009/109/077/177/078/178)
3.605 GHz (Option 006/106)
2
This command is not available while the Replay function is being executed.
This function is restricted in the following condition:
• If using the MS269x Series, when the terminal is set to DigRF 3G, the stop frequency is fixed at +270.833 kHz (when the Target System selected GSM) or +3.84 MHz (when the Target System selected
W-CDMA).
To set the stop frequency to 10 MHz.
FREQ:STOP 10000KHZ
2-33
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:STOP?
Stop Frequency Query
Function
This command queries the stop frequency.
Query
[:SENSe]:FREQuency:STOP?
Response
<freq>
Parameter
<freq>
Range
Stop frequency
Range adding Frequency Span/2 to any of the following center frequency ranges:
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
2-34
Example of Use
2.1 Frequency Settings
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167,
Resolution and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
No suffix code. Value is returned in Hz units.
2
To query the stop frequency.
FREQ:STOP?
> 10000000
2-35
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:SPAN <freq>
Span Frequency
Function
This command sets the span frequency.
Command
[:SENSe]:FREQuency:SPAN <freq>
Parameter
<freq>
Range/Resolution
[MS269xA]
Suffix code
Span frequency
1000, 2500, 5000, 10000, 25000, 50000, 100000,
250000, 500000, 1000000, 2500000, 5000000,
10000000, 25000000, 31250000
50000000* 1 * 2 , 62500000* 2 , 100000000* 1 * 3 ,
125000000* 1 * 3
[MS2830A], [MS2840A]
1000 *2 , 2500 *2 , 5000 *2 , 10000 *2 , 25000 *2 ,
50000 *2 , 100000 *2 ,250000 *2 , 500000 *2 ,
1000000 *2 , 2500000 *2 , 5000000 *2 ,
10000000 *2 , 25000000 *1 , 31250000 *1
50000000 *3 , 62500000 *3 ,
100000000 *4 , 125000000 *4
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Default value
Hz is used when omitted.
[MS2830A]
[MS2840A]
31.25 MHz
(Option 005/105/007/009/109/077/078)
10 MHz (Option 006/106)
31.25 MHz
(Option 005/105/009/109/077/177/078/178)
10 MHz (Option 006/106)
Details
This command is limited by the Frequency Band Mode, Center
Frequency, and Terminal settings.
[MS269xA]
*1: Option 004/104
The following frequency spans are available when the Wideband
Analysis Hardware option is installed:
50000000, 100000000, 125000000
*2: Option 077/177
The following frequency spans are available when the
Bandwidth Extension to 62.5 MHz option is installed:
Analysis
2-36
Example of Use
2.1 Frequency Settings
50000000, 62500000
*3: Option 078/178
In addition to the *2, the following frequency spans are available when the Analysis Bandwidth Extension to 125 MHz option is installed:
100000000, 125000000
The following frequency spans are not available when the Frequency
Band Mode is Spurious.
50000000, 62500000, 100000000, 125000000
[MS2830A], [MS2840A]
*1: MS2830A-005/105/007/009/109
MS2840A-005/105/009/109
In addition to the *2 below, the following frequency spans are available when the Analysis Bandwidth Extension to 31.25 MHz option is installed:
25000000, 31250000
*2: Option 006/106
The following frequency spans are available when the Analysis
Bandwidth 10 MHz option is installed:
1000, 2500, 5000, 10000, 25000, 50000, 100000, 250000, 500000,
1000000, 2500000, 5000000, 10000000
*3: MS2830A-077, MS2840A-077/177
In addition to the *1, the following frequency spans are available when the Analysis Bandwidth Extension to 62.5 MHz option is installed:
50000000 , 62500000
*4: MS2830A-078, MS2840A-078/178
In addition to the *3, the following frequency spans are available when the Analysis Bandwidth Extension to 125 MHz option is installed:
100000000 , 125000000
The following frequency spans are not available when the Frequency
Band Mode is Spurious.
50000000, 62500000, 100000000, 125000000
This function is restricted in the following condition:
● If using the MS269x Series, when Terminal is set to DigRF 3G, the span frequency is fixed at 541.666 kHz (when the Target System selected GSM) or 7.68 MHz (when the Target System selected
W-CDMA).
● This command is not available when the Replay function is executed.
2
2-37
Chapter 2 SCPI Device Message Details
To set the span frequency to 1 kHz.
FREQ:SPAN 1KHZ
Related Command
This command has the same function as the following commands:
[:SENSe]:ACPower:FREQuency:SPAN
[:SENSe]:CHPower:FREQuency:SPAN
[:SENSe]:OBWidth:FREQuency:SPAN
2-38
2.1 Frequency Settings
[:SENSe]:FREQuency:SPAN?
Span Frequency Query
Function
This command queries the span frequency.
Query
[:SENSe]:FREQuency:SPAN?
Response
<freq>
Parameter
<freq>
Range/Resolution
[MS269xA]
Suffix code
Span frequency
1000, 2500, 5000, 10000, 25000, 50000, 100000,
250000, 500000, 1000000, 2500000, 5000000,
10000000, 25000000, 31250000
50000000* 1 * 2 , 62500000* 2 , 100000000* 1 * 3 ,
125000000* 1 * 3
[MS2830A], [MS2840A]
1000* 2 , 2500* 2 , 5000* 2 , 10000* 2 , 25000* 2 , 50000,
100000* 2 , 250000* 2 , 500000* 2 , 1000000* 2 ,
2500000* 2 , 5000000* 2 , 10000000* 2 , 25000000 *1 ,
31250000 *1, 50000000 *3 , 62500000 *3 , 100000000 *4 ,
125000000 *4
None. Value is returned in Hz units.
Details
This command is not available while the Replay function is being executed.
This command is limited by the Frequency Band Mode, Center
Frequency, and Terminal settings.
[MS269xA]
*1: Option 004/104
The following frequency spans are available when the Wideband
Analysis Hardware option is installed:
50000000, 100000000, 125000000
*2: Option 077/177
The following frequency spans are available when the
Bandwidth Extension to 62.5 MHz option is installed:
Analysis
50000000, 62500000
2
2-39
Chapter 2 SCPI Device Message Details
*3: Option 078/178
In addition to the *2, the following frequency spans are available when the Analysis Bandwidth Extension to 125 MHz option is installed:
100000000, 125000000
[MS2830A], [MS2840A]
*1: MS2830A-005/105/007/009/109
MS2840A-005/105/009/109
The following frequency spans are available when the Analysis
Bandwidth Extension to 31.25 MHz option is installed:
25000000, 31250000
*2: Option 006/106
The following frequency spans are available when the
Bandwidth 10 MHz option is installed:
Analysis
1000, 2500, 5000, 10000, 25000, 50000, 100000, 250000, 500000,
1000000, 2500000, 5000000, 10000000
*3: MS2830A-077, MS2840A-077/177
In addition to the *1, the following frequency spans are available when the Analysis Bandwidth Extension to 62.5 MHz option is installed:
50000000 , 62500000
*4: MS2830A-078, MS2840A-078/178
The following frequency spans are available when the
Bandwidth Extension to 125 MHz option is installed:
Analysis
100000000 , 125000000
This function is restricted in the following condition:
● If using the MS269x Series, when Terminal is set to DigRF 3G, the span frequency is fixed at 541.666 kHz (when the Target System selected GSM) or 7.68 MHz (when the Target System selected
W-CDMA).
● This command is not available when the Replay function is executed.
Example of Use
To query the span frequency.
FREQ:SPAN?
> 1000
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:FREQuency:SPAN?
[:SENSe]:CHPower:FREQuency:SPAN?
[:SENSe]:OBWidth:FREQuency:SPAN?
2-40
2.1 Frequency Settings
[:SENSe]:FREQuency:BAND:MODE NORMal|SPURious
Frequency Band Mode
Function
This command sets the frequency band path. The frequency at which the path is switched to the preselector band or a path that does not pass through the preselector can be set with this function.
Command
[:SENSe]:FREQuency:BAND:MODE <mode>
Parameter
<mode>
[MS269xA]
NORMal
Frequency band mode
Sets the frequency to switch to the preselector band to 6.0 GHz (Default value).
SPURious Sets the frequency to switch to the preselector band to 3.0 GHz
[MS2830A-041/043/044/045], [MS2840A-041/044/046]
NORMal Sets the frequency to switch to the preselector band to 4.0 GHz (Default value).
SPURious Sets the frequency to switch to the preselector band to 3.5 GHz.
Details
[MS269xA]
This command is not available in the following cases:
● When using the MS2690A.
● Fixed to NORMAL when the Option 003/103 pre-selector lower expansion is not installed in the MS2691A/MS2692A.
● SPURIOUS cannot be set when Frequency Span is set to 50 MHz or more.
● When Terminal is set to DigRF 3G (only for MS269x Series).
● When the Replay function is being executed.
[MS2830A]. [MS2840A]
This command is not available for Option 040 3.6 GHz Signal Analyzer.
SPURIOUS cannot be set when Frequency Span is set to 50 MHz or more.
Example of Use
To set the frequency to switch to the preselector band to 6.0 GHz.
FREQ:BAND:MODE NORM
2-41
2
Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:BAND:MODE?
Frequency Band Mode Query
Function
This command queries the frequency band path. The frequency at which the path is switched to the preselector band or a path that does not pass through the preselector can be set with this function.
Query
[:SENSe]:FREQuency:BAND:MODE?
Response
<mode>
Parameter
<mode>
[MS269xA]
NORM
SPUR
Frequency band mode
Sets the frequency to switch to the preselector band to 6.0 GHz (Default value).
Sets the frequency to switch to the preselector band to 3.0 GHz
[MS2830A-041/043/044/045], [MS2840A-041/044/046]
NORM Sets the frequency to switch to the preselector
SPUR band to 4.0 GHz (Default value).
Sets the frequency to switch to the preselector band to 3.5 GHz.
Example of Use
To query the frequency band path.
FREQ:BAND:MODE?
> NORM
[:SENSe]:FREQuency:SRATe?
Sampling Rate Query
Function
This command queries the sampling rate of waveform capturing.
Query
[:SENSe]:FREQuency:SRATe?
Response
<freq>
No suffix code. Value is returned in Hz units.
Example of Use
To query the sampling rate.
FREQ:SRAT?
2-42
2.1 Frequency Settings
[:SENSe]:FREQuency:SYNThesis[:STATe] BPHase|NORMal|FAST
Switching Speed
Function
This command selects the switching speed of frequency.
Command
[:SENSe]:FREQuency:SYNThesis[:STATe] <mode>
Parameter
<mode>
BPHase
NORMal
FAST
Frequency switching speed
The operation is done so as to improve the phase noise characteristic rather than the frequency switching speed.
Same as the setting of BPHase.
The operation is done so as to increase the frequency switching speed at the cost of the phase noise characteristic.
Details
This command is available for MS2830A and MS2840A.
Note that because the FAST setting gives priority to the switching speed of the local frequency, the phase noise characteristic worsens.
Example of Use
To set the frequency switching mode to the speed priority mode.
FREQ:SYNT FAST
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:FREQuency:SYNThesis[:STATe]?
Switching Speed Query
Function
This command queries the switching speed of frequency.
Query
[:SENSe]:FREQuency:SYNThesis[:STATe]?
Response
<mode> Frequency switching speed
Parameter
<mode>
BPHase
FAST
Frequency switching speed
The operation is done so as to improve the phase noise characteristic rather than the frequency switching speed.
The operation is done so as to increase the frequency switching speed at the cost of the phase noise characteristic.
Details
This command is available for MS2830A and MS2840A.
Note that because the FAST setting gives priority to the switching speed of the local frequency, the phase noise characteristic worsens.
Example of Use
To query frequency switching speed
FREQ:SYNT?
> FAST
2-44
2.2 Level Settings
2.2 Level Settings
Table 2.2-1 lists device messages for setting a level.
Function
Reference Level
RF Attenuator
RF Attenuator
Auto/Manual
Scale Mode
Log Scale Unit
Ref.Level Offset
Value
Reference Level
Offset Mode
Pre Amp
Table 2.2-1 Device messages for setting level
Device Message
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
[:SENSe]:POWer[:RF]:ATTenuation <rel_ampl>
[:SENSe]:POWer[:RF]:ATTenuation?
[:SENSe]:POWer[:RF]:ATTenuation:AUTO ON|OFF|1|0
[:SENSe]:POWer[:RF]:ATTenuation:AUTO?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing LINear|LOGarithmic
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing?
:UNIT:POWer DBM|DBMV|V|W|DBUV|DBUVE|DBUVM
:UNIT:POWer?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEvel:OFFSet <rel_ampl>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEvel:OFFSet?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet:STATe
ON|OFF|1|0
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet:STATe?
[:SENSe]:POWer[:RF]:GAIN[:STATe] ON|OFF|1|0
[:SENSe]:POWer[:RF]:GAIN[:STATe]?
2
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Chapter 2 SCPI Device Message Details
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
Reference Level
Function
This command sets the reference level.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
Parameter
<real>
Range
Resolution
Suffix code
Default value
Reference level
Value equivalent to −120 to +50 dBm (regardless of the ATT and Pre-Amp settings when the
Replay function is executed)
0.01 dB (When scale unit settings are dB-system units)
0.01 pV (When scale unit settings are V-system units)
0.01 yW (When scale unit settings are W-system units)
UW
NW
PW
FW
MV
UV
W
MW
DBM,DM dBm
DBMV dBmV
DBUV
DBUVE
DBUVM
V dBµV dBµV (emf) dBµV/m
V mV
µ
W mW
µ
V
W nW pW fW
Log Scale Unit setting applies when omitted.
V is used for Linear Scale.
0 dBm
Example of Use
To set the reference level to 0 dBm.
DISP:WIND:TRAC:Y:RLEV 0DBM
2-46
Related Command
2.2 Level Settings
This command has the same function as the following commands.
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel
2
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Chapter 2 SCPI Device Message Details
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
Reference Level Query
Function
This command queries the reference level.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
Response
<real>
Parameter
<real>
Range
Resolution
Reference level
Value equivalent to −120 to +50 dBm
0.01 dB (When scale unit settings are dB-system units)
0.01 pV (When scale unit settings are V-system units)
0.01 yW (When scale unit settings are W-system units)
This command returns a value in the unit set in Log Scale Unit when
Scale Mode is set to Log. (Note: V units for V, W units for W)
This command returns a value in V units when Scale Mode is set to
Linear.
Example of Use
To query the reference level.
DISP:WIND:TRAC:Y:RLEV?
> 0.00
Related Command
This command has the same function as the following commands.
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel?
2-48
2.2 Level Settings
[:SENSe]:POWer[:RF]:ATTenuation <rel_ampl>
RF Attenuator
Function
This command sets the attenuator.
Command
[:SENSe]:POWer[:RF]:ATTenuation <rel_ampl>
Parameter
<rel_ampl>
Range
Resolution
Attenuator value
0 to 60 dB
[MS269xA] 2 dB
[MS2830A], [MS2840A]
2 dB or 10 dB
Suffix code
Refer to “Table 2.3.2-3 Resolution of Input
Attenuator” in the MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
DB, dB is used when omitted.
Default value 10 dB
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To set the attenuator to 10 dB.
POW:ATT 10
2
2-49
Chapter 2 SCPI Device Message Details
[:SENSe]:POWer[:RF]:ATTenuation?
RF Attenuator Query
Function
This command queries the attenuator.
Query
[:SENSe]:POWer[:RF]:ATTenuation?
Response
<rel_ampl>
Parameter
<rel_ampl>
Range
Attenuator value
0 to 60 dB
Resolution
[MS269xA] 2 dB
[MS2830A], [MS2840A]
2 dB or 10 dB
Suffix code
Default value
Refer to “Table 2.3.2-3 Resolution of Input
Attenuator” in the MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
None. Value is returned in dB units.
10 dB
Example of Use
To query the attenuator value.
POW:ATT?
> 10
2-50
2.2 Level Settings
[:SENSe]:POWer[:RF]:ATTenuation:AUTO ON|OFF|1|0
RF Attenuator Auto/Manual
Function
This command enables/disables the automatic attenuation setting function.
Command
[:SENSe]:POWer[:RF]ATTenuation:AUTO <switch>
Parameter
<switch>
0|OFF
1|ON
Automatic attenuation setting function On/Off
Disables the automatic attenuation setting function.
Enables the automatic attenuation setting function (Default).
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To enable the automatic attenuation setting function.
POW:ATT:AUTO ON
2
2-51
Chapter 2 SCPI Device Message Details
[:SENSe]:POWer[:RF]:ATTenuation:AUTO?
RF Attenuator Auto/Manual Query
Function
This command queries the On/Off state of the automatic attenuation setting function.
Query
[:SENSe]:POWer[:RF]ATTenuation:AUTO?
Response
<switch>
Parameter
<switch>
0
1
Automatic mode On/Off
On
Off
Example of Use
To query the On/Off state of the automatic attenuation setting function.
POW:ATT:AUTO?
> 1
2-52
2.2 Level Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing LINear|LOGarithmic
Scale Mode
Function
This command switches the scale mode.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing<mode>
Parameter
<mode>
LOGarithmic
LINear
Scale mode
Log scale (Default)
Linear scale
Details
This command is not available when Trace Mode is set to Spectrogram or
No Trace.
Example of Use
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing?
Scale Mode Query
Function
To set the scale mode to Linear scale.
DISP:WIND:TRAC:Y:SPAC LIN
This command queries the scale mode.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing?
Response
<mode>
Parameter
<mode>
LOG
LIN
Scale mode
Log scale
Linear scale
Example of Use
To query the scale mode.
DISP:WIND:TRAC:Y:SPAC?
> LIN
2
2-53
Chapter 2 SCPI Device Message Details
:UNIT:POWer DBM|DBMV|V|W|DBUV|DBUVE|DBUVM
Log Scale Unit
Function
This command sets the level display unit system in Log scale mode.
Command
:UNIT:POWer <unit>
Parameter
<unit>
DBM
DBMV
DBUV
DBUVE
V
W
DBUVM
Level display unit in Log scale mode dBm (Default)
dBmV
dBµV
dBµV (emf)
V
W
dBµV/m
Details
If V (W) is selected and a measurement result is 99.999 GV (GW) or more,
99.999 GV (GW) or more is displayed.
Example of Use
To set the level display unit system in Log scale mode to V.
UNIT:POW V
2-54
2.2 Level Settings
:UNIT:POWer?
Log Scale Unit Query
Function
Query
Response
Parameter
Example of Use
This command queries the level display unit system in Log scale mode.
:UNIT:POWer?
<unit>
<unit>
DBM
DBMV
DBUV
DBUVE
V
W
DBUVM
Level display unit in Log scale mode
dBm
dBmV
dBµV
dBµV (emf)
V
W
dBµV/m
To query the level display unit in Log scale mode.
UNIT:POW?
> V
2
2-55
Chapter 2 SCPI Device Message Details
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet <rel_ampl>
Ref.Level Offset Value
Function
This command sets the offset value of the reference level offset function.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet
<rel_ampl>
Parameter
<rel_ampl>
Range
Resolution
Suffix code
Default value
Reference Level Offset Value
−100.00 to +100.00 dB
0.01 dB
DB dB is used when omitted.
0 dB
Details
This command is not available in the following case:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To set the reference level offset function to +10 dB.
DISP:WIND:TRAC:Y:RLEV:OFFS 10
2-56
2.2 Level Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet?
Ref.Level Offset Value Query
Function
This command queries the offset value of the reference level offset function.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet?
Response
<rel_ampl>
Parameter
<rel_ampl>
Range
Resolution
Suffix code
Reference level offset value
− 100.00 to +100.00 dB
0.01 dB
DB
DB is used even if the suffix code is omitted.
Example of Use
To query the reference level offset.
DISP:WIND:TRAC:Y:RLEV:OFFS?
> 10.00
2
2-57
Chapter 2 SCPI Device Message Details
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet:STATe ON|OFF|1|0
Reference Level Offset Mode
Function
This command enables/disables the reference level offset function.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEvel:OFFSet:STATe
<switch>
Parameter
<switch>
ON|1
OFF|0
Reference level offset function On/Off
Enables the reference level offset function.
Disables the reference level offset function
(Default)
Details
This command is not available in the following case:
• When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To enable the reference level offset function.
DISP:WIND:TRAC:Y:RLEVOFFS:STAT ON
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet:STATe?
Reference Level Offset Mode Query
Function
This command queries the On/Off state of the reference level offset function.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEvel:OFFSet:STATe?
Response
<switch>
Parameter
<switch>
1
0
Reference level offset function On/Off
On
Off
Example of Use
To query the On/Off state of the reference level offset function.
DISP:WIND:TRAC:Y:RLEVOFFS:STAT?
> 1
2-58
2.2 Level Settings
[:SENSe]:POWer[:RF]:GAIN[:STATe] ON|OFF|1|0
Pre Amp
Function
This command sets the pre-amplifier to On/Off.
Command
[:SENSe]:POWer[:RF]:GAIN[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Pre-amplifier On/Off
Sets Pre-amplifier to On.
Sets Pre-amplifier to Off (Default value).
Details
[MS269xA] This command is turned off and thus invalid when Option 008/108 6 GHz
Preamplifier is NOT installed.
[MS2830A] This command is turned off and thus invalid when Option
008/108/068/168 Preamplifier is NOT installed.
[MS2840A] This command is turned off and thus invalid when Option
008/108/068/168/069/169 Preamplifier is NOT installed.
[Common] This command is not available in the following case:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
● Replay function is being executed.
2
Example of Use
[:SENSe]:POWer[:RF]:GAIN[:STATe]?
Pre Amp Query
To set the pre-amplifier to On.
POW:GAIN ON
Function
This command queries the On/Off state of the pre-amplifier.
Query
[:SENSe]:POWer[:RF]:GAIN[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Pre-amplifier On/Off
On
Off
Example of Use
To query the On/Off state of the pre-amplifier.
POW:GAIN?
> 1
2-59
Chapter 2 SCPI Device Message Details
2.3 Trigger Settings
Table 2.3-1 lists device messages for setting triggers.
Function
Trigger Switch
Trigger Source
Trigger Slope
Trigger Delay
Log Scale Video
Trigger Level
Linear Scale Video
Trigger Level
Video Trigger
Slope
Video Trigger
Delay
Wide IF Trigger
Level
Wide IF Trigger
Slope
Wide IF Trigger
Delay
Trigger Hold
Trigger Hold
On/Off
Frame Trigger
Period
Frame Sync Source
Frame Sync Offset
Table 2.3-1 Device messages for setting trigger
Device Message
:TRIGger[:SEQuence][:STATe] ON|OFF|1|0
:TRIGger[:SEQuence][:STATe]?
:TRIGger[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF |FRAMe
:TRIGger[:SEQuence]:SOURce?
:TRIGger[:SEQuence]:SLOPe POSitive|NEGative
:TRIGger[:SEQuence]:SLOPe?
:TRIGger[:SEQuence]:DELay <time>
:TRIGger[:SEQuence]:DELay?
:TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic] <level>
:TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic]?
:TRIGger[:SEQuence]:VIDeo:LEVel:LINear <level>
:TRIGger[:SEQuence]:VIDeo:LEVel:LINear?
:TRIGger[:SEQuence]:VIDeo:SLOPe POSitive|NEGative
:TRIGger[:SEQuence]:VIDeo:SLOPe?
:TRIGger[:SEQuence]:VIDeo:DELay <time>
:TRIGger[:SEQuence]:VIDeo:DELay?
:TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute <ampl>
:TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute?
:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe POSitive|NEGative
:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe?
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay <time>
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay?
:TRIGger[:SEQuence]:HOLDoff <time>
:TRIGger[:SEQuence]:HOLDoff?
:TRIGger[:SEQuence]:HOLDoff:STATe OFF|ON|0|1
:TRIGger[:SEQuence]:HOLDoff:STATe?
:TRIGger[:SEQuence]:FRAMe:PERiod <time>
:TRIGger[:SEQuence]:FRAMe:PERiod?
:TRIGger[:SEQuence]:FRAMe:SYNC
EXTernal[1]|IMMediate|Off|WIF|RFBurst
:TRIGger[:SEQuence]:FRAMe:SYNC?
:TRIGger[:SEQuence]:FRAMe:OFFSet <time>
:TRIGger[:SEQuence]:FRAMe:OFFSet?
2-60
2.3 Trigger Settings
:TRIGger[:SEQuence][:STATe] ON|OFF|1|0
Trigger Switch
Function
This command sets the trigger to On/Off.
Command
:TRIGger[:SEQuence][:STATe] <switch>
Parameter
<switch>
OFF|0
ON|1
Trigger On/Off
Sets trigger to off (Default value).
Sets trigger to on.
Details
This command is not available while the Replay function is being executed.
Example of Use
To set the trigger to On.
TRIG ON
:TRIGger[:SEQuence][:STATe]?
Trigger Switch Query
Function
This command queries the On/Off state of the trigger.
Query
:TRIGger[:SEQuence][:STATe]?
Response
<switch>
Parameter
<switch>
0
1
Trigger On/Off
Off
On
Example of Use
To query the On/Off state of the trigger.
TRIG?
> 0
2
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Chapter 2 SCPI Device Message Details
:TRIGger[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF|FRAMe
Trigger Source
Function
This command selects the trigger source.
Command
:TRIGger[:SEQuence]:SOURce <source>
Parameter
<source>
[MS269xA] EXTernal[1]
IMMediate
WIF|RFBurst
VIDeo
SG
BBIF
[MS2830A], [MS2840A]
EXTernal[1]
IMMediate
WIF|RFBurst
VIDeo
SG
FRAMe
Trigger signal source
External input (External)
Free run
Wideband IF detection (Wide IF Video)
Video detection (Video) (Default value)
SG Marker
Baseband Interface (BBIF)
External input (Default)
Free run
Wideband IF detection (Wide IF Video)
Video detection (Video)
SG Marker (SG Marker)
Frame period trigger
Details
Example of Use
[MS269xA] SG marker trigger can be selected only when the Option 020/120 vector signal generator is installed. BBIF trigger cannot be selected only when the Option 040/140 Baseband Interface Unit is not installed or the software package is Ver.6.00.00 or later.
Settings for External, Video, Wide IF Video, and SG Marker cannot be performed when Terminal is set to DigRF 3G (only for MS269x
Series).
[MS2830A], [MS2840A]
SG marker trigger can be selected only when the Option
020/120/021/121 Vector Signal Generator is installed.
[Common] Changing the trigger source sets trigger switch to ON.
This command is not available while the Replay function is being executed.
To set the trigger signal source to video trigger.
TRIG:SOUR VID
2-62
2.3 Trigger Settings
Related Command
This command has the same function as the following commands.
:TRIGger:ACPower[:SEQuence]:SOURce
:TRIGger:CHPower[:SEQuence]:SOURce
:TRIGger:OBWidth[:SEQuence]:SOURce
:TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
:TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
:TRIGger[:SEQuence]:SOURce?
Trigger Source Query
Function
This command queries the trigger source type.
Query
:TRIGger[:SEQuence]:SOURce?
Response
<source>
Parameter
Example of Use
[MS269xA]
<source>
EXT
IMM
WIF
VID
SG
BBIF
[MS2830A], [MS2840A]
EXT
IMM
WIF
VID
SG
FRAM
Trigger signal source type
External input (External)
Free run
Wideband IF detection (Wide IF Video)
Video detection (Video) (Default value)
SG Marker
Baseband Interface (BBIF)
External input (Default)
Free run
Wideband IF detection (Wide IF Video)
Video detection (Video)
SG Marker (SG Marker)
Frame period trigger
To query the trigger signal source.
TRIG:SOUR?
> VID
Related Command
This command has the same function as the following commands.
:TRIGger:ACPower[:SEQuence]:SOURce?
:TRIGger:CHPower[:SEQuence]:SOURce?
:TRIGger:OBWidth[:SEQuence]:SOURce?
:TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
:TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
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:TRIGger[:SEQuence]:SLOPe POSitive|NEGative
Trigger Slope
Function
This command sets the trigger detection mode (rising/falling).
Command
:TRIGger[:SEQuence]:SLOPe <mode>
Parameter
<mode>
POSitive
NEGative
Trigger detection mode
Detects at the rising edge (Default value).
Detects at the falling edge.
Details
This command is not available while the Replay function is being executed.
Example of Use
To detect at the rising trigger.
TRIG:SLOP POS
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:VIDeo:SLOPe
:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe
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2.3 Trigger Settings
:TRIGger[:SEQuence]:SLOPe?
Trigger Slope Query
Function
This command queries the trigger detection method (rising/falling).
Query
:TRIGger[:SEQuence]:SLOPe?
Response
<mode>
Parameter
<mode>
POS
NEG
Trigger detection mode
Detects at the rising edge.
Detects at the falling edge.
Example of Use
To query the trigger detection mode.
TRIG:SLOP?
> POS
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:VIDeo:SLOPe?
:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe?
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe?
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:TRIGger[:SEQuence]:DELay <time>
Trigger Delay
Function
This command sets the delay from trigger input to start of waveform capturing.
Command
:TRIGger[:SEQuence]:DELay <time>
Parameter
<time> Delay time.
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Suffix code
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
NS, US, MS, S
S is used when omitted.
Default value 0 ns
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To set the trigger delay to 20 ms.
TRIG:DEL 20MS
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:VIDeo:DELay
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay
:TRIGger[:SEQuence]:EXTernal[1]:DELay
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2.3 Trigger Settings
:TRIGger[:SEQuence]:DELay?
Trigger Delay Query
Function
This command queries the delay from trigger input to start of waveform capturing.
Query
:TRIGger[:SEQuence]:DELay?
Response
<time>
Parameter
<time> Delay time
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Returns a value in s units without a suffix code.
Example of Use
To query the trigger delay.
TRIG:DEL?
> 0.02000000
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:VIDeo:DELay?
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay?
:TRIGger[:SEQuence]:EXTernal[1]:DELay?
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:TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic] <level>
Log Scale Video Trigger Level
Function
This command sets the threshold at the level to start the capture against the video trigger in Log scale mode.
Command
:TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic] <level>
Parameter
<level>
Range
Resolution
Suffix code
Default value
Threshold at the level to start the capture
− 150 to +50 dBm
1 dB
DBM, DM
− 40 dBm
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is selected DigRF 3G (only for MS269x Series).
Example of Use
To set the threshold of the video trigger level in Log scale mode to −10 dBm.
TRIG:VID:LEV –10
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2.3 Trigger Settings
:TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic]?
Log Scale Video Trigger Level Query
Function
This command queries the threshold at the level to start the capture against the video trigger in Log scale mode.
Query
:TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic]?
Response
<level>
Parameter
<level>
Range
Resolution
Threshold at the level to start the capture
− 150 to +50 dBm
1 dB
No suffix code. Value is returned in dBm units.
Example of Use
To query the threshold of the video trigger level in Log scale mode.
TRIG:VID:LEV?
> –10
:TRIGger[:SEQuence]:VIDeo:LEVel:LINear <level>
Linear Scale Video Trigger Level
Function
This command sets the threshold at the level to start the capture against the video trigger in Linear scale mode.
Command
:TRIGger[:SEQuence]:VIDeo:LEVel:LINear <level>
Parameter
<level>
Range
Resolution
Suffix code
Default value
Threshold at the level to start the capture
0 to 100%
1%
None
60%
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To set the threshold of the video trigger level in Linear scale mode to
50%.
TRIG:VID:LEV:LIN 50
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Chapter 2 SCPI Device Message Details
:TRIGger[:SEQuence]:VIDeo:LEVel:LINear?
Linear Scale Video Trigger Level Query
Function
This command queries the threshold at the level to start the capture against the video trigger in Linear scale mode.
Query
:TRIGger[:SEQuence]:VIDeo:LEVel:LINear?
Response
<level>
Parameter
<level> Threshold at the level to start the capture
When the trigger signal source is video detection (Video) and Lin scale:
Range
Resolution
0 to 100%
1%
No suffix code. Value is returned in % units.
Example of Use
To query the threshold of the video trigger level in Linear scale mode.
TRIG:VID:LEV:LIN?
> 50
:TRIGger[:SEQuence]:VIDeo:SLOPe POSitive|NEGative
Video Trigger Slope
Function
This command sets the detection mode of the trigger (rising/falling).
Refer to :TRIGger[:SEQuence]:SLOPe.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:SLOPe
:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe
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2.3 Trigger Settings
:TRIGger[:SEQuence]:VIDeo:SLOPe?
Video Trigger Slope Query
Function
This command sets the detection method of the trigger (rising/falling).
Refer to :TRIGger[:SEQuence]:SLOPe?.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:SLOPe?
:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe?
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe?
:TRIGger[:SEQuence]:VIDeo:DELay <time>
Video Trigger Delay
Function
This command sets the delay from trigger input to start of waveform capturing.
Refer to :TRIGger[:SEQuence]:DELay.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:DELay
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay
:TRIGger[:SEQuence]:EXTernal[1]:DELay
:TRIGger[:SEQuence]:VIDeo:DELay?
Video Trigger Delay Query
Function
This command queries the delay from trigger input to start of waveform capturing.
Refer to :TRIGger[:SEQuence]:DELay?.
2
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:DELay?
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay?
:TRIGger[:SEQuence]:EXTernal[1]:DELay?
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:TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute <ampl>
Wide IF Trigger Level
Function
This command sets the threshold at the level to start the capture against the Wide IF Video trigger.
Command
:TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute <ampl>
Parameter
<level>
Range
Resolution
Default value
Threshold at the level to start the capture
− 60 to 50 dBm
1 dB
− 20 dBm
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To set the threshold of the Wide IF Video trigger level to 10 dBm.
TRIG:WIF:LEV:ABS 10
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2.3 Trigger Settings
:TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute?
Wide IF Trigger Level Query
Function
This command queries the threshold at the level to start the capture against the Wide IF Video trigger.
Query
:TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute?
Response
<level>
Parameter
<level>
Range
Resolution
Threshold at the level to start the capture
− 60 to 50 dBm
1 dB
No suffix code. Value is returned in dBm units.
Example of Use
To query the threshold of the Wide IF Video trigger level.
TRIG:WIF:LEV:ABS?
> 10
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:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe POSitive|NEGative
Wide IF Trigger Slope
Function
This command sets the trigger detection mode (rising/falling).
Refer to :TRIGger[:SEQuence]:SLOPe.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:SLOPe
:TRIGger[:SEQuence]:VIDeo:SLOPe
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe
:TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe?
Wide IF Trigger Slope Query
Function
This command queries the trigger detection mode (rising/falling).
Refer to :TRIGger[:SEQuence]:SLOPe?.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:SLOPe?
:TRIGger[:SEQuence]:VIDeo:SLOPe?
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe?
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay <time>
Wide IF Trigger Delay
Function
This command sets the delay from trigger input to start of waveform capturing.
Refer to :TRIGger[:SEQuence]:DELay.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:DELay
:TRIGger[:SEQuence]:VIDeo:DELay
:TRIGger[:SEQuence]:EXTernal[1]:DELay
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2.3 Trigger Settings
:TRIGger[:SEQuence]:WIF|:RFBurst:DELay?
Wide IF Trigger Delay Query
Function
This command queries the delay from trigger input to start of waveform capturing.
Refer to :TRIGger[:SEQuence]:DELay?.
Related Command
:TRIGger[:SEQuence]:EXTernal[1]:DELay?
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe POSitive|NEGative
External Trigger Slope
This command has the same function as the following commands.
:TRIGger[:SEQuence]:DELay?
:TRIGger[:SEQuence]:VIDeo:DELay?
Function
This command sets the trigger detection mode (rising/falling).
Refer to :TRIGger[:SEQuence]:SLOPe.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:SLOPe
:TRIGger[:SEQuence]:VIDeo:SLOPe
:TRIGger[:SEQuence]:WIF|RFBurst:SLOPe
:TRIGger[:SEQuence]:EXTernal[1]:SLOPe?
External Trigger Slope Query
Function
This command queries the trigger detection method.
Refer to :TRIGger[:SEQuence]:SLOPe?.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:SLOPe?
:TRIGger[:SEQuence]:VIDeo:SLOPe?
:TRIGger[:SEQuence]:WIF|RFBurst:SLOPe?
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:TRIGger[:SEQuence]:EXTernal[1]:DELay <time>
External Trigger Delay
Function
This command sets the delay from trigger input to start of waveform capturing.
Refer to :TRIGger[:SEQuence]:DELay.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:DELay
:TRIGger[:SEQuence]:VIDeo:DELay
:TRIGger[:SEQuence]:WIF|RFBurst:DELay
:TRIGger[:SEQuence]:EXTernal[1]:DELay?
External Trigger Delay Query
Function
This command queries the delay from trigger input to start of waveform capturing.
Refer to :TRIGger[:SEQuence]:DELay?.
Related Command
This command has the same function as the following commands.
:TRIGger[:SEQuence]:DELay?
:TRIGger[:SEQuence]:VIDeo:DELay?
:TRIGger[:SEQuence]:WIF|RFBurst:DELay?
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2.3 Trigger Settings
:TRIGger[:SEQuence]:HOLDoff <time>
Trigger Hold
Function
This command sets the fixed amount of time trigger input is disabled between the first trigger input and the next trigger input.
Command
:TRIGger[:SEQuence]:HOLDoff <time>
Parameter
<time>
Range
Resolution
Suffix code
Default
Specified time
0 to 1 s
10 ns
NS, US, MS, S
S is used when the suffix code is omitted.
100 µs
Details
This command is not available for MS269x Series.
When this function is used to change a value, the Trigger Hold (ON/OFF) function is set to ON.
This command is not available for video trigger.
Example of Use
To set the amount of time trigger input is disabled to 100 ms.
TRIG:HOLD 100ms
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:TRIGger[:SEQuence]:HOLDoff?
Trigger Hold Query
Function
This command queries the fixed amount of time trigger input is disabled between the first trigger input and the next trigger input.
Query
TRIGger[:SEQuence]:HOLDoff?
Response
<time>
Parameter
<time>
Range
Resolution
Suffix code
Default
Specified time
0 to 1 s
10 ns
None. Value is returned in s units.
100 µ s
Details
This command is not available for MS269x Series.
Example of Use
To query the amount of time trigger input is disabled.
TRIG:HOLD?
> 0.02000000
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2.3 Trigger Settings
:TRIGger[:SEQuence]:HOLDoff:STATe OFF|ON|0|1
Trigger Hold On/Off
Function
This command sets the function for disabling trigger input between the first trigger input and the next trigger input for a fixed amount of time to
On or Off.
Command
:TRIGger[:SEQuence]:HOLDoff:STATe <switch>
Parameter
<switch>
ON|1
OFF|0
Trigger Hold On/Off
Trigger Hold is On.
Trigger Hold is Off.
Details
This command is not available for MS269x Series.
When this function is set to On, the Trigger (On/Off) function is automatically set to On.
This command is not available for video trigger.
Example of Use
To set the setting for disabling trigger input for a fixed amount of time to
On.
TRIG:HOLD:STAT ON
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:TRIGger[:SEQuence]:HOLDoff:STATe?
Trigger Hold On/Off Query
Function
This command queries whether the function for disabling trigger input between the first trigger input and the next trigger input for a fixed amount of time is On or Off.
Query
:TRIGger[:SEQuence]:HOLDoff:STATe?
Response
<switch>
Parameter
<switch>
1
0
Trigger Hold On/Off
Trigger Hold is On.
Trigger Hold is Off.
Details
This command is not available for MS269x Series.
Example of Use
To query the setting for disabling trigger input for a fixed amount of time.
:TRIG:HOLD:STAT?
> 1
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2.3 Trigger Settings
:TRIGger[:SEQuence]:FRAMe:PERiod <time>
Frame Trigger Period
Function
This command sets the period for frame trigger generation.
Command
:TRIGger[:SEQuence]:FRAMe:PERiod <time>
Parameter
<time>
Range
Resolution
Suffix code
Default
Frame trigger
1 µs to 1 s
10 ns
NS,US,MS,S
S is used when the suffix code is omitted.
10 ms
Details
This command is not available for MS269x Series.
Example of Use
To set the frame trigger period to 10 ms.
TRIG:FRAM:PER 10MS
:TRIGger[:SEQuence]:FRAMe:PERiod?
Frame Trigger Period Query
Function
This command queries the period for frame trigger generation.
Query
:TRIGger[:SEQuence]:FRAMe:PERiod?
Response
<time>
Parameter
<time>
Range
Resolution
Suffix code
Delay time until the gate starts
1 µs to 1 s
10 ns
None. Value is returned in s units.
Details
This command is not available for MS269x Series.
Example of Use
To query the frame trigger period.
TRIG:FRAM:PER?
> 0.02000000
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:TRIGger[:SEQuence]:FRAMe:SYNC
EXTernal[1]|IMMediate|Off|WIF|RFBurst
Frame Sync Source
Function
This command selects the synchronization signal source for starting a frame trigger.
Command
:TRIGger[:SEQuence]:FRAMe:SYNC <sync>
Parameter
<sync>
WIF|RFBurst
Sync signal source
EXTernal[1] External input (Default)
IMMediate|Off Free run
Wideband IF detection (Wide IF Video)
Details
This command is not available for MS269x Series.
Example of Use
To set the frame-trigger synchronization source to the Wide IF Video trigger.
TRIG:FRAM:SYNC WIF
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2.3 Trigger Settings
:TRIGger[:SEQuence]:FRAMe:SYNC?
Frame Sync Source Query
Function
This command queries the synchronization signal source for starting a frame trigger.
Query
:TRIGger[:SEQuence]:FRAMe:SYNC?
Response
<sync>
Parameter
<sync>
EXT
IMM
WIF
Sync signal source
External input (Default)
Free run
Wideband IF detection (Wide IF Video)
Details
This command is not available for MS269x Series.
Example of Use
To query the frame-trigger synchronization source.
TRIG:FRAM:SYNC?
> WIF
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:TRIGger[:SEQuence]:FRAMe:OFFSet <time>
Frame Sync Offset
Function
This command sets the offset time between when the signal source for generating a frame trigger is input and when the frame trigger is generated.
Command
:TRIGger[:SEQuence]:FRAMe:OFFSet <time>
Parameter
<time>
Range
Resolution
Suffix code
Default
Specified time
0 to 1 s
10 ns
NS, US, MS, S
S is used when the suffix code is omitted.
0 s
Details
This command is not available for MS269x Series.
Example of Use
To set the offset time for generating a frame trigger to 100 ms.
TRIG:FRAM:OFFS 100ms
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2.3 Trigger Settings
:TRIGger[:SEQuence]:FRAMe:OFFSet?
Frame Sync Offset Query
Function
This command queries the offset time between when the signal source for generating a frame trigger is input and when the frame trigger is generated.
Query
:TRIGger[:SEQuence]:FRAMe:OFFSet?
2
Response
<time>
Parameter
<time>
Range
Resolution
Suffix code
Offset time
0 to 1 s
10 ns
None. Value is returned in s units.
Example of Use
To query the offset time for generating a frame trigger.
TRIG:FRAM:OFFS?
> 0.02000000
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Chapter 2 SCPI Device Message Details
2.4 Capture Setting
Table 2.4-1 lists device messages for setting capture.
Function
Continuous
Measurement
Single
Measurement
Initiate
Time Range
Start Time
Start Sample
Time Length
Sample Length
Save Captured
Data
Cancel Execute
Save Captured
Data
Output Rate for
Save Captured
Data
Table 2.4-1 Device messages for setting capture
Device Message
:INITiate:CONTinuous OFF|ON|0|1
:INITiate:CONTinuous?
:INITiate:MODE:CONTinuous
:INITiate:MODE:SINGle
:INITiate[:IMMediate]
:MMEMory:STORe:IQData:MODE FULL|ATIMe|MANual
:MMEMory:STORe:IQData:MODE?
:MMEMory:STORe:IQData:STARt <time>
:MMEMory:STORe:IQData:STARt?
:MMEMory:STORe:IQData:STARt:SAMPle <sample>
:MMEMory:STORe:IQData:STARt:SAMPle?
:MMEMory:STORe:IQData:LENGth <time>
:MMEMory:STORe:IQData:LENGth?
:MMEMory:STORe:IQData:LENGth?
:MMEMory:STORe:IQData:LENGth:SAMPle <sample>
:MMEMory:STORe:IQData <filename>,<device>
:MMEMory:STORe:IQData:CANCel
:MMEMory:STORe:IQData:RATE <freq>
:MMEMory:STORe:IQData:RATE?
Save Wave Data
Sweep Time
Auto/Manual
Sweep Time
:MMEMory:STORe:TRACe TRACe1|ALL[,<filename>[,<device>]]
[:SENSe]:SWEep:TIME:AUTO ON|OFF|1|0
[:SENSe]:SWEep:TIME:AUTO?
[:SENSe]:SWEep:TIME <time>
[:SENSe]:SWEep:TIME?
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2.4 Capture Setting
:INITiate:CONTinuous OFF|ON|0|1
Continuous Measurement
Function
This command switches the capture mode between Single and
Continuous.
Command
:INITiate:CONTinuous <switch>
Parameter
<switch>
0|OFF
1|ON
Capture mode
Single measurement
Continuous measurement (Default value)
Details
This command is set to Continuous and starts the capture, when it is set to On.
This command is set to Single and does not start the capture, when it is set to Off.
This command is not available while the Replay function is being executed.
Example of Use
To execute Continuous measurement.
INIT:CONT ON
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:INITiate:CONTinuous?
Continuous Measurement Query
Function
This command queries the capture mode.
Query
:INITiate:CONTinuous?
Response
<switch>
Parameter
<switch>
0
1
Capture mode
Single measurement
Continuous measurement
Example of Use
To query the capture mode.
INIT:CONT?
> 0
:INITiate:MODE:SINGle
Single Measurement
Function
This command starts the single measurement.
Command
:INITiate:MODE:SINGle
Details
For querying the measurement value, such as a marker value, after this command has been executed, use *WAI commands to perform synchronized control.
This command is not available while the Replay function is being executed.
Example of Use
To execute the single measurement and query the results.
INIT:MODE:SING
*WAI
CALC:MARK:Y?
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2.4 Capture Setting
:INITiate:MODE:CONTinuous
Continuous Measurement
Function
This command starts continuous measurement.
Command
:INITiate:MODE:CONTinuous
Details
Note that this command does not support synchronized control in
Continuous mode.
This command is not available while the Replay function is being executed.
Example of Use
To execute continuous measurement.
INIT:MODE:CONT
:INITiate[:IMMediate]
Initiate
Function
This command starts a measurement in the presently set capture mode.
Command
:INITiate:[IMMediate]
Details
For querying the measurement value, such as a marker value, after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
This command is not available while the Replay function is being executed.
Example of Use
To start a measurement in the presently set capture mode and query the results.
INIT
*WAI
CALC:MARK:Y?
2
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:MMEMory:STORe:IQData:MODE FULL|ATIMe|MANual
Time Range
Function
This command sets the range of IQ data to be saved when executing Save
Captured Data.
Command
:MMEMory:STORe:IQData:MODE <mode>
Parameter
<mode>
FULL
ATIMe
MANual
Range over which IQ data is saved.
Full range (Default)
Range set in Analysis Time.
User-specified range
Details
ATIMe and MANual cannot be set when Terminal is set to RF and when
Capture Time Length is set to 0 s. Also, ATIMe cannot be set when
Analysis Time Length is set to 0.
ATIMe and MANual cannot be set when Terminal is set to DigRF and when Capture Sample Length is set to 0 s. Furthermore, ATIMe cannot be set when Analysis Sample Length is set to 0.
Example of Use
To set the range to FULL, in order to save IQ data over the full range.
MMEM:STOR:IQD:MODE FULL
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2.4 Capture Setting
:MMEMory:STORe:IQData:MODE?
Time Range Query
Function
This command queries the set range of IQ data to be saved when executing Save Captured Data.
Query
:MMEMory:STORe:IQData:MODE?
Response
<mode>
Parameter
<mode>
FULL
ATIM
MAN
Range over which IQ data is saved.
Full range
Range set in Analysis Time.
User-specified range
2
Example of Use
To query the range over which IQ data is saved.
MMEM:STOR:IQD:MODE?
> FULL
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:MMEMory:STORe:IQData:STARt <time>
Start Time
Function
This command sets the start position of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
:MMEMory:STORe:IQData:STARt <time>
Parameter
<time> Start position
(When the Replay function is not executed)
Range 0 to Capture Time Length – Time Length
Resolution
Default value
Time Resolution
0
(When the Replay function is executed)
Range Start time of analyzable IQ data
Resolution
Suffix code
Time Resolution
NS,US,MS,S
S is used when omitted.
Details
This command is not available in the following cases:
● When Time Range is set to FULL or ATIMe.
● When Time Range is set to Manual and when Time Length is set to the upper limit.
● When Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To set the start time to 12 ms.
MMEM:STOR:IQD:STAR 12MS
2-92
2.4 Capture Setting
:MMEMory:STORe:IQData:STARt?
Start Time Query
Function
This command queries the start position IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Query
:MMEMory:STORe:IQData:STARt?
Response
<time>
Parameter
<time> Start position
(When the Replay function is not executed)
Range
Resolution
0 to Capture Time Length – Time Length
Time Resolution
–999999999999 is returned when no measurement is performed or an error occurs.
(When the Replay function is executed)
Range Start time of analyzable IQ data
Resolution Time Resolution
No suffix code. Value is returned in S units.
–999999999999 is returned when no measurement is performed or an error occurs.
Example of Use
To query the start time.
MMEM:STOR:IQD:STAR?
> 0.01200000
2
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Chapter 2 SCPI Device Message Details
:MMEMory:STORe:IQData:STARt:SAMPle <sample>
Start Sample
Function
This command uses the number of samples to set the start position of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
:MMEMory:STORe:IQData:STARt:SAMPle <sample>
Parameter
<sample>
Range
Resolution
Default value
Suffix code
Start position
0 to Capture Sample Length – Sample Length
Time Resolution
0
None
Details
This command is not available in the following cases:
● When Time Range is set to FULL or ATIMe.
● When Time Range is set to Manual and when Time Length is set to the upper limit.
● When Terminal is RF.
Example of Use
To set the start time to 15360000 sample.
MMEM:STOR:IQD:STAR:SAMP 15360000
2-94
2.4 Capture Setting
:MMEMory:STORe:IQData:STARt:SAMPle?
Start Sample Query
Function
This command uses the number of samples to query the start position of
IQ data to be saved when executing Save Captured Data with Time
Range set to MANual.
Query
:MMEMory:STORe:IQData:STARt:SAMPle?
Response
<sample>
Parameter
<sample>
Range
Resolution
Suffix code
Start position
0 to Capture Sample Length – Sample Length
Time Resolution
None
− 999999999999 is returned when no measurement is performed or an error occurs.
Example of Use
To query the start time.
MMEM:STOR:IQD:STAR:SAMP?
> 15360000
2
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Chapter 2 SCPI Device Message Details
:MMEMory:STORe:IQData:LENGth <time>
Time Length
Function
This command sets the time length of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
:MMEMory:STORe:IQData:LENGth <time>
Parameter
<time>
Range
Resolution
Default value
Suffix code
Time length
Time Resolution to Capture Time Length – Start
Time
Time Resolution
Capture Time Length − Start Time
NS,US,MS,S
S is used when omitted.
Details
This command is not available in the following cases:
● When Time Range is set to FULL or ATIMe.
● When Time Range is set to Manual and when Start Time is set to the upper limit value.
● When Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To set the time length to 12 ms.
MMEM:STOR:IQD:LENG 12MS
2-96
2.4 Capture Setting
:MMEMory:STORe:IQData:LENGth?
Time Length Query
Function
This command queries the time length of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Query
:MMEMory:STORe:IQData:LENGth?
Response
<time>
Parameter
<time>
Range
Resolution
Start Time
Time Resolution
No suffix code. Value is returned in S units.
–999999999999 is returned when no measurement is performed or an error occurs.
Time length
Time Resolution to Capture Time Length –
2
Example of Use
To query the time length.
MMEM:STOR:IQD:LENG?
> 0.01200000
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Chapter 2 SCPI Device Message Details
:MMEMory:STORe:IQData:LENGth:SAMPle <sample>
Sample Length
Function
This command sets the sample length of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
:MMEMory:STORe:IQData:LENGth:SAMPle <sample>
Parameter
<sample>
Range
Resolution
Default value
Sample length
Time Resolution to Capture Time Length – Start
Time
Time Resolution
Capture Sample Length – Start Sample
Details
This command is not available in the following cases:
● When Time Range is set to FULL or ATIMe.
● When Time Range is set to Manual and when Start Time is set to the upper limit.
● When Terminal is RF.
Example of Use
To set the sample length to 15360000.
MMEM:STOR:IQD:LENG:SAMP 15360000
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2.4 Capture Setting
:MMEMory:STORe:IQData:LENGth:SAMPle?
Sample Length Query
Function
This command queries the sample length of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Query
:MMEMory:STORe:IQData:LENGth:SAMPle?
Response
<sample>
Parameter
<sample>
Range
Sample length
Time Resolution to Capture Time Length – Start
Time
Resolution Time Resolution
–999999999999 is returned when no measurement is performed or an error occurs.
2
Example of Use
To query the sample length.
MMEM:STOR:IQD:LENG:SAMP?
> 15360000
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Chapter 2 SCPI Device Message Details
:MMEMory:STORe:IQData <filename>,<device>
Save Captured Data
Function
This command saves the captured waveform data into a file.
Command
:MMEMory:STORe:IQData <filename>,<device>
Parameter
<filename>
<device>
File name to be saved
Specifies any character string enclosed by double quotation marks or single quotation marks.
Drive name to be saved
Drive name, such as A, B, D and E.
Details
This function can be executed when a waveform is captured in the following cases:
● Measurement started by Single Measurement (SNGLS command) is completed.
● Storage Mode is set to OFF.
This function results in an error if a parameter requires re-capturing of waveform after execution of waveform capturing.
Files are saved in the following directory of the specified drive.
\Anritsu Corporation\Signal Analyzer\User Data\Digitized
Data\Signal Analyzer
Up to 1000 files can be saved in the folder.
Example of Use
To save a waveform data file “DATA” into drive D:
MMEM:STOR:IQD “DATA”,D
:MMEMory:STORe:IQData:CANCel
Cancel Execute Save Captured Data
Function
This command stops saving waveform data into a file.
Command
:MMEMory:STORe:IQData:CANCel
Example of Use
To stop saving waveform data into a file.
MMEM:STOR:IQD:CANC
2-100
2.4 Capture Setting
:MMEMory:STORe:IQData:RATE <freq>
Output Rate for Save Captured Data
Function
This command sets the output rate when executing Save Captured Data.
Command
:MMEMory:STORe:IQData:RATE <freq>
Parameter
<freq>
Range
Resolution
Suffix code
Output rate
Refer to the table below.
Same as above.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Frequency span
[Hz]
1000 *2
2500 *2
5000 *2
10000 *2
25000 *2
50000 *2
100000 *2
250000 *2
500000 *2
1000000 *2
2500000 *2
5000000 *2
10000000 *2
25000000 *1
31250000 *1
50000000 *
3
62500000 *
4
100000000 *
5
125000000 *
5
1000
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
20000000
20000000
50000000
50000000
100000000
100000000
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
20000000
50000000
50000000
100000000
100000000
200000000
200000000
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
20000000
50000000
50000000
100000000
100000000
200000000
200000000
Resolution
[Hz]
100
100
1000
1000
1000
1000
10000
1000
10000
10000
1
1
1
1
1
10
10
10
100
For 2690A/91A/92A:
*1, *2 : This can be set regardless of option configurations.
*3 : This can be set when the Option 004/104 (Wideband Analysis
Hardware) or Option 077/177 (Analysis Bandwidth Extension to
32.5 MHz) is installed.
*4: This can be set when the Option 077/177 (Analysis Bandwidth
Extension to 62.5 MHz) is installed.
2
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Chapter 2 SCPI Device Message Details
*5: This can be set when the Option 004/104 (Wideband Analysis
Hardware) or Option 077/177 (Analysis Bandwidth Extension to
125 MHz) is installed.
For MS2830A, MS2840A:
*1: This can be set when the MS2830A-005/105/007/009/109,
MS2840A-005/105/009/109 (Analysis Bandwidth Extension to
31.25 MHz) is installed.
*2: This can be set when the Option 006/106 (Analysis Bandwidth 10
MHz) is installed.
*3, *4: This can be set when the MS2830A-077, MS2840A-077/177
(Analysis Bandwidth Extension to 62.5 MHz) is installed.
*5: This can be set when the MS2830A-078, MS2840A-078/178
(Analysis Bandwidth Extension to 125 MHz) is installed.
Details
Example of Use
The default value is returned if the frequency span is changed.
The setting range is limited by the Frequency Span setting.
The setting is enabled when Capture Time is set to Manual.
This command is not available in the following case:
● When Terminal is set for DigRF 3G (only for MS269x Series).
To set the output rate to 30 MHz.
MMEMO:STOR:IQD:RATE 30MHZ
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2.4 Capture Setting
:MMEMory:STORe:IQData:RATE?
Output Rate for Save Captured Data
Function
This command queries the output rate when executing Save Captured
Data.
Query
:MMEMory:STORe:IQData:RATE?
Response
<freq>
Parameter
<freq>
Range
Resolution
Output rate
Refer to the table below.
Refer to the table below.
No suffix code. Value is returned in Hz units.
Frequency span
[Hz]
1000 *2
2500 *2
5000 *2
10000 *2
25000 *2
50000 *2
100000 *2
250000 *2
500000 *2
1000000 *2
2500000 *2
5000000 *2
10000000 *2
25000000 *1
31250000 *1
50000000 *
3
62500000 *
4
100000000 *
5
125000000 *
5
1000
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
20000000
20000000
50000000
50000000
100000000
100000000
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
20000000
50000000
50000000
100000000
100000000
200000000
200000000
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
20000000
50000000
50000000
100000000
100000000
200000000
200000000
100
100
1000
1000
1000
1000
10000
1000
10000
10000
1
10
10
10
100
1
1
1
1
Resolution
[Hz]
For 2690A/91A/92A:
*1, *2: This can be set regardless of option configurations.
*3 : This can be set when the Option 004/104 (Wideband Analysis
Hardware) or Option 077/177 (Analysis Bandwidth Extension to
62.5 MHz) is installed.
*4: This can be set when the Option 077/177 (Analysis Bandwidth
Extension to 62.5 MHz) is installed.
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Chapter 2 SCPI Device Message Details
*5: This can be set when the Option 004/104 (Wideband Analysis
Hardware) or Option 078/178 (Analysis Bandwidth Extension to
125 MHz) is installed.
For MS2830A. MS2840A:
*1: This can be set when the MS2830A-005/105/007/009/109
MS2840A-005/105/009/109 (Analysis Bandwidth Extension to
31.25 MHz) is installed.
*2: This can be set when the Option 006/106 (Analysis Bandwidth 10
MHz) is installed.
*3, *4: This can be set when the MS2830A-077, MS2840A-077/177
(Analysis Bandwidth Extension 62.5 to MHz) is installed.
*5: This can be set when the MS2830A-078, MS2840A-078/178
(Analysis Bandwidth Extension to 125 MHz) is installed.
Details
Example of Use
The default value is returned if the frequency span is changed.
The setting range is limited by the Frequency Span setting.
The setting is enabled when Capture Time is set to Manual.
To query the output rate.
MMEMO:STOR:IQD:RATE?
> 30000000
2-104
2.4 Capture Setting
:MMEMory:STORe:TRACe TRACe1|ALL[,<filename>[,<device>]]
Save Wave Data
Function
This command saves the waveform data in .csv file.
Command
:MMEMory:STORe:TRACe <trace>[,<filename>[,<device>]]
Parameter
<trace>
TRACe1
ALL
<filename>
<device>
Trace to save
Trace currently displayed
Trace currently displayed
Name of the file to be saved.
Character string within 32 characters enclosed by double quotes (“ ”) or single quotes (‘ ’)
(excluding extension)
The following characters cannot be used:
\ / : * ? “ ” ‘ ’ < > |
Automatically named as “WaveData date sequential number.csv” when omitted.
Drive name
A,B,D,E,F,...
D drive is used when omitted.
2
Details
This function is available when the waveform is captured under the following conditions:
● Measurement performed using Single Measurement has finished.
When the file name is omitted, consecutive numbers from 0 to 99 are added to files. No more files can be saved if numbers up to 99 are already used.
Files are saved to the following directory in the specified drive.
\Anritsu Corporation\Signal Analyzer\User Data\Trace Data\Signal
Analyzer
Up to 100 files can be saved in a folder.
Example of Use
To save the trace waveform-data file "trace" to the E drive.
MMEM:STOR:TRAC TRAC1,“trace”,E
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Chapter 2 SCPI Device Message Details
[:SENSe]:SWEep:TIME:AUTO ON|OFF|1|0
Capture Time Auto/Manual
Function
This command selects auto or manual setting for waveform capture time
(Capture Time).
Command
[:SENSe]:SWEep:TIME:AUTO <switch>
Parameter
<switch>
ON|1
OFF|0
Auto/manual mode for capture time
Auto
Manual
Details
The minimum waveform capture time (Capture Time) required for measurement is set, when set to Auto.
This command is not available while the Replay function is being executed.
Example of Use
To set the waveform capture time automatically.
SWE:TIME:AUTO ON
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:SWEep:TIME:AUTO
[:SENSe]:CHPower:SWEep:TIME:AUTO
[:SENSe]:OBWidth:SWEep:TIME:AUTO
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2.4 Capture Setting
[:SENSe]:SWEep:TIME:AUTO?
Capture Time Auto/Manual Query
Function
This command queries Auto/Manual setting of waveform capture time
(Capture Time).
Query
[:SENSe]:SWEep:TIME:AUTO?
Response
<switch>
Parameter
<switch>
1
0
Auto/manual setting of capture time
Automatic
Manual
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:SWEep:TIME:AUTO?
[:SENSe]:CHPower:SWEep:TIME:AUTO?
[:SENSe]:OBWidth:SWEep:TIME:AUTO?
Details
The minimum waveform capture time (Capture Time) required for measurement is set, when set to Auto.
Example of Use
To query the setting of the waveform capture time.
SWE:TIME:AUTO?
> 1
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:SWEep:TIME <time>
Capture Time Length
Function
This command sets waveform capture time.
Command
[:SENSe]:SWEep:TIME <time>
Parameter
<time> Capture time
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for
Suffix code details.
NS, US, MS, S
S is used when omitted.
Details
The shortest capture time length will be set if automatic setting is enabled.
The automatic mode is switched to the manual mode when the capture time is set.
The setting range and resolution are limited by the Frequency Span setting.
This command is not available in the following cases:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
● While the Replay function is being executed.
Example of Use
To set waveform capture time to 2 seconds:
SWE:TIME 2
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:SWEep:TIME
[:SENSe]:CHPower:SWEep:TIME
[:SENSe]:OBWidth:SWEep:TIME
[:SENSe]:BPOWer|:TXPower:SWEep:TIME
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2.4 Capture Setting
[:SENSe]:SWEep:TIME?
Capture Time Length Query
Function
This command queries the waveform capture time.
Query
[:SENSe]:SWEep:TIME?
Response
<time>
Parameter
<time> Capture time
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
No suffix code. Value is returned in S units.
2
Details
The capture time length with which the capture time is the shortest will be set when automatic setting is enabled.
The setting method is switched to the manual setting when capture time is set.
The setting range and resolution are limited by the Frequency Span setting.
Example of Use
To query the waveform capture time.
SWE:TIME?
> 2.00000000
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:SWEep:TIME?
[:SENSe]:CHPower:SWEep:TIME?
[:SENSe]:OBWidth:SWEep:TIME?
[:SENSe]:BPOWer|:TXPower:SWEep:TIME?
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Chapter 2 SCPI Device Message Details
2.5 Marker Settings
Table 2.5-1 lists device messages for setting a marker.
Function
All Marker Off
Marker Query
Marker Phase
Query
Calculate Phase
Spectrum
Marker to Center
Frequency
Marker to
Reference Level
Zoom
Zoom Out
Marker State
Active Marker
Marker Result
Marker Frequency
Marker Width
Display Peak to
Peak Value On/Off
Peak to Peak Value
Query
Table 2.5-1 Device messages for setting marker
Device Message
:CALCulate:MARKer:AOFF
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y:DELTa?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y:PHASe?
:CALCulate:PHASe:STATe ON|OFF|1|0
:CALCulate:PHASe:STATe?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:SET]:CENTer
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:SET]:RLEVel
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ZOOM
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ZOUT
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:STATe ON|OFF|1|0
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:STATe?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ACTive OFF|ON|0|1
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ACTive?
:CALCulate:MARKer:RESult
INTegration|TOTal|DENSity|AVERage|PEAK|PACCuracy
:CALCulate:MARKer:RESult?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X
<freq>|<time>|<sample>|<dist>
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X:DELTa <freq>
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X:DELTa?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:PEAK:X?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh <freq>
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh?
:CALCulate:MARKer:PTPeak[:STATe] ON|OFF|1|0
:CALCulate:MARKer:PTPeak[:STATe]?
:CALCulate:MARKer:PTPeak:RESult?
2-110
Function
Marker Mode
Relative To
Marker List
Spot Line
Couple Zone
Zone Width Type
2.5 Marker Settings
Table 2.5-1 Device messages for setting marker(Cont’d)
Device Message
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
POSitive|NORMal|DELTa|FIXed|OFF
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
:CALCulate:MARKer:TABLe[:STATe] OFF|ON|0|1
:CALCulate:MARKer:TABLe[:STATe]?
:CALCulate:MARKer:SLINe[:STATe] OFF|ON|0|1
:CALCulate:MARKer:SLINe[:STATe]?
:CALCulate:MARKer:COUPle:ZONE[:STATe] OFF|ON|0|1
:CALCulate:MARKer:COUPle:ZONE[:STATe] ?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh:TYPE ZONE|SPOT
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh:TYPE?
2
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer:AOFF
All Marker Off
Function
This command sets all markers to Off.
Command
:CALCulate:MARKer:AOFF
Example of Use
To set all markers to Off.
CALC:MARK:AOFF
Related Command
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer:AOFF
:CALCulate:CHPower:MARKer:AOFF
:CALCulate:OBWidth:MARKer:AOFF
:CALCulate:BPOWer|:TXPower:MARKer:AOFF
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2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?
Marker Query
Function
This command queries the marker value at the marker point of the main trace.
Query
:CALCulate:MARKer[n][:PEAK]:Y?
Response
<power>
(Spectrum, Power vs Time, Spectrogram trace)
<freq>
<degree>
(Frequency vs Time trace)
(At Phase vs Time)
<prob>
(For CCDF trace, when Marker Axis is Probability)
<prob_result>
(For CCDF trace, when Marker Axis is Distribution)
Parameter
(For Spectrum)
<n>
1
2
3
6
7
4
5
8
9
10
Marker number
Marker 1
Marker 2
Marker 3
Marker 4
Marker 5
Marker 6
Marker 7
Marker 8
Marker 9
Marker 10
When omitted: Marker 1
(At Power vs Time, Frequency vs Time, Phase vs Time, Spectrogram
<n>
1
2 trace)
Marker number
Marker 1
Marker 2
When omitted: Marker 1
(For CCDF)
<n>
1
When omitted:
Marker number
Marker set in Marker Axis (CCDF)
Marker set in Marker Axis (CCDF).
2
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Chapter 2 SCPI Device Message Details
<power> Marker value of the target marker
(When marker level display units are dB-system units)
No suffix code, in units specified by Scale Unit, 0.001 dB resolution
–999.0 is returned when no measurement is performed or an error has occurred.
(When marker level display units are V-system units)
No suffix code, V units, 0.01 pV resolution
–999.0 is returned when no measurement is performed or an error has occurred.
(When marker level display units are W-system units)
No suffix code, W units, 0.01 yW resolution
–999.0 is returned when no measurement is performed or an error has occurred.
<freq> Marker value of the target marker
No suffix code, in Hz units
–999999999999 is returned when no measurement is performed or an error has occurred.
<degree> Marker value of the target marker
No suffix code, degree units, 0.001 degree resolution
–999999999999 is returned if there is no measurement or an error.
<prob> Marker position of the target marker
Returns a value in % units without a suffix code.
–999.0 is returned when no measurement is performed or an error has occurred.
<prob_result> Marker value of the target marker
Returns a value in % units without a suffix code.
–999.0 is returned when no measurement is performed or an error has occurred.
Example of Use
Related Command
To query the level of Marker 2.
CALC:MARK2:Y?
> -20.000
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
Y?
2-114
2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y:DELTa?
Marker Query
Function
This command queries the delta marker value on the main trace.
Query
:CALCulate:MARKer[n][:PEAK]:Y:DELTa?
Response
<rel_ampl_spe>
(For Spectrum trace)
<ratio_spe>
(For Spectrum trace, when Scale Mode is Linear and Marker
Result is Peak (Fast) or Peak (Accuracy).)
<rel_ampl_pvt>
(For Power vs Time trace)
<ratio_pvt>
<freq>
(For Power vs Time trace, when Scale Mode is Linear)
<degree>
(For Frequency vs Time trace)
(At Phase vs Time)
<prob>
(When Trace Mode is set to CCDF and Marker Axis is set to
Probability. )
<prob_result_gauss>,<prob_result_ref>
(When Trace Mode is set to CCDF and Marker Axis is set to
Distribution. )
Parameter
(For Spectrum trace)
<n>
1
2
3
6
7
4
5
8
9
10
When omitted:
Marker number
Marker 1
Marker 2
Marker 3
Marker 4
Marker 5
Marker 6
Marker 7
Marker 8
Marker 9
Marker 10
Marker 1
2
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Chapter 2 SCPI Device Message Details
(At Power vs Time, Frequency vs Time, Phase vs Time trace)
<n> Marker number
1 Markers 1 and 2
When omitted: Markers 1 and 2
<rel_ampl_spe> Ratio between the marker selected by n and the marker specified by Relative To.
Returns a value in dB units without a suffix code.
–999.0 is returned when no measurement is performed or an error has occurred.
<rel_ampl_pvt>
<ratio_spe>
–999.0 is returned when Marker Mode is set to other than Delta.
Ratio between Marker 2 and Marker 1
Returns a value in dB units without a suffix code.
–999.0 is returned when no measurement is performed or an error has occurred.
Value of the marker selected by n ÷ Value of the
<ratio_pvt>
<freq>
<degree> marker specified by Relative To
–999.0 is returned when no measurement is performed or an error has occurred.
–999.0 is returned when Marker Mode is set to other than Delta.
Value of Marker 2 ÷ Value of Marker 1
–999.0 is returned when no measurement is performed or an error has occurred.
Frequency of Marker 2 − Frequency of Marker 1
No suffix code. Value is returned in Hz units.
–999999999999 is returned when no measurement is performed or an error has occurred.
Phase of Marker 2 − Phase of Marker 1
No suffix code. Value is returned in degree units.
–999999999999 is returned if there is no measurement or an error.
2-116
Details
Example of Use
2.5 Marker Settings
(CCDF)
<n>
1
When omitted
<prob>
Marker Number
Marker set in Marker Axis
Marker set in Marker Axis
(CCDF)
(CCDF)
Marker position of the target marker
No suffix code. Value is returned in % units.
–999.0 is returned at no measurement or error
<prob_result_gauss>
The difference value of the target marker and
Gaussian trace is returned.
No suffix code. Value is returned in % units.
–999.0 is returned at Gaussian trace off, no measurement, or error
<prob_result_ref> The difference value of the target marker and reference trace is returned.
No suffix code. Value is returned in % units.
–999.0 returned at reference trace off, no measurement, or error
2
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
● Phase vs Time
● CCDF
To query the delta marker value.
CALC:MARK:Y:DELT?
> 0.065
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y:PHASe?
Marker Phase Query
Function
Returns phase spectrum θ k
= arg C k
[rad] when marker position Fourier coefficient is C k
However, − π < θ k
≤ π
.
Query
:CALCulate:MARKer[n][:PEAK]:Y:PHASe?
Response
<phase>
Parameter marker
1
2
3
4
5
6
7
8
9
10
When omitted:
<phase>
Marker Number
Specifies marker 1
Specifies marker 2
Specifies marker 3
Specifies marker 4
Specifies marker 5
Specifies marker 6
Specifies marker 7
Specifies marker 8
Specifies marker 9
Specifies marker 10
Specifies marker 1
Marker position phase spectrum
No suffix code, rad units, 0.0001 rad resolution
–999.0 returned at no measurement or error
2-118
Details
Example of Use
2.5 Marker Settings
– 999.0 returned when C k
= 0
Returns phase spectrum of Zone Center position when Marker Result setting is Integration or Density
Returns phase spectrum for marker positions in zone when Marker
Result is Peak (Fast) or Peak (Accuracy) and Zone Type is Zone
This function can be used in the following cases:
● At Spectrum trace
● When Marker Mode of target markers is Normal
● When Storage Mode is Normal
● When Noise Cancel is Off
When using this function, :CALCulate:PHASe:STATe must be set to
ON. (For details, refer to:CALCulate:PHASe:STATe.)
Although multiple Fourier transformations are performed when Analysis
Time Length is longer than 0 s, the phase spectrum used for the measurement results is the one for the Fourier transform performed last in the analysis time range. For example, when Analysis Start Time is 1 s and Analysis Time Length is 3 s, the phase spectrum for the Fourier transform performed at 4 s is used for the measurement result.
2
To read phase spectrum at 6 GHz
CALC:PHAS:STAT ON
INIT:MODE:SING
CALC:MARK:X 6GHZ
*WAI
CALC:MARK:Y:PHAS?
> 1.4325
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Chapter 2 SCPI Device Message Details
:CALCulate:PHASe:STATe ON|OFF|1|0
Calculate Phase Spectrum
Function
This command sets phase spectrum calculation On and Off
Command
:CALCulate:PHASe:STATe <switch>
Parameter
<switch>
0|OFF
1|ON
Sets phase spectrum calculation On and Off
Does not execute phase spectrum calculation
(default setting)
Executes phase spectrum calculation
Details
This function does not perform phase spectrum calculation at the Off→
On switching instant. After setting to On, either execute one of the two commands below or read the phase spectrum after performing a single measurement.
:INITiate:MODE:SINGle
:INITiate:CALCulate
The phase spectrum can be read using the following command:
:CALCulate:MARKer[n][:PEAK]:Y:PHASe?
This function can be set when the Spectrum trace is active.
• Spectrum
Example of Use
To read phase spectrum at 6 GHz
CALC:PHAS:STAT ON
INIT:MODE:SING
CALC:MARK:X 6GHZ
*WAI
CALC:MARK:Y:PHAS?
> 1.4325
2-120
2.5 Marker Settings
:CALCulate:PHASe:STATe?
Calculate Phase Spectrum Query
Function
This command queries phase spectrum calculation On and Off
Query
:CALCulate:PHASe:STATe?
Response
<switch>
Parameter
<switch>
0
1
Phase spectrum calculation On and Off
Does not execute phase spectrum calculation
Executes phase spectrum calculation
Example of Use
To query phase spectrum calculation On and Off
CALC:PHAS:STAT?
> 1
2
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:SET]:CENTer
Marker to Center Frequency
Function
This command sets the marker to the center frequency.
Command
:CALCulate:MARKer[n][:SET]:CENTer
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Details
This command is available when the following trace is active:
● Spectrum
● Spectrogram(Unavailable for Marker 3 to 10).
This command is not available while the Replay function is being executed.
Example of Use
To set the marker frequency to the center frequency.
CALC:MARK:CENT
2-122
2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:SET]:RLEVel
Marker to Reference Level
Function
This command sets the marker level to the reference level.
Command
:CALCulate:MARKer[n][:SET]:RLEVel
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Details
This command is available when the following trace is active:
● Spectrum
● Spectrogram(Unavailable for Marker 3 to 10).
When Marker Result Type is Density, a value converted into Total Power is set to the reference level.
This command is not available when Marker Mode is set to Off.
Example of Use
To set the marker level to the reference level.
CALC:MARK:RLEV
2
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ZOOM
Zoom
Function
This command expands the trace in the range specified by the marker.
Command
:CALCulate:MARKer[n]:ZOOM
Parameter
(For Spectrum trace)
<n>
1
2
3
4
5
6
7
8
9
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
10
When omitted:
Marker9
Marker10
Marker1
(At Power vs Time, Frequency vs Time, Phase vs Time trace)
<n> Marker number
1 Expands between Markers 1 and 2.
When omitted: Expands between Markers 1 and 2.
2-124
Details
Example of Use
2.5 Marker Settings
This command reflects the zone range of the active marker to the display frequency range when the main trace is Spectrum. This command can be executed when the target marker is Normal or Delta.
This command reflects the time range of Marker1 and Marker2 to the analysis range when the main trace is Power vs Time, Frequency vs Time, or Phase vs Time. This command can be executed when both Markers 1 and 2 are set to On.
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
● Phase vs Time
This command is available in the following cases:
● The analysis range is minimum (Power vs Time, Frequency vs Time,
Phase vs Time).
● The display frequency range is minimum (Spectrum).
● Marker Result is Peak (Fast) or Peak (Normal), and furthermore, Zone
Width Type is Spot (Spectrum).
● Either Marker 1 or 2 is set to Off (Power vs Time, Frequency vs Time,
Phase vs Time).
● Marker Mode is set to Off or Fixed (Spectrum).
2
To expand the trace in the specified range of Marker 2.
CALC:MARK2:ZOOM
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ZOUT
Zoom Out
Function
This command compresses the display range of the horizontal axis scale to the range specified by the marker.
Command
:CALCulate:MARKer[n]:ZOUT
Parameter
(For Spectrum trace)
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
(For Power vs Time and Frequency vs Time traces)
<n> Marker number
1 Compresses between Markers 1 and 2.
When omitted: Compresses between Markers 1 and 2.
2-126
Details
Example of Use
2.5 Marker Settings
This command compresses the display frequency range to the range specified by the zone width of the active marker when the main trace is
Spectrum. This command can be executed when the target marker is
Normal or Delta.
This command compresses the analysis time range to the range between
Markers 1 and 2 when the main trace is Power vs Time or Frequency vs
Time. This command can be executed when both Markers 1 and 2 are set to On.
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
● Phase vs Time
This command is not available in the following cases:
● Marker Mode is Off or Fixed (Spectrum).
● Either Marker 1 or 2 is set to Off (Power vs Time, Frequency vs Time,
Phase vs Time).
● Marker Result is Peak (Fast), or Peak (Normal), and Zone Width Type is Spot (Spectrum).
2
To compress the display range of the horizontal scale of Marker 2 to the range specified by the marker.
CALC:MARK2:ZOUT
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:STATe ON|OFF|1|0
Marker State
Function
This command sets the main trace marker to On/Off.
Command
:CALCulate:MARKer[n]:MODE <switch>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<switch>
ON|1
OFF|0
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Marker mode
Sets the marker to Normal (Spectrum).
Sets the marker to On (excluding Spectrum).
Sets the marker to Off.
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time (Unavailable for Markers 3 to 10.)
● Frequency vs Time (Unavailable for Markers 3 to 10.)
● Phase vs Time (Unavailable for Markers 3 to 10.)
● CCDF (Unavailable for Markers 2 to 10.)
● Spectrogram (Unavailable for Marker 2 to 10).
This command sets the marker to the active marker if the marker is changed to On (or Normal) when the main trace is Spectrum, Power vs
Time, Frequency vs Time, or Phase vs Time.
For querying a marker value after this command has been executed, use
*WAI commands to perform synchronized control.
Example of Use
To set a marker value by setting Marker 2 to On.
CALC:MARK2:STAT ON
*WAI
CALC:MARK2:Y?
2-128
2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:STATe?
Marker State Query
Function
This command queries the On/Off state of the main trace marker.
Query
:CALCulate:MARKer[n]:STATe?
Response
<switch>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<switch>
1
0
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Marker mode
Marker is set to other than Off (Spectrum).
Marker is set to On (excluding Spectrum).
Marker is set to Off.
Details
When a marker is set to On while the active trace is Spectrum, Power vs
Time or Freq vs Time, the marker is set to the active marker.
Example of Use
To query the mode of Marker 2.
CALC:MARK2:STAT?
> 1
2
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ACTive OFF|ON|0|1
Active Marker
Function
This command specifies active marker of the main trace.
Command
:CALCulate:MARKer[n]:ACTive <switch>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<switch>
ON|1
OFF|0
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Active marker
Sets Marker n to active.
Sets Marker n to inactive.
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time (Unavailable for Markers 3 to 10.)
● Frequency vs Time (Unavailable for Markers 3 to 10.)
● Phase vs Time (Unavailable for Markers 3 to 10.)
● Spectrogram(Unavailable for Markers 3 to 10.)
For Spectrum trace, multiple markers cannot be set to active.
Example of Use
To set Marker 1 to the active marker.
CALC:MARK:ACT ON
2-130
2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ACTive?
Active Marker Query
Function
This command queries the active marker of the main trace.
Query
:CALCulate:MARKer[n]:ACTive?
Response
<switch>
Parameter
<n>
1
2
3
4
5
6
7
8
When omitted:
<switch>
1
0
9
10
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Active marker
Active marker is set to On.
Active marker is set to Off.
Example of Use
To query the active marker.
CALC:MARK:ACT?
> 1
2
2-131
Chapter 2 SCPI Device Message Details
:CALCulate:MARKer:RESult
INTegation|TOTal|DENSity|AVERage|PEAK|PACCuracy
Marker Result
Function
This command sets the type of the marker display value of the main trace.
Command
:CALCulate:MARKer:RESult <mode>
Parameter
<mode>
INTegration
TOTal
DENSity
AVERage
PEAK
PACCuracy
Type of marker value
Integral power in zone
Same as above
Power density in zone
Same as above
Peak level in zone
(emphasis on measurement speed)
Peak level in zone (emphasis on level accuracy)
Details
This command is available when the following trace is active:
● Spectrum
● Spectrogram
Example of Use
To set the marker display value type to the total power in zone band.
CALC:MARK:RES INT
2-132
2.5 Marker Settings
:CALCulate:MARKer:RESult?
Marker Result
Function
This command queries the type of the marker display value of the main trace.
Query
:CALCulate:MARKer:RESult?
Response
<mode>
Parameter
<mode>
INT
DENS
PEAK
PACC
Type of marker value
Total power in zone band
Power per 1 Hz in zone band
Peak power in zone
(emphasis on measurement speed)
Peak power in zone (emphasis on level accuracy)
Details
This command is available when the following traces are active:
● Spectrum
● Spectrogram
Example of Use
To query the marker display value type.
CALC:MARK:RESL?
> INT
2
2-133
Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist>
Marker Frequency
Function
This command moves the center marker to the specified frequency (time).
Command
:CALCulate:MARKer[n]:X <freq>
(Spectrum, Spectrogram trace)
:CALCulate:MARKer[n]:X <time>
(Power vs Time, Frequency vs Time, Phase vs Time trace)
:CALCulate:MARKer[n]:X <sample>
(Power vs Time, Frequency vs Time trace, also Terminal is
DigRF 3G (only for MS269x Series))
:CALCulate:MARKer[n]:X <dist>
(CCDF trace)
Parameter
(For Spectrum trace)
<n>
1
2
3
4
5
6
7
8
9
10
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
When omitted: Marker1
(For Power vs Time, Frequency vs Time, Phase vs Time, and CCDF,
<n>
1
2
Spectrogram trace)
Marker number
Marker 1 (excluding CCDF)
Horizontal-axis marker (CCDF)
Marker 2 (excluding CCDF)
Marker 2 cannot be set when the trace is CCDF.
When omitted: Marker 1 (excluding CCDF)
Horizontal-axis marker (CCDF)
2-134
Details
2.5 Marker Settings
<freq> Marker center frequency
Range/Resolution In the frequency range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Suffix code
<time>
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Marker position
Range/Resolution In the time range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Suffix code
<sample>
NS, US, MS, S
S is used when omitted.
Marker position
Range/Resolution In the time range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
<dist> Marker position
Range/Resolution In the power deviation range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Suffix code DB dB is used when omitted.
2
The target marker is set to active when the marker position is changed in Spectrum and Spectrogram. Also, it is set to Normal when Marker
Mode is set to Fixed or Off. If the marker position is changed during a
Power vs Time, Frequency vs Time, or Phase vs Time, or Spectrogram, the target marker is set to On and changed to the active marker. In
2-135
Chapter 2 SCPI Device Message Details addition, the marker position is shared among Power vs Time, Frequency vs Time, Phase vs Time. In CCDF, Marker Axis is changed to
Distribution.
For querying the marker value after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
Settings for Power vs Time Frequency vs Time will be performed in units of samples when Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
Related Command
To query the marker value by moving the marker center to 100 MHz.
CALC:MARK:X 100MHZ
*WAI
CALK:MARK:Y?
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X
2-136
2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Marker Frequency Query
Function
This command queries the center of the marker.
Query
:CALCulate:MARKer[n]:X?
Response
<freq>
<time>
(Spectrum, Spectrogram trace)
(At Power vs Time, Frequency vs Time, Phase vs Time trace)
<sample>
(Power vs Time, Frequency vs Time trace, also Terminal is
DigRF 3G (only for MS269x Series))
<dist>
(For CCDF trace, when Marker Axis is Distribution)
<dist_result>
(For CCDF trace, when Marker Axis is Probability)
Parameter
(For Spectrum trace)
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
(At Power vs Time, Frequency vs Time, Phase vs Time, CCDF,
Spectrogram trace)
<n>
1
Marker number
Marker 1 (on traces other than CCDF)
2
When omitted:
Marker set in Marker Axis (on CCDF)
Marker 2 (excluding CCDF)
Marker 2 cannot be set when the trace is CCDF.
Marker 1 (on traces other than CCDF)
Marker set in Marker Axis (on CCDF)
2-137
2
Chapter 2 SCPI Device Message Details
<freq> Center frequency of marker
Range/Resolution In the frequency range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Value is returned in Hz units, without suffix code.
<time>
Hz is used when omitted.
Marker position
Range/Resolution In the time range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for
<sample> details.
Value is returned in a units, without suffix code.
S is used when omitted.
Marker position
Range/Resolution In the time range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for
<dist> details.
Marker position
Range/Resolution In the power fluctuation of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Value is returned in dB units, without suffix
<dist_result> code. dB is used when omitted.
Power fluctuation of marker position
Range/Resolution In the power fluctuation of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
2-138
Details
Example of Use
Related Command
2.5 Marker Settings
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Value is returned in dB units, without suffix code.
dB is used when omitted.
–999.0 is returned when no measurement is performed or an error has occurred.
2
If the marker position is changed during a Spectrum trace, the target marker becomes the active marker. In addition, if Marker Mode is Fixed or Off, Normal is specified. If the marker position is changed during a
Power vs Time, Frequency vs Time, or Phase vs Time trace, the target marker is set to On and changed to the active marker. In addition, the marker position is shared among Power vs Time, Frequency vs Time,
Phase vs Time.
To query the center of the zone marker.
CALC:MARK:X?
> 100000000.0
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X?
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:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X:DELTa <freq>
Marker Frequency
Function
This command moves the center of the marker to the frequency specified by relative value.
Command
:CALCulate:MARKer[n]:X:DELTa <freq>
Parameter
<n> Marker number
1 Specifies marker 1
2 Specifies marker 2
3 Specifies marker 3
4 Specifies marker 4
5 Specifies marker 5
6 Specifies marker 6
7 Specifies marker 7
8 Specifies marker 8
9 Specifies marker 9
10 Specifies marker 10
When omitted, specifies marker 1
<freq> Relative frequency from the marker specified by
“Relative To”.
Range/Resolution Within the frequency range of trace display
Suffix code
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
Available only when Trace Mode is Spectrum. Available only when
Marker Mode is Delta.
When reading out a marker value after executing this command, use the
*WAI command and execute synchronization control.
Note that synchronization control during the Continuous mode is not supported.
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2.5 Marker Settings
Example of Use
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X:DELTa?
Marker Frequency Query
Function
This command queries the center of marker in relative value.
Query
To move the center of Marker 1 to the position of Marker 2 –100 MHz, and query the marker value.
CALC:MARK:X:DELT -100MHZ
*WAI
CALC:MARK:Y:DELT?
:CALCulate:MARKer[n]:X:DELTa?
Response
<freq>
Parameter
<n> Marker number
1 Specifies marker 1
2 Specifies marker 2
3 Specifies marker 3
4 Specifies marker 4
5 Specifies marker 5
6 Specifies marker 6
7 Specifies marker 7
8 Specifies marker 8
9 Specifies marker 9
10 Specifies marker 10
When omitted, specifies marker 1
Details
Available only when Trace Mode is Spectrum. Available only when
Marker Mode is Delta.
Example of Use
To query the center of marker 1 in relative value.
CALC:MARK:X:DELT?
> -100000000.0
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:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:PEAK:X?
Marker Frequency Query
Function
This command queries the frequency at the marker point. When Marker
Mode is Delta, this command queries the frequency difference between the delta marker and the marker specified by Relative To.
Query
:CALCulate:MARKer[n]:PEAK:X?
Response
<freq>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<freq>
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Frequency at marker point
No suffix code/Hz units/0.01 Hz resolution
–999999999999 is returned when no measurement is performed or an error has occurred.
Details
This command is available when the following traces are active:
● Spectrum
● Spectrogram (Unavailable for Marker 3 to 10).
Example of Use
To query the frequency at the marker point of Marker 1.
CALC:MARK:PEAK:X?
> 1.00
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2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh <freq>
Marker Width
Function
This command sets the zone width of the marker in frequency.
Command
:CALCulate:MARKer[n]:WIDTh <freq>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<freq>
Resolution
Range
Suffix code
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Frequency marker width
0.01 Hz
Within the frequency range of trace display
(Limited depending on the zone marker width.)
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following traces are set to active:
● Spectrum
● Spectrogram (Unavailable for Marker 3 to 10)
The target marker is set to active when the width of the zone marker is changed. Also, it is set to Normal when Marker Mode is Fixed or Off.
For reading out a marker value after this command has been executed, use *WAI commands to perform synchronized control.
2
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Example of Use
To set a marker value by setting the width of the marker 1 to 100 kHz.
CALC:MARK:WIDT 100KHZ
*WAI
CALC:MARK:Y?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh?
Marker Width Query
Function
This command queries the zone marker width.
Query
:CALCulate:MARKer[n]:WIDTh?
Response
<freq>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<freq>
Resolution
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Frequency marker width
0.01 Hz
Range Within the frequency range of trace display
(Limited depending on the zone marker width.)
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
No suffix code. Value is returned in Hz units.
Example of Use
To query the width of the marker 1.
CALC:MARK:WIDT?
> 100000.0
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2.5 Marker Settings
:CALCulate:MARKer:PTPeak[:STATe] ON|OFF|1|0
Display Peak to Peak Value On/Off
Function
This command sets the peak to peak measurement On/Off.
Command
:CALCulate:MARKer:PTPeak[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Peak to Peak measurement function On/Off
On
Off
Details
This command is available when the following traces are active:
● Power vs Time
● Frequency vs Time
On Power vs Time trace, this command can be set only when Scale Mode is set to Linear.
For querying the measurement value after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set Peak to Peak measurement function to On and query the results.
CALC:MARK:PTP ON
*WAI
CALC:MARK:PTP:RES?
2
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:CALCulate:MARKer:PTPeak[:STATe]?
Display Peak to Peak Value On/Off Query
Function
This command queries the On/Off state of Peak to Peak measurement.
Query
:CALCulate:MARKer:PTPeak[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Peak to Peak measurement function On/Off
On
Off
Details
This command is available when the following traces are active:
● Power vs Time
● Frequency vs Time
Example of Use
To query the On/Off state of the Peak to Peak measurement.
CALC:MARK:PTP?
> 1
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2.5 Marker Settings
:CALCulate:MARKer:PTPeak:RESult?
Peak to Peak Value Query
Function
This command queries the result of the peak to peak measurement.
Query
:CALCulate:MARKer:PTPeak:RESult?
Response
<pos>,<neg>,<p-p>,<avg>
Parameter
<pos>
<neg>
<p-p>
Result of peak to peak measurement
+Peak value
Values in % units will be returned when
Terminal is DigRF 3G (only for MS269x Series) and the Input Source is Complex. Values in V units will be returned if it is not set to Complex.
(Power vs Time)
−Peak value
Values in % units is returned when Terminal is
DigRF 3G (only for MS269x Series) and the
Input Source is Complex. Values in V units will be returned if it is not set to Complex.
(Power vs Time)
{(–Peak) - (+Peak)}/2
Returns a value in % units without a suffix code.
Values in % units is returned when Terminal is
DigRF 3G (only for MS269x Series) and the
Input Source is Complex. Values in V units will be returned if it is not set to Complex.
(Power vs Time).
No suffix code. Value is returned in Hz units.
(Frequency vs Time).
–999999999999 is returned when no measurement is performed or an error has occurred.
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<avg>
Details
Example of Use
Average value
Returns a value in V units without a suffix code
(Power vs Time).
No suffix code. Value is returned in Hz units.
(Frequency vs Time).
–999999999999 is returned when no measurement is performed or an error has occurred.
This command is available when the following traces are active:
● Power vs Time
● Frequency vs Time
To query the result of peak to peak measurement.
CALC:MARK:PTP:RES?
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2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
POSitive|NORMal|DELTa|FIXed|OFF
Marker Mode
Function
This command sets the marker mode.
Command
:CALCulate:MARKer[n]:MODE <mode>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
When omitted: Marker1
<mode> Marker mode
POSition|NORMal Normal
DELTa
FIXed
OFF
Delta
Fixed
Off
Default value Off (Normal is set only for Marker1)
Details
This command is available when the following trace is active:
● Spectrum
For querying the marker value after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To query the marker value by setting the Marker 1 mode to Delta.
CALC:MARK:MODE DELT
*WAI
CALC:MARK:Y?
Related Commands
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
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Chapter 2 SCPI Device Message Details
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
Marker Mode Query
Function
This command queries the marker mode.
Query
:CALCulate:MARKer[n]:MODE?
Response
<mode>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<mode>
NORM
DELT
FIX
OFF
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Marker mode
Normal
Delta
Fixed
Off
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the mode of Marker 1.
CALC:MARK:MODE?
> DELT
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2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
Relative To
Function
This command sets the reference marker when Marker Mode is set to
Delta.
Command
:CALCulate:MARKer[n]:REFerence <integer>
Parameter
<n>
3
4
1
2
5
6
7
8
9
10
When omitted:
<integer>
1
2
3
6
7
4
5
8
9
10
Target marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Reference marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Details
This command is available when the following trace is active:
● Spectrum
The setting target marker cannot be set to the reference marker.
Example of Use
To set the reference marker for Marker 2 to Marker 4.
CALC:MARK2:REF 4
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Related Commands
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
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2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
Relative To Query
Function
This command queries the reference marker when Marker Mode is set to
Delta.
Query
:CALCulate:MARKer[n]:REFerence?
Response
<integer>
Parameter
<n>
1
4
5
2
3
8
9
6
7
10
6
7
4
5
8
9
10
When omitted:
<integer>
1
2
3
Target marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Reference marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the reference marker of Marker 2.
CALC:MARK2:REF?
> 4
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Related Command
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
:CALCulate:MARKer:TABLe[:STATe] OFF|ON|0|1
Marker List
Function
This command sets the marker list display to On/Off.
Command
:CALCulate:MARKer:TABLe[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Default value
Marker list display On/Off
Sets the marker list display to On.
Sets the marker list display to Off.
Off
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To set the marker list display to On.
CALC:MARK:TABL ON
CALC:MARK:TABL?
> 1
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2.5 Marker Settings
:CALCulate:MARKer:TABLe[:STATe]?
Marker List Query
Function
This command queries the On/Off state of the marker list display.
Query
:CALCulate:MARKer:TABLe[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Marker list display On/Off
Marker list display On.
Marker list display Off.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the On/Off state of the marker list display.
CALC:MARK:TABL?
> 1
:CALCulate:MARKer:SLINe[:STATe] OFF|ON|0|1
Spot Line
Function
This command displays or hides the marker line for spot marker.
Command
:CALCulate:MARKer:SLINe[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Marker line display
Displays the marker line.
Hides the marker line.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To display the marker line.
CALC:MARK:SLIN ON
2
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:CALCulate:MARKer:SLINe[:STATe]?
Spot Line Query
Function
This command queries the On/Off state of the marker line display for spot marker.
Query
:CALCulate:MARKer:SLINe[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Marker line display On/Off
Marker line is displayed.
Marker line is hidden.
Details
This function can be set when the following trace is active:
● Spectrum
Example of Use
To query the On/Off state of the marker line display.
CALC:MARK:SLIN?
> 1
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2.5 Marker Settings
:CALCulate:MARKer:COUPle:ZONE[:STATe] OFF|ON|0|1
Couple Zone
Function
This command enables or disables the Zone Width shared setting.
Command
:CALCulate:MARKer:COUPle:ZONE[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Zone Width shared setting On/Off
Sets the shared setting to On.
Sets the shared setting to Off.
Details
This command is available when the following trace is active:
● Spectrum
When this function is set to On, the Zone Width setting is shared among markers.
Example of Use
To enable the sharing of the Zone Width setting.
CALC:MARK:COUP:ZONE ON
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:CALCulate:MARKer:COUPle:ZONE[:STATe] ?
Couple Zone Query
Function
This command queries whether the Zone Width shared setting is enabled/disabled.
Query
:CALCulate:MARKer:COUPle:ZONE[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Zone Width shared setting On/Off
On
Off
Details
This command is available when the following trace is active:
● Spectrum
When this function is set to On, the Zone Width setting is shared among markers.
Example of Use
To query whether the Zone Width shared setting is enabled.
CALC:MARK:COUP:ZONE?
> 1
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2.5 Marker Settings
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh:TYPE ZONE|SPOT
Zone Width Type
Function
This command sets the zone type of the marker.
Command
:CALCulate:MARKer[n]:WIDTh:TYPE <zone_type>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<zone_type>
ZONE
SPOT
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Zone type of marker
Zone marker
Spot marker
Details
This command is available when the following trace is active:
● Spectrum
● Spectrogram (Unavailable for Marker 2 to 10)
This command is available when Marker Result is Peak (Fast) or Peak
(Accuracy).
For querying the marker value after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To query the marker value by setting the zone type of Marker 1 to zone marker.
CALC:MARK:WIDT:TYPE ZONE
*WAI
CALC:MARK:Y?
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:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh:TYPE?
Zone Width Type Query
Function
This command queries the zone type of the marker.
Query
:CALCulate:MARKer[n]:WIDTh:TYPE?
Response
<zone_type>
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
<zone_type>
ZONE
SPOT
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Zone type of marker
Zone marker
Spot marker
Details
This command is available when the following trace is active:
● Spectrum
● Spectrogram (Unavailable for Marker 2 to 10)
This command is available when Marker Result is Peak (Fast) or Peak
(Accuracy).
Example of Use
To query the zone type of Marker 1.
CALC:MARK:WIDT:TYPE?
> ZONE
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2.6 Signal Search Settings
2.6 Signal Search Settings
Table 2.6-1 lists device messages for setting signal search.
Table 2.6-1 Device messages for setting signal search
Function Device Message
Peak Search :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
Next Peak Search :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT
Signal Search
Resolution
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion
<rel_ampl>|<percent>|<freq>
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion?
Signal Search
Threshold Level
:CALCulate:MARKer:SIGNal:THReshold:STATe ON|OFF|1|0
:CALCulate:MARKer:SIGNal:THReshold:STATe?
Signal Search
Mode
Signal Search
Threshold Level
Dip Search
Next Dip Search
:CALCulate:MARKer:SIGNal:THReshold:MODE ABOVe|BELow
:CALCulate:MARKer:SIGNal:THReshold:MODE?
:CALCulate:MARKer:SIGNal:THReshold <ampl>|<freq>
:CALCulate:MARKer:SIGNal:THReshold?
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MINimum
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MINimum:NEXT
Search Peaks Sort Y :CALCulate:MARKer:PEAK:SORT:Y
Search Peaks Sort X :CALCulate:MARKer:PEAK:SORT:X
Search Peaks
Number
:CALCulate:MARKer:PEAK:SORT:COUNt <integer>
:CALCulate:MARKer:PEAK:SORT:COUNt?
Marker Readout
Query
:CALCulate:MARKer:READout?
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:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
Peak Search
Function
This command searches for the maximum level point of the main trace and moves the marker point.
Command
:CALCulate:MARKer[n]:MAXimum
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Details
This command is available on the following traces:
● Spectrum
● Power vs Time (Unavailable for Markers 3 to 10.)
● Frequency vs Time (Unavailable for Markers 3 to 10.)
For querying the marker value after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
Example of Use
To query the marker value by moving Marker 1 to the maximum level point.
CALC:MARK:MAX
*WAI
CALC:MARK:Y?
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Related Command
2.6 Signal Search Settings
This command has the same function as the following commands.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
MAXimum
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:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT
Next Peak Search
Function
This command searches for the feature point of the main trace and moves the marker point to a lower peak point.
Command
:CALCulate:MARKer[n]:MAXimum:NEXT
Parameter
<n>
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Marker1
Details
This command is available on the following traces.
● Spectrum
● Power vs Time (Unavailable for Markers 3 to 10.)
● Frequency vs Time (Unavailable for Markers 3 to 10.)
For querying the marker value, after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
Example of Use
To query the marker value by moving Marker 1 to the next peak point.
CALC:MARK:MAX:NEXT
*WAI
CALC:MARK:Y?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:
NEXT
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2.6 Signal Search Settings
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion
<rel_ampl>|<percent>|<freq>
Signal Search Resolution
Function
This command sets the search resolution of the search point.
Command
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion <rel_ampl>
(For Spectrum trace, when Result Mode is Integration or Density; or for
Spectrum trace, when Result Mode is Peak (Fast) or Peak (Accuracy) and
Scale Mode is Log Scale. For Power vs Time trace, when Scale Mode is
Log Scale.)
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion <percent>
(For Spectrum trace, when Result Mode is Peak (Fast) or Peak
(Accuracy) and Scale Mode is Linear Scale. For Power vs Time trace, when Scale Mode is Linear Scale.)
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion <freq>
(For Frequency vs Time trace)
Parameter
<rel_ampl>
Suffix code
Search resolution
Range
Resolution
0.01 to 50.00 dB
0.01
DB dB is used when omitted.
<percent>
Range
Search resolution
0.01 to 50.00%
Resolution
Suffix code
0.01
None
<freq> Search resolution
When Scale Unit is Hz, ΔHz.
Range
Resolution
1 to 5000000 Hz
0.01
Suffix code HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
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Example of Use
To set the resolution to 20 dB.
CALC:MARK:SIGN:RES 20DB
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2.6 Signal Search Settings
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion?
Signal Search Resolution Query
Function
This command queries the search resolution at the search point.
Query
:CALCulate:MARKer:SIGNal:RESolution|:EXCursion?
Response
<rel_ampl>
(For Spectrum trace, when Result Mode is Integration or Density; or for
Spectrum trace, when Result Mode is Peak (Fast) or Peak (Accuracy) and
Scale Mode is Log Scale. For Power vs Time trace, when Scale Mode is
Log Scale.)
<percent>
(For Spectrum trace, when Result Mode is Peak (Fast) or Peak
(Accuracy) and Scale Mode is Linear Scale. For Power vs Time trace, when Scale Mode is Linear Scale.)
<freq>
Frequency vs Time trace
Parameter
<rel_ampl>
Range
Resolution
Search resolution
0.01 to 50.00 dB
0.01
No suffix code. Value is returned in dB units.
<percent>
Range
Resolution
Suffix code
<freq>
Search resolution
0.01 to 50.00%
0.01
None
No suffix code. Value is returned in % units.
Search resolution
When Scale Unit is Hz, ΔHz.
Range 1 to 5000000 Hz
Resolution 0.01
No suffix code. Value is returned in Hz units.
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Details
Example of Use
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
To query the search resolution.
CALC:MARK:SIGN:RES?
> 20.00
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2.6 Signal Search Settings
:CALCulate:MARKer:SIGNal:THReshold:STATe ON|OFF|1|0
Signal Search Threshold Level
Function
This command sets the threshold condition to search for the search point in the main trace.
Command
:CALCulate:MARKer:SIGNal:THReshold:STATe <switch>
Parameter
<switch>
0|OFF
1|ON
Threshold when searching for the peak point
Sets the threshold to Off (Default value)
Sets the threshold to On.
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
The threshold is set to On, when the search condition (Above/Below) of the threshold is changed.
Example of Use
To set the threshold to search for the search point to On.
CALC:MARK:SIGN:THR:STAT ON
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:CALCulate:MARKer:SIGNal:THReshold:STATe?
Signal Search Threshold Level Query
Function
This command returns the On/Off state of the threshold to search for the search point in the main trace.
Query
:CALCulate:MARKer:SIGNal:THReshold:STATe?
Response
<switch>
Parameter
<switch>
0
1
On/Off of threshold to search for the peak point
Off
On
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
The threshold is set to On, when the search condition (Above/Below) of the threshold is changed.
Example of Use
To query the On/Off state of the threshold to search for the peak point.
CALC:MARK:SIGN:THR:STAT?
> 1
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2.6 Signal Search Settings
:CALCulate:MARKer:SIGNal:THReshold:MODE ABOVe|BELow
Signal Search Mode
Function
This command sets the threshold condition to search for the search point in the main trace.
Command
:CALCulate:MARKer:SIGNal:THReshold:MODE <mode>
Parameter
<mode>
ABOVe
BELow
Search method for threshold
Searches for only the upper side of threshold
(Default value)
Searches for only the lower side of threshold
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
The threshold is set to On, when the search condition (Above/Below) of the threshold is changed.
Example of Use
To set the threshold condition to search for the search point.
CALC:MARK:SIGN:THR:MODE ABOV
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:CALCulate:MARKer:SIGNal:THReshold:MODE?
Signal Search Mode Query
Function
This command queries the threshold condition to search for the search point in the main trace.
Query
:CALCulate:MARKer:SIGNal:THReshold:MODE?
Response
<mode>
Parameter
<mode>
ABOV
BEL
Search method for threshold
Searches for only the upper side of threshold.
Searches for only the lower side of threshold.
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
The threshold is set to On, when the search condition (Above/Below) of the threshold is changed.
Example of Use
To query the search method for the threshold.
CALC:MARK:SIGN:THR:MODE?
> ABOV
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2.6 Signal Search Settings
:CALCulate:MARKer:SIGNal:THReshold <ampl>|<freq>
Signal Search Threshold Level
Function
This command sets the threshold to search for the peak point.
Command
:CALCulate:MARKer:SIGNal:THReshold <ampl>
(Spectrum, Power vs Time trace)
:CALCulate:MARKer:SIGNal:THReshold <freq>
(Frequency vs Time trace)
Parameter
<ampl>
Range
Resolution
Threshold to search for the search point
All widths of Y-axis
0.01 dB (When Scale Unit settings are dB-system units, when Spectrum trace and
Scale Mode are Linear Scale, or when Scale Unit is V.)
0.01 pV (When scale unit settings are V-system units, or when Power vs Time trace and Scale
Mode are Linear)
0.01 fW (When scale unit settings are W-system units)
Suffix code
UV
W
MW
UW
NW
PW
FW
DBM,DM
DBMV
DBUV
DBUVE
DBUVM
V
MV dBm dBmV dBµV dBµV (emf) dBµV/m
V mV
µ
µ
V
W mW
W nW pW fW
The Scale Unit setting applies when omitted. dBm is used when Spectrum trace and Scale Mode are
Linear, or when Scale Unit is V.
V is used for Power vs Time and Linear scale.
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Details
Example of Use
<freq>
Range
Resolution
Suffix code
Threshold to search for the search point
Range of Vertical Scale of the main trace
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
The search threshold is set to On, when the threshold for search is changed.
To set the threshold to search for the peak point to −10 dBm.
CALC:MARK:SIGN:THR –10DBM
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2.6 Signal Search Settings
:CALCulate:MARKer:SIGNal:THReshold?
Signal Search Threshold Level Query
Function
This command queries the threshold to search for the peak point.
Query
:CALCulate:MARKer:SIGNal:THReshold?
Response
<ampl>
<freq>
(For Spectrum, Power vs Time trace)
(For Frequency vs Time trace)
Parameter
<ampl>
Range
Resolution
Threshold to search for the search point
All widths of Y-axis
0.01 dB (When Scale Unit settings are dB-system units or when Scale Mode is Linear)
0.01 pV (When scale unit settings are
V-system units)
0.01 fW (When scale unit settings are
W-system units)
Returns a value in units specified by Log Scale Unit without a suffix code. For Linear scale, returns a value in dBm units.
<freq>
Range
Resolution
Threshold to search for the search point
Range of Vertical Scale of main trace
1 Hz
No suffix code. Value is returned in Hz units.
Example of Use
To query the threshold to search for the peak point.
CALC:MARK:SIGN:THR?
> –10.00
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:CALCulate:MARKer[1]|2:MINimum
Dip Search
Function
This command searches for the minimum level point of the main trace and moves the marker point.
Command
:CALCulate:MARKer[n]:MINimum
Parameter
<n>
1
2
When omitted:
Marker number
Marker 1
Marker 2
Marker 1
Details
This command is available when the following trace is active:
● Frequency vs Time
For querying the marker value, after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
Example of Use
To query the marker value by moving Marker 1 to the minimum level point.
CALC:MARK:MIN
*WAI
CALC:MARK:Y?
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2.6 Signal Search Settings
:CALCulate:MARKer[1]|2:MINimum:NEXT
Next Dip Search
Function
This command searches for the characteristics of the main trace and moves the marker point to the peak point at which the marker value of a smaller level than the presently set marker level becomes the smallest.
Command
:CALCulate:MARKer[n]:MINimum:NEXT
Parameter
<n>
1
2
When omitted:
Marker number
Marker 1
Marker 2
Marker 1
Details
This command is available when the following trace is active:
● Frequency vs Time
For querying the marker value, after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
Example of Use
To query the marker value by moving Marker 1 to the second smallest peak point.
CALC:MARK1:MIN:NEXT
*WAI
CALC:MARK:Y?
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:CALCulate:MARKer:PEAK:SORT:Y
Search Peaks Sort Y
Function
This command sorts as many markers as the number set in Search Peaks
Number by level on the trace.
Command
:CALCulate:MARKer:PEAK:SORT:Y
Details
This command is available on the following trace:
● Spectrum
This command is not available when Marker Result is Integration or
Density.
For querying the marker value, after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
Example of Use
To execute Search Peaks Sort Y and query the results.
CALC:MARK:PEAK:SORT:Y
*WAI
CALC:MARK:READ?
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2.6 Signal Search Settings
:CALCulate:MARKer:PEAK:SORT:X
Search Peaks Sort X
Function
This command sorts as many markers as the number set in Search Peaks
Number by frequency on the trace.
2
Command
:CALCulate:MARKer:PEAK:SORT:X
Details
This command is available on the following trace:
● Spectrum
This command is not available when Marker Result is Integration or
Density.
For querying the marker value, after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
Example of Use
To execute Search Peaks Sort X and query the results.
CALC:MARK:PEAK:SORT:X
:WAI
CALC:MARK:READ?
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:CALCulate:MARKer:PEAK:SORT:COUNt <integer>
Search Peaks Number
Function
This command sets the number of searches when Search Peaks Sort Y/X is executed.
Command
:CALCulate:MARKer:PEAK:SORT:COUNt <integer>
Parameter
<integer> Number of searches
Range
Resolution
1 to 10
1
Default value 10
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To set the number of searches to 5.
CALC:MARK:PEAK:SORT:COUN 5
:CALCulate:MARKer:PEAK:SORT:COUNt?
Search Peaks Number Query
Function
This command queries the number of searches when Search Peaks Sort
Y/X is executed.
Command
:CALCulate:MARKer:PEAK:SORT:COUNt?
Parameter
<integer> Number of searches
Range
Resolution
1 to 10
1
Default value 10
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the number of searches.
CALC:MARK:PEAK:SORT:COUN?
> 5
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2.6 Signal Search Settings
:CALCulate:MARKer:READout?
Marker Readout Query
Function
This command queries all marker values.
Query
:CALCulate:MARKer:READout?
Response
<freqs_1>,<power_1>,<freqs_2>,<power_2>,...,
<freqs_10>,<power_10>
(For Spectrum trace)
<time_1>,<power_1>,<time_2>,<power_2>
(For Power vs Time trace)
<sample_1>,<power_1>,<sample_2>,<power_2>
(When Terminal is DigRF 3G (only for MS269x
Series))
(For Power vs Time trace)
<time_1>,<freqf_1>,<time_2>,<freqf_2>
(For Frequency vs Time trace)
<time_1>,<phase_1>,<time_2>,<phase_2>
(At Phase vs Time)
<sample_1>,<freqf_1>,<sample_2>,<freqf_2>
(When Terminal is DigRF 3G (only for MS269x
Series))
(For Frequency vs Time trace)
<dist>,<prob>
(For CCDF trace)
Parameter
<freqs_n> Frequency of Marker n
No suffix code/Hz units/0.1 Hz resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is Off.
<power_n> Level of Marker n
(When marker level display units are dB-system units)
No suffix code/Units specified by Scale Unit/0.001 dB resolution
–999.0 is returned when no measurement is performed, an error has occurred, or marker is Off.
(When marker level display units are V-system units)
No suffix code/V units/0.01 pV resolution
–999.0 is returned when no measurement is performed, an error
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Chapter 2 SCPI Device Message Details has occurred, or marker is Off.
(When marker level display units are W-system units)
No suffix code/W units/0.01 yW resolution
–999.0 is returned when no measurement is performed, an error has occurred, or marker is Off.
When marker level display units are X-multiple-system units)
No suffix code/0.0001 resolution. For no magnification, 1 is returned.
–999.0 is returned when no measurement is performed, an error has occurred, or marker is Off.
<phase_n> Position of Marker n
No suffix code, degree units, 0.01 Hz resolution
–999.0 is returned when no measurement is performed, an error has occurred, or marker is set to Off.
<time_n> Time of Marker n
No suffix code/ s units/1 ns resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is Off.
<freqf_f> Frequency of Marker n
No suffix code/Hz units/0.01 Hz resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is Off.
<dist> Position of Marker n
No suffix code/dB units/0.01 dB resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is Off.
<prob> Probability of Marker n
No suffix code/% units/0.0001% resolution
–999.0 is returned when no measurement is performed, an error has occurred, or marker is Off.
Example of Use
To query all marker values (Spectrum).
CALC:MARK:READ?
> 1000000.0,-15.321,1100000.0,-23.000,
1200000.0,-15.321,1300000.0,-12.680,
1400000.0,-5.622,1500000.0,-65.056,
1600000.0,-26.534,1700000.0,-34.264,
1800000.0,-35.644,–999999999999,–999.0
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2.7 Trace Settings
Table 2.7-1 lists device messages for setting a trace.
Function
Change Trace
Analysis Time
Auto/Manual
Analysis Time
Length
Analysis Start Time
Gate Mode On/Off
Period
Range State
Range Start Time
Range Stop Time
Calculate
Trace Point Query
Measurement Count
Query
Zoom Center
Zoom
Width/Vertical Scale
Width
Resolution
Bandwidth
Table 2.7-1 Device messages for setting a trace
Device Message
:TRACe:MODE SPECtrum|PVTime|FVTime|PHASe|CCDF|SPGRam|NONE
:TRACe:MODE?
:CALCulate:ATIMe:AUTO OFF|ON|0|1
:CALCulate:ATIMe:AUTO?
:CALCulate:ATIMe:LENGth <time>
:CALCulate:ATIMe:LENGth?
:CALCulate:ATIMe:STARt <time>
:CALCulate:ATIMe:STARt?
:CALCulate:ATIMe:GMODe OFF|ON|0|1
:CALCulate:ATIMe:GMODe?
:CALCulate:ATIMe:GMODe:PERiod <time>
:CALCulate:ATIMe:GMODe:PERiod?
:CALCulate:ATIMe:GMODe:RANGe:STATe
ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0,
:CALCulate:ATIMe:GMODe:RANGe: STATe?
:CALCulate:ATIMe:GMODe:RANGe:STARt
<time_1>,<time_2>,<time_3>
:CALCulate:ATIMe:GMODe:RANGe: STARt?
:
CALCulate:ATIMe:GMODe:RANGe:STOP <time_1>,<time_2>,<time_3>
:CALCulate:ATIMe:GMODe:RANGe: STOP?
:INITiate:CALCulate
[:SENSe]:SWEep:POINts?
:TRACe:SWEep:COUNt?
:DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer <freq>
:DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer?
:DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh <freq>
:DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh?
[:SENSe]:BANDwidth|:BWIDth[:RESolution] <bandwidth>
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution] <bandwidth>
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
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Resolution
Bandwidth
Auto/Manual
Filter Frequency
Offset
Function
Detection Mode
Storage Mode
Storage Count
Log Scale Range
Linear Scale Range
Log Scale Line
Smoothing
Smoothing Time
Length
Filter Type
Rolloff Factor
Filter Bandwidth
Table 2.7-1 Device messages for setting a trace (Cont’d)
Device Message
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:DETector[:FUNCtion]
NORMal|POSitive|NEGative|SAMPle|AVERage
[:SENSe]:DETector[:FUNCtion]?
:CALCulate:DETector[:FUNCtion]
NORMal|POSitive|NEGative|SAMPle|AVERage
:CALCulate:DETector[:FUNCtion]?
:TRACe:STORage:MODE OFF|MAXHold|LAVerage|MINHold
:TRACe:STORage:MODE?
[:SENSe]:AVERage:COUNt <integer>
[:SENSe]:AVERage:COUNt?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmic]
<rel_ampl>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmic]?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear <percent>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic] <line>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic]?
:CALCulate:SMOothing[:STATe] OFF|ON|0|1
:CALCulate:SMOothing[:STATe]?
:CALCulate:SMOothing:LENGth <time>
:CALCulate:SMOothing:LENGth?
:CALCulate:FILTer:TYPE OFF|RECT|GAUSsian|NYQuist|RNYQuist
:CALCulate:FILTer:TYPE?
:CALCulate:FILTer:ALPHa <real>
:CALCulate:FILTer:ALPHa?
:CALCulate:FILTer:BANDwidth <bandwidth>
:CALCulate:FILTer:BANDwidth?
:CALCulate:FILTer:FOFFset <freq>
:CALCulate:FILTer:FOFFset?
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Table 2.7-1 Device messages for setting a trace (Cont’d)
Function Device Message
Filter Auto/Manual
:CALCulate:FILTer:BANDwidth:AUTO ON|OFF|1|0
:CALCulate:FILTer:BANDwidth:AUTO?
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe D2|D5|D10|D25 Zoom
Width/Vertical
Scale Width
Maximum
Frequency Range
Query
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe?
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:WIDTh?
Frequency Scale
Unit
Measure Method
Threshold On/Off
Threshold
CCDF Meas Mode
Data Count
:UNIT:FREQuency HZ|DHZ
:UNIT:FREQuency?
:CALCulate:CCDF|:PSTatistic:METHod CCDF|APD
:CALCulate:CCDF|:PSTatistic:METHod?
:CALCulate:CCDF|:PSTatistic:THReshold:STATe ON|OFF|1|0
:CALCulate:CCDF|:PSTatistic:THReshold:STATe?
:CALCulate:CCDF|:PSTatistic:THReshold <ampl>
:CALCulate:CCDF|:PSTatistic:THReshold?
:CALCulate:CCDF|:PSTatistic:MODE TIME|COUNt
:CALCulate:CCDF|:PSTatistic:MODE?
:CALCulate:CCDF|:PSTatistic:COUNts <sample>
:CALCulate:CCDF|:PSTatistic:COUNts?
Store Reference
Trace
:CALCulate:CCDF|:PSTatistic:STORe:REFerence
[:SENSe]:CCDF|:PSTatistic:RTRace[:STATe] ON|OFF|1|0
Reference Trace
[:SENSe]:CCDF|:PSTatistic:RTRace[:STATe]?
Gaussian Trace
Marker Query
[:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe] ON|OFF|1|0
[:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe]?
:CALCulate:MARKer[1][:PEAK]:X:DELTa?
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Power Distribution
Scale
Function
Marker Axis
Reset Result Every
Capture
CCDF Configure
CCDF Initiate
CCDF Fetch
CCDF Read
CCDF Measure
Marker Frequency
Storage Stop
CCDF Trigger
Source
Query Trace Data
Query Negative
Trace Data
Table 2.7-1 Device messages for setting a trace (Cont’d)
Device Message
:DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision <rel_ampl>
:DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision?
:CALCulate:MARKer:AXIS PROB|DSTRbt
:CALCulate:MARKer:AXIS?
[:SENSe]:CCDF|:PSTatistic:ERESet[:STATe] ON|OFF|1|0
[:SENSe]:CCDF|:PSTatistic:ERESet[:STATe]?
:CONFigure:CCDF|:PSTatistic
:INITiate:CCDF|:PSTatistic
:FETCh:CCDF|:PSTatistic[n]?
:READ:CCDF|:PSTatistic[n]?
:MEASure: CCDF|:PSTatistic [n]?
:CALCulate:MARKer[1]:Y <prob>
:TRACe:STORage:STOP
:TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
:TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
:TRACE[:DATA]?[<start.[,<length>]]
:TRACE[:DATA]:NEGative?[<start.[,<length>]]
Level Full Scale
Time Marker
Position
Couple Time
Marker 1 and 2
Analyze with
Spectrum Trace
Return To
Spectrogram
Time Marker Peak
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe <rel_ampl>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe?
:CALCulate:TMARker[1]|2:X <time>
:CALCulate:TMARker[1]|2:X?
:CALCulate:TMARker:COUPle:ZONE[:STATe] OFF|ON|0|1
:CALCulate:TMARker:COUPle:ZONE[:STATe]?
:CALCulate:ANALyze:SPECtrum
:CALCulate:ANALyze:SPGRam
:CALCulate:TMARker[1]|2:PEAK:X?
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Function
Phase Offset
Phase Mode
Scale Division
Phase Reference
Phase Reference
Mode
2.7 Trace Settings
Table 2.7-1 Device messages for setting a trace (Cont’d)
Device Message
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet <real>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE <mode>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision <real>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence <time>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE <mode>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE?
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:TRACe:MODE SPECtrum|PVTime|FVTime|PHASe|CCDF|SPGRam|NONE
Change Trace
Function
This command sets the main trace type.
Command
:TRACe:MODE <trace>
Parameter
<trace>
SPECtrum
PVTime
FVTime
PHASe
CCDF
SPGRam
Trace type
Spectrum
Power vs Time
Frequency vs Time
Phase vs Time
CCDF
Spectrogram
Details
Spectrogram is disabled when Scale Mode is set to Linear.
When Terminal is set for DigRF 3G (only for MS269x Series), the CCDF and Spectrogram can not be set.
Example of Use
To set trace type to Spectrum.
TRAC:MODE SPEC
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:TRACe:MODE?
Change Trace Query
Function
This command queries the main trace type.
Command
:TRACe:MODE?
Response
<trace>
Parameter
<trace>
SPEC
PVT
FVT
PHAS
CCDF
SPGR
Trace type
Spectrum
Power vs Time
Frequency vs Time
Phase vs Time
CCDF
Spectrogram
Example of Use
To query the main trace type.
TRAC:MODE?
> SPEC
:CALCulate:ATIMe:AUTO OFF|ON|0|1
Analysis Time Auto/Manual
Function
This command selects auto/manual mode for the analysis time of the main trace.
Command
:CALCulate:ATIMe:AUTO <switch>
Parameter
<switch>
ON|1
OFF|0
Auto/manual mode for analysis time
Auto
Manual
Details
Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) or MS2830A/MS2840A
Signal Analyzer Operation Manual (Signal Analyzer function Operation) for automatic setting operation.
2
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Example of Use
To set the analysis time of the main trace manually.
CALC:ATIM:AUTO OFF
:CALCulate:ATIMe:AUTO?
Analysis Time Auto/Manual Query
Function
This command queries the auto/manual mode for the analysis time of the main trace.
Query
:CALCulate:ATIMe:AUTO?
Response
<switch>
Parameter
<switch>
1
0
Auto/manual mode for analysis time
Automatic
Manual
Details
Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) or MS2830A/MS2840A
Signal Analyzer Operation Manual (Signal Analyzer function Operation) for automatic setting.
Example of Use
To query the setting of analysis time of the main trace.
CALC:ATIM:AUTO?
> 0
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:CALCulate:ATIMe:LENGth <time>
Analysis Time Length
Function
This command sets the analysis time length for the main trace.
Command
:CALCulate:ATIMe:LENGth <time>
Parameter
<time> Time Analysis time length
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Suffix code
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
NS, US, MS, S
Details
This command is not available in the following cases:
2
● This command cannot be set when the analysis start time (Analysis
Start Time) is set to the maximum value.
● When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To set the analysis time length for the main trace to 12 ms.
CALC:ATIM:LENG 12MS
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:CALCulate:ATIMe:LENGth?
Analysis Time Length Query
Function
This command queries the analysis time length for the main trace.
Query
:CALCulate:ATIMe:LENGth?
Response
<time>
Parameter
<time> Analysis time length
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
No suffix code. Value is returned in S units.
Example of Use
To query the analysis time length for the main trace.
CALC:ATIM:LENG?
> 0.01200000
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:CALCulate:ATIMe:STARt <time>
Analysis Start Time
Function
This command sets the analysis start time for the main trace.
Command
:CALCulate:ATIMe:STARt <time>
Parameter
<time> Analysis time length
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Suffix code
Manual (Signal Analyzer function Operation) for details.
NS, US, MS, S
S is used when omitted.
2
Details
This command is not available in the following cases:
● This command cannot be used when the analysis time length
(Analysis Time Length) is set to the maximum value.
● When Terminal is selected DigRF 3G (only for MS269x Series).
Example of Use
To set the analysis start time to 12 ms.
CALC:ATIM:STAR 12MS
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:CALCulate:ATIMe:STARt?
Analysis Start Time Query
Function
This command queries the analysis start time for the main trace.
Query
:CALCulate:ATIMe:STARt?
Response
<time>
Parameter
Parameter
<time> Analysis time length
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Returns a value in s units without a suffix code.
Example of Use
To query the analysis start time.
CALC:ATIM:STAR?
> 0.01200000
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:CALCulate:ATIMe:GMODe OFF|ON|0|1
Gate Mode On/Off
Function
When the main trace is CCDF, this command selects whether or not to use the GateMode for analysis of only the specified section in the
Analysis Time.
Command
CALCulate:ATIMe:GMODe <switch>
Parameter
<switch>
ON|1
OFF|0
Gate Mode Status
Uses gate mode
Does not use gate mode
Details
This command is available when the CCDF trace is active.
Example of Use
To set the CCDF gate mode to On:
CALC:ATIM:GMOD ON
:CALCulate:ATIMe:GMODe?
Gate Mode On/Off Query
Function
When the main trace is CCDF, this command selects whether or not to read-out the GateMode for analysis of only the specified section in the
Analysis Time.
Command
CALCulate:ATIMe:GMODe?
Response
<switch>
1
0
Gate Mode Status
Uses gate mode
Does not use gate mode
Details
This command is available when the CCDF trace is active.
Example of Use
To query the CCDF gate mode settings:
CALC:ATIM:GMOD?
> 1
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Chapter 2 SCPI Device Message Details
:CALCulate:ATIMe:GMODe:PERiod <time>
Period
Function
When GateMode is On, this command sets the Period setting for each range.
Command
:CALCulate:ATIMe:GMODe:PERiod <time>
Parameter
<time> Range setting cycle
Range/Resolution Same as Analysis Time Length
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for automatic setting operation.
Suffix code: NS, US, MS, S s is used when omitted.
Details
This command is available when the CCDF trace is active.
This function can be set when Gate Mode is On.
Example of Use
To set the CCDF gate mode span to 10 ms:
CALC:ATIM:GMOD:PER 10MS
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:CALCulate:ATIMe:GMODe:PERiod?
Period Query
Function
When GateMode is On, this command queries the Period setting for each range.
Query
:CALCulate:ATIMe:GMODe:PERiod?
Response
<time> Range setting cycle
Range/Resolution Same as Analysis Time Length
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for automatic setting operation.
No suffix code. Value is returned in s units.
Details
This command is available when the CCDF trace is active.
2
Example of Use
To query the CCDF gate mode setting span:
CALC:ATIM:GMOD:PER?
> 0.01000000
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:CALCulate:ATIMe:GMODe:RANGe:STATe
ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0,
Range State
Function
This command sets each range On/Off.
Command
:CALCulate:ATIMe:GMODe:RANGe:STATe <switch_n>
Parameter
<switch_n>
ON|1
OFF|0
Default
Range n On/Off
Sets range to On
Sets range to Off
Range1
Range2 to 3
On
Off
Details
This function cannot set all segments to Off.
This command is available when the CCDF trace is active and when
Gate Mode is On.
Example of Use
To set the range On/Off:
CALC:ATIM:GMOD:RANG:STAT ON,ON,OFF
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:CALCulate:ATIMe:GMODe:RANGe: STATe?
Range State Query
Function
This command queries the range for setting parameter.
Query
:CALCulate:ATIMe:GMODe:RANGe:STATe?
Response
<switch_n>
1
0
Range On/Off
On
Off
Details
This command is available when the CCDF trace is active.
Example of Use
To query the range On/Off:
CALC:ATIM:GMOD:RANG:STAT?
> 1,1,0
2
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:CALCulate:ATIMe:GMODe:RANGe:STARt <time_1>,<time_2>,<time_3>
Range Start Time
Function
This command sets the start time for each range.
Command
:CALCulate:ATIMe:GMODe:RANGe:STARt <time_n>
Parameter
<time_n>
Range
Resolution
Suffix code
Default
Start time for each range
0 to (Range setting period (Period)—Resolution)
Same as Analysis Time Length
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
NS, US, MS, S s is used when omitted.
Range1 to 3 0
Details
This command is available when the CCDF trace is active and when
Gate Mode is On.
Example of Use
To set the start time for each range:
CALC:ATIM:GMOD:RANG:STAR 0,0.006,0.01
:CALCulate:ATIMe:GMODe:RANGe: STARt?
Range Start Time Query
Function
This command queries the start time for each range.
Query
:CALC:ATIM:GMOD:RANG:STAR?
Response
<time_n> Start time for each range
No suffix code. Value is returned in s units.
Details
This command is available when the CCDF trace is active.
Example of Use
To query the start time for each range:
:CALC:ATIM:GMOD:RANG:STAR?
> 0.000000000,0.006000000,0.010000000
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2.7 Trace Settings
:CALCulate:ATIMe:GMODe:RANGe:STOP <time_1>,<time_2>,<time_3>
Range Stop Time
Function
This command set the stop time for each range.
Command
:CALCulate:ATIMe:GMODe:RANGe:STOP <time_n>
Parameter
<time_n>
Range
Resolution
Default
Stop time for each range
Resolution to Range setting period (Period)
Same as Analysis Time Length
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Range1 to 3 Range setting period (Period)
Details
This command is available when the CCDF trace is active and when
Gate Mode is On.
Example of Use
To set the stop time for each range:
CALC:ATIM:GMOD:RANG:STOP 0.001,0.006,0.010
2
:CALCulate:ATIMe:GMODe:RANGe: STOP?
Range Stop Time Query
Function
This command queries the stop time for each range.
Query
:CALC:ATIM:GMOD:RANG:STOP?
Response
<time_n> Stop time for each range
No suffix code. Value is returned in s units.
Details
This command is available when the CCDF trace is active.
Example of Use
To query the stop time for each range:
:CALC:ATIM:GMOD:RANG:STOP?
> 0.00100000,0.00600000,0.01000000
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:INITiate:CALCulate
Calculate
Function
Command
This command executes waveform analysis without capturing and is used to re-analyze the same captured waveform with different parameters.
:INITiate:CALCulate
Details
This function can be executed only when the waveform capture time
(Capture Time) is set to Manual.
When no waveform has been captured, or when a parameter that requires re-capturing of the waveform is changed, this function executes both waveform capturing and analysis.
Other commands or queries are received while this function is being executed.
If a command that requires re-capturing of a waveform or re-calculation of a trace is received, however, this function is paused during execution of such a command.
For querying the measurement value, such as a marker value, after this command has been executed, use *WAI commands to perform synchronized control.
Note that this command does not support synchronized control in
Continuous mode.
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Example of Use
2.7 Trace Settings
To execute waveform analysis.
TRAC:MODE SPEC
SWE:TIME:AUTO OFF
SWE:TIME 100MS
INIT:MODE:SING
*WAI
CALC:ATIM:LENG 10MS
CALC:ATIM:STAR 0S
CONF:ACP
INIT:CALC
*WAI
FETC:ACP?
CALC:ATIM:LENG 10MS
CALC:ATIM:STAR 90MS
INIT:CALC
*WAI
FETC:ACP?
Displays Spectrum trace
Sets the waveform capture time manually
Sets the waveform capture time to 100 ms
Obtains IQ data
Waits until end of query
Sets the analysis time length to 10 ms
Sets the analysis start time to 0 s
Sets ACP measurement to ON
Starts analysis
Waits until end of analysis
Queries ACP measurement result
Sets the analysis time length to 10 ms
Sets the analysis start time to 90 ms
Starts analysis
Waits until end of analysis
Obtains ACP measurement result.
2
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[:SENSe]:SWEep:POINts?
Trace Point Query
Function
This command queries the number of data points of the main trace.
Query
[:SENSe]:SWEep:POINts?
Response
<integer>
Parameter
<n>
1
2
The number of trace points
The number of time axis trace points
The number of frequency axis trace points
<integer> Number of trace data points
Details
This command is available when any one of the following traces is set to active:
● Spectrum
● Power vs Time
● Frequency vs Time
● Phase vs Time
● Spectrogram
Example of Use
To query the number of the data points of the main trace.
SWE:POIN?
> 1281
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:SWEep:POINts?
[:SENSe]:CHPower:SWEep:POINts?
[:SENSe]:OBWidth:SWEep:POINts?
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:TRACe:SWEep:COUNt?
Measurement Count Query
Function
This command queries the current storage count of the main trace.
Query
:TRACe:SWEep:COUNt?
Response
<integer>
Parameter
<integer>
Range
Resolution
Storage count
0 to 9999
1
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
● Spectrogram
This command is not available when Storage Mode on the main trace is set to Off.
Example of Use
To query the current storage count of the main trace.
TRAC:SWE:COUN?
> 10
2
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:DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer <freq>
Zoom Center
Function
This command sets the center frequency of the display frequency axis scale.
Command
:DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer <freq>
Parameter
<freq> Scale center frequency
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Suffix code HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To set the center frequency of the display frequency axis scale to 20 kHz.
DISP:TRAC:X:CENT 20KHZ
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:DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer?
Zoom Center Query
Function
This command queries the center frequency of the display frequency axis scale.
Query
:DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer?
Response
<freq>
Parameter
<freq> Scale center frequency
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the center frequency of the display frequency axis scale.
DISP:TRAC:X:CENT?
> 20000.0
2
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:DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh <freq>
Zoom Width/Vertical Scale Width
Function
This command sets the frequency width of the display frequency axis scale.
Command
:DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh <freq>
Parameter
<freq> Scale frequency width
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Suffix code HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To set the frequency width of the display frequency axis scale to 31.25
MHz.
DISP:TRAC:X:WIDT 31.25MHZ
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:DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh?
Zoom Width/Vertical Scale Width Query
Function
This command queries the frequency width of the display frequency axis scale.
Query
:DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh?
Response
<freq>
Parameter
<freq> Scale frequency width
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the frequency width of the display frequency axis scale.
DISP:TRAC:X:WIDT?
> 31250000.0
2
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[:SENSe]:BANDwidth|:BWIDth[:RESolution] <bandwidth>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Command
[:SENSe]:BANDwidth|:BWIDth[:RESolution] <bandwidth>
Parameter
<bandwidth>
Range/Resolution
Suffix code
Resolution bandwidth (RBW)
1 Hz to 10 MHz (1-3 Sequence)
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when either of the following traces is active:
● Spectrum
● Spectrogram
The setting range of this function is limited according to the frequency span setting. Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation Manual (Signal Analyzer function Operation) for details.
Example of Use
To set the RBW to 300 kHz.
BAND 300KHZ
Related Command
This command has the same function as the following commands.
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
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[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Query
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
Response
<bandwidth>
Parameter
<bandwidth>
Range/Resolution
Resolution bandwidth (RBW)
1 Hz to 10 MHz (1-3 Sequence)
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
● Spectrogram
The setting range of this function is limited according to the frequency span setting. Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation Manual (Signal Analyzer function Operation) for details.
Example of Use
To query the RBW.
BAND?
> 300000
Related Command
This command has the same function as the following commands.
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
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:CALCulate:BANDwidth|:BWIDth[:RESolution] <bandwidth>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
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:CALCulate:BANDwidth|:BWIDth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
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[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW) setting function.
Command
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO <switch>
Parameter
<switch>
0|OFF
1|ON
Automatic resolution bandwidth setting function
On/Off
Disables the automatic resolution bandwidth setting function.
Enables the automatic resolution bandwidth setting function (Default value).
Details
This command is available when either of the following trace is active:
● Spectrum
● Spectrogram
Example of Use
To enable the automatic resolution bandwidth setting function.
BAND:AUTO ON
Related Command
This command has the same function as the following commands.
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO[:SENSe]:O
BWidth:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO
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[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW) setting function.
Query
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
Response
<switch>
Parameter
<switch>
0
1
Automatic resolution bandwidth setting function
On/Off
Disables the automatic resolution bandwidth setting function.
Enables the automatic resolution bandwidth setting function.
Details
This command is available when the either of the following trace is active:
● Spectrum
● Spectrogram
Example of Use
To query the On/Off state of the automatic resolution bandwidth setting function.
BAND:AUTO?
> 1
Related Command
This command has the same function as the following commands.
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
2
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:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW) setting function.
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO
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2.7 Trace Settings
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW) setting function.
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
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[:SENSe]:DETector[:FUNCtion]
NORMal|POSitive|NEGative|SAMPle|AVERage
Detection Mode
Function
This command selects the detection mode for waveform pattern.
Command
[:SENSe]:DETector[:FUNCtion] <mode>
Parameter
<mode>
NORMal
POSitive
NEGative
SAMPle
AVERage
Default value
Detection mode
Simultaneous detection for positive and negative peaks
Positive peak detection
Negative peak detection
Sample detection
Average value detection
AVERage (Spectrum or Power vs Time trace)
NORMal (Frequency vs Time trace)
SAMPle (Phase vs Time trace)
Positive (For Spectrogram trace)
Details
This command is available on the following traces:
● Spectrum (NORMal cannot be selected.)
● Power vs Time
● Frequency vs Time
● Phase vs Time (NORMal cannot be selected.)
● Spectrogram (NORMal cannot be selected.)
Sample detection is available only for Phase vs Time.
Example of Use
To set the detection mode to the positive peak.
DET POS
Related Command
This command has the same function as the following commands.
:CALCulate:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]
:CALCulate:ACPower:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]
:CALCulate:CHPower:DETector[:FUNCtion]
[:SENSe]:OBWidth:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
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2.7 Trace Settings
[:SENSe]:DETector[:FUNCtion]?
Detection Mode Query
Function
This command queries the detection mode for waveform pattern.
Query
[:SENSe]:DETector[:FUNCtion]?
Response
<det>
Parameter
<det>
NORM
POS
NEG
SAMP
AVER
Detection mode selection
Simultaneous detection for positive and negative peaks
Positive peak detection
Negative peak detection
Sample detection
Average value detection
Details
This command is available on the following traces:
● Spectrum, Spectrogram (NROM cannot be selected.)
● Power vs Time
● Frequency vs Time
Example of Use
To query the detection mode.
DET?
> POS
Related Command
This command has the same function as the following commands.
:CALCulate:DETector[:FUNCtion]?
[:SENSe]:ACPower:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]?
[:SENSe]:OBWidth:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]?
2
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:CALCulate:DETector[:FUNCtion]
NORMal|POSitive|NEGative|SAMPle|AVERage
Detection Mode
Function
This command selects the detection mode for waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion].
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]
:CALCulate:ACPower:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]
:CALCulate:CHPower:DETector[:FUNCtion]
[:SENSe]:OBWidth:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
:CALCulate:DETector[:FUNCtion]?
Detection Mode Query
Function
This command queries the detection mode for waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]?
[:SENSe]:ACPower:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]?
[:SENSe]:OBWidth:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]?
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2.7 Trace Settings
:TRACe:STORage:MODE OFF|MAXHold|LAVerage|MINHold
Storage Mode
Function
This command sets the storage mode for active trace data.
Command
:TRACe:STORage:MODE <mode>
Parameter
<mode>
OFF
MAXHold
LAVerage
MINHold
Storage mode
Does not store data (Default value)
Stores the maximum value.
Stores the average value.
Stores the minimum value.
Details
Storage mode is fixed to Off and cannot be set, when Capture Time is set to Manual.
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time (LAVerage cannot be selected.)
● Spectrogram
This command is not available while the Replay function is being executed.
Example of Use
To set the storage mode to Max Hold.
TRAC:STOR:MODE MAXH
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:TRACe:STORage:MODE?
Storage Mode Query
Function
This command queries the storage mode for active trace data.
Command
:TRACe:STORage:MODE <mode>
Response
<mode>
Parameter
<mode>
OFF
MAXH
LAV
MINH
Storage mode
Does not store data.
Stores the maximum value.
Stores the average value
Stores the minimum value.
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time (LAVerage cannot be selected.)
● Spectrogram
Example of Use
To query the storage mode.
TRAC:STOR:MODE?
> LAV
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2.7 Trace Settings
[:SENSe]:AVERage:COUNt <integer>
Storage Count
Function
This command sets the storage count.
Command
[:SENSe]:AVERage:COUNt <integer>
Parameter
<integer>
Range
Default value
Storage count
2 to 9999
10
Details
This command is available when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
● Spectrogram
This command is not available while the Replay function is being executed.
Example of Use
To set the storage count to 110.
AVER:COUN 110
2
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:AVERage:COUNt
[:SENSe]:CHPower:AVERage:COUNt
[:SENSe]:OBWidth:AVERage:COUNt
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt
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[:SENSe]:AVERage:COUNt?
Storage Count Query
Function
This command queries the storage count.
Query
[:SENSe]:AVERage:COUNt?
Response
<integer>
Parameter
<integer>
Range
Storage count
2 to 9999
Details
This function can be set when any one of the following traces is active:
● Spectrum
● Power vs Time
● Frequency vs Time
● Spectrogram
Example of Use
To query the storage count.
AVER:COUN?
> 110
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:AVERage:COUNt?
[:SENSe]:CHPower:AVERage:COUNt?
[:SENSe]:OBWidth:AVERage:COUNt?
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt?
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmic] <rel_ampl>
Log Scale Range
Function
This command sets the Y-axis scale range when Scale Mode is set to Log.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c] <rel_ampl>
Parameter
<rel_ampl>
2
5
10
20
0.1
0.2
0.5
1
Default value
Y axis scale range
0.1 dB/div
0.2 dB/div
0.5 dB/div
1 dB/div
2 dB/div
5 dB/div
10 dB/div
20 dB/div
10 dB/div
Details
This command is available when either of the following traces is active:
● Spectrum
● Power vs Time
Example of Use
To set the Y-axis scale range to 0.5 dB/div.
DISP:WIND:TRAC:PDIV 0.5
Related Command
This command has the same function as the following commands.
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision
2
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:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmic]?
Log Scale Range Query
Function
This command queries the Y-axis scale range when Scale Mode is set to
Log.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]?
Response
<rel_ampl>
Parameter
<rel_ampl>
0.1
1
2
0.2
0.5
5
10
20
Default value
Y axis scale range
0.1 dB/div
0.2 dB/div
0.5 dB/div
1 dB/div
2 dB/div
5 dB/div
10 dB/div
20 dB/div
10 dB
Details
This command is available when either of the following traces is active:
● Spectrum
● Power vs Time
Example of Use
To query the scale range.
DISP:WIND:TRAC:PDIV?
> 0.5
Related Command
This command has the same function as the following commands.
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision?
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear <percent>
Linear Scale Range
Function
This command sets the Y-axis scale range when Scale Mode is set to
Linear.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear
<percent>
Parameter
<percent>
1
2
5
10
Default value
Y axis scale range
1%/div
2%/div
5%/div
10%/div
10%/div
Details
This command is available when either of the following traces is active:
● Spectrum
● Power vs Time
Example of Use
To set the Y-axis scale range to 10%/div.
DISP:WIND:TRAC:Y:PDIV:LIN 10
2
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:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear?
Linear Scale Range Query
Function
This command queries the Y-axis scale range when Scale Mode is set to
Linear.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear?
Response
<percent>
Parameter
<percent>
1
2
5
10
Default value
Y-axis scale range
1%/div
2%/div
5%/div
10%/div
10%/div
Details
This command is available when either of the following traces is active:
● Spectrum
● Power vs Time
Example of Use
To query the Y-axis scale range.
DISP:WIND:TRAC:PDIV:LIN?
> 10
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic] <line>
Log Scale Line
Function
This command sets the number of Y-axis scale segments in Log scale mode.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic]
<line>
Parameter
<line>
10
12
Number of Y-axis scale segments
10 segments (Default value)
12 segments
Details
This command is available only in Log scale mode.
This command is available when either of the following traces is active:
● Spectrum
● Power vs Time
Example of Use
To divide the Y-axis scale in Log scale mode.
DISP:WIND:TRAC:Y:LINE 12
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:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic]?
Log Scale Line Query
Function
This command queries the number of Y-axis scale segments in Log scale mode.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic]?
Response
<line>
Parameter
<line>
10
12
Number of Y-axis scale segments
10 segments
12 segments
Details
This command is available only in Log scale mode.
This command is available when either of the following traces is active:
● Spectrum
● Power vs Time
Example of Use
To query the number of Y-axis scale segments in Log scale mode.
DISP:WIND:TRAC:Y:LINE?
> 12
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2.7 Trace Settings
:CALCulate:SMOothing[:STATe] OFF|ON|0|1
Smoothing
Function
This command sets the main trace smoothing On/Off.
Command
:CALCulate:SMOothing[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Smoothing ON/OFF
On
Off
Details
This command is available when either of the following traces is active.
● Power vs Time
● Frequency vs Time
Example of Use
:CALCulate:SMOothing[:STATe]?
Smoothing Query
To execute the main trace smoothing.
CALC:SMO ON
Function
This command queries the On/Off state of the main trace smoothing.
Query
:CALCulate:SMOothing[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Smoothing ON/OFF
On
Off
Details
This command is available when either of the following traces is active:
● Power vs Time
● Frequency vs Time
Example of Use
To query the On/Off state of the active trace smoothing.
CALC:SMO?
> 1
2
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Chapter 2 SCPI Device Message Details
:CALCulate:SMOothing:LENGth <time>
Smoothing Time Length
Function
This command sets the main trace smoothing time length.
Command
:CALCulate:SMOothing:LENGth <time>
Parameter
<time> Smoothing time length
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for
Suffix code details.
NS,US,MS,S
S is used when omitted.
Details
This command is available when either of the following traces is active:
● Power vs Time
● Frequency vs Time
This command is not available in the following cases:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To set the smoothing time length to 20 µs.
CALC:SMO:LENG 20US
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2.7 Trace Settings
:CALCulate:SMOothing:LENGth?
Smoothing Time Length Query
Function
This command queries the main trace smoothing time length.
Query
:CALCulate:SMOothing:LENGth?
Response
<time>
Parameter
<time> Smoothing time length
Range/Resolution Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
Returns a value in s units without a suffix code.
Details
This command is available when either of the following traces is active:
● Power vs Time
● Frequency vs Time
2
Example of Use
To query the active trace smoothing time length.
CALC:SMO:LENG?
> 0.00002000
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Chapter 2 SCPI Device Message Details
:CALCulate:FILTer:TYPE OFF|RECT|GAUSsian|NYQuist|RNYQuist
Filter Type
Function
This command selects filter type for the main trace.
Command
:CALCulate:FILTer:TYPE <filter>
Parameter
<filter>
OFF
RECT
GAUSsian
NYQuist
RNYQuist
Filter type
No filtering
Rectangle filter
Gauss filter
Nyquist filter
Root Nyquist filter
Details
This command is available when either of the following traces is active:
● Power vs Time
● CCDF (Only RECT or OFF can be selected)
Fixed to Off when the frequency span is set to 1 kHz.
Example of Use
To set the filter type to Nyquist.
CALC:FILT:TYPE NYQ
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2.7 Trace Settings
:CALCulate:FILTer:TYPE?
Filter Type Query
Function
This command queries filter type for the main trace.
Query
:CALCulate:FILTer:TYPE?
Response
<filter>
Parameter
<filter>
OFF
RECT
GAUS
NYQ
RNYQ
Filter type
No filtering
Rectangle filter
Gauss filter
Nyquist filter
Root Nyquist filter
Details
This command is available when either of the following traces is active:
● Power vs Time
● CCDF (Only RECT or OFF can be selected)
Fixed to Off when the frequency span is set to 1 kHz.
Example of Use
To query the filter type.
CALC:FILT:TYPE?
> NYQ
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Chapter 2 SCPI Device Message Details
:CALCulate:FILTer:ALPHa <real>
Rolloff Factor
Function
This command sets the filter rolloff factor.
Command
:CALCulate:FILTer:ALPHa <real>
Parameter
<real>
Range
Resolution
Suffix code
Filter rolloff factor
0.01 to 1.00
0.01
None
Details
This command is available when the following trace is set to active:
● Power vs Time
This command is available when Filter Type
(cf. :CALCulate:FILTer:TYPE) is set to either of the following:
● Nyquist
● Root Nyquist
Example of Use
To set the filter rolloff factor to 0.22.
CALC:FILT:ALPH 0.22
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2.7 Trace Settings
:CALCulate:FILTer:ALPHa?
Rolloff Factor Query
Function
This command queries the filter rolloff factor.
Command
:CALCulate:FILTer:ALPHa?
Response
<real>
Parameter
<real>
Range
Resolution
Suffix code
Filter rolloff factor
0.01 to 1.00
0.01
None
Details
This command is available set when the following trace is set to active:
● Power vs Time
This command is available, when Filter Type
(cf. :CALCulate:FILTer:TYPE) is set to either of the following:
● Nyquist
● Root Nyquist
Example of Use
To query the filter rolloff factor.
CALC:FILT:ALPH?
> 0.22
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Chapter 2 SCPI Device Message Details
:CALCulate:FILTer:BANDwidth <bandwidth>
Filter Bandwidth
Function
This command sets the filter bandwidth of the main trace.
Command
:CALCulate:FILTer:BANDwidth <bandwidth>
Parameter
<bandwidth> Filter bandwidth
Range/Resolution Limited by settings for Frequency Span and
Suffix code
Filter Type.
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when any one of the following traces is active:
● Power vs Time
● Frequency vs Time
● CCDF
This command is available when the filter type for the active trace is set to one of the following:
● Rect
● Gauss
● Nyquist
● Root Nyquist
The setting range is limited by the Frequency Span and Filter Type settings.
Example of Use
To set the filter bandwidth of the main trace to 1 MHz.
CALC:FILT:BAND 1MHZ
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2.7 Trace Settings
:CALCulate:FILTer:BANDwidth?
Filter Bandwidth Query
Function
This command queries the filter bandwidth of the main trace.
Query
:CALCulate:FILTer:BANDwidth?
Response
<bandwidth>
Parameter
<bandwidth> Filter bandwidth
Range/Resolution Limited by settings for Frequency Span and
Filter Type.
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
No suffix code. Value is returned in Hz units.
Details
This command is available when any one of the following traces is active:
● Power vs Time
● Frequency vs Time
● CCDF
2
This command is available when the filter type for the active trace is set to one of the following:
● Rect
● Gauss
● Nyquist
● Root Nyquist
The setting range is limited by the Frequency Span and Filter Type settings.
Example of Use
To query the filter bandwidth of the main trace.
CALC:FILT:BAND?
> 1000000
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Chapter 2 SCPI Device Message Details
:CALCulate:FILTer:FOFFset <freq>
Filter Frequency Offset
Function
This command sets the frequency offset of the main trace.
Command
:CALCulate:FILTer:FOFFset <freq>
Parameter
<freq>
Range
Resolution
Suffix code
Channel width
− 1 × frequency span to Frequency span Hz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when either of the following traces is active:
● Power vs Time
● CCDF
This command is available when the filter type for the active trace is one of the following:
● Rect
● Gauss
● Nyquist
● Root Nyquist
Example of Use
To set the filter frequency offset of the main trace to 30 kHz.
CALC:FILT:FOFF 30KHZ
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2.7 Trace Settings
:CALCulate:FILTer:FOFFset?
Filter Frequency Offset Query
Function
This command queries the frequency offset of the main trace.
Query
:CALCulate:FILTer:FOFFset <freq>
Response
<freq>
Parameter
<freq>
Range
Resolution
Channel width
− 1 × frequency to Frequency span Hz
1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when either of the following traces is active:
● Power vs Time
● CCDF
This command is available when the filter type for the active trace is one of the following:
● Rect
● Gauss
● Nyquist
● Root Nyquist
Example of Use
To query the frequency offset of the main trace.
CALC:FILT:FOFF?
> 30000
2
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:CALCulate:FILTer:BANDwidth:AUTO ON|OFF|1|0
Filter Auto/Manual
Function
This command switches between auto and manual mode for filter bandwidth.
Command
:CALCulate:FILTer:BANDwidth:AUTO <switch>
Parameter
<switch>
ON|1
OFF|0
Auto/manual filter bandwidth setting
Sets filter bandwidth automatically.
Sets filter bandwidth manually.
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To set filter bandwidth automatically.
CALC:FILT:BAND:AUTO ON
:CALCulate:FILTer:BANDwidth:AUTO?
Filter Auto/Manual Query
Function
This command queries the state of the filter bandwidth.
Query
:CALCulate:FILTer:BANDwidth:AUTO?
Response
<switch>
Parameter
<switch>
1
0
Auto/manual filter bandwidth
Auto
Manual
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To query the filter bandwidth setting.
CALC:FILT:BAND:AUTO?
> 1
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2.7 Trace Settings
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe D2|D5|D10|D25
Zoom Width/Vertical Scale Width
Function
This command sets the frequency width of the display frequency axis scale.
Command
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe <scale>
Parameter
<scale>
D2
D5
D10
D25
Scale frequency width
Frequency bandwidth/2
Frequency bandwidth/5
Frequency bandwidth /10
Frequency bandwidth /25
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To set the scale frequency bandwidth/10.
DISP:TRAC:Y:RANG D10
2
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:DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe?
Zoom Width/Vertical Scale Width Query
Function
This command queries the frequency width of the display frequency axis scale.
Query
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe?
Response
<scale>
Parameter
<scale>
D2
D5
D10
D25
Scale frequency width
Frequency bandwidth /2
Frequency bandwidth /5
Frequency bandwidth /10
Frequency bandwidth /25
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To query the scale frequency width.
DISP:TRAC:Y:RANG?
> D10
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2.7 Trace Settings
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:WIDTh?
Maximum Frequency Range Query
Function
This command queries the maximum value of the frequency display range.
Query
:DISPlay[:WINDow]:TRACe:Y[:SCALe]:WIDTh?
Response
<freq>
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To query the maximum value of the frequency display range.
DISP:TRAC:Y:WIDT?
> 6250000.00
:UNIT:FREQuency HZ|DHZ
Frequency Scale Unit
Function
This command sets the display unit system of the frequency axis.
Command
:UNIT:FREQuency <unit>
Parameter
<unit>
HZ
DHZ
Display unit system of the frequency axis
Hz
∆ Hz
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To set the display unit system to Hz.
UNIT:FREQ HZ
2
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:UNIT:FREQuency?
Frequency Scale Unit Query
Function
This command queries the display unit system of the frequency axis.
Query
:UNIT:FREQuency?
Response
<unit>
Parameter
<unit>
HZ
DHZ
Display unit system of the frequency axis
Hz
∆ Hz
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To query the display unit system.
UNIT:FREQ?
> HZ
:CALCulate:CCDF|:PSTatistic:METHod CCDF|APD
Measure Method
Function
This command selects the measurement method for CCDF trace.
Command
:CALCulate:CCDF|:PSTatistic:METHod <mode>
Parameter
<mode>
APD
CCDF
Measurement method for CCDF trace
APD Measurement
CCDF Measurement
Details
This command is available when the following trace is active:
● CCDF
Example of Use
To set the APD measurement mode.
CALC:CCDF:METH APD
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:CALCulate:CCDF|:PSTatistic:METHod?
Measure Method Query
Function
This command queries the measurement method for CCDF trace.
Query
:CALCulate:CCDF|:PSTatistic:METHod?
Response
<mode>
Parameter
<mode>
APD
CCDF
Measurement method for CCDF trace
APD measurement
CCDF measurement
Details
This command is available when the following trace is active:
● CCDF
Example of Use
To query the measurement method.
CALC:CCDF:METH?
> APD
:CALCulate:CCDF|:PSTatistic:THReshold:STATe ON|OFF|1|0
CCDF Threshold On/Off
Function
This command sets On/Off the minimum level setting for the CCDF measurement. When set to On, signals having a level less than the value specified by Threshold are excluded from the measurement target.
Command
:CALCulate:CCDF|:PSTatistic:THReshold:STATe <switch>
Parameter
<switch>
ON|1
OFF|0
Threshold On/Off
Sets Threshold to On
Set Threshold to Off
Details
This command is available when the CCDF trace is active.
This command is not available when Terminal is selected DigRF 3G (only for MS269x Series).
Example of Use
To set Threshold to On:
CALC:CCDF:THR:STAT ON
2
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:CALCulate:CCDF|:PSTatistic:THReshold:STATe?
CCDF Threshold On/Off
Function
This command queries On/Off the minimum level setting for the CCDF measurement.
Query
:CALCulate:CCDF|:PSTatistic:THReshold:STATe?
Response
<switch>
1
0
Threshold On/Off
Sets Threshold to On
Sets Threshold to Off
Details
This command is available when the CCDF trace is active.
This command is not available in the following case when Terminal is selected DigRF 3G (only for MS269x Series).
Example of Use
To query the threshold On/Off.
CALC:CCDF:THR:STAT?
> ON
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2.7 Trace Settings
:CALCulate:CCDF|:PSTatistic:THReshold <ampl>
CCDF Threshold
Function
This command sets the minimum level of the input signal for the CCDF measurement.
Command
:CALCulate:CCDF|:PSTatistic:THReshold <ampl>
Parameter
<ampl>
Range
Resolution
Suffix code
Minimum level of input signal
− 170 to reference level (Reference Level)dBm
When the reference level offset value is On, it is added to the range.
0.01 dB
DBM,DM dB is used when omitted.
Details
This command is available when the CCDF trace is active.
This command is not available in the case when Terminal is selected
DigRF 3G (only for MS269x Series).
Example of Use
To set the minimum level to −20 dBm:
CALC:CCDF:THR -20
2
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Chapter 2 SCPI Device Message Details
:CALCulate:CCDF|:PSTatistic:THReshold?
CCDF Threshold Query
Function
This command queries the minimum level of the input signal for the
CCDF measurement.
Query
:CALCulate:CCDF|:PSTatistic:THReshold?
Response
<ampl>
Parameter
<ampl>
Range
Resolution
Suffix code
Minimum level of input signal
− 170 to reference level (Reference Level)dBm
When the reference level offset value is On, it is added to the range.
0.01 dB
None
Value is returned in dBm unit.
Details
This command is available when the CCDF trace is active.
This command is not available in the case when Terminal is selected
DigRF 3G (only for MS269x Series).
Example of Use
To query the minimum level:
CALC:CCDF:THR?
> -20.00
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2.7 Trace Settings
:CALCulate:CCDF|:PSTatistic:MODE TIME|COUNt
CCDF Meas Mode
Function
This command sets the specified method of the measurement target for the CCDF trace.
Command
:CALCulate:CCDF|:PSTatistic:MODE <mode>
Parameter
<mode> Specified method for CCDF trace to be measured
TIME Analyses Range data specified at Time Length
COUNT Measures until specified data count reached
Details
This command is available when the CCDF trace is active.
This command is not available in the case when Terminal is selected
DigRF 3G (only for MS269x Series).
This function can be set when Capture Time is Auto.
Example of Use
To set specified CCDF trace measurement method to data count.
:CALC:CCDF:MODE COUN
2
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Chapter 2 SCPI Device Message Details
:CALCulate:CCDF|:PSTatistic:MODE?
CCDF Meas Mode Query
Function
This command queries the specified method of the measurement target for the CCDF trace.
Command
:CALCulate:CCDF|:PSTatistic:MODE?
Response
<mode>
TIME
COUN
Specified method for CCDF trace to be measured
Analyses Range data specified at Time Length
Measures until specified data count reached
Details
This command is available when the CCDF trace is active.
This command is not available in the case when Terminal is selected
DigRF 3G (only for MS269x Series).
Example of Use
To query specified CCDF trace measurement method to data count.
:CALC:CCDF:MODE?
> COUN
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2.7 Trace Settings
:CALCulate:CCDF|:PSTatistic:COUNts <sample>
Data Count
Function
This command specifies the measurement target data count of the CCDF trace.
Command
:CALCulate:CCDF|:PSTatistic:COUNts <sample>
2
Parameter
<sample>
Range
Resolution
Default
Data count for measurement target
100 to 2000000000
1 sample
10000000
Details
This command is available when the CCDF trace is active.
This command is not available in the case when Terminal is selected
DigRF 3G (only for MS269x Series).
This function can be set when Capture Time is Auto.
Example of Use
To set the measurement target data count of the CCDF trace to 5000000:
CALC:CCDF:COUN 5000000
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:CALCulate:CCDF|:PSTatistic:COUNts?
Data Count Query
Function
This command queries the measurement target data count of the CCDF trace.
Command
:CALCulate:CCDF|:PSTatistic:COUNts?
Response
<sample> Measurement target data count
Details
This command is available when the CCDF trace is active.
This command is not available in the case when Terminal is selected
DigRF 3G (only for MS269x Series).
Example of Use
To query the measurement target data count of the CCDF trace:
CALC:CCDF:COUN?
> 5000000
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2.7 Trace Settings
:CALCulate:CCDF|:PSTatistic:STORe:REFerence
Store Reference Trace
Function
This command records the current CCDF/APD waveform data in the internal memory as user-defined reference trace data.
Command
:CALCulate:CCDF|:PSTatistic:STORe:REFerence
Details
This function can be set when the CCDF trace is active.
Example of Use
To record the current measurement result in the reference data.
CALC:CCDF:STOR:REF
[:SENSe]:CCDF|:PSTatistic:RTRace[:STATe] ON|OFF|1|0
Reference Trace
Function
This command sets whether to show or hide the reference trace data recorded by the user during CCDF measurement.
Command
[:SENSe]:CCDF|:PSTatistic:RTRace[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Displays the reference trace data.
Does not display the reference trace data.
Details
This function can be set when the CCDF trace is active.
However, this function cannot be set when Measure Method is APD.
Nothing can be set when no reference trace data is recorded.
Example of Use
To display the reference trace data.
CCDF:RTR ON
2
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[:SENSe]:CCDF|:PSTatistic:RTRace[:STATe]?
Reference Trace Query
Function
This command queries the display status of reference trace data during
CCDF measurement.
Query
[:SENSe]:CCDF|:PSTatistic:RTRace[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Reference trace setting
Displays the reference trace data.
Does not display the reference trace data.
Example of Use
To query the display setting for a reference trace.
CCDF:RTR?
> 0
[:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe] ON|OFF|1|0
Gaussian Trace
Function
This command sets whether to show or hide the Gaussian trace data during CCDF measurement.
Command
[:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Displays Gaussian trace data.
Does not display Gaussian trace data.
Details
This function can be set when the CCDF trace is active.
However, this function cannot be set when Measure Method is APD.
Example of Use
To display Gaussian trace data.
CCDF:GAUS ON
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2.7 Trace Settings
[:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe]?
Gaussian Trace Query
Function
This command queries the display status of Gaussian trace data during
CCDF measurement.
Query
[:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Example of Use
:CALCulate:MARKer[1][:PEAK]:X:DELTa?
Marker Query
Function
This command queries the difference value for a Gaussian trace or reference trace of a CCDF trace.
Query
:CALCulate:MARKer[n][:PEAK]:X:DELTa?
Response
To query the display setting for a Gaussian trace.
CCDF:GAUS?
> 0
<dist>
(When the CCDF trace and marker axis are set to Distribution)
<dist_result_gauss>,<dist_result_ref>
(When the CCDF trace and marker axis are set to probability)
Parameter
Gaussian trace setting
Displays Gaussian trace
Does not display Gaussian trace
<n>
1
When omitted
<dist>
Marker number
Targets marker specified by Marker Axis (CCDF)
Targets marker specified by Marker Axis (CCDF)
Marker position
Range/Resolution Within the trace-display power deviation range
Refer to the MS2690A/MS2691A/MS2692A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
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Chapter 2 SCPI Device Message Details
Details
Example of Use
Suffix code function Operation) for details.
None. Value is returned in dB unit.
<dist_result_gauss> Difference from the Gaussian trace at the marker position
Range/Resolution Within the trace-display power deviation range
Refer to the MS2690A/MS2691A/MS2692A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer function Operation) for details.
Suffix code None. Value is returned in dB unit.
Returns “–999.0” at Gaussian trace
Off/Unmeasured/Error.
<dist_result_ref> Difference from the reference trace at the marker position
Range/Resolution Within the trace-display power deviation range
Refer to the MS2690A/MS2691A/MS2692A Signal
Analyzer Operation Manual (Signal Analyzer
Suffix code
Function Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer function Operation) for details.
None. Value is returned in dB unit.
Returns “–999.0” at reference trace
Off/Unmeasured/Error.
This function can be set when the CCDF trace is active.
To query delta marker value:
CALC:MARK:X:DELT?
> 0.065
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision <rel_ampl>
Power Distribution Scale
Function
This command sets power distribution axis scale.
Command
:DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision <rel_ampl>
Parameter
<rel_ampl>
5
10
20
50
Power distribution axis scale
5 dB
10 dB
20 dB
50 dB
Details
This command is available when the CCDF trace is active.
Example of Use
To set the power distribution axis scale to 10 dB:
DISP:WIND:TRAC:X:PDIV 10
:DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision?
Power Distribution Scale Query
Function
This command queries the power distribution axis scale.
Query
:DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision?
Response
<rel_ampl>
Parameter
<rel_ampl>
5
10
20
50
Power distribution axis scale
5 dB
10 dB
20 dB
50 dB
Details
This command is available set when the CCDF trace is active.
Example of Use
To query the power distribution axis scale.
DISP:WIND:TRAC:X:PDIV?
> 10
2
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:CALCulate:MARKer:AXIS PROB|DSTRbt
Marker Axis
Function
This command specifies the marker movement axis for the main trace.
Command
:CALCulate:MARKer:AXIS <mode>
Parameter
<mode>
PROB
DSTRbt
Marker movement axis
Probability distribution direction (vertical axis)
Power distribution direction (horizontal axis)
Details
This command is available when the CCDF trace is active.
Example of Use
To set the marker movement axis into the probability distribution direction.
CALC:MARK:AXIS PROB
:CALCulate:MARKer:AXIS?
Marker Axis Query
Function
This command queries the marker movement axis for the main trace.
Query
:CALCulate:MARKer:AXIS?
Response
<mode>
Parameter
<mode>
PROB
DSTR
Marker movement axis
Probability distribution direction (vertical axis)
Power distribution direction (horizontal axis)
Details
This command is available when the CCDF trace is set to active.
Example of Use
To query the marker movement axis.
CALC:MARK:AXIS?
> PROB
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2.7 Trace Settings
[:SENSe]:CCDF|:PSTatistic:ERESet[:STATe] ON|OFF|1|0
Reset Result Every Capture
Function
This command sets whether to reset the result after each CCDF measurement.
Command
[:SENSe]:CCDF|:PSTatistic:ERESet[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Resets the result after each measurement
Does not reset the result after each measurement
Details
This command is available when the CCDF trace is active.
This command is not available while the Replay function is being executed.
Example of Use
To set to reset the result after each measurement.
CCDF:ERES ON
2
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[:SENSe]:CCDF|:PSTatistic:ERESet[:STATe]?
Reset Result Every Capture Query
Function
This command queries whether to reset the result after each CCDF measurement.
Query
[:SENSe]:CCDF|:PSTatistic:ERESet[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Resets the result after each measurement.
Does not reset the result after each measurement
Details
This function can be set when the following trace is active:
● CCDF
Example of Use
To query whether to reset the result after each measurement.
CCDF:ERES?
> 1
:CONFigure:CCDF|:PSTatistic
CCDF Configure
Function
This command switches the trace mode to CCDF.
Command
:CONFigure:CCDF|:PSTatistic
Details
No measurement is performed.
This command is not available in the following cases:
● When Terminal is selected DigRF 3G (only for MS269x Series).
Example of Use
To switch to CCDF trace.
CONF:CCDF
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2.7 Trace Settings
:INITiate:CCDF|:PSTatistic
CCDF Initiate
Function
This command performs CCDF measurement once.
Command
:INITiate:CCDF|:PSTatistic
Details
When this function is executed, CCDF trace is set to On and single measurement is executed.
This command is not available in the following cases:
● When Terminal is selected for DigRF 3G (only for MS269x Series).
Example of Use
To perform the single CCDF measurement.
INIT:CCDF
2
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Chapter 2 SCPI Device Message Details
:FETCh:CCDF|:PSTatistic[n]?
CCDF Fetch
Function
This command queries the result for CCDF measurement.
Query
:FETCh:CCDF|:PSTatistic[n]?
Response
When Result Mode is “A”.
<mean_power>,<peak_power_dbm>,<crest>
(n = 1 or when omitted)
<rel_ampl_1>,<rel_ampl_2>,<rel_ampl_3>,<rel_ampl_4>,
<rel_ampl_5>,<rel_ampl_6>
(n = 2)
<percent_1>,<percent_2>,<percent_3>,<percent_4>,
<percent_5>
(n = 3)
[Measure method is CCDF]
<meas_per_1>,<meas_per_2>,...< meas_per_5001>
[Measure method is APD]
<meas_per_1>,<meas_per_2>,...< meas_per_10001>
(n=4)
<gauss_per_1>,<gauss_per_2>,...<guass_per_5001>
(n=5)
[Measure method is CCDF]
<ref_per_1>,<ref_per_2>,...<ref_per_5001>
[Measure method is APD]
<ref_per_1>,<ref_per_2>,...<ref_per_10001>
(n=6)
<count>
(n=7)
<mean_power_range_1>,<peak_power_dbm_range_1>,
<crest_range_1>
(n=8)
<rel_ampl_ range_1_1>,<rel_ampl_ range_1_2>,
<rel_ampl_ range_1_3>,<rel_ampl_ range_1_4>,
<rel_ampl_ range_1_5>,<rel_ampl_ range_1_6>
(n=9)
<percent_range_1_1>,<percent_range_1_2>,
<percent_range_1_3>,<percent_ range_1_4>,
<percent_ range_1_5>
(n=10)
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2.7 Trace Settings
[Measure Method is CCDF]
<meas_per_ range_1_1>,<meas_per_ range_1_2>,...
<meas_per_ range_1_5001>
[Measure Method is APD]
<meas_per_ range_1_1>,<meas_per_ range_1_2>,...
<meas_per_ range_1_10001>
(n=11)
[Measure Method is CCDF]
<ref_per_range_1_1>,<ref_per_range_1_2>,...
<ref_per_range_1_5001>
[Measure Method is APD]
<ref_per_range_1_1>,<ref_per_range_1_2>,...
<ref_per_range_1_10001>
<count_range_1>
(n=13)
(n=14)
<mean_power_range_2>,<peak_power_dbm_range_2>,
<crest_range_2>
(n=15)
<rel_ampl_range_2_1>,<rel_ampl_range_2_2>,
<rel_ampl_range_2_3>,<rel_ampl_range_2_4>,
<rel_ampl_range_2_5>,<rel_ampl_range_2_6>
(n=16)
<percent_range_2_1>,<percent_range_2_2>,
<percent_range_2_3>,<percent_range_2_4>,
<percent_range_2_5>
(n=17)
[Measure Method is CCDF]
<meas_per_range_2_1>,<meas_per_range_2_2>,...
<meas_per_range_2_5001>
[Measure Method is APD]
<meas_per_range_2_1>,<meas_per_range_2_2>,...<meas_per_ range_2_10001>
(n=18)
[Measure Method is CCDF]
<ref_per_range_2_1>,<ref_per_range_2_2>,...
<ref_per_range_2_5001>
[Measure Method is APD]
<ref_per_range_2_1>,<ref_per_range_2_2>,...
<ref_per_range_2_10001>
(n=20)
<count_range_2>
(n=21)
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<mean_power_range_3>,<peak_power_dbm_range_3>,
<crest_range_3>
(n=22)
<rel_ampl_range_3_1>,<rel_ampl_range_3_2>,
<rel_ampl_range_3_3>,<rel_ampl_range_3_4>,
<rel_ampl_range_3_5>,<rel_ampl_range_3_6>
(n=23)
<percent_range_3_1>,<percent_range_3_2>,
<percent_range_3_3>,<percent_range_3_4>,
<percent_range_3_5>
(n=24)
[Measure Method is CCDF]
<meas_per_range_3_1>,<meas_per_range_3_2>,...
<meas_per_range_3_5001>
[Measure Method is APD ]
<meas_per_range_3_1>,<meas_per_range_3_2>,...
<meas_per_range_3_10001>
(n=25)
[Measure Method is CCDF]
<ref_per_range_3_1>,<ref_per_range_3_2>,...
<ref_per_range_3_5001>
[Measure Method is APD]
<ref_per_range_3_1>,<ref_per_range_3_2>,...
<ref_per_range_3_10001>
(n=27)
<count_range_3>
(n=28)
When Result Mode is “B”.
<mean_power>,<mean_power_prob>,<rel_ampl_1>,
<rel_ampl_2>,<rel_ampl_3>,<rel_ampl_4>,<rel_ampl_5>,
<rel_ampl_6>,<crest>,<count>
(n = 1 or when omitted)
[Measure method is CCDF]
<meas_per_1>,<meas_per_2>,...< meas_per_5001>
[Measure method is APD]
<meas_per_1>,<meas_per_2>,...< meas_per_10001>
(n=2)
<gauss_per_1>,<gauss_per_2>,...<guass_per_5001>
(n=3)
[Measure method is CCDF]
<ref_per_1>,<ref_per_2>,...<ref_per_5001>
[APD]
<ref_per_1>,<ref_per_2>,...<ref_per_10001>
(n=4)
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Parameter
2.7 Trace Settings
Measurement result type
<mean_power> Average power
<peak_power dbm> Maximum power
Returns a value in dBm units without a suffix code.
− 999.0 is returned when no measurement is performed or an error has occurred.
<percent_n> Each of them indicates its probability distribution in each power fluctuation, below.
● 1, 2, 3, 4, 5 dB
(When Horizontal Scale is set to 5 dB)
● 2, 4, 6, 8, 10 dB
(When Horizontal Scale is set to 10 dB)
● 4, 8, 12, 16, 20 dB
(When Horizontal Scale is set to 20 dB)
● 10, 20, 30, 40, 50 dB
(When Horizontal Scale is set to 50 dB)
Returns a value in % units without a suffix code.
–999.0 is returned when no measurement is performed or an error has occurred.
<meas_per_n> Each value indicates the power deviation of the measured value in the probability distributions below.
● –50.00,–49.99, ...,49.99, 50.00 dB
(APD)
● 00.00, 00.01, ...,49.99, 50.00 dB
(CCDF)
A percentage value without a suffix code that has a resolution of 0.0001% is returned.
–999.0 is returned at no measurement or error
<guauss_percent_n> Each value indicates the power deviation of the
Gaussian trace in the probability distributions below.
● –50.00, –49.99, ...,49.99, 50.00 dB
(This is for APD. "-999.0" is returned for all values.))
● 00.00, 00.01, ...,49.99, 50.00 dB
(CCDF)
A percentage value without a suffix code that has a resolution of 0.0001% is returned.
–999.0 returned at no measurement or error
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<ref_percent_n> Each value indicates the power deviation of the reference trace in the probability distributions below.
●–50.00, –49.99, ...,49.99, 50.00 dB
(APD)
● 00.00, 00.01, ...,49.99, 50.00 dB
(CCDF)
A percentage value without a suffix code that has a resolution of 0.0001% is returned.
–999.0 returned at no measurement or error
<mean_power_prob> Probability distribution of average power
Returns a value in % units without a suffix code.
–999.0 is returned when no measurement is performed or an error has occurred.
<rel_ampl_n> Each of them indicates its power fluctuation in each probability distribution, below.
● 10,1, 0.1, 0.01, 0.001, 0.0001%
<crest> Crest factor
No suffix code. Value is returned in dB units.
–999.0 is returned when no measurement is performed or an error has occurred.
<count> Number of data samples
No suffix code
–999.0 is returned when no measurement is performed or an error has occurred.
<mean_power_range_m> Displays Range m average power.
Enabled when Gate Mode = On with
Range m On.
Returns “–999.0” at
Unmeasured/Error/disabled.
<peak_power dbm_range_m> Displays Range m max. power.
Suffix code No suffix code; returns dBm value.
Enabled when Gate Mode = On with Range m On.
Returns “–999.0” at Unmeasured/Error/Disabled.
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<percent_range_m _n> Displays probability distribution for each of following Range m measured power deviation.
● 1, 2, 3, 4, 5 dB
(For 5 dB Horizontal Scale setting)
● 2, 4, 6, 8, 10 dB
(For 10 dB Horizontal Scale setting)
● 4, 8, 12, 16, 20 dB
Suffix code:
(For 20 dB Horizontal Scale setting)
● 10, 20, 30, 40, 50 dB
(For 50 dB Horizontal Scale setting)
No suffix code; returns % units and
0.0001% resolution.
Enabled when Gate Mode = On with Range m On.
Returns “–999.0” at Unmeasured/Error/Disabled.
2
<meas_per_range_m _n> Displays probability distribution for each of following Range m measured power deviation.
●–50.00, –49.99, ...,49.99,50.00 dB
(For APD)
● 00.00,00.01, ...,49.99,50.00 dB
(For CCDF)
Suffix code No suffix code; returns % units and
0.0001% resolution.
Enabled when Gate Mode = On with Range m On.
Returns “–999.0” at Unmeasured/Error/Disabled.
<ref_per_range_m _n> Displays probability distribution for each of following Range m reference trace power deviation.
● –50.00, –49.99, ..., 49.99, 50.00 dB
Suffix code
(For APD)
● 00.00, 00.01, ..., 49.99, 50.00 dB
(For CCDF)
No suffix code; returns % units and
0.0001% resolution.
Enabled when Gate Mode = On with Range m On.
Returns “–999.0” at Unmeasured/Error/Disabled.
<mean_power_prob_range_m> Range m average power probability distribution
Suffix code No suffix code; returns % units.
Enabled when Gate Mode = On with Range m On.
Returns “–999.0” at Unmeasured/Error/Disabled.
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Details
Example of Use
<rel_ampl_range_m _n> Displays power deviation for each of following Range m probability distribution
● 10, 1, 0.1, 0.01, 0.001, 0.0001%
Enabled when Gate Mode = On with Range m On.
Returns “–999.0” at Unmeasured/Error/Disabled.
This function queries the measurement result of the CCDF measurement performed last. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
Return values in this function vary depending on the compatibility mode.
(cf. :SYSTem:COMPatible:MODE)
This command is available when the following trace is active:
● CCDF
To query the measurement result for CCDF measurement (n = 1, A mode).
FETC:CCDF?
> -10.43,7.00,-5.00
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2.7 Trace Settings
:READ:CCDF|:PSTatistic[n]?
CCDF Read
Function
This command performs CCDF measurement and queries the result.
This command has the same function as the following commands executed in this order:
:INITiate:CCDF|:PSTatistic
:FETCh:CCDF|:PSTatistic[n]?
:MEASure: CCDF|:PSTatistic [n]?
CCDF Measure
Function
This command performs CCDF measurement and outputs the result.
This command has the same function as the following commands executed in this order:
:CONFigure:CCDF|:PSTatistic
:INITiate:CCDF|:PSTatistic
:FETCh:CCDF|:PSTatistic[n]?
2
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:CALCulate:MARKer[1]:Y <prob>
Marker Frequency
Function
This command moves the center of the marker to the specified probability.
Command
:CALCulate:MARKer[n]:Y <prob>
Parameter
<dist> Marker position
Range/Resolution In the probability distribution range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) for details.
No suffix code. Unit: %
Details
When the marker position has changed, the target marker will be set to
On and change into active marker. For CCDF, Marker Axis will change into Probability.
Example of Use
To move the marker to 1%.
CALC:MARK:Y 1
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2.7 Trace Settings
:TRACe:STORage:STOP
Storage Stop
Function
This command stops capturing the waveform which is in execution. It functions when Storage Mode of the main trace is Lin Average, Max.
Hold, or Min Hold.
Command
:TRACe:STORage:STOP
Details
This command is not available while the Replay function is being executed.
Example of Use
To stop capturing the waveform.
TRAC:STOR:STOP
:TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
CCDF Trigger Source
Function
This command sets the trigger source type.
Refer to TRIGger[:SEQuence]:SOURce.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce
TRIGger:ACPower[:SEQuence]:SOURce
TRIGger:CHPower[:SEQuence]:SOURce
TRIGger:OBWidth[:SEQuence]:SOURce
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
2
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:TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
CCDF Trigger Source Query
Function
This command queries the trigger source.
Refer to TRIGger[:SEQuence]:SOURce?.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce?
TRIGger:ACPower[:SEQuence]:SOURce?
TRIGger:CHPower[:SEQuence]:SOURce?
TRIGger:OBWidth[:SEQuence]:SOURce?
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
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2.7 Trace Settings
:TRACe[:DATA]? [<start>[,<length>]]
Query Trace Data
Function
This command queries the trace data.
Query
:TRACe[:DATA]? [<start>[,<length>]]
Response
<data_1>,<data_2>,...
If REAL,32 is set for FORMat[:DATA], the output of “# (ASCII format)” is followed by the output of “Range of character string indicating byte length of binary data (ASCII format”, “Byte length of binary data (ASCII format)”, and “Trace data string (binary format)”, in this order. In the case of the binary format too, the response message terminator is attached (refer to “1.7.2 SCPI response message format” in the
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal Analyzer
Operation Manual (Mainframe Remote Control).
Example: To query 1,001 points of trace data when FORMat[:DATA] is
REAL,32.
> #44004<4004 bytes of data>
The number 4 following # indicates that four characters that indicate the binary data length follow. “4004” indicates that “this is followed by 4004 bytes of binary data.”
2
Parameter
<start>
When omitted:
<length>
Starting point to read out
Range
Resolution
0 to Number of trace points – 1
1
0
Query length
Range
Resolution
1 to Number of trace points – <start>
For Spectrum trace, the maximum number is
5121.
1
When omitted:
<data_n>
Number of trace points – <start>
If 5122 or more is set, 5121 is automatically set.
Trace data
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For Spectrum or Power vs Time, Spectrogram trace
Resolution (In Log scale)
0.001 dBm
(In Linear scale)
Reference level is 10000.
{ Voltage (V) / Reference level (V) } × 10000
–999.0 is returned when no measurement is performed or an error has occurred.
Data range Returns a value in the range of Start Freq to
Stop Freq for Spectrum trace.
Returns a value in the range of Analysis Start
Time to Analysis Start Time + Analysis Time
Length for Power vs Time trace.
Divides a trace into the number of trace points and returns a value in the range of Start to
Length for Spectrogram.
For the coordinates (frequency, time), the (Start
Frequency, 0 seconds) position is point 0, and, for subsequent points, the time coordinate is fixed and the trace point position increases along the frequency axis. When the frequency axis coordinate reaches Stop Frequency, the time coordinate increases by one point and the trace point position again increases along the frequency axis.
For Frequency vs Time trace
Resolution 0.01 Hz resolution/Hz units
Center frequency is 0.00.
–999999999999 is returned when no measurement is performed or an error has occurred.
Data range Returns a value in the range of Analysis Start
Time to Analysis Start Time + Analysis Time
Length.
For Phase vs Time trace
Resolution 0.01 degree resolution Unit: degree
–999.0 is returned if there is no measurement or an error.
Data range Returns a value within the range of Analysis
Start Time to Analysis Start Time + Analysis
Time Length.
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Details
Example of Use
2.7 Trace Settings
For CCDF trace
Resolution
Data range
0.0001% resolution/Hz units
–999.0 is returned when no measurement is performed or an error has occurred.
Returns a value in the range of −50 to 50 dB in
APD.
Returns a value in the range of 0 to 50 dB in
CCDF.
For Power vs Time or Frequency vs Time, when Detection is set to
Positive & Negative, reads out the trace data of Positive detection. In other cases, reads out the data of the set Detection.
This command is not available when Trace Mode is set to No Trace.
2
To query the trace data.
TRAC?
> -20000,-20231,-21233,...
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:TRACe[:DATA]:NEGative? [<start>[,<length>]]
Query Negative Trace Data
Function
This command queries the trace data.
Query
:TRACe[:DATA]:NEGative? [<start>[,<length>]]
Response
<data_1>,<data_2>,...
Parameter
<start>
Range
Resolution
When omitted:
Starting point to read out
0 to Number of trace points – 1
1
0
<length>
Range
Resolution
When omitted:
Query length
1 to Number of trace points – <start>
1
Number of trace points – <start>
<data_n> Trace data
For Power vs Time trace
Resolution (In Log scale)
0.001 dBm
(In Linear scale)
{ Voltage value (V) / Reference level (V) } × 10000
Reference level is 10000.
–999.0 is returned when no measurement is
Data range performed or an error has occurred.
Returns a value in the range of Analysis Start
Time to Analysis Start Time + Analysis Time
Length.
For Frequency vs Time trace
Resolution 0.01 Hz
Center frequency is 0.00.
–999999999999 is returned when no
Data range measurement is performed or an error has occurred.
Returns a value in the range of Analysis Start
Time to Analysis Start Time + Analysis Time
Length.
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Details
Example of Use
2.7 Trace Settings
For Phase vs Time trace
Resolution 0.01 degree resolution Unit: degree
–999.0 is returned if there is no measurement or an error.
Data range Returns a value within the range of Analysis
Start Time to Analysis Start Time + Analysis
Time Length.
2
For Power vs Time or Frequency vs Time, when Detection is set to
Positive & Negative, this command queries the trace data of Negative detection. In other cases, this command queries the data of the set
Detection.
This command is available when either of the following traces is active:
● Power vs Time
● Frequency vs Time
● Phase vs Time
To query the trace data.
TRAC:NEG?
> -20000,-20231,-21233,...
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:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe <rel_ampl>
Level Full Scale
Function
This command sets the level-axis scale range.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe
<rel_ampl>
Parameter
<rel_ampl>
Resolution
Data Range
Default value
Y-axis scale
10 dB
10 to 150 dB
100 dB
Details
This command is available in the following trace:
● Spectrogram
Example of Use
To set the scale range of the level axis to 50 dB.
DISP:WIND:TRAC:Y:PDIV:RANG 50
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe?
Level Full Scale Query
Function
This command queries the level-axis scale range.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe?
Response
<rel_ampl>
Parameter
<rel_ampl>
Resolution
Data Range
Default value:
Y-axis scale
10 dB
10 to 150 dB
100 dB
Details
This command is available in the following trace:
● Spectrogram
Example of Use
To query the level-axis range.
DISP:WIND:TRAC:Y:PDIV:RANG?
> 50
2
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Chapter 2 SCPI Device Message Details
:CALCulate:TMARker[1]|2:X <time>
Time Marker Position
Function
This command moves Time Marker to the specified time.
Command
:CALCulate:TMARker[n]:X <time>
Parameter
<n>
1
2
When omitted:
Marker number
Marker 1
Marker 2
Marker 1
<time> Marker position
(When Marker Type is Spot, or when Marker Type is Zone and when
Couple Time 1 and 2 is Off)
Range Analysis Start Time to Analysis Start Time +
Default value
Analysis Time Length
Analysis Start Time
(When Marker Type is Zone or when Couple Time 1 and 2 is On)
Range Bigger one of Analysis Start Time and (Marker1
– Marker2 + Analysis Start Time) to smaller one of Analysis Start Time + Analysis Time Length
Default value
Suffix code and Analysis Start Time+Analysis Time
Length−(Marker 2− Marker 1)
Analysis Start Time + Analysis Time Length/2
NS, US, MS, S
S is used when omitted.
Details
This command is available in the following trace:
● Spectrogram
Marker 2 cannot be set when Marker Type is set to Spot.
Example of Use
To move the center of Time Marker 1 to 100 ms.
CALC:TMAR:X 100MS
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2.7 Trace Settings
:CALCulate:TMARker[1]|2:X?
Time Marker Position Query
Function
This command queries the time of Time Marker.
Command
:CALCulate:TMARker[n]:X?
Response
<time>
Parameter
<n>
1
2
When omitted:
Marker number
Marker 1
Marker 2
Marker 1
<time> Marker position
(When Marker Type is Spot or when Marker Type is Zone and when
Couple Time 1 and 2 is Off)
Range Analysis Start Time to Analysis Start Time +
Default value
Analysis Time Length
Analysis Start Time
(When Marker Type is Zone and when Couple Time 1 and 2 is On.)
Range Bigger one of Analysis Start Time and (Marker1
– Marker2 + Analysis Start Time) to smaller one of Analysis Start Time + Analysis Time Length
Default value
Suffix code and Analysis Start Time + Analysis Time
Length− (Marker 2 − Marker 1)
Analysis Start Time + Analysis Time Length/2
NS, US, MS, S
S is used when omitted.
Details
This command is available in the following trace:
● Spectrogram
Example of Use
To query Time Marker 1.
CALC:TMAR:X?
> 0.10
2
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Chapter 2 SCPI Device Message Details
:CALCulate:TMARker:COUPle:ZONE[:STATe] OFF|ON|0|1
Couple Time Marker 1 and 2
Function
This command enables/disables sharing of the Time Marker setting.
Command
:CALCulate:TMARker:COUPle:ZONE[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Shared setting of Time Marker On/Off
Sets the shared setting to On.
Sets the shared setting to Off.
Details
This command is available when the following trace is active:
● Spectrogram,
This command is not available when Marker Type is Spot.
Setting to On makes Time Marker 1 and Time Marker 2 move together.
Example of Use
To set the shared setting of Time Marker to On.
CALC:TMAR:COUP:ZONE ON
:CALCulate:TMARker:COUPle:ZONE[:STATe]?
Couple Time Marker 1 and 2 Query
Function
This command queries whether sharing of the Time Marker setting is enabled.
Query
:CALCulate:TMARker:COUPle:ZONE[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Time Marker setting sharing On/Off
On
Off
Details
This command is available when the following trace is active:
● Spectrogram
Example of Use
To query the On/Off state of the shared setting of Time Marker.
CALC:TMAR:COUP:ZONE?
> 1
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2.7 Trace Settings
:CALCulate:ANALyze:SPECtrum
Analyze with Spectrum Trace
Function
This command analyzes the range selected in Time 1 and Time 2 by using Spectrum trace.
Command
:CALCulate:ANALyze:SPECtrum
Details
This command is available when the following trace is active:
● Spectrogram
This command is not available when Marker is set to Off.
Example of Use
CALC:ANAL:SPEC
:CALCulate:ANALyze:SPGRam
Return To Spectrogram
Function
This command is used to return to Spectrogram trace from Spectrum trace.
Command
:CALCulate:ANALyze:SPGRam
Details
If you return to Spectrogram by using this command after you moved on to Spectrum by using the Analyze with Spectrum Trace command, the same analysis length as in Spectrum is set in Spectrogram.
This command can be set only after the Analyze with Spectrum Trace command has been used. This command cannot be set, if you change the parameter to set the analysis length after you returned to Spectrum.
Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) or MS2830A/MS2840A
Signal Analyzer Operation Manual (Signal Analyzer function Operation) for details.
2
This command is not available in the following case:
● When Terminal is set for DigRF 3G (only for MS269x Series).
Example of Use
To return to Spectrogram trace.
CALC:ANAL:SPGR
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:CALCulate:TMARker[1]|2:PEAK:X?
Time Marker Peak Query
Function
This command queries the time of the peak at Time Marker.
Query
:CALCulate:TMARker[n]:PEAK:X?
Resposne
<time>
Parameter
<n>
1
2
Marker number
Marker 1
Marker 2
When omitted: Marker 1
(When Marker Type is Spot, or when Marker Type is Zone and when
Couple Time 1 and 2 are Off)
Range Analysis Start Time to Analysis Start Time +
Analysis Time Length
(When Marker Type is Zone and when Couple Time 1 and 2 are On)
Range The greater value of Analysis Start Time and
(Marker1 – Marker2 + Analysis Start Time) to the smaller value of Analysis Start Time +
Analysis Time Length and Analysis Start Time
+ Analysis Time Length− (Marker 2 − Marker 1)
No suffix code. Value is returned in s units.
Details
This command is available when the following trace is active:
● Spectrogram
This command is available when Marker Result is Peak.
Example of Use
To query the time of the peat at Time Marker.
CALC:TMAR:PEAK:X?
> 0.100000000
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet <real>
Phase Offset
Function
This command adds the Offset value to the measurement waveform in
Phase vs Time measurement.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet <real>
Parameter
<real>
Range
Unit
Default
–100 M to +100 M degree
0
Example of Use
To set 15 degrees as Phase Offset.
DISP:WIND:TRAC:Y:PHAS:OFFS 15
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet?
Phase Offset Query
Function
This command queries the Offset value to be added to the measurement waveform in Phase vs Time measurement.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet?
Response
<real>
Parameter
<real>
Range
Unit
Default
–100M to +100M degree
0
Example of Use
To set 15 degrees as Phase Offset.
DISP:WIND:TRAC:Y:PHAS:OFFS?
> 15
2
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:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE <mode>
Phase Mode
Function
This command sets whether the phase is displayed with limitation by
±180 degrees or without the limitation in Phase vs Time measurement.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE <mode>
Parameter
<mode>
WRAP
UNWRap
Default
Displays with the limitation by ±180 degrees.
Displays without the limitation.
WRAP
Example of Use
To set WRAP as Phase Mode.
DISP:WIND:TRAC:Y:PHAS:MODE WRAP
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE?
Phase Mode Query
Function
This command sets whether the phase is displayed with limitation by
±180 degrees or without the limitation in Phase vs Time measurement.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE?
Parameter
<mode>
WRAP
UNWR
Default
Displays with the limitation by ±180 degrees.
Displays without the limitation.
WRAP
Example of Use
To query the value of Phase Mode.
DISP:WIND:TRAC:Y:PHAS:MODE?
> WRAP
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision <real>
Scale Division
Function
This command sets the value of degree/DIV of the graph in Phase vs
Time measurement.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision <real>
Parameter
<real>
Range
Unit
Default
0.01 to +200G deg/Div
36.00
Example of Use
To set 180 as deg./Div.
DISP:WIND:TRAC:Y:PHAS:PDIV 180
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision?
Scale Division Query
Function
This command queries the value of degree/DIV of the graph in Phase vs
Time measurement.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision?
Response
<real>
Parameter
<real>
Range
Unit
Default
0.01 to +200G deg/Div
36.00
Example of Use
To query the set value of deg./Div.
DISP:WIND:TRAC:Y:PHAS:PDIV?
> 180
2
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:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence <time>
Phase Reference
Function
This command sets the reference time value for Phase vs. Time measurement.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence <time>
Parameter
<real>
Range
Unit
0 to 2000 s
Suffix code NS, US, MS, S s is used when the suffix code is omitted.
Default 0
Example of Use
To set 10 s as Phase Reference.
DISP:WIND:TRAC:Y:PHAS:REF 10
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence?
Phase Reference Query
Function
This command queries the reference time value for Phase vs. Time measurement.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence?
Parameter
<real>
Range
Unit
Default
0 to 2000 s
0
Example of Use
To query the value of Phase Reference.
DISP:WIND:TRAC:Y:PHAS:REF?
> 10
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2.7 Trace Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE <switch>
Phase Reference Mode
Function
This command sets whether to use the Reference value in Phase vs Time measurement.
Command
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MIDE
<switch>
Parameter
<switch>
OFF|0
ON|1
Do not use
Use (Default)
Example of Use
To set the Phase Ref Mode to ON.
DISP:WIND:TRAC:Y:PHAS:REF:MODE ON
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE?
Phase Reference Mode Query
Function
This command queries whether to use the Reference value in Phase vs
Time measurement.
Query
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE?
Parameter
<switch>
0
1
Do not use
Use
Example of Use
To query the value of Phase Reference.
DISP:WIND:TRAC:Y:PHAS:REF:MODE?
> 1
2
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2.8 Measure Common Function Settings
Table 2.8-1 lists device messages for common setting of the Measure function.
Table 2.8-1 Device messages for common setting of Measure function
Function Device Message
Select Standard
[:SENSe]:RADio:STANdard[:SELect]
OFF|WCDMADN|WCDMAUP|MWIMAX|3GLTE_DL|3GLTE_UL|ETC_DSRC|TDSCDMA|
XGPHS|CDMA2KFWD|EVDOFWD|3GLTE_TDD_DL|3GLTE_TDD_UL|ISDBTMM
[:SENSe]:RADio:STANdard[:SELect]?
Measurement Off :CONFigure:SANalyzer
Current
Measurement
Query
:CONFigure?
Load Standard
Parameter
[:SENSe]:RADio:STANdard:LOAD <function>[,<pattern>]
[:SENSe]:RADio:STANdard:LOAD? <function>
Low Phase Noise
Performance
Status Query
[:SENSe]:FREQuency:SYNThesis:LPHase:STATe?
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2.8 Measure Common Function Settings
[:SENSe]:RADio:STANdard[:SELect]
OFF|WCDMADN|WCDMAUP|MWIMAXDL|MWIMAXUL|3GLTE_DL|
3GLTE_UL|ETC_DSRC|TDSCDMA|XGPHS|CDMA2KFWD|EVDOFWD|
3GLTE_TDD_DL|3GLTE_TDD_UL|ISDBTMM
Select Standard
Function
This command selects a type of the parameter setting of the Measure function using the communication standard.
Command
[:SENSe]:RADio:STANdard[:SELect] <standard>
Parameter
<standard>
OFF
WCDMADN
WCDMAUP
MWIMAXDL
MWIMAXUL
Communication standard
Off
3GPP W-CDMA Downlink
3GPP W-CDMA Uplink
Mobile WiMAX (IEEE802.16e) Downlink
Mobile WiMAX (IEEE802.16e) Uplink
3GLTE_UL
ETC_DSRC
TDSCDMA
3GLTE_DL 3GPP LTE Downlink
3GPP LTE Uplink
ARIB STD-T75
3GPP TDD 1.28Mcps Option
XGPHS XG-PHS
CDMA2KFWD
EVDOFWD
3GPP2 CDMA2000 Forward Link
3GPP2 EV-DO Forward Link
3GLTE_TDD_DL 3GPP LTE TDD Downlink
3GLTE_TDD_UL 3GPP LTE TDD Uplink
ISDBTMM ISDB-Tmm
Details
This command is not available in the following case:
● When Terminal is set for DigRF 3G (only for MS269x Series).
● When using MS2830A, Option 005/105/007/009/109 is not installed.
● When using MS2840A, Option 005/105/009/109 is not installed.
Example of Use
To select the parameter conforming to 3GPP W-CDMA Uplink standard.
RAD:STAN WCDMAUP
2
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[:SENSe]:RADio:STANdard[:SELect]?
Select Standard Query
Function
This command queries the setting of the communication standard.
Query
[:SENSe]:RADio:STANdard[:SELect]?
Response
<standard>
Parameter
<standard>
OFF
WCDMADN
WCDMAUP
MWIMAXDL
MWIMAXUL
Communication standard
Off
3GPP W-CDMA Downlink
3GPP W-CDMA Uplink
Mobile WiMAX (IEEE802.16e) Downlink
Mobile WiMAX (IEEE802.16e) Uplink
3GLTE_UL
ETC_DSRC
3GLTE_DL 3GPP LTE Downlink
3GPP LTE Uplink
ARIB STD-T75
TDSCDMA
XGPHS
3GPP TDD 1.28Mcps Option
XG-PHS
CDMA2KFWD
EVDOFWD
3GPP2 CDMA2000 Forward Link
3GPP2 EV-DO Forward Link
3GLTE_TDD_DL 3GPP LTE TDD Downlink
3GLTE_TDD_UL 3GPP LTE TDD Uplink
ISDBTMM ISDB-Tmm
Details
This command is not available in the following case:
● When using MS2830A, Option 005/105/007/009/109 is not installed.
● When using MS2840A, Option 005/105/009/109 is not installed.
Example of Use
To query the setting of the communication standard.
RAD:STAN?
> WCDMAUP
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2.8 Measure Common Function Settings
:CONFigure:SANalyzer
Measurement Off
Function
This command disables currently running measurement function.
No operation is made if no measurement function is running.
Command
:CONFigure:SANalyzer
Example of Use
To disable the currently running measurement function.
CONF:SAN
:CONFigure?
Current Measurement Query
Function
This command queries the names of the current Measure function.
Query
:CONFigure?
Response
<mode>
Parameter
<mode>
ACP
BPOW
OBW
CHP
AM
FM
SAN
FMCW
Measure function
ACP measurement
Burst Average Power measurement
OBW measurement
Channel Power measurement
AM Depth measurement
FM Deviation measurement
Off
FM CW measurement
Example of Use
To query the current Measure function.
CONF?
> ACP
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[:SENSe]:RADio:STANdard:LOAD <function>[,<pattern>]
Load Standard Parameter
Function
This command selects the parameter of Measure.
The selectable parameters vary depending on the setting of Standard.
Command
[:SENSe]:RADio:STANdard:LOAD <function>[,<pattern>]
Parameter
<function>
ADJ
BRSTAVGPWR
OBW
CHPWR
Measure function
ACP measurement
Burst Average Power measurement
OBW measurement
Channel Power measurement
When Standard is set to W-CDMA Uplink (ACP measurement):
<pattern> Parameter to be set
UPLINK 3GPP W-CDMA Uplink, ACP measurement
When omitted: 3GPP W-CDMA Uplink, ACP measurement
When Standard is set to W-CDMA Uplink (Burst Average Power measurement):
<pattern>
MEAN
Parameter to be set
3GPP W-CDMA Uplink, Mean Power
RRCFILTER
When omitted: measurement
3GPP W-CDMA Uplink, RRC Filtered Power measurement
3GPP W-CDMA Uplink, Mean Power measurement
When Standard is set to W-CDMA Uplink (OBW measurement):
<pattern> Parameter to be set
UPLINK 3GPP W-CDMA Uplink
When omitted: 3GPP W-CDMA Uplink
When Standard is set to W-CDMA Uplink (Channel Power measurement):
<pattern>
UPLINK
Parameter to be set
3GPP W-CDMA Uplink, Mean Power measurement
MEAN 3GPP W-CDMA Uplink, Mean Power measurement
RRCFILTER 3GPP W-CDMA Uplink, RRC Filtered Power
When omitted: measurement
3GPP W-CDMA Uplink, Mean Power measurement
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When Standard is set to W-CDMA Downlink (ACP measurement):
<pattern> Parameter to be set
DOWNLINK 3GPP W-CDMA Downlink, ACP measurement(Single Carrier)
SINGLECARR 3GPP W-CDMA Downlink, ACP measurement(Single Carrier)
2CARR
When omitted:
3GPP W-CDMA Downlink (2 Carriers)
3GPP W-CDMA Downlink, ACP measurement(Single Carrier)
When Standard is set to W-CDMA Downlink (Burst Average Power measurement):
<pattern>
MEAN
Parameter to be set
3GPP W-CDMA Downlink, Mean Power
RRCFILTER
When omitted: measurement
3GPP W-CDMA Downlink, RRC Filtered Power measurement
3GPP W-CDMA Downlink, Mean Power measurement
When Standard is set to W-CDMA Downlink (OBW measurement):
<pattern> Parameter to be set
DOWNLINK 3GPP W-CDMA Downlink
When omitted: 3GPP W-CDMA Downlink
When Standard is set to W-CDMA Downlink (Channel Power measurement):
<pattern>
DOWNLINK
Parameter to be set
3GPP W-CDMA Downlink, Mean Power measurement
MEAN 3GPP W-CDMA Downlink, Mean Power measurement
RRCFILTER 3GPP W-CDMA Downlink, RRC Filtered Power measurement
When omitted: 3GPP W-CDMA Downlink, Mean Power measurement
When Standard is set to Mobile WiMAX
<pattern> Parameter to be set
10M 10MHz BW (Channel Bandwidth 10 MHz)
5M 5MHz BW (Channel Bandwidth 5 MHz)
When omitted: 10MHz BW
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When Standard is set to LTE Uplink/Downlink (ACP measurement)
<pattern> Parameter to be set
1M4BW_UTRA5MHZ 1.4MHz BW (UTRA 5 MHz)
1M4BW_EUTRA1M4HZ
3MBW_UTRA5MHZ
1.4MHz BW (E-UTRA 1.4 MHz)
3MHz BW (UTRA 5 MHz)
3MBW_EUTRA3MHZ
5MBW_UTRA5MHZ
3MHz BW (E-UTRA 3 MHz)
5MHz BW (UTRA 5 MHz)
5MBW_EUTRA5MHZ 5MHz BW (E-UTRA 5 MHz)
5MHz BW (UTRA 5 MHz) When omitted:
When Standard is set to LTE TDD Downlink (ACP measurement)
<pattern> Parameter to be set
1M4BW_UTRA1M6HZ 1.4MHz BW (UTRA 1.6 MHz)
1M4BW_EUTRA1M4HZ
3MBW_UTRA1M6HZ
1.4MHz BW (E-UTRA 1.4 MHz)
3MHz BW (UTRA 1.6 MHz)
3MBW_EUTRA3MHZ
5MBW_UTRA1M6HZ
3MHz BW (E-UTRA 3 MHz)
5MHz BW (UTRA 1.6 MHz)
5MBW_UTRA5MHZ
5MBW_EUTRA5MHZ
5MHz BW (UTRA 5 MHz)
5MHz BW (E-UTRA 5 MHz)
When omitted: 5MHz BW (E-UTRA 5 MHz)
When Standard is set to LTE TDD Uplink (ACP measurement)
<pattern> Parameter to be set
1M4BW_UTRA1M6HZ
1M4BW_EUTRA1M4HZ
1.4MHz BW (UTRA 1.6 MHz)
1.4MHz BW (E-UTRA 1.4 MHz)
3MBW_UTRA1M6HZ
3MBW_EUTRA3MHZ
3MHz BW (UTRA 1.6 MHz)
3MHz BW (UTRA 1.6 MHz)
5MBW_EUTRA5MHZ 5MHz BW (E-UTRA 5 MHz)
5MHz BW (E-UTRA 5 MHz)
When Standard is set to LTE Uplink/Downlink, LTE TDD
Uplink/Downlink (OBW measurement)
<pattern> Parameter to be set
1M4BW
3MBW
5MBW
10MBW
15MBW
20MBW
1.4MHz Bandwidth
3MHz Bandwidth
5MHz Bandwidth
10MHz Bandwidth
15MHz Bandwidth
20MHz Bandwidth
When omitted: 5MHz Bandwidth
When omitted:
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When Standard is set to LTE Uplink/Downlink, LTE TDD
Uplink/Downlink (Channel Power measurement)
<pattern>
MEAN_1M4BW
MEAN_3MBW
MEAN_5MBW
Parameter to be set
Mean Power 1.4MHz BW
Mean Power 3MHz BW
Mean Power 5MHz BW
MEAN_10MBW
MEAN_15MBW
Mean Power 10MHz BW
Mean Power 15MHz BW
MEAN_20MBW Mean Power 20MHz BW
FILTERED_1M4BW Filtered Power 1.4MHz BW
FILTERED_3MBW Filtered Power 3MHz BW
FILTERED_5MBW Filtered Power 5MHz BW
FILTERED_10MBW Filtered Power 10MHz BW
FILTERED_15MBW Filtered Power 15MHz BW
FILTERED_20MBW Filtered Power 20MHz BW
Mean Power 5MHz BW When omitted:
When Standard is set to LTE Uplink/Downlink, LTE TDD
Uplink/Downlink (Burst Average Power measurement)
<pattern>
MEAN_1M4BW
MEAN_3MBW
MEAN_5MBW
Parameter to be set
Mean Power 1.4Hz BW
Mean Power 3MHz BW
Mean Power 5MHz BW
MEAN_10MBW
MEAN_15MBW
Mean Power 10MHz BW
Mean Power 15MHz BW
MEAN_20MBW Mean Power 20MHz BW
FILTERED_1M4BW Filtered Power 1.4MHz BW
FILTERED_3MBW Filtered Power 3MHz BW
FILTERED_5MBW Filtered Power 5MHz BW
FILTERED_10MBW Filtered Power 10MHz BW
FILTERED_15MBW Filtered Power 15MHz BW
FILTERED_20MBW Filtered Power 20MHz BW
Mean Power 5MHz BW When omitted:
When Standard is set to ETC_DSRC (Applies to all but Burst Average
Power measurement)
<pattern>
PI4DQPSK
ASK
When omitted:
Parameter to be set
π /4DQPSK
ASK
π /4DQPSK
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When Standard is set to ETC_DSRC (Burst Average Power measurement)
<pattern>
MEAN
Parameter to be set
Mean Power
When omitted: Mean Power
When Standard is set to TD-SCDMA (ACP measurement)
<pattern> Parameter to be set
TDD128M1C Single Carrier
TDD128M2C
TDD128M3C
2 Carriers
3 Carriers
TDD128M4C
TDD128M5C
4 Carriers
5 Carriers
TDD128M6C 6 Carriers
Single Carrier When omitted:
When Standard is set to TD-SCDMA (CHP,OBW measurement)
<pattern> Parameter to be set
TDD128M 3GPP TDD 1.28 Mcps Option
When omitted: 3GPP TDD 1.28 Mcps Option
When Standard is set to TD-SCDMA (Burst Average Power measurement)
<pattern>
MEAN
Parameter to be set
5 ms Subframe
(Power measurement of 1 subframe)
When omitted: 5 ms Subframe
When Standard is set to XG-PHS (OBW measurement)
<pattern> Parameter to be set
10MBW 10MHz BW
20MBW 20MHz BW
10MHz BW When omitted:
When Standard is set to XG-PHS (CHP measurement)
<pattern> Parameter to be set
MEAN_10MBW Mean Power 10MHz BW
MEAN_20MBW Mean Power 20MHz BW
Mean Power 10MHz BW When omitted:
When Standard is set to CDMA2000 Forward Link
<pattern> Parameter to be set
CDMA2KFWD CDMA2000 Forward Link
When omitted: CDMA2000 Forward Link
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Details
Example of Use
2.8 Measure Common Function Settings
When Standard is set to EV-DO Forward Link (ACP, Channel Power,
OBW setting)
<pattern>
EVDOFWD
When omitted:
Parameter to be set
EV-DO Forward Link
EV-DO Forward Link
When Standard is set to EV-DO Forward Link (Burst Average Power measurement)
<pattern> Parameter to be set
EVDOFWDACTIVE Active Slot
EVDOFWDIDLE Idle Slot
When omitted: Active Slot
When Standard is set to ISDB-Tmm (Channel Power measurement)
<pattern> Parameter to be set
MEAN_14M2BW
MEAN_5M6BW
14.2MHz BW
5.6MHz BW (ISDB-T)
When omitted: 14.2MHz BW
When Standard is set to ISDB-Tmm (OBW measurement)
<pattern> Parameter to be set
14M2BW
5M6BW
14.2MHz BW
5.6MHz BW (ISDB-T)
When omitted: 14.2MHz BW
This function is not available under the following conditions:
● Standard setting is set to Off.
● When using MS2830A, Option 005/105/007/009/109 is not installed.
● When using MS2840A, Option 005/105/009/109 is not installed.
To set the ACP measurement parameters conforming to 3GPP W-CDMA
Uplink.
RAD:STAN:LOAD ADJ,UPLINK
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[:SENSe]:RADio:STANdard:LOAD? <function>
Load Standard Parameter Query
Function
This command queries the Measure function parameter. The parameter selected for the Standard setting differs.
Query
[:SENSe]:RADio:STANdard:LOAD? <function>
Response
<pattern>
Parameter
Refer to [:SENSe]:RADio:STANdard:LOAD
<function>[,<pattern>]
Details
If the Standard parameter is not selected or is set to Off, *** is returned.
Example of Use
To query ACP measurement parameter.
RAD:STAN:LOAD? ADJ
> UPLINK
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[:SENSe]:FREQuency:SYNThesis:LPHase:STATe?
Low Phase Noise Performance Status Query
Function
This command queries the state of Low Phase Noise function with the current measurement conditions.
Query
[:SENSe]:FREQuency:SYNThesis:LPHase:STATe?
Response
<status> State of Low Phase Noise function
Parameter
<status>
1
0
State of Low Phase Noise function
Lowers Phase Noise
Does not lower Phase Noise
Detail
This function is available when MS2830A-062/066, MS2840A-066/166 is installed.
The low phase noise performance is improved when the Low Phase Noise
Function switch is On and the center frequency is less than 3.7 GHz.
(The low phase noise performance is improved when the Frequency Band
Mode is Spurious and the center frequency is less than 3.5 GHz.)
Whether the Low Phase Noise option can be used or not is read from the current setting parameters by this function.
Example of Use
To query the state of Low Phase Noise function with the current measurement conditions.
FREQ:SYNT:LPH:STAT?
> 1
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2.9 Adjacent Channel Power Measurement Settings
Table 2.9-1 lists device messages for Adjacent Channel Power measurement.
Function
Measure Adjacent
Channel Power
Adjacent Channel
Power Reference
Carrier Select
Adjacent Channel
Power Reference
Adjacent Channel
Power Noise
Cancel
Adjacent Channel
Power Offset
Channel
Bandwidth
Adjacent Channel
Power Carrier
Bandwidth
Adjacent Channel
Power In Band
Center
Table 2.9-1 Device messages for Adjacent Channel Power
Device Message
[:SENSe]:ACPower[:STATe] ON|OFF|1|0
[:SENSe]:ACPower[:STATe]?
:CALCulate:ACPower[:STATe] ON|OFF|1|0
:CALCulate:ACPower[:STATe]?
[:SENSe]:ACPower:CARRier[1]:RCARrier <integer>
[:SENSe]:ACPower:CARRier[1]:RCARrier?
:CALCulate:ACPower:CARRier[1]:RCARrier <integer>
:CALCulate:ACPower:CARRier[1]:RCARrier?
[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod
STOTal|CTOTal|BSIDes|CSELect
[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod?
:CALCulate:ACPower:CARRier[1]:RCARrier:METHod
STOTal|CTOTal|BSIDes|CSELect
:CALCulate:ACPower:CARRier[1]:RCARrier:METHod?
[:SENSe]:ACPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
[:SENSe]:ACPower:CORRection:NOISe[:AUTO]?
:CALCulate:ACPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
:CALCulate:ACPower:CORRection:NOISe[:AUTO]?
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration] <bandwidth>
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
:CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration]
<bandwidth>
:CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]
<bandwidth>
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]?
:CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]
<bandwidth>
:CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]?
[:SENSe]:ACPower:CARRier[1]:RCFRequency <freq>
[:SENSe]:ACPower:CARRier[1]:RCFRequency?
:CALCulate:ACPower:CARRier[1]:RCFRequency <freq>
:CALCulate:ACPower:CARRier[1]:RCFRequency?
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Adjacent Channel
Power Offset Filter
Type
Table 2.9-1 Device messages for Adjacent Channel Power measurement (Cont’d)
Function
Adjacent Channel
Power Carrier
Number
Adjacent Channel
Power Carrier
Spacing
Adjacent Channel
Power Offset
Adjacent Channel
Power Offset
Frequency
Adjacent Channel
Power Filter Type
Device Message
[:SENSe]:ACPower:CARRier[1]:COUNt <integer>
[:SENSe]:ACPower:CARRier[1]:COUNt?
:CALCulate: ACPower:CARRier[1]:COUNt <integer>
:CALCulate: ACPower:CARRier[1]:COUNt?
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh <bandwidth>
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh?
:CALCulate:ACPower:CARRier[1]:LIST:WIDTh <bandwidth>
:CALCulate:ACPower:CARRier[1]:LIST:WIDTh?
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe
ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe?
:CALCulate:ACPower:OFFSet[1]:LIST:STATe
ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0
:CALCulate:ACPower:OFFSet[1]:LIST:STATe?
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]
<freq>,<freq>,<freq>
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]?
:CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency]
<freq>,<freq>,<freq>
:CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency]?
[:SENSe]:ACPower:CARRier[1]:LIST:METHod IBW|RRC|RC
[:SENSe]:ACPower:CARRier[1]:LIST:METHod?
:CALCulate:ACPower:CARRier[1]:LIST:METHod IBW|RRC|RC
:CALCulate:ACPower:CARRier[1]:LIST:METHod?
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE?
[:SENSe]:ACPower:FILTer[:RRC][:STATe] OFF|ON|0|1
[:SENSe]:ACPower:FILTer[:RRC][:STATe]?
:CALCulate:ACPower:FILTer[:RRC][:STATe] OFF|ON|0|1
:CALCulate:ACPower:FILTer[:RRC][:STATe]?
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE?
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Table 2.9-1 Device messages for Adjacent Channel Power measurement (Cont’d)
Function Device Message
Adjacent Channel
Power Result Type
Adjacent Channel
Power Rolloff Ratio
Adjacent Channel
Power Offset
Rolloff
Ratio
DISPlay:ACPower:RESult:TYPE CARRier|OFFSet
DISPlay:ACPower:RESult:TYPE?
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa <real>
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
:CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa <real>
:CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
[:SENSe]:ACPower:FILTer[:RRC]:ALPHa <real>
[:SENSe]:ACPower:FILTer[:RRC]:ALPHa?
:CALCulate:ACPower:FILTer[:RRC]:ALPHa <real>
:CALCulate:ACPower:FILTer[:RRC]:ALPHa?
Adjacent Channel
Power Configure
Adjacent Channel
Power Initiate
:CONFigure:ACP
:INITiate:ACP
Adjacent Channel
Power Read Fetch :FETCh:ACP[n]?
Adjacent Channel
Power Read
:READ:ACP[n]?
Adjacent Channel
Power Measure
All Marker Off
Peak Search
:MEASure:ACP[n]?
:CALCulate:ACPower:MARKer:AOFF
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
Next Peak Search :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
Zone Marker
Frequency (Time)
<freq>|<time>|<sample>|<dist>
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Marker Level
Query
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
Title Entry
Log Scale Range
Reference Level
Trigger Source
:DISPlay:ACPower:ANNotation:TITLe:DATA <string>
:DISPlay:ACPower:ANNotation:TITLe:DATA?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
<rel_ampl>
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
<real>
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
:TRIGger:ACPower[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
:TRIGger:ACPower[:SEQuence]:SOURce?
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Table 2.9-1 Device messages for Adjacent Channel Power measurement (Cont’d)
Function
Average Count
Storage Mode
Resolution
Bandwidth
Resolution
Bandwidth
Auto/Manual
Detection Mode
Span Frequency
Device Message
[:SENSe]:ACPower:AVERage:COUNt <integer>
[:SENSe]:ACPower:AVERage:COUNt?
[:SENSe]:ACPower:AVERage[:STATe] ON|OFF|1|0
[:SENSe]:ACPower:AVERage[:STATe]?
[:SENSe]:ACPower:BANDwidth[:RESolution] <freq>
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution] <freq>
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:ACPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
[:SENSe]:ACPower:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
:CALCulate:ACPower:DETector[:FUNCtion]?
[:SENSe]:ACPower:FREQuency:SPAN <freq>
[:SENSe]:ACPower:FREQuency:SPAN?
Trace Point Query [:SENSe]:ACPower:SWEep:POINts?
Sweep Time
[:SENSe]:ACPower:SWEep:TIME <time>
Sweep Time
Auto/Manual
[:SENSe]:ACPower:SWEep:TIME?
[:SENSe]:ACPower:SWEep:TIME:AUTO OFF|ON|0|1
[:SENSe]:ACPower:SWEep:TIME:AUTO?
Marker Mode
Relative To
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
NORMal|POSition|DELTa|FIXed|OFF
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
<integer>
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
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[:SENSe]:ACPower[:STATe] ON|OFF|1|0
Measure Adjacent Channel Power
Function
This command sets Adjacent Channel Power measurement On/Off.
Command
[:SENSe]:ACPower[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
ACP measurement On/Off
Sets ACP measurement to On.
Sets ACP measurement to Off (Default value)
Details
This command is available when the following trace is active;
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To execute ACP measurement and query the results.
ACP ON
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower[:STATe]
:CALCulate:ACPower[:STATe] ON|OFF|1|0
Measure Adjacent Channel Power
Function
This command sets Adjacent Channel Power measurement On/Off.
Refer to [:SENSe]:ACPower[:STATe].
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower[:STATe]
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[:SENSe]:ACPower[:STATe]?
Measure Adjacent Channel Power Query
Function
This command queries the setting for Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower[:STATe]?
Parameter
<switch>
1
0
ACP measurement On/Off
On
Off
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the setting of ACP measurement.
ACP?
> 1
Related Command
This command has the same function as the following command.
:CALCulate:ACPower[:STATe]?
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:CALCulate:ACPower[:STATe]?
Measure Adjacent Channel Power Query
Function
This command queries the setting of Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower[:STATe]?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower[:STATe]?
[:SENSe]:ACPower:CARRier[1]:RCARrier <integer>
Adjacent Channel Power Reference Carrier Select
Function
This command sets the reference carrier number for Adjacent Channel
Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:RCARrier <integer>
Parameter
<integer>
Range
Reference carrier number
1 to Carrier Number
Resolution
Unit
1
None
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the reference carrier number of ACP measurement to 2 and query the results.
ACP:CARR:RCAR 2
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:RCARrier
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:CALCulate:ACPower:CARRier[1]:RCARrier <integer>
Adjacent Channel Power Reference Carrier Select
Function
This command sets the reference carrier number for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:RCARrier.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:RCARrier
[:SENSe]:ACPower:CARRier[1]:RCARrier?
Adjacent Channel Power Reference Carrier Select Query
Function
This command queries the reference carrier number for Adjacent
Channel Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:RCARrier?
Response
<integer>
Parameter
<integer>
Range
Resolution
Unit
Default value
Reference carrier number
1 to Carrier Number
1
None
1
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To set the reference carrier number for Adjacent Channel Power measurement to 2.
ACP:CARR1:RCAR?
> 2
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:RCARrier?
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:CALCulate:ACPower:CARRier[1]:RCARrier?
Adjacent Channel Power Reference Carrier Select Query
Function
This command queries the reference carrier number for Adjacent
Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:RCARrier?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:RCARrier?
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[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod
STOTal|CTOTal|BSIDes|CSELect
Adjacent Channel Power Reference
Function
This command sets the reference of the relative level display for Adjacent
Channel Power measurement.
2
Command
[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod <method>
Parameter
<method>
STOTal
CTOTal
BSIDes
CSELect
Reference method for the relative level display of
ACP measurement
Sets the integral power on the whole screen to the reference (Span Total method)
Sets the total value of all carrier power (Carrier
Total method) (Default value)
Carrier power of the largest carrier number is used as a reference for the upper offset, while the carrier power of the smallest carrier number is used as reference (Both Sides of Carriers method).
Sets the carrier selected in Carrier Select to the reference.
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set Carrier Total method to ACP measurement method and query the results.
ACP:CARR:RCAR:METH CTOT
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:RCARrier:METHod
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:CALCulate:ACPower:CARRier[1]:RCARrier:METHod
STOTal|CTOTal|BSIDes|CSELect
Adjacent Channel Power Reference
Function
This command sets the reference of the relative level display for Adjacent
Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:RCARrier:METHod.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod
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[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod?
Adjacent Channel Power Reference Query
Function
This command queries the reference of the relative level display for
Adjacent Channel Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod?
Response
<method>
Parameter
<method>
STOT
CTOT
BSID
CSEL
Reference method for the relative level display of
ACP measurement
Sets the integral power on the whole screen to the reference (Span Total method)
Sets the total value of all carrier power (Carrier
Total method) (Default value)
Carrier power of the largest carrier number is used as a reference for the upper offset, while the carrier power of the smallest carrier number is used as reference (Both Sides of Carriers method).
Sets the carrier selected in Carrier Select to the reference.
Details
This command is available when the following trace is active:
● Spectrum
2
Example of Use
To query ACP measurement method.
ACP:CARR:RCAR:METH?
> CTOT
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:RCARrier:METHod?
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:CALCulate:ACPower:CARRier[1]:RCARrier:METHod?
Adjacent Channel Power Reference Query
Function
This command queries the reference of the relative level display for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:RCARrier:METHod?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:RCARrier:METHod?
[:SENSe]:ACPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
Adjacent Channel Power Noise Cancel
Function
This command sets whether to enable the noise-canceling function.
Command
[:SENSe]:ACPower:CORRection:NOISe[:AUTO] <switch>
Parameter
<switch>
ON|1
OFF|0
Noise-canceling function on/off
Enables the noise-canceling function.
Disables the noise-canceling function. (Default value)
Details
Fixed to Off and cannot be set in the following cases:
● ACP is Off
● Standard is Off
● The Standard Parameter which enables the noise-canceling function is not set in Load Standard Parameter.
● Any of Span, RBW, Detection, Sweep Time, VBW (when Detection is not set to RMS), and VBW Mode (when VBW is not set to Off and when Detection is not set to RMS)has been changed from Standard
Parameter.
● Scale Mode is Linear.
The setting is disabled while the Replay function is being executed.
Example of Use
To disable the noise-canceling function.
ACP:CORR:NOIS OFF
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CORRection:NOISe[:AUTO]
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:CALCulate:ACPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
Adjacent Channel Power Noise Cancel
Function
This command sets whether to enable the noise-canceling function.
Refer to [:SENSe]:ACPower:CORRection:NOISe[:AUTO].
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CORRection:NOISe[:AUTO]
[:SENSe]:ACPower:CORRection:NOISe[:AUTO]?
Adjacent Channel Power Noise Cancel Query
Function
This command queries whether the noise-canceling function is enabled.
Query
[:SENSe]:ACPower:CORRection:NOISe[:AUTO]?
Response
<switch>
Parameter
<switch>
1
0
Noise-canceling function on/off
Noise-canceling function is enabled.
Noise-canceling function is disabled.
Details
The noise-canceling function is disabled in the following cases:
● ACP is Off.
● Standard is Off.
● The Standard Parameter which enables the noise-canceling function is not set in Load Standard Parameter.
● Any of Span, RBW, Detection, Sweep Time, VBW (when Detection is not set to RMS), and VBW Mode (when VBW is not set to Off and when Detection is not set to RMS)has been changed from Standard
Parameter.
● Scale Mode is Linear.
Example of Use
To query whether the noise-canceling function is enabled.
ACP:CORR:NOIS?
> 0
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CORRection:NOISe[:AUTO]?
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:CALCulate:ACPower:CORRection:NOISe[:AUTO]?
Adjacent Channel Power Noise Cancel Query
Function
This command queries whether the noise-canceling function is enabled.
Refer to [:SENSe]:ACPower:CORRection:NOISe[:AUTO]?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CORRection:NOISe[:AUTO]?
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration] <bandwidth>
Adjacent Channel Power Offset Channel Bandwidth
Function
This command sets Offset Channel bandwidth for Adjacent Channel
Power measurement.
Command
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration]
<bandwidth>
Parameter
<bandwidth>
Range
Resolution
Suffix code
Default value
Offset Channel bandwidth
1 Hz to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
3.84 MHz
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set Offset Channel bandwidth to 3.84 MHz and query the results.
ACP:OFFS:BAND 3.84MHZ
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration]
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:CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration] <bandwidth>
Adjacent Channel Power Offset Channel Bandwidth
Function
This command sets Offset Channel bandwidth for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:BANDwidth
[:INTegration].
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration]
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
Adjacent Channel Power Offset Channel Bandwidth Query
Function
This command queries Offset Channel bandwidth for Adjacent Channel
Power measurement.
Query
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
Response
<bandwidth>
Parameter
<bandwidth>
Range
Resolution
Offset Channel bandwidth
1 Hz to 125 MHz
1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is set to active:
● Spectrum
Example of Use
To query Offset Channel bandwidth.
ACP:OFFS:BAND?
> 3840000
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
2
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:CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
Adjacent Channel Power Offset Channel Bandwidth Query
Function
This command queries Offset Channel bandwidth for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:BANDwidth
[:INTegration]?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
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2.9 Adjacent Channel Power Measurement Settings
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration] <bandwidth>
Adjacent Channel Power Carrier Bandwidth
Function
This command sets the measurement bandwidth of the carrier for
Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]
<bandwidth>
Parameter
<bandwidth>
Range
Resolution
Suffix code
Default value
Inband channel bandwidth
1 to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
3.84 MHz
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the Inband channel bandwidth to 3.84 MHz and query the results.
ACP:CARR:LIST:BAND 3.84MHZ
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegratio n]
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:CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]
<bandwidth>
Adjacent Channel Power Carrier Bandwidth
Function
This command sets the measurement bandwidth of the carrier for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:LIST:BANDwidth
[:INTegration].
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]
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2.9 Adjacent Channel Power Measurement Settings
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]?
Adjacent Channel Power Carrier Bandwidth Query
Function
This command queries the measurement bandwidth of the carrier for
Adjacent Channel Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]
?
Response
<bandwidth>
Parameter
<bandwidth>
Range
Inband channel bandwidth
1 Hz to 125 MHz
Resolution 1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
Example of Use
To query the Inband channel bandwidth.
ACP:CARR:LIST:BAND?
> 3840000
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegratio n]
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:CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]?
Adjacent Channel Power Carrier Bandwidth Query
Function
This command queries the measurement bandwidth of the carrier for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:LIST:BANDwidth
[:INTegration]?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]
?
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2.9 Adjacent Channel Power Measurement Settings
[:SENSe]:ACPower:CARRier[1]:RCFRequency <freq>
Adjacent Channel Power In Band Center
Function
This command sets the In Band center frequency for Adjacent Channel
Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:RCFRequency <freq>
Parameter
<freq>
Range
Resolution
Suffix code
Default value
In Band center frequency
125 MHz centered at the center frequency
(Center Frequency) of waveform capture
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Center Frequency
Details
This command is available when the following trace is active:
● Spectrum
2
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the In Band center frequency to 3.84 MHz and query the results.
ACP:CARR:RCFR 3.84MHZ
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:RCFRequency
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:CALCulate:ACPower:CARRier[1]:RCFRequency <freq>
Adjacent Channel Power In Band Center
Function
This command sets the Inband center frequency for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:RCFRequency.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:RCFRequency
[:SENSe]:ACPower:CARRier[1]:RCFRequency?
Adjacent Channel Power In Band Center Query
Function
This command queries the In Band center frequency for Adjacent
Channel Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:RCFRequency?
Response
<freq>
Parameter
<freq>
Range
In Band center frequency
125 MHz centered at the center frequency
Resolution
(Center Frequency) of waveform capture
1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the In Band center frequency.
ACP:CARR:RCFR?
> 3840000
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:RCFRequency?
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:CALCulate:ACPower:CARRier[1]:RCFRequency?
Adjacent Channel Power In Band Center Query
Function
This command queries the In Band center frequency for Adjacent
Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:RCFRequency?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:RCFRequency?
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[:SENSe]:ACPower:CARRier[1]:COUNt <integer>
Adjacent Channel Power Carrier Number
Function
This command sets the carrier number for Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:COUNt <integer>
Parameter
<integer>
Range
Resolution
Suffix code
Default value
Carrier Number
1 to 12
1
None
1
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the carrier number to 12 and query the results.
ACP:CARR:COUN 12
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:COUNt
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2.9 Adjacent Channel Power Measurement Settings
:CALCulate:ACPower:CARRier[1]:COUNt <integer>
Adjacent Channel Power Carrier Number
Function
This command sets the carrier number for Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:COUNt.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:COUNt
[:SENSe]:ACPower:CARRier[1]:COUNt?
Adjacent Channel Power Carrier Number Query
Function
This command queries the carrier number for Adjacent Channel Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:COUNt?
Response
<integer>
Parameter
<integer>
Range
Carrier Number
1 to 12
Resolution
Suffix code
1
None
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
Example of Use
To query the carrier number.
ACP:CARR:COUN?
> 12
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:COUNt?
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:CALCulate:ACPower:CARRier[1]:COUNt?
Adjacent Channel Power Carrier Number Query
Function
This command queries the carrier number for Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:COUNt?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:COUNt?
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2.9 Adjacent Channel Power Measurement Settings
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh <bandwidth>
Adjacent Channel Power Carrier Spacing
Function
This command sets the frequency interval among carriers for Adjacent
Channel Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh <bandwidth>
Parameter
<bandwidth>
Range
Resolution
Suffix code
Default value
Frequency interval among carriers
0 to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
5 MHz
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the frequency interval among carriers to 12.3 MHz and query the results.
ACP:CARR:LIST:WIDT 12300000
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:LIST:WIDTh
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:CALCulate:ACPower:CARRier[1]:LIST:WIDTh <bandwidth>
Adjacent Channel Power Carrier Spacing
Function
This command sets the frequency interval among carriers for Adjacent
Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:LIST:WIDTh.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh?
Adjacent Channel Power Carrier Spacing Query
Function
This command queries the frequency interval among carriers for
Adjacent Channel Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh?
Response
<bandwidth>
Parameter
<bandwidth>
Range
Resolution
Frequency interval among carriers
0 to 125 MHz
1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
Example of Use
To query the frequency interval among carriers.
ACP:CARR:LIST:WIDT?
> 12300000
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:LIST:WIDTh?
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:CALCulate:ACPower:CARRier[1]:LIST:WIDTh?
Adjacent Channel Power Carrier Spacing Query
Function
This command queries the frequency interval among carriers for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:LIST:WIDTh?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:LIST:WIDTh?
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe
ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0
Adjacent Channel Power Offset
Function
This command sets the offset channel On/Off for Adjacent Channel Power measurement.
2
Command
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe
<switch_1>,<switch_2>,<switch_3>
Parameter
<switch_n>
ON|1
OFF|0
Default value switch_1 switch_2 switch_3
Measurement channel offset_n On/Off
Measures the offset channel n.
Does not measure the offset channel n.
On
On
Off
Details
This command is available when the following trace is set to active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
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Example of Use
To set the offset channel and query the results.
ACP:OFFS:LIST:STAT ON,ON,ON
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:OFFSet[1]:LIST:STATe
:CALCulate:ACPower:OFFSet[1]:LIST:STATe
ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0
Adjacent Channel Power Offset
Function
This command sets the offset channel On/Off for Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:LIST:STATe.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe
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[:SENSe]:ACPower:OFFSet[1]:LIST:STATe?
Adjacent Channel Power Offset Query
Function
This command queries the On/Off state of the offset channel for Adjacent
Channel Power measurement.
Query
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe?
Response
<switch_1>,<switch_2>,<switch_3>
Parameter
<switch_n>
1
0
Measurement channel n On/Off
Measures the offset channel n.
Does not measure the offset channel n.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the On/Off state of the offset channel.
ACP:OFFS:LIST:STAT?
> 1,1,1
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:OFFSet[1]:LIST:STATe?
:CALCulate:ACPower:OFFSet[1]:LIST:STATe?
Adjacent Channel Power Offset Query
Function
This command queries the offset channel On/Off for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:LIST:STATe?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:OFFSet[1]:LIST:STATe?
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[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency] <freq>,<freq>,<freq>
Adjacent Channel Power Offset Frequency
Function
This command sets the offset frequency of the offset channel for Adjacent
Channel Power measurement.
Command
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]
<freq_1>,<freq_2>,<freq_3>
Parameter
<freq_n>
Range
Resolution
Suffix code
Default value freq_1 freq_2 freq_3
Offset frequency for offset channel n
−125 to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
5 MHz
10 MHz
15 MHz
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the offset frequency of Offset Channel and query the results.
ACP:OFFS:LIST 30KHZ,50KHZ,50KHZ
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency]
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:CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency] <freq>,<freq>,<freq>
Adjacent Channel Power Offset Frequency
Function
This command sets the offset frequency of the offset channel for Adjacent
Channel Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency].
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]?
Adjacent Channel Power Offset Frequency Query
Function
This command queries the offset frequency of the offset channel for
Adjacent Channel Power measurement.
Query
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]?
Response
<freq_1>,<freq_2>,<freq_3>
Parameter
<freq_n>
Range
Offset frequency for offset channel n
−125 to 125 MHz
Resolution 1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the offset frequency of Offset Channel.
ACP:OFFS:LIST?
> 30000,50000,50000
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency]?
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:CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency]?
Adjacent Channel Power Offset Frequency Query
Function
This command queries the offset frequency of the offset channel for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]?
[:SENSe]:ACPower:CARRier[1]:LIST:METHod IBW|RRC|RC
Adjacent Channel Power Filter Type
Function
This command sets the filter type of carriers for Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:LIST:METHod <mode>
Parameter
<mode>
IBW
RRC
RC
Measurement method of carrier
Rectangle filter
Root Nyquist filter (Default value)
Nyquist filter
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the measurement method of carriers for ACP measurement to Root
Nyquist and query the results.
ACP:CARR:LIST:METH RRC
*WAI
FETC:ACP?
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2.9 Adjacent Channel Power Measurement Settings
Related Command
This command has the same function as the following commands.
:CALCulate:ACPower:CARRier[1]:LIST:METHod
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE
:CALCulate:ACPower:CARRier[1]:LIST:METHod IBW|RRC|RC
Adjacent Channel Power Filter Type
Function
This command sets filter type of carriers for Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:LIST:METHod.
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:CARRier[1]:LIST:METHod
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE
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[:SENSe]:ACPower:CARRier[1]:LIST:METHod?
Adjacent Channel Power Filter Type Query
Function
This command queries the filter type of carriers for Adjacent Channel
Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:LIST:METHod?
Response
<mode>
Parameter
<mode>
IBW
RRC
RC
Measurement method of carrier
Rectangle filter
Root Nyquist filter
Nyquist filter
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
Example of Use
To query the measurement method of carriers for ACP measurement.
ACP:CARR:LIST:METH?
> RRC
Related Command
This command has the same function as the following commands.
:CALCulate:ACPower:CARRier[1]:LIST:METHod?
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE?
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:CALCulate:ACPower:CARRier[1]:LIST:METHod?
Adjacent Channel Power Filter Type Query
Function
This command queries the filter type of carriers for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:LIST:METHod?.
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:CARRier[1]:LIST:METHod?
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE?
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
Adjacent Channel Power Filter Type
Function
This command sets the filter type of carriers for Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE <filter>
Parameter
<filter>
RECT
NYQuist
RNYQuist
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
2
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
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Example of Use
To set filter type of carriers for ACP measurement to Nyquist and query the results.
ACP:CARR:FILT:TYPE NYQ
*WAI
FETC:ACP?
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:CARRier[1]:LIST:METHod
:CALCulate:ACPower:CARRier[1]:LIST:METHod
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
Adjacent Channel Power Filter Type
Function
This command sets filter type of carriers for Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:FILTer:TYPE.
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:CARRier[1]:LIST:METHod
:CALCulate:ACPower:CARRier[1]:LIST:METHod
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE
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[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?
Adjacent Channel Power Filter Type Query
Function
This command queries filter type of carriers for Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?
Response
<filter>
Parameter
<filter>
RECT
NYQ
RNYQ
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when ACP Reference is set to the following:
● Span Total
Example of Use
To query filter type of carriers for ACP measurement.
ACP:CARR:FILT:TYPE?
> NYQ
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:CARRier[1]:LIST:METHod?
:CALCulate:ACPower:CARRier[1]:LIST:METHod?
:CALCulate:ACPower:CARRier[1]:FILTer:TYPE?
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:CALCulate:ACPower:CARRier[1]:FILTer:TYPE?
Adjacent Channel Power Filter Type Query
Function
This command queries filter type of carriers for Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?.
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:CARRier[1]:LIST:METHod?
:CALCulate:ACPower:CARRier[1]:LIST:METHod?
[:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?
[:SENSe]:ACPower:FILTer[:RRC][:STATe] OFF|ON|0|1
Adjacent Channel Power Offset Filter Type
Function
This command sets filter type of the offset channel for Adjacent Channel
Power measurement.
Command
[:SENSe]:ACPower:FILTer[:RRC][:STATe] <switch>
Parameter
<switch>
OFF|0
ON|1
Filter type
Rectangle filter
Root Nyquist filter
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set filter type of the offset channel for ACP measurement to Root
Nyquist and query the results.
ACP:FILT ON
*WAI
FETC:ACP?
Related Command
This command has the same function as the following commands.
:CALCulate:ACPower:FILTer[:RRC][:STATe]
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE
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2.9 Adjacent Channel Power Measurement Settings
:CALCulate:ACPower:FILTer[:RRC][:STATe] OFF|ON|0|1
Adjacent Channel Power Offset Filter Type
Function
This command sets filter type of the offset channel for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:FILTer[:RRC][:STATe].
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:FILTer[:RRC][:STATe]
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE
[:SENSe]:ACPower:FILTer[:RRC][:STATe]?
Adjacent Channel Power Offset Filter Type Query
Function
This command queries filter type of the offset channel for Adjacent
Channel Power measurement.
Query
[:SENSe]:ACPower:FILTer[:RRC][:STATe]?
Response
<switch>
Parameter
<switch>
0
1
Filter type
Rectangle filter, Nyquist filter
Root Nyquist filter
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query filter type of the offset channel for ACP measurement.
ACP:FILT?
> 1
Related Command
This command has the same function as the following commands.
:CALCulate:ACPower:FILTer[:RRC][:STATe]?
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE?
2
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:CALCulate:ACPower:FILTer[:RRC][:STATe]?
Adjacent Channel Power Offset Filter Type Query
Function
This command queries filter type of the offset channel for Adjacent
Channel Power measurement.
Refer to [:SENSe]:ACPower:FILTer[:RRC][:STATe]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:FILTer[:RRC][:STATe]?
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE?
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
Adjacent Channel Power Offset Filter Type
Function
This command sets filter type of the offset channel for Adjacent Channel
Power measurement.
Command
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE <mode>
Parameter
<mode>
RECT
NYQuist
RNYQuist
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set filter type of the offset channel for ACP measurement to Nyquist and query the results.
ACP:OFFS:FILT:TYPE NYQ
*WAI
FETC:ACP?
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2.9 Adjacent Channel Power Measurement Settings
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:FILTer[:RRC][:STATe]
:CALCulate:ACPower:FILTer[:RRC][:STATe]
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
Adjacent Channel Power Offset Filter Type
Function
This command sets filter type of the offset channel for Adjacent Channel
Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE.
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:FILTer[:RRC][:STATe]
:CALCulate:ACPower:FILTer[:RRC][:STATe]
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE
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[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
Adjacent Channel Power Offset Filter Type Query
Function
This command queries filter type of the offset channel for Adjacent
Channel Power measurement.
Query
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
Response
<mode>
Parameter
<mode>
RECT
NYQ
RNYQ
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query filter type of the offset channel for ACP measurement.
ACP:OFFS:FILT:TYPE?
> NYQ
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:FILTer[:RRC][:STATe]?
:CALCulate:ACPower:FILTer[:RRC][:STATe]?
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE?
:CALCulate:ACPower:OFFSet[1]:FILTer:TYPE?
Adjacent Channel Power Offset Filter Type Query
Function
This command queries filter type of the offset channel for Adjacent
Channel Power measurement.
Refer to [:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?.
Related Command
This command has the same function as the following commands.
[:SENSe]:ACPower:FILTer[:RRC][:STATe]?
:CALCulate:ACPower:FILTer[:RRC][:STATe]?
[:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
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2.9 Adjacent Channel Power Measurement Settings
:DISPlay:ACPower:RESult:TYPE CARRier|OFFSet
Adjacent Channel Power Result Type
Function
This command switches the result display type for Adjacent Channel
Power measurement.
Command
:DISPlay:ACPower:RESult:TYPE <mode>
Parameter
<mode>
CARRier
OFFSet
Filter type
Sets the result display for ACP measurement to
Carrier Power.
Sets the result display for ACP measurement to
Offset Channel Power.
Details
This command is available when the following trace is active:
● Spectrum
2
Example of Use
To set the result display type to Carrier Power.
DISP:ACP:RES:TYPE CARR
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:DISPlay:ACPower:RESult:TYPE?
Adjacent Channel Power Result Type Query
Function
This command queries the result display type for Adjacent Channel
Power measurement.
Command
:DISPlay:ACPower:RESult:TYPE?
Response
<mode>
Parameter
<mode>
CARR
OFFS
Filter type
Sets the result display for ACP measurement to
Carrier Power.
Sets the result display for ACP measurement to
Offset Ch Power.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the result display type.
ACP:RES:TYPE?
> CARR
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2.9 Adjacent Channel Power Measurement Settings
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa <real>
Adjacent Channel Power Rolloff Ratio
Function
This command sets the rolloff ratio of the reference channel filter for
Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa <real>
Parameter
<real>
Range
Resolution
Suffix code
Default value
Filter rolloff ratio
0.01 to 1.00
0.01
None
0.22
Details
This command is available when the following trace is active:
● Spectrum
This command is available when the filter type (ACP Reference Filter
Type) of the reference channel for ACP measurement is set to either of the following:
● Nyquist
● Root Nyquist
This command is not available when ACP Reference is set to the following:
● Span Total
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the rolloff ratio of the reference channel filter for ACP measurement to 0.22 and query the results.
ACP:CARR:FILT:ALPH 0.22
*WAI
FETC:ACP?
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa
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:CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa <real>
Adjacent Channel Power Rolloff Ratio
Function
This command sets the rolloff ratio of the reference channel filter for ACP measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa
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2.9 Adjacent Channel Power Measurement Settings
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
Adjacent Channel Power Rolloff Ratio Query
Function
This command queries the rolloff ratio of the reference channel filter for
Adjacent Channel Power measurement.
Query
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
Response
<real>
Parameter
<real>
Range
Resolution
Suffix code
Filter Rolloff ratio
0.01 to 1.00
0.01
None
Details
This command is available when the following trace is active:
● Spectrum
This command is available when the filter type (ACP Offset Filter Type) of the reference channel for ACP measurement is set to either of the following:
● Nyquist
● Root Nyquist
This command is not available when ACP Reference is set to the following:
● Span Total
Example of Use
To query the rolloff ratio of the reference channel filter for ACP measurement.
ACP:CARR:FILT:ALPH?
> 0.22
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
2
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:CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
Adjacent Channel Power Rolloff Ratio Query
Function
This command queries the rolloff ratio of the reference channel filter for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
[:SENSe]:ACPower:FILTer[:RRC]:ALPHa <real>
Adjacent Channel Power Offset Rolloff Ratio
Function
This command sets the rolloff ratio of the offset channel filter for
Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:FILTer[:RRC]:ALPHa <real>
Parameter
<real>
Range
Resolution
Suffix code
Filter rolloff ratio
0.01 to 1.00
0.01
None
Details
This command is available when the following trace is active:
● Spectrum
This command is not available when the filter type (ACP Offset Filter
Type) of the reference channel for ACP measurement is set to either of the following:
● Nyquist
● Root Nyquist
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the rolloff ratio of the offset channel filter for ACP measurement to
0.22 and query the results.
ACP:FILT:ALPH 0.22
*WAI
FETC:ACP?
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2.9 Adjacent Channel Power Measurement Settings
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:FILTer[:RRC]:ALPHa
:CALCulate:ACPower:FILTer[:RRC]:ALPHa <real>
Adjacent Channel Power Offset Rolloff Ratio
Function
This command sets the rolloff ratio of the offset channel filter for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:FILTer[:RRC]:ALPHa.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:FILTer[:RRC]:ALPHa
2
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[:SENSe]:ACPower:FILTer[:RRC]:ALPHa?
Adjacent Channel Power Offset Rolloff Ratio Query
Function
This command queries the rolloff ratio of the offset channel filter for
Adjacent Channel Power measurement.
Command
[:SENSe]:ACPower:FILTer[:RRC]:ALPHa?
Response
<real>
Parameter
<real>
Range
Resolution
Suffix code
Filter rolloff ratio
0.01 to 1.00
0.01
None
Details
This command is available when the following trace is active:
● Spectrum
This command is available when the filter type (ACP Offset Filter Type) of the reference channel for ACP measurement is set to either of the following:
● Nyquist
● Root Nyquist
Example of Use
To query the rolloff ratio of the filter for ACP measurement.
ACP:FILT:ALPH?
> 0.22
Related Command
This command has the same function as the following command.
:CALCulate:ACPower:FILTer[:RRC]:ALPHa?
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:CALCulate:ACPower:FILTer[:RRC]:ALPHa?
Adjacent Channel Power Offset Rolloff Ratio Query
Function
This command queries the rolloff ratio of the offset channel filter for
Adjacent Channel Power measurement.
Refer to [:SENSe]:ACPower:FILTer[:RRC]:ALPHa?.
Related Command
This command has the same function as the following command.
[:SENSe]:ACPower:FILTer[:RRC]:ALPHa?
:CONFigure:ACP
Adjacent Channel Power Configure
Function
This command sets Adjacent Channel Power measurement to On.
Command
:CONFigure:ACP
Details
No measurement is performed.
Spectrum is set, if this command is executed when the trace is set to other than Spectrum.
Log is set, if this command is executed when Scale Mode is set to Linear.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set ACP measurement to On and query the results.
CONF:ACP
*WAI
FETC:ACP?
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:INITiate:ACP
Adjacent Channel Power Initiate
Function
This command performs an Adjacent Channel Power measurement.
Command
:INITiate:ACP
Details
When this function is executed, ACP measurement is set to On and a measurement is performed.
Spectrum is set, if this command is executed when the trace is set to other than Spectrum.
Log is set, if this command is executed when Scale Mode is set to Linear.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To perform an APC measurement and query the results.
INIT:ACP
*WAI
FETC:ACP?
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:FETCh:ACP[n]?
Adjacent Channel Power Read Fetch
Function
This command queries the measurement result for Adjacent Channel
Power measurement.
Query
:FETCh:ACP[n]?
Response
When RESult Mode is A.
For ACP measurement (ACP Result Type is OFFSet)
Two values of ref_carrier_a are output when ACP Reference is
BSIDes.
<ref_carrier_a> (,<ref_carrier_a>),
<lower_offset_1_rel>,<lower_offset_1_abs>,
<upper_offset_1_rel>,<upper_offset_1_abs>,
<lower_offset_2_rel>,<lower_offset_2_abs>,
<upper_offset_2_rel>,<upper_offset_2_abs>,
<lower_offset_3_rel>,<lower_offset_3_abs>,
<upper_offset_3_rel>,<upper_offset_3_abs>
(n = 1 or when omitted)
ACP measurement (ACP Result Type is CARRier)
<integration_abs>,<total_carrier_a>,<power_1>,
<power_2>,<power_3>,<power_4>,<power_5>,
<power_6>,<power_7>,<power_8>,<power_9>,
<power_10>,<power_11>,<power_12>
(n = 1 or when omitted)
When RESult Mode is B.
If Carrier Number is 1 and only Offset-1 is On.
<ref_carrier_b>,<lower_offset_1_rel>,
<upper_offset_1_rel>
In other cases,
0.0,<total_carrier_b>,0.0,<ref_carrier_b>,
<lower_offset_1_rel>,<lower_offset_1_abs>,
<upper_offset_1_rel>,<upper_offset_1_abs>,
<lower_offset_2_rel>,<lower_offset_2_abs>,
<upper_offset_2_rel>,<upper_offset_2_abs>,
<lower_offset_3_rel>,<lower_offset_3_abs>,
<upper_offset_3_rel>,<upper_offset_3_abs>
(n = 1 or when omitted, and the ACP Reference is other than Both Sides of Carriers)
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Chapter 2 SCPI Device Message Details
Parameter
(n = 1 or when omitted, and ACP Reference is Both Sides of Carriers)
<channel_1_rel>,<channel_1_abs>,
<channel_2_rel>,<channel_2_abs>,
......
<channel_12_rel>,<channel_12_abs>,
<lower_offset_1_rel>,<lower_offset_1_abs>,
<upper_offset_1_rel>,<upper_offset_1_abs>,
<lower_offset_2_rel>,<lower_offset_2_abs>,
<upper_offset_2_rel>,<upper_offset_2_abs>,
<lower_offset_3_rel>,<lower_offset_3_abs>,
<upper_offset_3_rel>,<upper_offset_3_abs>
(n = 2)
0.0,<total_carrier_b>,
<ref_carrier_lower>,<ref_carrier_upper>,
<lower_offset_1_rel>,<lower_offset_1_abs>,
<upper_offset_1_rel>,<upper_offset_1_abs>,
<lower_offset_2_rel>,<lower_offset_2_abs>,
<upper_offset_2_rel>,<upper_offset_2_abs>,
<lower_offset_3_rel>,<lower_offset_3_abs>,
<upper_offset_3_rel>,<upper_offset_3_abs>
<lower_offset_n_rel> Relative power of the lower side of
Offset-n
<upper_offset_n_rel> Relative power of the upper side of
Offset-n
No suffix code, in dB units, resolution: 0.01 dB
− 999.0 is returned when no measurement is performed or an error has occurred.
<ref_carrier_b> Power of reference carrier
<ref_carrier_lower> Power of carrier on the left edge
<ref_carrier_upper> Power of carrier on the right edge
<total_carrier_b> Total power of all carriers
<channel_n_rel> Relative power of carrier n in relation to carrier m
Note: m is a value calculated by rounding up Carrier Number ÷ 2.
<lower_offset_n_abs> Absolute power of the lower side of
Offset-n
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Details
Example of Use
2.9 Adjacent Channel Power Measurement Settings
<upper_offset_n_abs> Absolute power of the upper side of
Offset-n
No suffix code, in dBm units, resolution: 0.01 dB
− 999.0 is returned when no measurement is performed or an error has occurred.
<integration_abs> Absolute value of the integral power on the whole screen
<total_carrier_a>
<ref_carrier_a>
<power_n>
Total power of all carriers
Power of reference carrier
Absolute value of the power of carrier
− n
No suffix code, in Log Scale units
(Note: dBm units for V, W units for W)
− 999.0 is returned when no measurement is performed or an error has occurred.
2
This command queries the measurement result of ACP measurement performed last. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
Return values in this function vary depending on Result Mode.
(cf. :SYSTem:RESult:MODE)
To query the measurement result for ACP measurement.
FETC:ACP?
> -75.76,-0.035,-75.80,-0.004,-75.77,-1.400,-77.16,
-0.429,-76.19,–999.0,–999.0,–999.0,–999.0
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:READ:ACP[n]?
Adjacent Channel Power Read
Function
This command performs a measurement for Adjacent Channel Power and outputs the measurement result.
This command has the same function as the following commands executed in this order:
:INITiate:ACP
:FETCh:ACP[n]?
This command is available when the following trace is active:
● Spectrum
:MEASure:ACP[n]?
Adjacent Channel Power Measure
Function
This command performs ACP measurement and queries the measurement result.
This command has the same function as the following commands executed in this order:
:CONFigure:ACP
:INITiate:ACP
:FETCh:ACP[n]?
:CALCulate:ACPower:MARKer:AOFF
All Marker Off
Function
This command sets all markers to Off.
Refer to :CALCulate:MARKer:AOFF.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer:AOFF
:CALCulate:CHPower:MARKer:AOFF
:CALCulate:OBWidth:MARKer:AOFF
:CALCulate:BPOWer|:TXPower:MARKer:AOFF
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:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
Peak Search
Function
This command searches for the maximum level point of the main trace and moves the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
MAXimum
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT
Next Peak Search
Function
This command searches for the feature point of the main trace and moves the marker point to the peak point at a smaller level than the current marker level.
Refer to
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT.
Related Command
This command has the same function as the following command.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT
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:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
<freq>|<time>|<sample>|<dist>
Zone Marker Frequency (Time)
Function
This command moves the center of the zone marker to the set frequency
(time).
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Zone Marker Frequency (Time) Query
Function
This command queries the center of the zone marker.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X?
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:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
Marker Level Query
Function
This command queries the level of the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?.
Related Command
:DISPlay:ACPower:ANNotation:TITLe:DATA <string>
Title Entry
Function
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
Y?
This command registers the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA.
Related Command
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA
:DISPlay:CHPowe:ANNotation:TITLe:DATA
:DISPlay:OBWidth:ANNotation:TITLe:DATA
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA
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:DISPlay:ACPower:ANNotation:TITLe:DATA?
Title Entry Query
Function
This command queries the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA?.
Related Command
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA?
:DISPlay:CHPowe:ANNotation:TITLe:DATA?
:DISPlay:OBWidth:ANNotation:TITLe:DATA?
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
<rel_ampl>
Log Scale Range
Function
This command sets the Y-axis scale range when Scale Mode is set to Log.
Refer to: DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic].
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision
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:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ?
Log Scale Range Query
Function
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
Reference Level
Function
This command sets the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel.
Related Command
This command queries the Y-axis scale range when Scale Mode is set to
Log.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic]?.
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel
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:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
Reference Level Query
Function
This command queries the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?.
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel?
:TRIGger:ACPower[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
Trigger Source
Function
This command selects the trigger source type.
Refer to TRIGger[:SEQuence]:SOURce.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce
TRIGger:CHPower[:SEQuence]:SOURce
TRIGger:OBWidth[:SEQuence]:SOURce
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
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:TRIGger:ACPower[:SEQuence]:SOURce?
Trigger Source Query
Function
This command queries the trigger source type.
Refer to TRIGger[:SEQuence]:SOURce?.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce?
TRIGger:CHPower[:SEQuence]:SOURce?
TRIGger:OBWidth[:SEQuence]:SOURce?
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
[:SENSe]:ACPower:AVERage:COUNt <integer>
Average Count
Function
This command sets the storage count.
Refer to [:SENSe]:AVERage:COUNt.
Related Command
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt
[:SENSe]:CHPower:AVERage:COUNt
[:SENSe]:OBWidth:AVERage:COUNt
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt
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[:SENSe]:ACPower:AVERage:COUNt?
Average Count Query
Function
This command queries the storage count.
Refer to [:SENSe]:AVERage:COUNt?.
Related Command
[:SENSe]:ACPower:AVERage[:STATe] ON|OFF|1|0
Storage Mode
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt?
[:SENSe]:CHPower:AVERage:COUNt?
[:SENSe]:OBWidth:AVERage:COUNt?
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt?
Function
This command sets the storage mode.
Command
[:SENSe]:ACPower:AVERage[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Setting of Storage Mode
Sets Storage Mode to Average.
Sets Storage Mode to Off (Default value)
Example of Use
To set Storage Mode to Off.
ACP:AVER OFF
Related Command
This command has the same function as the following commands.
:TRACe:STORage:MODE
[:SENSe]:CHPower:AVERage[:STATe]
[:SENSe]:OBWidth:AVERage[:STATe]
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]
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[:SENSe]:ACPower:AVERage[:STATe]?
Storage Mode Query
Function
This command queries the storage mode.
Query
[:SENSe]:ACPower:AVERage[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Storage Mode Setting
Average
Other than Average
Example of Use
To query the setting of Storage Mode.
ACP:AVER?
> 0
Related Command
This command has the same function as the following commands.
:TRACe:STORage:MODE?
[:SENSe]:CHPower:AVERage[:STATe]?
[:SENSe]:OBWidth:AVERage[:STATe]?
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]?
[:SENSe]:ACPower:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
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:CALCulate:ACPower:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
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:CALCulate:ACPower:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW) setting function.
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO[:SENSe]:O
BWidth:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO
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:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW) setting function.
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO[:SENSe]:O
BWidth:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
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:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
[:SENSe]:ACPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
Detection Mode
Function
This command selects the detection mode of the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion].
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]
:CALCulate:DETector[:FUNCtion]
:CALCulate:ACPower:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]
:CALCulate:CHPower:DETector[:FUNCtion]
[:SENSe]:OBWidth:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
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:CALCulate:ACPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
Detection Mode
Function
This command selects the detection mode of the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion].
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]
:CALCulate:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]
:CALCulate:CHPower:DETector[:FUNCtion]
[:SENSe]:OBWidth:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]?
Detection Mode Query
Function
This command selects the detection mode of the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]?
:CALCulate:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]?
[:SENSe]:OBWidth:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]?
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:CALCulate:ACPower:DETector[:FUNCtion]?
Detection Mode Query
Function
This command selects the detection mode of the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion]?
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]?
:CALCulate:DETector[:FUNCtion]?
[:SENSe]:ACPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]?
[:SENSe]:OBWidth:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]?
[:SENSe]:ACPower:FREQuency:SPAN <freq>
Span Frequency
Function
This command sets the span frequency.
Refer to [:SENSe]:FREQuency:SPAN.
Related Command
This command has the same function as the following commands.
[:SENSe]:FREQuency:SPAN
[:SENSe]:CHPower:FREQuency:SPAN
[:SENSe]:OBWidth:FREQuency:SPAN
[:SENSe]:ACPower:FREQuency:SPAN?
Span Frequency Query
Function
This command queries the span frequency.
Refer to [:SENSe]:FREQuency:SPAN?.
Related Command
This command has the same function as the following commands.
[:SENSe]:FREQuency:SPAN?
[:SENSe]:CHPower:FREQuency:SPAN?
[:SENSe]:OBWidth:FREQuency:SPAN?
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[:SENSe]:ACPower:SWEep:POINts?
Trace Point Query
Function
This command queries the number of the trace display points.
Refer to [:SENSe]:SWEep:POINts?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:POINts?
[:SENSe]:CHPower:SWEep:POINts?
[:SENSe]:OBWidth:SWEep:POINts?
[:SENSe]:ACPower:SWEep:TIME <time>
Sweep Time
Function
This command sets the sweep time.
Refer to [:SENSe]:SWEep:TIME.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME
[:SENSe]:CHPower:SWEep:TIME
[:SENSe]:OBWidth:SWEep:TIME
[:SENSe]:BPOWer|:TXPower:SWEep:TIME
[:SENSe]:ACPower:SWEep:TIME?
Sweep Time Query
Function
This command queries the sweep time.
Refer to [:SENSe]:SWEep:TIME?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME?
[:SENSe]:CHPower:SWEep:TIME?
[:SENSe]:OBWidth:SWEep:TIME?
[:SENSe]:BPOWer|:TXPower:SWEep:TIME?
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[:SENSe]:ACPower:SWEep:TIME:AUTO OFF|ON|0|1
Sweep Time Auto/Manual
Function
This command enables/disables automatic setting for the waveform capture time.
Refer to [:SENSe]:SWEep:TIME:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME:AUTO
[:SENSe]:CHPower:SWEep:TIME:AUTO
[:SENSe]:OBWidth:SWEep:TIME:AUTO
[:SENSe]:ACPower:SWEep:TIME:AUTO?
Sweep Time Auto/Manual Query
Function
This command queries whether automatic setting is enabled for the waveform capture time.
Refer to [:SENSe]:SWEep:TIME:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME:AUTO?
[:SENSe]:CHPower:SWEep:TIME:AUTO?
[:SENSe]:OBWidth:SWEep:TIME:AUTO?
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:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
NORMal|POSition|DELTa|FIXed|OFF
Marker Mode
Function
This command sets the marker mode.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
Marker Mode Query
Function
This command queries the marker mode.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
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:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
Relative To
Function
This command sets the reference marker when Marker Mode is set to
Delta.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
<integer>.
2
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
Relative To
Function
This command queries the reference marker when Marker Mode is set to
Delta.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
?.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
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2.10 Channel Power Measurement Settings
Table 2.10-1 lists device messages for Channel Power measurement.
Function
Measure Channel
Power
Channel Power
Channel Center
Frequency
Channel Power
Channel
Bandwidth
Channel Power
Filter Type
Channel Power
Rolloff Ratio
Channel Power
Configure
Channel Power
Initiate
Table 2.10-1 Device messages for Channel Power measurement
Device Message
[:SENSe]:CHPower[:STATe] ON|OFF|1|0
[:SENSe]:CHPower[:STATe]?
:CALCulate:CHPower[:STATe] ON|OFF|1|0
:CALCulate:CHPower[:STATe]?
[:SENSe]:CHPower:FREQuency:CENTer <freq>
[:SENSe]:CHPower:FREQuency:CENTer?
:CALCulate:CHPower:FREQuency:CENTer <freq>
:CALCulate:CHPower:FREQuency:CENTer?
[:SENSe]:CHPower:BANDwidth:INTegration <freq>
[:SENSe]:CHPower:BANDwidth:INTegration?
:CALCulate:CHPower:BANDwidth:INTegration <freq>
:CALCulate:CHPower:BANDwidth:INTegration?
[:SENSe]:CHPower:FILTer:TYPE RECT|NYQuist|RNYQuist
[:SENSe]:CHPower:FILTer:TYPE?
:CALCulate:CHPower:FILTer:TYPE RECT|NYQuist|RNYQuist
:CALCulate:CHPower:FILTer:TYPE?
[:SENSe]:CHPower:FILTer[:RRC][:STATe] ON|OFF|1|0
[:SENSe]:CHPower:FILTer[:RRC][:STATe]?
:CALCulate:CHPower:FILTer[:RRC][:STATe] ON|OFF|1|0
:CALCulate:CHPower:FILTer[:RRC][:STATe]?
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa <real>
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa?
:CALCulate:CHPower:FILTer[:RRC]:ALPHa <real>
:CALCulate:CHPower:FILTer[:RRC]:ALPHa?
:CONFigure:CHPower
Channel Power
Fetch
:INITiate:CHPower
:FETCh:CHPower[n]?
:FETCh:CHPower:CHPower?
:FETCh:CHPower:DENSity?
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All Marker Off
Peak Search
Table 2.10-1 Device messages for Channel Power measurement (Cont’d)
Function
Channel Power
Read
Channel Power
Measure
Zone Marker
Frequency (Time)
Device Message
:READ:CHPower[n]?
:READ:CHPower:CHPower?
:READ:CHPower:DENSity?
:MEASure:CHPower[n]?
:MEASure:CHPower:CHPower?
:MEASure:CHPower:DENSity?
:CALCulate:CHPower:MARKer:AOFF
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>
|<sample>|<dist>
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Marker Level
Query
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
Title Entry
Log Scale Range
Reference Level
Trigger Source
Average Count
Storage Mode
Resolution
Bandwidth
Resolution
Bandwidth
Auto/Manual
:DISPlay:CHPower:ANNotation:TITLe:DATA <string>
:DISPlay:CHPower:ANNotation:TITLe:DATA?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
<rel_ampl>
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
<real>
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
:TRIGger:CHPower[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
:TRIGger:CHPower[:SEQuence]:SOURce?
[:SENSe]:CHPower:AVERage:COUNt <integer>
[:SENSe]:CHPower:AVERage:COUNt?
[:SENSe]:CHPower:AVERage[:STATe] ON|OFF|1|0
[:SENSe]:CHPower:AVERage[:STATe]?
[:SENSe]:CHPower:BANDwidth[:RESolution] <freq>
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution] <freq>
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
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Table 2.10-1 Device messages for Channel Power measurement (Cont’d)
Function
Detection Mode
Span Frequency
Device Message
[:SENSe]:CHPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
[:SENSe]:CHPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
:CALCulate:CHPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:FREQuency:SPAN <freq>
[:SENSe]:CHPower:FREQuency:SPAN?
Trace Point Query [:SENSe]:CHPower:SWEep:POINts?
Sweep Time
[:SENSe]:CHPower:SWEep:TIME <time>
Sweep Time
Auto/Manual
[:SENSe]:CHPower:SWEep:TIME?
[:SENSe]:CHPower:SWEep:TIME:AUTO OFF|ON|0|1
[:SENSe]:CHPower:SWEep:TIME:AUTO?
Marker Mode
Relative To
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
NORMal|POSition|DELTa|FIXed|OFF
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
<integer>
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
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[:SENSe]:CHPower[:STATe] ON|OFF|1|0
Measure Channel Power
Function
This command executes Channel Power measurement.
Command
[:SENSe]:CHPower[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
CHP measurement On/Off
Sets CHP measurement On.
Sets CHP measurement Off (Default value).
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set CHP measurement to On and query the results.
CHP ON
*WAI
FETC:CHP?
Related Command
This command has the same function as the following command.
:CALCulate:CHPower[:STATe]
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:CALCulate:CHPower[:STATe] ON|OFF|1|0
Measure Channel Power
Function
This command executes Channel Power measurement.
Refer to [:SENSe]:CHPower[:STATe].
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower[:STATe]
[:SENSe]:CHPower[:STATe]?
Measure Channel Power Query
Function
This command queries the setting of Channel Power measurement.
Command
[:SENSe]:CHPower[:STATe]?
Parameter
<switch>
1
0
CHP measurement On/Off
On
Off
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the setting of CHP measurement.
CHP?
> 1
Related Command
This command has the same function as the following command.
:CALCulate:CHPower[:STATe]?
:CALCulate:CHPower[:STATe]?
Measure Channel Power Query
Function
This command queries the setting of Channel Power measurement.
Refer to [:SENSe]:CHPower[:STATe]?.
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower[:STATe]?
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2.10 Channel Power Measurement Settings
[:SENSe]:CHPower:FREQuency:CENTer <freq>
Channel Power Channel Center Frequency
Function
This command sets the center frequency for Channel Power measurement.
Command
[:SENSe]:CHPower:FREQuency:CENTer <freq>
Parameter
<freq>
Range
Resolution
Suffix code
Default value
Channel center frequency
125 MHz centered at the center frequency
(Center Frequency) of waveform capture
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Center frequency of waveform capture (Center
Frequency)
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the center frequency of Channel Power to 10 MHz and query the results.
CHP:FREQ:CENT 10MHZ
*WAI
FETC:CHP?
Related Command
This command has the same function as the following command.
:CALCulate:CHPower:FREQuency:CENTer
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:CALCulate:CHPower:FREQuency:CENTer <freq>
Channel Power Channel Center Frequency
Function
This command sets the center frequency for Channel Power measurement.
Refer to [:SENSe]:CHPower:FREQuency:CENTer.
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower:FREQuency:CENTer
[:SENSe]:CHPower:FREQuency:CENTer?
Channel Power Channel Center Frequency Query
Function
This command queries the center frequency for Channel Power measurement.
Query
[:SENSe]:CHPower:FREQuency:CENTer?
Response
<freq>
Parameter
<freq>
Range
Channel center frequency
125 MHz centered at the center frequency (Center
Resolution
Frequency) of waveform capture
1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the center frequency of Channel Power.
CHP:FREQ:CENT?
> 10000000
Related Command
This command has the same function as the following command.
:CALCulate:CHPower:FREQuency:CENTer?
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2.10 Channel Power Measurement Settings
:CALCulate:CHPower:FREQuency:CENTer?
Channel Power Channel Center Frequency Query
Function
This command queries the center frequency for Channel Power measurement.
Refer to [:SENSe]:CHPower:FREQuency:CENTer?.
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower:FREQuency:CENTer?
[:SENSe]:CHPower:BANDwidth:INTegration <freq>
Channel Power Channel Bandwidth
Function
This command sets the channel bandwidth for channel power measurement.
Command
[:SENSe]:CHPower:BANDwidth:INTegration <freq>
Parameter
<freq>
Range
Resolution
Suffix code
Default value
Channel bandwidth
1 Hz to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
3.84 MHz
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the channel bandwidth to 1 MHz and query the results.
CHP:BAND:INT 1MHZ
*WAI
FETC:CHP?
Related Command
This command has the same function as the following command.
:CALCulate:CHPower:BANDwidth:INTegration
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:CALCulate:CHPower:BANDwidth:INTegration <freq>
Channel Power Channel Bandwidth
Function
This command sets the channel bandwidth for channel power measurement.
Refer to [:SENSe]:CHPower:BANDwidth:INTegration.
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower:BANDwidth:INTegration
[:SENSe]:CHPower:BANDwidth:INTegration?
Channel Power Channel Bandwidth Query
Function
This command queries the channel bandwidth for Channel Power measurement.
Query
[:SENSe]:CHPower:BANDwidth:INTegration?
Response
<freq>
Parameter
<freq>
Range
Resolution
Channel bandwidth
1 Hz to 125 MHz
1 Hz
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the channel bandwidth.
CHP:BAND:INT?
> 1000000
Related Command
This command has the same function as the following command.
:CALCulate:CHPower:BANDwidth:INTegration?
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2.10 Channel Power Measurement Settings
:CALCulate:CHPower:BANDwidth:INTegration?
Channel Power Channel Bandwidth Query
Function
This command queries the channel bandwidth for Channel Power measurement.
Refer to [:SENSe]:CHPower:BANDwidth:INTegration?.
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower:BANDwidth:INTegration?
[:SENSe]:CHPower:FILTer:TYPE RECT|NYQuist|RNYQuist
Channel Power Filter Type
Function
This command sets filter type for channel power measurement.
Command
[:SENSe]:CHPower:FILTer:TYPE <filter>
Parameter
<filter>
RECT
NYQuist
RNYQuist
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the filter type to Nyquist and query the results.
CHP:FILT:TYPE NYQ
*WAI
FETC:CHP?
Related Command
This command has the same function as the following commands.
:CALCulate:CHPower:FILTer:TYPE
[:SENSe]:CHPower:FILTer[:RRC][:STATe]
:CALCulate:CHPower:FILTer[:RRC][:STATe]
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:CALCulate:CHPower:FILTer:TYPE RECT|NYQuist|RNYQuist
Channel Power Filter Type
Function
This command sets filter type for channel power measurement.
Refer to [:SENSe]:CHPower:FILTer:TYPE.
Related Command
This command has the same function as the following commands.
[:SENSe]:CHPower:FILTer:TYPE
[:SENSe]:CHPower:FILTer[:RRC][:STATe]
:CALCulate:CHPower:FILTer[:RRC][:STATe]
[:SENSe]:CHPower:FILTer:TYPE?
Channel Power Filter Type Query
Function
This command queries filter type for Channel Power measurement.
Query
[:SENSe]:CHPower:FILTer:TYPE?
Response
<filter>
Parameter
<filter>
RECT
NYQ
RNYQ
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the filter type.
CHP:FILT:TYPE?
> NYQ
Related Command
This command has the same function as the following commands.
:CALCulate:CHPower:FILTer:TYPE?
[:SENSe]:CHPower:FILTer[:RRC][:STATe]?
:CALCulate:CHPower:FILTer[:RRC][:STATe]?
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2.10 Channel Power Measurement Settings
:CALCulate:CHPower:FILTer:TYPE?
Channel Power Filter Type Query
Function
This command queries filter type for Channel Power measurement.
Refer to [:SENSe]:CHPower:FILTer:TYPE?.
Related Command
This command has the same function as the following commands.
[:SENSe]:CHPower:FILTer:TYPE?
[:SENSe]:CHPower:FILTer[:RRC][:STATe]?
:CALCulate:CHPower:FILTer[:RRC][:STATe]?
[:SENSe]:CHPower:FILTer[:RRC][:STATe] ON|OFF|1|0
Channel Power Filter Type
Function
This command sets filter type for Channel Power measurement.
Command
[:SENSe]:CHPower:FILTer[:RRC][:STATe] <filter>
Parameter
<filter>
0|OFF
1|ON
Filter type
Rectangle filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the filter type to Root Nyquist and query the results.
CHP:FILT 1
*WAI
FETC:CHP?
Related Command
This command has the same function as the following commands.
[:SENSe]:CHPower:FILTer:TYPE
:CALCulate:CHPower:FILTer:TYPE
:CALCulate:CHPower:FILTer[:RRC][:STATe]
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:CALCulate:CHPower:FILTer[:RRC][:STATe] ON|OFF|1|0
Channel Power Filter Type
Function
This command sets filter type for Channel Power measurement.
Refer to [:SENSe]:CHPower:FILTer[:RRC][:STATe].
Related Command
This command has the same function as the following commands.
[:SENSe]:CHPower:FILTer:TYPE
:CALCulate:CHPower:FILTer:TYPE
[:SENSe]:CHPower:FILTer[:RRC][:STATe]
[:SENSe]:CHPower:FILTer[:RRC][:STATe]?
Channel Power Filter Type Query
Function
This command queries the filter type for Channel Power measurement.
Query
[:SENSe]:CHPower:FILTer[:RRC][:STATe]?
Response
<filter>
Parameter
<filter>
0
1
Filter type
Rectangle filter, Nyquist filter
Root Nyquist filter (Default value)
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the filter type.
CHP:FILT?
> 1
Related Command
This command has the same function as the following commands.
[:SENSe]:CHPower:FILTer:TYPE?
:CALCulate:CHPower:FILTer:TYPE?
:CALCulate:CHPower:FILTer[:RRC][:STATe]?
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:CALCulate:CHPower:FILTer[:RRC][:STATe]?
Channel Power Filter Type Query
Function
This command queries filter type for Channel Power measurement.
Refer to [:SENSe]:CHPower:FILTer[:RRC][:STATe]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:CHPower:FILTer:TYPE?
:CALCulate:CHPower:FILTer:TYPE?
[:SENSe]:CHPower:FILTer[:RRC][:STATe]?
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa <real>
Channel Power Rolloff Ratio
Function
This command sets the rolloff ratio for Channel Power measurement.
Command
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa <real>
Parameter
<real>
Range
Resolution
Suffix code
Default value
Filter rolloff ratio
0.01 to 1.00
0.01
None
0.22
Details
This command is available when the following trace is active:
● Spectrum
This command is available when the filter type (Channel Power Filter
Type) is set to either of the following:
● Nyquist
● Root Nyquist
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the filter rolloff ratio to 0.22 and query the results.
CHP:FILT:ALPH 0.22
*WAI
FETC:CHP?
Related Command
This command has the same function as the following command.
:CALCulate:CHPower:FILTer[:RRC]:ALPHa
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Chapter 2 SCPI Device Message Details
:CALCulate:CHPower:FILTer[:RRC]:ALPHa <real>
Channel Power Rolloff Ratio
Function
This command sets the rolloff ratio for Channel Power measurement.
Refer to [:SENSe]:CHPower:FILTer[:RRC]:ALPHa.
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa?
Channel Power Rolloff Ratio Query
Function
This command queries the rolloff ratio for Channel Power measurement.
Query
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa?
Response
<real>
Parameter
<real>
Range
Resolution
Suffix code
Default value
Filter rolloff ratio
0.01 to 1.00
0.01
None
0.22
Details
This command is available when the following trace is active:
● Spectrum
This command is available when the filter type (Channel Power Filter
Type) is set to the following:
● Nyquist
● Root Nyquist
Example of Use
To query the filter rolloff ratio.
CHP:FILT:ALPH?
> 0.22
Related Command
This command has the same function as the following command.
:CALCulate:CHPower:FILTer[:RRC]:ALPHa?
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:CALCulate:CHPower:FILTer[:RRC]:ALPHa?
Channel Power Rolloff Ratio Query
Function
This command queries the rolloff ratio for Channel Power measurement.
Refer to [:SENSe]:CHPower:FILTer[:RRC]:ALPHa?.
Related Command
This command has the same function as the following command.
[:SENSe]:CHPower:FILTer[:RRC]:ALPHa?
:CONFigure:CHPower
Channel Power Configure
Function
This command sets Channel Power measurement to On.
2
Command
:CONFigure:CHPower
Details
No measurement is performed.
Spectrum is set if this command is executed when the trace is set to other than Spectrum.
Log is set if this command is executed when Scale Mode is set to Linear.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set Channel Power measurement to On and query the results.
CONF:CHP
*WAI
FETC:CHP?
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:INITiate:CHPower
Channel Power Initiate
Function
This command performs a Channel Power measurement.
Command
Details
Example of Use
:INITiate:CHPower
When this command is executed, Channel Power measurement is set to
On and the measurement is performed.
Spectrum is set if this command is executed when the trace is set to other than Spectrum.
Log is set if this command is executed when Scale Mode is set to Linear.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
To perform Channel Power measurement and query the results.
INIT:CHP
*WAI
FETC:CHP?
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:FETCh:CHPower[n]?
Channel Power Fetch
Function
This command queries the results of Channel Power measurement.
Query
:FETCh:CHPower[n]?
Response
<power>,<density> n = 1 or when omitted
Parameter
<power>
<density>
Power aggregate in the band specified in
Channel bandwidth.
When Scale Mode is Log:
Log Scale Unit units (Note: dBm units for V, W units for W)
Value without a suffix code is returned.
−999.0 is returned when no measurement is performed.
Power density in the bandwidth specified for
Channel bandwidth
When Scale Mode is Log:
Log Scale Unit units (Note: dBm units for V, W units for W )
Returns a value without a suffix code.
− 99.0 is returned when no measurement is performed.
Details
This command queries the measurement result of Channel Power measurement performed last. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
2
Example of Use
To query the measurement result of the total power and the power density.
FETC:CHP?
> -8.00,-50.00
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:FETCh:CHPower:CHPower?
Channel Power Fetch Channel Power
Function
This command queries the power aggregate in the band for Channel
Power measurement.
Query
:FETCh:CHPower:CHPower?
Response
<power>
Parameter
<power> Power aggregate in the band specified in
Channel bandwidth.
When Scale Mode is Log:
Log Scale Unit units (Note: dBm units for V, W units for W )
Value without a suffix code is returned.
− 999.0 is returned when no measurement is performed.
Details
This command queries the measurement result of Channel Power measurement performed lastly. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
Example of Use
To query the power aggregate.
FETC:CHP:CHP?
> -8.00
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:FETCh:CHPower:DENSity?
Channel Power Fetch Density
Function
This command queries the power density in the band for Channel Power measurement.
Query
:FETCh:CHPower:DENSity?
Response
<density>
Parameter
<density> Power density in the band specified in Channel bandwidth
When Scale Mode is Log:
Log Scale Unit units (Note: dBm units for V, W units for W )
Value without a suffix code is returned.
− 999.0 is returned when no measurement is performed.
Details
This command queries the measurement result of Channel Power measurement performed lastly. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
2
Example of Use
:READ:CHPower[n]?
Channel Power Read
Function
To query the power density.
FETC:CHP:DENS?
> -8.00
This command performs Channel Power measurement and queries the measurement result.
This command has the same function as the following commands executed in this order:
:INITiate:CHPower
:FETCh:CHPower[n]?
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:READ:CHPower:CHPower?
Channel Power Read Channel Power
Function
This command performs Channel Power measurement and queries the power aggregate in the band.
This command functions the same as when the following commands are executed in this order:
:INITiate:CHPower
:FETCh:CHPower:CHPower?
:READ:CHPower:DENSity?
Channel Power Read Density
Function
This command performs Channel Power measurement and queries the power density in the band.
This command has the same function as the following commands executed in this order:
:INITiate:CHPower
:FETCh:CHPower:DENSity?
:MEASure:CHPower[n]?
Channel Power Measure
Function
This command performs Channel Power measurement and queries the measurement result.
This command has the same function as the following commands executed in this order:
:CONFigure:CHPower
:INITiate:CHPower
:FETCh:CHPower[n]?
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:MEASure:CHPower:CHPower?
Channel Power Measure Channel Power
Function
This command performs Channel Power measurement and queries the power aggregate in the band.
This command has the same function as the following commands executed in this order:
:CONFigure:CHPower
:INITiate:CHPower
:FETCh:CHPower:CHPower?
:MEASure:CHPower:DENSity?
Channel Power Measure Density
Function
This command performs a measurement at Channel Power and outputs the power density in the band.
This command has the same function as the following commands executed in this order:
:CONFigure:CHPower
:INITiate:CHPower
:FETCh:CHPower:DENSity?
:CALCulate:CHPower:MARKer:AOFF
All Marker Off
Function
This command sets all markers to OFF.
Refer to :CALCulate:MARKer:AOFF.
Related Command
This command has the same function as the following commands:
:CALCulate:MARKer:AOFF
:CALCulate:ACPower:MARKer:AOFF
:CALCulate:OBWidth:MARKer:AOFF
:CALCulate:BPOWer|:TXPower:MARKer:AOFF
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:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
Peak Search
Function
This command searches for the maximum level point of the main trace and moves the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum.
Related Command
This command has the same function as the following commands:
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
MAXimum
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
<freq>|<time>|<sample>|<dist>
Zone Marker Frequency (Time)
Function
This command moves the frequency (time) which specifies the center of the zone marker.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X.
Related Command
This command has the same function as the following commands:
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X
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:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Zone Marker Frequency (Time) Query
Function
This command queries the center of the zone marker.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
Marker Level Query
Function
This command queries the level at the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?.
Related Command
:DISPlay:CHPower:ANNotation:TITLe:DATA <string>
Title Entry
Function
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
Y?
This command registers the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA.
Related Command
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA
:DISPlay:ACPowe:ANNotation:TITLe:DATA
:DISPlay:OBWidth:ANNotation:TITLe:DATA
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA
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:DISPlay:CHPower:ANNotation:TITLe:DATA?
Title Entry Query
Function
This command queries the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA?.
Related Command
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA?
:DISPlay:ACPowe:ANNotation:TITLe:DATA?
:DISPlay:OBWidth:ANNotation:TITLe:DATA?
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
<rel_ampl>
Log Scale Range
Function
This command sets the Y-axis scale range when Scale Mode is set to Log.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic].
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision
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:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ?
Log Scale Range Query
Function
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
Reference Level
Function
This command sets the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel.
Related Command
This command queries the Y-axis scale range when Scale Mode is set to
Log.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic]?.
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel
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:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
Reference Level Query
Function
This command queries the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?.
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel?
:TRIGger:CHPower[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
Trigger Source
Function
This command selects the trigger source.
Refer to TRIGger[:SEQuence]:SOURce.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce
TRIGger:ACPower[:SEQuence]:SOURce
TRIGger:OBWidth[:SEQuence]:SOURce
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
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:TRIGger:CHPower[:SEQuence]:SOURce?
Trigger Source Query
Function
This command queries the trigger source.
Refer to TRIGger[:SEQuence]:SOURce?.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce?
TRIGger:ACPower[:SEQuence]:SOURce?
TRIGger:OBWidth[:SEQuence]:SOURce?
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
[:SENSe]:CHPower:AVERage:COUNt <integer>
Average Count
Function
This command sets the storage count.
Refer to [:SENSe]:AVERage:COUNt.
Related Command
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt
[:SENSe]:ACPower:AVERage:COUNt
[:SENSe]:OBWidth:AVERage:COUNt
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt
[:SENSe]:CHPower:AVERage:COUNt?
Average Count Query
Function
This command queries the storage count.
Refer to [:SENSe]:AVERage:COUNt?.
Related Command
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt?
[:SENSe]:ACPower:AVERage:COUNt?
[:SENSe]:OBWidth:AVERage:COUNt?
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt?
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[:SENSe]:CHPower:AVERage[:STATe] ON|OFF|1|0
Storage Mode
Function
This command sets the storage method.
Refer to [:SENSe]:ACPower:AVERage[:STATe].
Related Command
This command has the same function as the following commands.
:TRACe:STORage:MODE
[:SENSe]:ACPower:AVERage[:STATe]
[:SENSe]:OBWidth:AVERage[:STATe]
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]
[:SENSe]:CHPower:AVERage[:STATe]?
Storage Mode Query
Function
This command queries the storage method.
Refer to [:SENSe]:ACPower:AVERage[:STATe]?.
Related Command
This command has the same function as the following commands.
:TRACe:STORage:MODE?
[:SENSe]:ACPower:AVERage[:STATe]
[:SENSe]:OBWidth:AVERage[:STATe]
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]
[:SENSe]:CHPower:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
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:CALCulate:CHPower:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
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:CALCulate:CHPower:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW) setting function.
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO
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:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW) setting function.
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
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:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
Detection Mode
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion].
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]
:CALCulate:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]
:CALCulate:ACPower:DETector[:FUNCtion]
:CALCulate:CHPower:DETector[:FUNCtion]
[:SENSe]:OBWidth:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
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:CALCulate:CHPower:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
Detection Mode
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion].
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]
:CALCulate:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]
:CALCulate:ACPower:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]
[:SENSe]:OBWidth:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]?
Detection Mode Query
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]?
:CALCulate:DETector[:FUNCtion]?
[:SENSe]:ACPower:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]?
[:SENSe]:OBWidth:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]?
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:CALCulate:CHPower:DETector[:FUNCtion]?
Detection Mode Query
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]?
:CALCulate:DETector[:FUNCtion]?
[:SENSe]:ACPower:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:DETector[:FUNCtion]?
[:SENSe]:OBWidth:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]?
[:SENSe]:CHPower:FREQuency:SPAN <freq>
Span Frequency
Function
This command sets the span frequency.
Refer to [:SENSe]:FREQuency:SPAN.
Related Command
This command has the same function as the following commands.
[:SENSe]:FREQuency:SPAN
[:SENSe]:ACPower:FREQuency:SPAN
[:SENSe]:OBWidth:FREQuency:SPAN
[:SENSe]:CHPower:FREQuency:SPAN?
Span Frequency Query
Function
This command queries the span frequency.
Refer to [:SENSe]:FREQuency:SPAN?.
Related Command
This command has the same function as the following commands.
[:SENSe]:FREQuency:SPAN?
[:SENSe]:ACPower:FREQuency:SPAN?
[:SENSe]:OBWidth:FREQuency:SPAN?
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[:SENSe]:CHPower:SWEep:POINts?
Trace Point Query
Function
This command queries the number of the trace display points.
Refer to [:SENSe]:SWEep:POINts?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:POINts?
[:SENSe]:ACPower:SWEep:POINts?
[:SENSe]:OBWidth:SWEep:POINts?
[:SENSe]:CHPower:SWEep:TIME <time>
Sweep Time
Function
This command sets the sweep time.
Refer to [:SENSe]:SWEep:TIME.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME
[:SENSe]:ACPower:SWEep:TIME
[:SENSe]:OBWidth:SWEep:TIME
[:SENSe]:BPOWer|:TXPower:SWEep:TIME
[:SENSe]:CHPower:SWEep:TIME?
Sweep Time Query
Function
This command queries the sweep time.
Refer to [:SENSe]:SWEep:TIME?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME?
[:SENSe]:ACPower:SWEep:TIME
[:SENSe]:OBWidth:SWEep:TIME
[:SENSe]:BPOWer|:TXPower:SWEep:TIME
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[:SENSe]:CHPower:SWEep:TIME:AUTO OFF|ON|0|1
Sweep Time Auto/Manual
Function
This command enables/disable the automatic sweep time setting function.
Refer to [:SENSe]:SWEep:TIME:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME:AUTO
[:SENSe]:ACPower:SWEep:TIME:AUTO
[:SENSe]:OBWidth:SWEep:TIME:AUTO
[:SENSe]:CHPower:SWEep:TIME:AUTO?
Sweep Time Auto/Manual Query
Function
This command queries the On/Off state of the automatic sweep time setting function.
Refer to [:SENSe]:SWEep:TIME:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME:AUTO?
[:SENSe]:ACPower:SWEep:TIME:AUTO?
[:SENSe]:OBWidth:SWEep:TIME:AUTO?
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:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
NORMal|POSition|DELTa|FIXed|OFF
Marker Mode
Function
This command sets the marker mode.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
Marker Mode Query
Function
This command queries the marker mode.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
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:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
Relative To
Function
This command sets the reference marker when Marker Mode is set to
Delta.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
<integer>.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
Relative To Query
Function
This command queries the reference marker when Marker Mode is set to
Delta.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
?.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
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2.11 Occupied Bandwidth Measurement Settings
2.11 Occupied Bandwidth Measurement Settings
Table 2.11-1 lists device messages for Occupied Bandwidth measurement.
Table 2.11-1 Device messages for Occupied Bandwidth measurement
Function Device Message
Measure Occupied
Bandwidth
OBW Method
OBW N% Ratio
OBW X dB Value
[:SENSe]:OBWidth[:STATe] ON|OFF|1|0
[:SENSe]:OBWidth[:STATe]?
:CALCulate:OBWidth[:STATe] ON|OFF|1|0
:CALCulate:OBWidth[:STATe]?
[:SENSe]:OBWidth:METHod NPERcent|XDB
[:SENSe]:OBWidth:METHod?
:CALCulate:OBWidth:METHod NPERcent|XDB
:CALCulate:OBWidth:METHod?
[:SENSe]:OBWidth:PERCent <percent>
[:SENSe]:OBWidth:PERCent?
:CALCulate:OBWidth:PERCent <percent>
:CALCulate:OBWidth:PERCent?
[:SENSe]:OBWidth:XDB <rel_ampl>
[:SENSe]:OBWidth:XDB?
:CALCulate:OBWidth:XDB <rel_ampl>
:CALCulate:OBWidth:XDB?
Occupied
Bandwidth
Configure
Marker Level
Query
:CONFigure:OBWidth
Occupied
Bandwidth Initiate :INITiate:OBWidth
Occupied
Bandwidth Fetch
:FETCh:OBWidth[n]?
:FETCh:OBWidth:FERRor?
Occupied
Bandwidth Read
Occupied
Bandwidth
Measure
:READ:OBWidth[n]?
:READ:OBWidth:FERRor?
:MEASure:OBWidth[n]?
:MEASure:OBWidth:FERRor?
All Marker Off
Peak Search
Zone Marker
Frequency (Time)
:CALCulate:OBWidth:MARKer:AOFF
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X
<freq>|<time>|<sample>|<dist>
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
Title Entry
:DISPlay:OBWidth:ANNotation:TITLe:DATA <string>
:DISPlay:OBWidth:ANNotation:TITLe:DATA?
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Table 2.11-1 Device messages for Occupied Bandwidth measurement (Cont’d)
Function Device Message
Log Scale Range
Reference Level
Trigger Source
Average Count
Storage Mode
Resolution
Bandwidth
Resolution
Bandwidth
Auto/Manual
Detection Mode
Span Frequency
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
<rel_ampl>
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
<real>
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
:TRIGger:OBWidth[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
:TRIGger:OBWidth[:SEQuence]:SOURce?
[:SENSe]:OBWidth:AVERage:COUNt <integer>
[:SENSe]:OBWidth:AVERage:COUNt?
[:SENSe]:OBWidth:AVERage[:STATe] ON|OFF|1|0
[:SENSe]:OBWidth:AVERage[:STATe]?
[:SENSe]:OBWidth:BANDwidth[:RESolution] <freq>
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution] <freq>
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
[:SENSe]:OBWidth:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
:CALCulate:OBWidth:DETector[:FUNCtion]?
[:SENSe]:OBWidth:FREQuency:SPAN <freq>
[:SENSe]:OBWidth:FREQuency:SPAN?
Trace Point Query [:SENSe]:OBWidth:SWEep:POINts?
Sweep Time
[:SENSe]:OBWidth:SWEep:TIME <time>
[:SENSe]:OBWidth:SWEep:TIME?
Sweep Time
Auto/Manual
Marker Mode
Relative To
[:SENSe]:OBWidth:SWEep:TIME:AUTO OFF|ON|0|1
[:SENSe]:OBWidth:SWEep:TIME:AUTO?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
NORMal|POSition|DELTa|FIXed|OFF
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
<integer>
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
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2.11 Occupied Bandwidth Measurement Settings
[:SENSe]:OBWidth[:STATe] ON|OFF|1|0
Measure Occupied Bandwidth
Function
This command executes Occupied Bandwidth measurement.
Command
[:SENSe]:OBWidth[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
OBW measurement On/Off
On
Off
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set OBW measurement to On and query the result.
OBW ON
*WAI
FETC:OBW?
Related Command
This command has the same function as the following command.
:CALCulate:OBWidth[:STATe]
:CALCulate:OBWidth[:STATe] ON|OFF|1|0
Measure Occupied Bandwidth
Function
This command performs Occupied Bandwidth measurement.
Refer to [:SENSe]:OBWidth[:STATe].
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth[:STATe]
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[:SENSe]:OBWidth[:STATe]?
Measure Occupied Bandwidth Query
Function
This command queries the Occupied Bandwidth measurement setting.
Command
[:SENSe]:OBWidth[:STATe]?
Parameter
<switch>
1
0
OBW measurement On/Off
On
Off
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the OBW measurement setting.
OBW?
> 1
Related Command
This command has the same function as the following command.
:CALCulate:OBWidth[:STATe]?
:CALCulate:OBWidth[:STATe]?
Measure Occupied Bandwidth Query
Function
This command queries the Occupied Bandwidth measurement setting.
Refer to [:SENSe]:OBWidth[:STATe]?.
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth[:STATe]?
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2.11 Occupied Bandwidth Measurement Settings
[:SENSe]:OBWidth:METHod NPERcent|XDB
OBW Method
Function
This command sets the measurement method for Occupied Bandwidth measurement.
Command
[:SENSe]:OBWidth:METHod NPERcent|XDB
Parameter
<method>
NPERcent
XDB
Measurement method
N% method (Default value)
X dB Down method
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set the measurement method of Occupied Bandwidth measurement to
X dB Down method and query the results.
OBW:METH XDB
*WAI
FETC:OBW?
Related Command
:CALCulate:OBWidth:METHod NPERcent|XDB
OBW Method
This command has the same function as the following command.
:CALCulate:OBWidth:METHod
Function
This command sets the measurement method for Occupied Bandwidth measurement.
Refer to [:SENSe]:OBWidth:METHod.
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth:METHod
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[:SENSe]:OBWidth:METHod?
OBW Method Query
Function
This command queries the measurement method of Occupied Bandwidth measurement.
Query
[:SENSe]:OBWidth:METHod?
Response
<method>
Parameter
<method>
NPER
XDB
Measurement method
N% method
X dB Down method
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the measurement method of Occupied Bandwidth measurement.
OBW:METH?
> XDB
Related Command
:CALCulate:OBWidth:METHod?
OBW Method Query
This command has the same function as the following command.
:CALCulate:OBWidth:METHod?
Function
This command queries the measurement method of Occupied Bandwidth measurement.
Refer to [:SENSe]:OBWidth:METHod?.
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth:METHod?
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2.11 Occupied Bandwidth Measurement Settings
[:SENSe]:OBWidth:PERCent <percent>
OBW N% Ratio
Function
This command sets the condition for Occupied Frequency Bandwidth
(N% method).
Command
[:SENSe]:OBWidth:PERCent <percent>
Parameter
<percent>
Range
Resolution
Suffix code
Default value
N%
0.01 to 99.99%
0.01
None
99.00%
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set to 12.34% and query the results.
OBW:PERC 12.34
*WAI
FETC:OBW?
Related Command
This command has the same function as the following command.
:CALCulate:OBWidth:PERCent
:CALCulate:OBWidth:PERCent <percent>
OBW N% Ratio
Function
This command sets the condition for Occupied Frequency Bandwidth
(N% method).
Refer to [:SENSe]:OBWidth:PERCent.
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth:PERCent
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[:SENSe]:OBWidth:PERCent?
OBW N% Ratio Query
Function
This command sets the condition for Occupied Frequency Bandwidth
(N% method).
Query
[:SENSe]:OBWidth:PERCent?
Response
<percent>
Parameter
<percent>
Range
Resolution
N%
0.01 to 99.99%
0.01
No suffix code. Value is returned in % units.
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the condition of Occupied Frequency Bandwidth (N% method).
OBW:PERC?
> 12.34
Related Command
:CALCulate:OBWidth:PERCent?
OBW N% Ratio Query
This command has the same function as the following command.
:CALCulate:OBWidth:PERCent?
Function
This command queries the condition of Occupied Frequency Bandwidth
(N% method).
Refer to [:SENSe]:OBWidth:PERCent?.
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth:PERCent?
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2.11 Occupied Bandwidth Measurement Settings
[:SENSe]:OBWidth:XDB <rel_ampl>
OBW X dB Value
Function
This command sets the condition for Occupied Frequency Bandwidth
(N% method).
Command
[:SENSe]:OBWidth:XDB <rel_ampl>
Parameter
<rel_ampl>
Range
Resolution
Suffix code
Default value
X dB
0.01 to 100.00 dB
0.01 dB
DB
dB is used when omitted.
25.00 dB
Details
This command is available when the following trace is active:
● Spectrum
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set to 12.34 dB and query the results.
OBW:XDB 12.34
*WAI
FETC:OBW?
Related Command
:CALCulate:OBWidth:XDB <rel_ampl>
OBW X dB Value
This command has the same function as the following command.
:CALCulate:OBWidth:XDB
Function
This command sets the condition for Occupied Frequency Bandwidth (X dB).
Refer to [:SENSe]:OBWidth:XDB.
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth:XDB
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[:SENSe]:OBWidth:XDB?
OBW X dB Value Query
Function
This command queries the condition of Occupied Frequency Bandwidth
(X dB).
Query
[:SENSe]:OBWidth:XDB?
Response
<rel_ampl>
Parameter
<rel_ampl>
Range
Resolution
Default value
X dB
0.01 to 100.00 dB
0.01 dB
Value is returned in dB units.
25.00 dB
Details
This command is available when the following trace is active:
● Spectrum
Example of Use
To query the condition of Occupied Frequency Bandwidth (X dB).
OBW:XDB?
> 12.34
Related Command
:CALCulate:OBWidth:XDB?
OBW X dB Value Query
This command has the same function as the following command.
:CALCulate:OBWidth:XDB?
Function
This command queries the condition of Occupied Frequency Bandwidth
(X dB).
Refer to [:SENSe]:OBWidth:XDB?.
Related Command
This command has the same function as the following command.
[:SENSe]:OBWidth:XDB?
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2.11 Occupied Bandwidth Measurement Settings
:CONFigure:OBWidth
Occupied Bandwidth Configure
Function
This command sets OBW measurement to On.
Command
:CONFigure:OBWidth
Details
No measurement is performed.
Spectrum is set, if this command is executed when the trace is set to other than Spectrum.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To set OBW measurement to On and query the results.
CONF:OBW
*WAI
FETC:OBW?
:INITiate:OBWidth
Occupied Bandwidth Initiate
Function
This command performs OBW measurement.
Command
:INITiate:OBWidth
Details
When this command is executed, OBW measurement is set to On and the measurement is performed.
Spectrum is set, if this command is executed when the trace is set to
Spectrum.
Example of Use
To perform OBW measurement and query the results.
INIT:OBW
*WAI
FETC:OBW?
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:FETCh:OBWidth[n]?
Occupied Bandwidth Fetch
Function
This command queries the measurement result of OBW measurement.
Query
:FETCh:OBWidth[n]?
Response
When Result Mode is A:
<obw>,<center>,<start>,<stop>
(n = 1 or when omitted)
When Result Mode is B:
<obw_nper>,-999.0,<span>,<trace_point>,
<rbw>,<freq_error>,<obw_xdb>
(n = 1 or when omitted)
Parameter
<span>
<freq_error>
<rbw>
<obw>
<obw_nper>
<obw_xdb>
<center>
<start>
<stop>
<trace_point>
Frequency Span setting value
Center frequency of Occupied Bandwidth and difference of center frequency
RBW setting value
Occupied bandwidth
Occupied bandwidth (N% method)
− 999999999999 is returned, when OBW Method is X dB.
Occupied bandwidth (X dB Down method)
− 999999999999 is returned, when OBW
Method is N%.
Center frequency of Occupied Bandwidth
Lower side of frequency of Occupied Bandwidth
Upper side of frequency of Occupied Bandwidth
No suffix code/Hz units/1 Hz resolution
− 999999999999 is returned when no measurement is performed or an error has occurred.
Number of trace points
Returns a value without a suffix code.
− 999.0 is returned when no measurement is performed.
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Details
Example of Use
2.11 Occupied Bandwidth Measurement Settings
This command queries the measurement result of OBW measurement performed lastly. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
This command is available when the following trace is active:
● Spectrum
2
Return values of this function vary depending on the compatibility mode.
(cf. :SYSTem:RESult:MODE)
To query the measurement result of OBW measurement (A mode).
FETC:OBW?
> 30000,1000000000,900050000,1000050000
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:FETCh:OBWidth:FERRor?
Occupied Bandwidth Fetch
Function
This command queries the difference between the center frequency of
Occupied Bandwidth of OBW measurement and the center frequency.
Query
:FETCh:OBWidth:FERRor?
Response
<freq_error>
Parameter
<freq_error> Difference between the center frequency of
Occupied bandwidth and the center frequency.
No suffix code, Hz units, 1 Hz resolution
− 999999999999 is returned when no measurement is performed or an error has occurred.
Details
This command queries the measurement result of OBW measurement performed lastly. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
Example of Use
To query the difference between the center frequency of Occupied bandwidth of OBW measurement and the center frequency.
FETC:OBW:FERR?
> 30000
:READ:OBWidth[n]?
Occupied Bandwidth Read
Function
This command performs OBW measurement and outputs the measurement result.
This command has the same function as the following commands executed in this order:
:INITiate:OBWidth
:FETCh:OBWidth[n]?
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2.11 Occupied Bandwidth Measurement Settings
:READ:OBWidth:FERRor?
Occupied Bandwidth Read
Function
:MEASure:OBWidth[n]?
This command performs OBW measurement and queries the difference between the center frequency of Occupied Bandwidth and the center frequency.
This command has the same function as the following commands executed in this order:
:INITiate:OBWidth
:FETCh:OBWidth:FERRor?
Occupied Bandwidth Measure
Function
This command performs OBW measurement and outputs the measurement result.
This command has the same function as the following commands executed in this order:
:CONFigure:OBWidth
:INITiate:OBWidth
:FETCh:OBWidth[n]?
:MEASure:OBWidth:FERRor?
Occupied Bandwidth Measure
Function
This command performs OBW measurement and outputs the difference between the center frequency of Occupied Bandwidth and the center frequency.
This command has the same function as the following commands executed in this order:
:CONFigure:OBWidth
:INITiate:OBWidth
:FETCh:OBWidth:FERRor?
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:CALCulate:OBWidth:MARKer:AOFF
All Marker Off
Function
This command sets all markers to OFF.
Refer to :CALCulate:MARKer:AOFF.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer:AOFF
:CALCulate:ACPower:MARKer:AOFF
:CALCulate:CHPower:MARKer:AOFF
:CALCulate:BPOWer|:TXPower:MARKer:AOFF
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
Peak Search
Function
This command searches for the maximum level point of the main trace and moves the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
MAXimum
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:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X
<freq>|<time>|<sample>|<dist>
Zone Marker Frequency (Time)
Function
This command moves the frequency (time) which specified the center of the zone marker.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Zone Marker Frequency (Time) Query
Function
This command queries the center of the zone marker.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
X?
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:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
Marker Level Query
Function
This command queries the level of the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?.
Related Command
:DISPlay:OBWidth:ANNotation:TITLe:DATA <string>
Title Entry
Function
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:
Y?
This command registers the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA.
Related Command
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA
:DISPlay:ACPowe:ANNotation:TITLe:DATA
:DISPlay:CHPowe:ANNotation:TITLe:DATA
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA
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:DISPlay:OBWidth:ANNotation:TITLe:DATA?
Title Entry Query
Function
This command queries the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA?.
Related Command
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA?
:DISPlay:ACPowe:ANNotation:TITLe:DATA
:DISPlay:CHPowe:ANNotation:TITLe:DATA
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
<rel_ampl>
Log Scale Range
Function
This command sets the Y-axis scale range when Scale Mode is set to Log.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic].
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision
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:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ?
Log Scale Range Query
Function
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:PDIVision?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
Reference Level
Function
This command sets the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel.
Related Command
This command queries the Y-axis scale range when Scale Mode is set to
Log.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic]?.
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel
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:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
Reference Level Query
Function
This command queries the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?.
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCAL e]:RLEVel?
:TRIGger:OBWidth[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
Trigger Source
Function
This command selects the trigger source.
Refer to TRIGger[:SEQuence]:SOURce.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce
TRIGger:ACPower[:SEQuence]:SOURce
TRIGger:CHPower[:SEQuence]:SOURce
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
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:TRIGger:OBWidth[:SEQuence]:SOURce?
Trigger Source Query
Function
This command queries the trigger source.
Refer to TRIGger[:SEQuence]:SOURce?.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce?
TRIGger:ACPower[:SEQuence]:SOURce?
TRIGger:CHPower[:SEQuence]:SOURce?
TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
[:SENSe]:OBWidth:AVERage:COUNt <integer>
Average Count
Function
This command sets the storage count.
Refer to [:SENSe]:AVERage:COUNt.
Related Command
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt
[:SENSe]:ACPower:AVERage:COUNt
[:SENSe]:CHPower:AVERage:COUNt
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt
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2.11 Occupied Bandwidth Measurement Settings
[:SENSe]:OBWidth:AVERage:COUNt?
Average Count Query
Function
This command queries the storage count.
Refer to [:SENSe]:AVERage:COUNt?.
Related Command
[:SENSe]:OBWidth:AVERage[:STATe] ON|OFF|1|0
Storage Mode
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt?
[:SENSe]:ACPower:AVERage:COUNt?
[:SENSe]:CHPower:AVERage:COUNt?
[:SENSe]:BPOWer|:TXPower:ACPower:AVERage:COUNt?
Function
This command sets the storage method.
Refer to [:SENSe]:ACPower:AVERage[:STATe].
Related Command
[:SENSe]:OBWidth:AVERage[:STATe]?
Storage Mode Query
This command has the same function as the following commands.
:TRACe:STORage:MODE
[:SENSe]:ACPower:AVERage[:STATe]
[:SENSe]:CHPower:AVERage[:STATe]
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]
Function
This command queries the storage method.
Refer to [:SENSe]:ACPower:AVERage[:STATe]?.
Related Command
This command has the same function as the following commands.
:TRACe:STORage:MODE?
[:SENSe]:ACPower:AVERage[:STATe]?
[:SENSe]:CHPower:AVERage[:STATe]?
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]?
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[:SENSe]:OBWidth:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
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[:SENSe]:OBWidth:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
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[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW) setting function.
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
Resolution Bandwidth Auto/Manual
Function
This command enables/disables the automatic resolution bandwidth
(RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO
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[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
:CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
Resolution Bandwidth Auto/Manual Query
Function
This command queries the On/Off state of the automatic resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
:CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
[:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
:CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
[:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
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[:SENSe]:OBWidth:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
Detection Mode
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion].
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]
:CALCulate:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]
:CALCulate:ACPower:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]
:CALCulate:CHPower:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
:CALCulate:OBWidth:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
Detection Mode
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion].
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]
:CALCulate:DETector[:FUNCtion]
[:SENSe]:ACPower:DETector[:FUNCtion]
:CALCulate:ACPower:DETector[:FUNCtion]
[:SENSe]:CHPower:DETector[:FUNCtion]
:CALCulate:CHPower:DETector[:FUNCtion]
[:SENSe]:OBWidth:DETector[:FUNCtion]
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2.11 Occupied Bandwidth Measurement Settings
[:SENSe]:OBWidth:DETector[:FUNCtion]?
Detection Mode Query
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion]?.
Related Command
:CALCulate:OBWidth:DETector[:FUNCtion]?
Detection Mode Query
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]?
:CALCulate:DETector[:FUNCtion]?
[:SENSe]:ACPower:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]?
:CALCulate:OBWidth:DETector[:FUNCtion]?
Function
This command selects the detection mode for the waveform pattern.
Refer to [:SENSe]:DETector[:FUNCtion]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:DETector[:FUNCtion]?
:CALCulate:DETector[:FUNCtion]?
[:SENSe]:ACPower:DETector[:FUNCtion]?
:CALCulate:ACPower:DETector[:FUNCtion]?
[:SENSe]:CHPower:DETector[:FUNCtion]?
:CALCulate:CHPower:DETector[:FUNCtion]?
[:SENSe]:OBWidth:DETector[:FUNCtion]?
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[:SENSe]:OBWidth:FREQuency:SPAN <freq>
Span Frequency
Function
This command sets the span frequency.
Refer to [:SENSe]:FREQuency:SPAN.
Related Command
This command has the same function as the following commands.
[:SENSe]:FREQuency:SPAN
[:SENSe]:ACPower:FREQuency:SPAN
[:SENSe]:CHPower:FREQuency:SPAN
[:SENSe]:OBWidth:FREQuency:SPAN?
Span Frequency Query
Function
This command queries the span frequency.
Refer to [:SENSe]:FREQuency:SPAN?.
Related Command
This command has the same function as the following commands.
[:SENSe]:FREQuency:SPAN?
[:SENSe]:ACPower:FREQuency:SPAN
[:SENSe]:CHPower:FREQuency:SPAN
[:SENSe]:OBWidth:SWEep:POINts?
Trace Point Query
Function
This command queries the number of trace display points.
Refer to [:SENSe]:SWEep:POINts?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:POINts?
[:SENSe]:ACPower:SWEep:POINts?
[:SENSe]:CHPower:SWEep:POINts?
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2.11 Occupied Bandwidth Measurement Settings
[:SENSe]:OBWidth:SWEep:TIME <time>
Sweep Time
Function
This command sets the sweep time.
Refer to [:SENSe]:SWEep:TIME.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME
[:SENSe]:ACPower:SWEep:TIME
[:SENSe]:CHPower:SWEep:TIME
[:SENSe]:BPOWer|:TXPower:SWEep:TIME
[:SENSe]:OBWidth:SWEep:TIME?
Sweep Time Query
Function
This command queries the sweep time.
Refer to [:SENSe]:SWEep:TIME?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME?
[:SENSe]:ACPower:SWEep:TIME?
[:SENSe]:CHPower:SWEep:TIME?
[:SENSe]:BPOWer|:TXPower:SWEep:TIME?
[:SENSe]:OBWidth:SWEep:TIME:AUTO OFF|ON|0|1
Sweep Time Auto/Manual
Function
This command enables/disables the automatic sweep time setting function.
Refer to [:SENSe]:SWEep:TIME:AUTO.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME:AUTO
[:SENSe]:ACPower:SWEep:TIME:AUTO
[:SENSe]:CHPower:SWEep:TIME:AUTO
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[:SENSe]:OBWidth:SWEep:TIME:AUTO?
Sweep Time Auto/Manual Query
Function
This command queries the On/Off state of the automatic sweep time.
Refer to [:SENSe]:SWEep:TIME:AUTO?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME:AUTO?
[:SENSe]:ACPower:SWEep:TIME:AUTO?
[:SENSe]:CHPower:SWEep:TIME:AUTO?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
NORMal|POSition|DELTa|FIXed|OFF
Marker Mode
Function
This command sets the marker mode.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
Marker Mode Query
Function
This command queries the marker mode.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
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:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
Relative To
Function
This command sets the reference marker when Marker Mode is set to
Delta.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
<integer>.
2
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
Relative To
Function
This command queries the reference marker when Marker Mode is set to
Delta.
Refer to
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?.
Related command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerenc e?
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2.12 Burst Average Power Measurement Settings
Table 2.12-1 lists device messages for Burst Average Power measurement.
Function
Measure Burst
Average Power
Noise Cancel
Table 2.12-1 Device messages for Burst Average Power measurement
Device Message
[:SENSe]:BPOWer|:TXPower[:STATe] ON|OFF|1|0
[:SENSe]:BPOWer|:TXPower[:STATe]?
:CALCulate:BPOWer|:TXPower[:STATe] ON|OFF|1|0
:CALCulate:BPOWer|:TXPower[:STATe]?
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
:CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
:CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
Burst Average
Power Configure
Burst Average
Power Initiate
Burst Average
Power Fetch
Burst Average
Power Read
Burst Average
Power Measure
:CONFigure:BPOWer|:TXPower
:INITiate:BPOWer|:TXPower
:FETCh:BPOWer|:TXPower[n]?
:READ:BPOWer|:TXPower[n]?
:MEASure:BPOWer|:TXPower[n]?
Title Entry
Log Scale Range
Reference Level
Trigger Source
Average Count
Storage Mode
:DISPlay:BPOWer|:TXPower:ANNotation:TITLe:DATA <string>
:DISPlay:BPOWer|:TXPower:ANNotation:TITLe:DATA?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDI
Vision <rel_ampl>
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDI
Vision ?
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLE
Vel <real>
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLE
Vel?
:TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
:TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
[:SENSe]:BPOWer|:TXPower:AVERage:COUNt <integer>
[:SENSe]:BPOWer|:TXPower:AVERage:COUNt?
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe] ON|OFF|1|0
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]?
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Table 2.12-1 Device messages for Burst Average Power measurement (Cont’d)
Function
Sweep Time
Zone Marker
Frequency (Time)
Device Message
[:SENSe]:BPOWer|:TXPower:SWEep:TIME <time>
[:SENSe]:BPOWer|:TXPower:SWEep:TIME?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
<freq>|<time>|<sample>|<dist>
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Marker Level
Query
All Marker Off
Peak Search
Resolution
Bandwidth
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:BPOWer|:TXPower:MARKer:AOFF
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimu m
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution] <freq>
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution] <freq>
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
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[:SENSe]:BPOWer|:TXPower[:STATe] ON|OFF|1|0
Measure Burst Average Power
Function
This command executes Burst Average Power measurement.
Command
[:SENSe]:BPOWer|:TXPower[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Sets Burst Average Power measurement On/Off
Sets Burst Average Power measurement On
Sets Burst Average Power measurement Off
Details
This command is available when the following trace is active:
● Power vs Time
Example of Use
To set Burst Average Power measurement to On and query the result.
BPOW ON
*WAI
FETC:BPOW?
Related Command
This command has the same function as the following command.
:CALCulate:BPOWer|:TXPower[:STATe]
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:CALCulate:BPOWer|:TXPower[:STATe] ON|OFF|1|0
Measure Burst Average Power
Function
This command performs Burst Average Power measurement.
Refer to [:SENSe]:BPOWer|:TXPower[:STATe].
Related Command
This command has the same function as the following command.
[:SENSe]:BPOWer|:TXPower[:STATe]
[:SENSe]:BPOWer|:TXPower[:STATe]?
Measure Burst Average Power Query
Function
This command queries the setting of Burst Average Power measurement.
Command
[:SENSe]:BPOWer|:TXPower[:STATe]?
Parameter
<switch>
1
0
Sets Burst Average Power measurement On/Off.
On
Off
Details
This command is available when the following trace is active:
● Power vs Time
2
Example of Use
To query the Burst Average Power measurement setting.
BPOW?
> 1
Related Command
This command has the same function as the following command.
:CALCulate:BPOWer|:TXPower[:STATe]
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:CALCulate:BPOWer|:TXPower[:STATe]?
Measure Burst Average Power Query
Function
This command queries the Burst Average Power measurement setting.
Refer to [:SENSe]:BPOWer|:TXPower[:STATe]?.
Related Command
This command has the same function as the following command.
[:SENSe]:BPOWer|:TXPower[:STATe]?
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
Noise Cancel
Function
This command sets whether to enable the noise-canceling function.
Command
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO] <switch>
Parameter
<switch>
ON|1
OFF|0
Noise-canceling function on/off
Enables the noise-canceling function.
Disables the noise-canceling function.
Details
The noise-canceling function is fixed to Off in the following cases:
● Burst Average Power is Off.
● Standard is Off.
● The Standard Parameter which can enables the noise-canceling function is not set in Load Standard Parameter.
● Any of Span, RBW, Detection, Sweep Time, VBW (when Detection is not set to RMS), and VBW Mode (when VBW is not set to Off and when Detection is not set to RMS) has been changed from Standard
Parameter.
● Scale Mode is Linear.
This command is available when the following trace is active:
● Power vs Time
The setting is disabled while the Replay function is being executed.
Example of Use
To disable the noise-canceling function.
BPOW:CORR:NOIS OFF
Related Command
This command has the same function as the following command.
:CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO]
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:CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
Noise Cancel
Function
This command sets whether to enable the noise-canceling function.
Refer to [:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO].
Related Command
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
Noise Cancel Query
This command has the same function as the following command.
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO]
Function
This command queries the noise-canceling function setting.
Query
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
Response
<switch>
Parameter
<switch>
1
0
Noise-canceling function on/off
On
Off
Details
The noise-canceling function is fixed to Off in the following cases:
● Burst Average Power is Off.
● Standard is Off.
● The Standard Parameter which enables the noise-canceling function is not set in Load Standard Parameter.
● Any of Span, RBW, Detection, Sweep Time, VBW (when Detection is not set to RMS), and VBW Mode (when VBW is not set to Off and when Detection is not set to RMS)has been changed from Standard
Parameter.
● Scale Mode is Linear.
This command is available when the following trace is active:
● Power vs Time
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Example of Use
To query the noise-canceling function setting.
BPOW:CORR:NOIS?
> 0
Related Command
:CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
Noise Cancel Query
This command has the same function as the following command.
:CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
Function
This command queries the setting of the noise-canceling function.
Refer to [:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?.
Related Command
This command has the same function as the following command.
[:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
:CONFigure:BPOWer|:TXPower
Burst Average Power Configure
Function
This command sets Burst Average Power measurement to On.
Command
:CONFigure:BPOWer|:TXPower
Details
No measurement is performed.
Power vs Time is set, if this command is executed when the trace is set to other than Power vs Time.
Log is set, if this command is executed when Scale Mode is set to Linear.
Example of Use
To set Burst Average Power measurement to On and query the results.
CONF:BPOW
*WAI
FETC:BPOW?
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:INITiate:BPOWer|:TXPower
Burst Average Power Initiate
Function
This command performs Burst Average Power measurement.
Command
:INITiate:BPOWer|:TXPower
Details
When this command is executed, Burst Average Power measurement is set to On and measurement will be performed.
Power vs Time is set, if this command is executed when the trace is set to other than Power vs Time.
Log is set, if this command is executed when Scale Mode is set to Linear.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
Example of Use
To perform Burst Average Power measurement and query the results.
INIT:BPOW
*WAI
FETC:BPOW?
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:FETCh:BPOWer|:TXPower[n]?
Burst Average Power Fetch
Function
This command queries the result for Burst Average Power measurement.
Query
:FETCh:BPOWer|:TXPower[n]?
Response
When RESult Mode is A:
<power>
(n = 1 or when omitted)
When RESult Mode is B:
<sweep_time>,<power>,<power>,<trace_point>,
-999.0,-999.0,-999.0,-999.0,
<burst_time>,-999.0
(n = 1 or when omitted)
Parameter
<sweep_time>
<burst_time>
Sweep Time setting value
Time for each trace point is returned in sample units when Terminal is set to DigRF 3G (only for
MS269x Series).
Length of Burst Average Power measurement span
No suffix code, s units, 1 ns resolution
− 999999999999 is returned when no measurement is performed.
<power>
<trace_point>
Average power in burst
When Scale Mode is Log:
Log Scale Unit units (Note: dBm units for V,
µ W units for W)
Value without a suffix code is returned.
− 999.0 is returned when no measurement is performed.
Number of trace points
Value without a suffix code is returned.
− 999.0 is returned when no measurement is performed.
Value is returned in sample units when
Terminal is set to DigRF 3G (only for MS269x
Series).
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Details
This command queries the measurement result of Burst Average Power measurement performed lastly. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
Example of Use
To query the measurement result of Burst Average Power measurement.
(n = 1 or when omitted, A mode)
FETC:BPOW?
> -66.70
:READ:BPOWer|:TXPower[n]?
Burst Average Power Read
Function
This command performs Burst Average Power measurement and outputs the measurement result.
This command has the same function as the following commands executed in this order:
:INITiate:BPOWer|:TXPower
:FETCh:BPOWer|:TXPower[n]?
:MEASure:BPOWer|:TXPower[n]?
Burst Average Power Measure
Function
This command performs Burst Average Power measurement and outputs the measurement result.
This command has the same function as the following commands executed in this order:
:CONFigure:BPOWer|:TXPower
:INITiate:BPOWer|:TXPower
:FETCh:BPOWer|:TXPower[n]?
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:DISPlay:BPOWer|:TXPower:ANNotation:TITLe:DATA <string>
Title Entry
Function
This command registers the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA.
Related Command
:DISPlay:BPOWer|:TXPower:ANNotation:TITLe:DATA?
Title Entry Query
Function
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA
:DISPlay:ACPowe:ANNotation:TITLe:DATA
:DISPlay:CHPowe:ANNotation:TITLe:DATA
:DISPlay:OBWidth:ANNotation:TITLe:DATA
This command queries the title character string.
Refer to :DISPlay:ANNotation:TITLe:DATA?.
Related Command
This command has the same function as the following commands.
:DISPlay:ANNotation:TITLe:DATA?
:DISPlay:ACPower:ANNotation:TITLe:DATA?
:DISPlay:CHPower:ANNotation:TITLe:DATA?
:DISPlay:OBWidth:ANNotation:TITLe:DATA?
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:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVisi on <rel_ampl>
Log Scale Range
Function
This command sets the Y-axis scale range when Scale Mode is set to Log.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic].
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion
:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVisi on ?
Log Scale Range Query
Function
This command queries the Y-axis scale range when Scale Mode is set to
Log.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision
[:LOGarithmic]?.
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmi c]?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVi sion?
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:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
<real>
Reference Level
Function
This command sets the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel.
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l
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:DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel
?
Reference Level Query
Function
This command queries the reference level.
Refer to :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?.
Related Command
This command has the same function as the following commands.
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
:DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVe l?
:TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce
EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
Trigger Source
Function
This command selects the trigger source.
Refer to TRIGger[:SEQuence]:SOURce.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce
TRIGger:ACPower[:SEQuence]:SOURce
TRIGger:CHPower[:SEQuence]:SOURce
TRIGger:OBWidth[:SEQuence]:SOURce
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce
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:TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
Trigger Source Query
Function
This command queries the trigger source.
Refer to TRIGger[:SEQuence]:SOURce?.
Related Command
This command has the same function as the following commands.
TRIGger[:SEQuence]:SOURce?
TRIGger:ACPower[:SEQuence]:SOURce?
TRIGger:CHPower[:SEQuence]:SOURce?
TRIGger:OBWidth[:SEQuence]:SOURce?
TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
[:SENSe]:BPOWer|:TXPower:AVERage:COUNt <integer>
Average Count
Function
This command sets the storage count.
Refer to [:SENSe]:AVERage:COUNt.
Related Command
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt
[:SENSe]:ACPower:AVERage:COUNt
[:SENSe]:CHPower:AVERage:COUNt
[:SENSe]:OBWidth:AVERage:COUNt
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[:SENSe]:BPOWer|:TXPower:AVERage:COUNt?
Average Count Query
Function
This command queries the storage count.
Refer to [:SENSe]:AVERage:COUNt?.
Related Command
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe] ON|OFF|1|0
Storage Mode
This command has the same function as the following commands.
[:SENSe]:AVERage:COUNt?
[:SENSe]:ACPower:AVERage:COUNt?
[:SENSe]:CHPower:AVERage:COUNt?
[:SENSe]:OBWidth:AVERage:COUNt?
Function
This command sets the storage mode.
Refer to [:SENSe]:ACPower:AVERage[:STATe].
Related Command
[:SENSe]:BPOWer|:TXPower:AVERage[:STATe]?
Storage Mode Query
This command has the same function as the following commands.
:TRACe:STORage:MODE
[:SENSe]:ACPower:AVERage[:STATe]
[:SENSe]:CHPower:AVERage[:STATe]
[:SENSe]:OBWidth:AVERage[:STATe]
Function
This command queries the storage mode.
Refer to [:SENSe]:ACPower:AVERage[:STATe]?.
Related Command
This command has the same function as the following commands.
:TRACe:STORage:MODE?
[:SENSe]:ACPower:AVERage[:STATe]?
[:SENSe]:CHPower:AVERage[:STATe]?
[:SENSe]:OBWidth:AVERage[:STATe]?
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[:SENSe]:BPOWer|:TXPower:SWEep:TIME <time>
Sweep Time
Function
This command sets the capture time.
Refer to [:SENSe]:SWEep:TIME.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME
[:SENSe]:ACPower:SWEep:TIME
[:SENSe]:CHPower:SWEep:TIME
[:SENSe]:OBWidth:SWEep:TIME
[:SENSe]:BPOWer|:TXPower:SWEep:TIME?
Sweep Time Query
Function
This command queries the capture time.
Refer to [:SENSe]:SWEep:TIME?.
Related Command
This command has the same function as the following commands.
[:SENSe]:SWEep:TIME?
[:SENSe]:ACPower:SWEep:TIME?
[:SENSe]:CHPower:SWEep:TIME?
[:SENSe]:OBWidth:SWEep:TIME?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
<freq>|<time>|<sample>|<dist>
Zone Marker Frequency (Time)
Function
This command moves the center of the zone marker to the specified frequency (time).
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X
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:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
Zone Marker Frequency (Time) Query
Function
This command queries the center of the zone marker.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
Marker Level Query
Function
This command queries the level of the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
:CALCulate:BPOWer|:TXPower:MARKer:AOFF
All Marker Off
Function
This command sets all markers to Off.
Refer to :CALCulate:MARKer:AOFF.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer:AOFF
:CALCulate:ACPower:MARKer:AOFF
:CALCulate:CHPower:MARKer:AOFF
:CALCulate:OBWidth:MARKer:AOFF
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:CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
Peak Search
Function
This command searches for the maximum level point of the active trace and moves the marker point.
Refer to :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum.
Related Command
This command has the same function as the following commands.
:CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
:CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]
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:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution] <freq>
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution].
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]
:CALCulate:BANDwidth|:BWIDth[:RESolution]
[:SENSe]:ACPower:BANDwidth[:RESolution]
:CALCulate:ACPower:BANDwidth[:RESolution]
[:SENSe]:CHPower:BANDwidth[:RESolution]
:CALCulate:CHPower:BANDwidth[:RESolution]
[:SENSe]:OBWidth:BANDwidth[:RESolution]
:CALCulate:OBWidth:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
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:CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW).
Refer to [:SENSe]:BANDwidth|:BWIDth[:RESolution]?.
Related Command
This command has the same function as the following commands.
[:SENSe]:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:BANDwidth|:BWIDth[:RESolution]?
[:SENSe]:ACPower:BANDwidth[:RESolution]?
:CALCulate:ACPower:BANDwidth[:RESolution]?
[:SENSe]:CHPower:BANDwidth[:RESolution]?
:CALCulate:CHPower:BANDwidth[:RESolution]?
[:SENSe]:OBWidth:BANDwidth[:RESolution]?
:CALCulate:OBWidth:BANDwidth[:RESolution]?
[:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
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2.13 AM Depth Measurement Settings
Table 2.13-1 lists device messages for setting the AM Depth measurement.
Table 2.13-1 Device Messages for setting AM Depth measurement
Function Device Message
Measure AM
Depth
[:SENSe]:AM[:STATe] ON|OFF|1|0
[:SENSe]:AM[:STATe]?
AM Depth
Configure
:CONFigure:AM
AM Depth Initiate :INITiate:AM
AM Depth Fetch
AM Depth Read
:FETCh:AM?
:READ:AM?
AM Depth
Measure
:MEASure:AM?
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[:SENSe]:AM[:STATe] ON|OFF|1|0
Measure AM Depth
Function
This command executes the AM Depth measurement.
Command
[:SENSe]:AM[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
AM Depth measurement On/Off
Sets the AM Depth measurement to On.
Sets the AM Depth measurement to Off.
Details
Example of Use
[:SENSe]:AM[:STATe]?
Measure AM Depth Query
Function
To set the AM Depth measurement to On and query the result..
AM ON
*WAI
FETC:AM?
This command queries the On/Off state of the AM Depth measurement.
Query
[:SENSe]:AM[:STATe]?
Response
This command is available when the following trace is active:
● Power vs Time
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
<switch>
Parameter
<switch>
1
0
AM Depth On/Off
On
Off
Example of Use
To query the On/Off state of the AM Depth measurement.
AM?
> 1
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:CONFigure:AM
AM Depth Configure
Function
Command
Details
This command sets the AM Depth measurement to On.
:CONFigure:AM
No measurement is performed.
When this command is executed, Scale Mode is set to Linear and
Detection is set to Pos&Neg, and Peak to Peak Function is set to ON.
To set the AM Depth measurement to On.
CONF:AM
2
Example of Use
:INITiate:AM
AM Depth Initiate
Function
Command
Details
Example of Use
This command starts the AM Depth measurement.
:INITiate:AM
When this command has been executed, AM Depth measurement is set to On and the measurement starts.
Scale Mode is set to Linear and Detection is set to Pos&Neg, and Peak to
Peak Function is set to ON.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
To start the AM Depth measurement and query the results.
INIT:AM
*WAI
FETC:AM?
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:FETCh:AM?
AM Depth Fetch
Function
Query
Response
Parameter
This command queries the result of the AM Depth measurement.
:FETCh:AM?
<pos>,<neg>,<p-p>,<avg>
Peak to Peak measurement result
<pos> +Peak value
<neg>
<p-p>
− Peak value
{(−Peak) − (+Peak)}/2
No suffix code. Value is returned in % units.
− 999999999999 is returned when no measurement is performed or an error occurs.
Values in % units is returned when Terminal is
DigRF 3G (only for MS269x Series) and the
Input Source is Complex. Values in V units will be returned if it is not set to Complex.
<avg> Average value
No suffix code. Value is returned in V units.
− 999999999999 is returned when no measurement is performed or an error occurs.
Details
Example of Use
This command queries the result of the AM Depth measurement performed lastly. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
To query the result of the AM Depth measurement.
FETC:AM?
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:READ:AM?
AM Depth Read
Function
This command performs the AM Depth measurement and queries the result.
This command has the same function as the following commands executed in this order:
:INITiate:AM
:FETCh:AM?
2
:MEASure:AM?
AM Depth Measure
Function
This command performs the AM Depth measurement and queries the result.
This command has the same function as the following commands executed in this order:
:CONFigure:AM
:INITiate:AM
:FETCh:AM?
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2.14 FM deviation Measurement Settings
Table 2.14-1 lists device messages for setting the FM deviation measurement.
Measure FM deviation
Table 2.14-1 Device Messages for setting the FM deviation measurement
Function Device Message
[:SENSe]:FM[:STATe] ON|OFF|1|0
[:SENSe]:FM[:STATe]?
FM deviation
Configure
FM deviation
Initiate
FM deviation
Fetch
FM deviation
Read
FM deviation
Measure
:CONFigure:FM
:INITiate:FM
:FETCh:FM?
:READ:FM?
:MEASure:FM?
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2.14 FM deviation Measurement Settings
[:SENSe]:FM[:STATe] ON|OFF|1|0
Measure FM deviation
Function
This command executes the FM deviation measurement.
Command
[:SENSe]:FM[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
FM deviation measurement On/Off
Sets FM deviation measurement to On.
Sets FM deviation measurement to Off.
Details
Example of Use
[:SENSe]:FM[:STATe]?
Measure FM deviation Query
Function
To set the FM deviation measurement to On and query the result.
FM ON
*WAI
FETC:FM?
This command queries the On/Off state of the FM deviation measurement.
Query
This command is available when the following trace is active:
● Frequency vs Time
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
[:SENSe]:FM[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
FM deviation measurement On/Off
On
Off
Example of Use
To query the On/Off state of the FM deviation measurement.
FM?
> 1
2
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Chapter 2 SCPI Device Message Details
:CONFigure:FM
FM deviation Configure
Function
Command
Details
Example of Use
This command sets the FM deviation measurement to On.
:CONFigure:FM
No measurement is performed.
After this command has been executed, then Scale Unit is set to ∆Hz,
Detection is set to Pos&Neg, and Peak to Peak Function is set to On.
To set the FM deviation measurement to On.
CONF:FM
:INITiate:FM
FM deviation Initiate
Function
Command
Details
Example of Use
This command starts the FM deviation measurement.
:INITiate:FM
After this command has been executed, then the FM deviation measurement is set to On and the measurement starts.
Scale Unit is set to ∆Hz and Detection is set to Pos&Neg, and Peak to
Peak function is set to ON.
For reading out a measurement result after this command has been executed, use *WAI commands to perform synchronized control.
To start the FM deviation measurement and query the results.
INIT:FM
*WAI
FETC:AM?
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2.14 FM deviation Measurement Settings
:FETCh:FM?
FM deviation Fetch
Function
Query
Response
Parameter
Details
Example of Use
This command queries the result of the FM deviation measurement.
:FETCh:FM?
<pos>,<neg>,<p-p>,<avg>
<pos>
<neg>
<p-p>
<avg>
Peak to Peak measurement result
+Peak value
−Peak value
{(−Peak) − (+Peak)}/2
Value is returned in Hz units, without suffix code.(Frequency vs Time)
− 999999999999 is returned when no measurement is performed or an error occurs.
Average value
Value is returned in Hz units, without suffix code.(Frequency vs Time)
− 999999999999 is returned when no measurement is performed or an error occurs.
This command queries the result of the FM deviation measurement performed lastly. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
To query the result of the FM deviation measurement.
FETC:FM?
2
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:READ:FM?
FM deviation Read
Function
This command performs the FM deviation measurement and queries the result.
This command has the same function as the following commands executed in this order:
:INITiate:FM
:FETCh:FM?
:MEASure:FM?
FM deviation Measure
Function
This command performs the FM deviation measurement and queries the result.
This command has the same function as the following commands executed in this order:
:CONFigure:FM
:INITiate:FM
:FETCh:FM?
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2.15 DigRF 3G Settings
2.15 DigRF 3G Settings
Table 2.15-1 lists device messages for DigRF 3G measurement settings.
Note:
The DigRF 3G is not available only when the MS269x Series
Option 040/140 Baseband Interface Unit is not installed or the software package is Ver.6.00.00 or later; it is not supported by MS
2830A and MS2840A.
2
Table 2.15-1 Device messages for DigRF 3G measurement settings
Function Device Message
[:SENSe]:FEED RF|DIGRF3G
Terminal Change
[:SENSe]:FEED?
Target System
[:SENSe]:DIGRf3g:TARGet WCDMA|GSM
[:SENSe]:DIGRf3g:TARGet?
[:SENSe]:DIGRf3g:ADRange <volt>
AD Full Range
[:SENSe]:DIGRf3g:ADRange?
I/Q Sign
Measurement
Channel
Capture Sample
Length
Analysis Start
Sample
Analysis Sample
Length
[:SENSe]:DIGRf3g:IQSign SIGNbit|TWOComp
[:SENSe]:DIGRf3g:IQSign?
[:SENSe]:DIGRf3g:MEASch PRIMary|DIVersity
[:SENSe]:DIGRf3g:MEASch?
[:SENSe]:SWEep:SAMPle <point>
[:SENSe]:SWEep:SAMPle?
:CALCulate:ATIMe:STARt:SAMPle <point>
:CALCulate:ATIMe:STARt:SAMPle?
:CALCulate:ATIMe:LENGth:SAMPle <point>
:CALCulate:ATIMe:LENGth:SAMPle?
Input Source
Result Delay
Vertical Scale
Center
:CALCulate:IQData <source>
:CALCulate:IQData?
:CALCulate:TRIGger:DIGRf3g:DELay?
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:CVOLtage <voltage>
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:CVOLtage?
Smoothing Sample
Length
:CALCulate:SMOothing:LENGth:SAMPLe <sample>
:CALCulate:SMOothing:LENGth:SAMPle?
Marker Unit
:UNIT:TMARker SAMPle|SEC
:UNIT:TMARker?
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[:SENSe]:FEED RF|DIGRF3G
Terminal Change
Function
This command sets Terminal.
Command
[:SENSe]:FEED <terminal>
Parameter
<terminal>
RF
DIGRF3G
Terminal
Sets RF for terminal.
Sets DigRF 3G (only for MS269x Series) for terminal.
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● Setting for DigRF 3G (only for MS269x Series) cannot be performed when the Option 040/140 Baseband Interface Unit is not installed or the software package is Ver.6.00.00 or later.
Example of Use
To set RF for Terminal.
FEED RF
[:SENSe]:FEED?
Terminal Change Query
Function
This command queries Terminal.
Query
[SENSe]:FEED?
Response
<terminal>
Parameter
<terminal>
RF
DIGRF3G
Terminal
RF
DigRF 3G (only for MS269x Series)
Example of Use
To query Terminal.
FEED?
> RF
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2.15 DigRF 3G Settings
[:SENSe]:DIGRf3g:TARGet WCDMA|GSM
Target System
Function
This command selects Target System of Input Signals.
Command
[:SENSe]:DIGRf3g:TARGet <communication>
Parameter
<communication> Target System
WCDMA Sets Target System for W-CDMA
GSM Sets Target System for GSM
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● Setting for Target System cannot be performed when the Option
040/140 Baseband Interface Unit is not installed or the software package is Ver.6.00.00 or later.
Example of Use
To set W-CDMA for Target System of Input signal.
DIGR:TARG WCDMA
[:SENSe]:DIGRf3g:TARGet?
Target System Query
Function
This command queries the target system of Input signals.
Query
[SENSe]:DIGRf3g:TARGet?
Response
<communication>
Parameter
<communication> Target System
WCDMA
GSM
W-CDMA
GSM
Example of Use
To query the target system of Input signals.
DIGR:TARG?
> WCDMA
2
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[:SENSe]:DIGRf3g:ADRange <volt>
AD Full Range
Function
This command sets the coefficient used for the unit conversion of the
DigRF 3G (only for MS269x Series) signal to the V unit system.
Command
[:SENSe]:DIGRf3g:ADRange <volt>
Parameter
<volt>
Range
Resolution
Suffix code
Voltage
1 mV to 10 V
0.1 mV
MV,V
V is used when omitted.
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When the Option 040/140 Baseband Interface Unit is not installed or the software package is Ver.6.00.00 or later.
Example of Use
To set the coefficient to 10 mV.
DIGR:ADR 10MV
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2.15 DigRF 3G Settings
[:SENSe]:DIGRf3g:ADRange?
AD Full Range Query
Function
This command queries the coefficient used for the unit conversion of the
DigRF 3G (only for MS269x Series) signal to the V unit system.
Query
[:SENSe]:DIGRf3g:ADRange?
Response
<volt>
Parameter
<volt>
Range
Resolution
Suffix codes
Voltage
0.001 V to 10 V
0.0001 V
None
Example of Use
To query the coefficient used for the unit conversion of the DigRF 3G
(only for MS269x Series) signal to the V unit system.
DIGR:ADR?
2
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[:SENSe]:DIGRf3g:IQSign SIGNbit|TWOComp
I/Q Sign
Function
This command sets the I/Q Sign.
Command
[:SENSe]:DIGRf3g:IQSign <i/q sign>
Parameter
<i/q sign>
SIGNbit
TWOComp
I/Q Sign
Sets to Sign bit + Absolute value
Sets to two's complement.
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● Setting for I/Q Sign cannot be performed when the Option 040/140
Baseband Interface Unit is not installed or the software package is
Ver.6.00.00 or later.
Example of Use
To set the I/Q Sign to “sign bit + absolute value”.
DIGR:IQS SIGN
[:SENSe]:DIGRf3g:IQSign?
I/Q Sign Query
Function
This command queries the I/Q Sign.
Query
[:SENSe]:DIGRf3g:IQSign?
Response
<i/q sign>
Parameter
<i/q sign>
SIGN
TWOC
I/Q Sign
Sign bit + absolute value
Two's complement
Example of Use
To query the I/Q Sign.
DIGR:IQS?
> SIGN
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2.15 DigRF 3G Settings
[:SENSe]:DIGRf3g:MEASch PRIMary|DIVersity
Measurement Channel
Function
This command sets the Logical channel Type of the receiving DigRF 3G
(only for MS269x Series) signal.
Command
[:SENSe]:DIGRf3g:MEASch <channel>
Parameter
<channel>
PRIMary
DIVersity
Measurement Channel
Primary
Diversity
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● Setting for Measurement Channel cannot be performed when the
Option 040/140 Baseband Interface Unit is not installed or the software package is Ver.6.00.00 or later.
Example of Use
To set Primary for Logical Channel Type.
DIGR:MEAS PRIM
2
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[:SENSe]:DIGRf3g:MEASch?
Measurement Channel Query
Function
This command queries the Logical channel Type of the receiving DigRF
3G (only for MS269x Series) signal.
Query
[:SENSe]:DIGRf3g:MEASch?
Response
<channel>
Parameter
<channel>
PRIM
DIV
Measurement Channel
Primary
Diversity
Example of Use
To query the Logical Channel Type.
DIGR:MEAS?
> PRIM
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2.15 DigRF 3G Settings
[:SENSe]:SWEep:SAMPle <point>
Capture Sample Length
Function
This command sets the waveform capture sample length when Terminal is set to DigRF 3G (only for MS269x Series).
Command
[:SENSe]:SWEep:SAMPle <point>
Parameter
<point>
Range
Resolution
Default value
Number of capture samples
100 to 500000000 (W-CDMA)
100 to 200000000 (GSM)
1 sample
100
Details
The shortest capture time length is set when the automatic setting is enabled.
The automatic mode is switched to the manual mode when the capture time is set.
The setting range and resolution are limited by the Frequency Span setting.
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is RF.
Example of Use
To set the number of waveform capture samples to 20000.
SWE:SAMP 20000
2
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[:SENSe]:SWEep:SAMPle?
Capture Sample Length Query
Function
This command queries the number of waveform capture samples when
Terminal is set to DigRF 3G (only for MS269x Series).
Query
[:SENSe]:SWEep:SAMPle?
Response
<point>
Parameter
<point>
Range
Resolution
Default value
Capture sample length
100 to 500000000 (W-CDMA)
100 to 200000000 (GSM)
1 sample
100
Example of Use
To query waveform capture sample length.
SWE:SAMP?
> 20000
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2.15 DigRF 3G Settings
:CALCulate:ATIMe:STARt:SAMPle<point>
Analysis Start Sample
Function
This command sets the analysis start sample of the main trace with sample numbers when Terminal is set to DigRF 3G (only for MS269x
Series).
Command
:CALCulate:ATIMe:STARt:SAMPle <point>
Parameter
<point>
Range
Resolution
Analysis start sample
0 to Capture Time Length – Analysis Time
Length
1 sample
Details
This command is not available while the Replay function is being executed.
2
This command is not available in the following cases:
● When the analysis start sample is maximum.
● When RF is set for Terminal .
Example of Use
To set the analysis start position to 15360000 sample.
CALC:ATIM:STAR:SAMP 15360000
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:CALCulate:ATIMe:STARt:SAMPle?
Analysis Start Sample Query
Function
This command querie the analysis start position of the main trace with sample numbers when Terminal is set to DigRF 3G (only for MS269x
Series).
Query
:CALCulate:ATIMe:STARt:SAMPle?
Response
<point>
Parameter
<point>
Range
Resolution
Analysis start sample
0 to Capture Time Length – Analysis Time
Length
1 sample
Example of Use
To query the analysis start sample.
CALC:ATIM:STAR:SAMP?
> 15360000
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2.15 DigRF 3G Settings
:CALCulate:ATIMe:LENGth:SAMPle <point>
Analysis Sample Length
Function
This command sets the analysis sample length of the main trace when
Terminal is set to DigRF 3G (only for MS269x Series).
Command
:CALCulate:ATIMe:LENGth:SAMPle <point>
Parameter
<point>
Range
Resolution
Analysis sample length
0 to Capture Time Length – Analysis Start Time
1 sample
Details
This command is not available while the Replay function is being executed.
This command is not available in the following cases:
● When the analysis start sample is maximum.
● When RF is set for Terminal.
Example of Use
To set the analysis sample length of the main trace to 15360000.
CALC:ATIM:LENG:SAMP 15360000
2
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:CALCulate:ATIMe:LENGth:SAMPle?
Analysis Sample Length Query
Function
This command queries the analysis sample length of the main trace when Terminal is set to DigRF 3G (only for MS269x Series).
Query
:CALCulate:ATIMe:LENGth:SAMPle?
Response
<point>
Parameter
<point>
Range
Resolution
Analysis sample length
0 to Capture Time Length – Analysis Start
Time
1 sample
Example of Use
To query the analysis sample length of the main trace
CALC:ATIM:LENG:SAMP?
> 15360000
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2.15 DigRF 3G Settings
:CALCulate:IQData <source>
Input Source
Function
This command selects the Input Source when the data is analyzed.
Command
:CALCulate:IQData <source>
Parameter
<source>
COMPlex
I
Q
Input Source
Selects a complex data for I and Q phase.
Selects the I phase data.
Selects the Q phase data.
Details
This command is not available while the Replay function is being executed.
This command is not available in the following cases:
● When Terminal is set to RF.
● When the trace is set to Frequency vs Time, neither I nor Q phase can be set.
Example of Use
To select Complex for Input Source.
CALC:IQD COMP
2
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:CALCulate:IQData?
Input Source Query
Function
This command queries the Input Source when the data is analyzed.
Command
:CALCulate:IQData?
Parameter
<source>
COMP
I
Q
Input Source
I and Q phase
I phase
Q phase
Example of Use
To query the Input Source.
CALC:IQD?
:CALCulate:TRIGger:DIGRf3g:DELay?
Result Delay Query
Function
This command queries the result of delay time by sample unit.
Command
:CALCulate:TRIGger:DIGRf3g:DELay?
Response
<sample>
Details
When a trigger is used for DigRF 3G (only for MS269x Series), a delay may occur in the results because there is no pre-trigger. The number of samples from the analysis start sample point to the actual trigger point
(trigger input + trigger delay) is queried as a delay.
This command is not available while the Replay function is being executed.
Example of Use
To query the delay time by sample unit.
CALC:TRIG:DIGR:DEL?
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2.15 DigRF 3G Settings
:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:CVOLtage <voltage>
Vertical Scale Center
Function
This command sets the value for center of the vertical scale.
Command
:DISPlay:WINDow[1]:TRACe:Y[SCALe]:CVOLtage <Voltage>
Parameter
<voltage>
Range
Resolution
Suffix codes
Settings scale value
–Reference Level to Reference Level
0.01 pV
PV,NV,UV,MV,V
V is used when omitted.
Details
This command is available when the following trace is active.
● Power vs Time
This command is not available while the Replay function is being executed.
This command is not available in the following cases:
● When Terminal is selected RF.
● Scale Mode is Log.
● Input Source is Complex.
Example of Use
To set the value for center of vertical scale to 2 mV
DISP:WIND:TRAC:Y:CVOL 2MV
2
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:DISPlay:WINDow[1]:TRACe:Y[:SCALe]:CVOLtage?
Vertical Scale Center Query
Function
This command queries the value for center of the vertical scale.
Query
:DISPlay:WINDow[1]:TRACe:Y[SCALe]:CVOLtage?
Response
<voltage>
Parameter
<voltage>
Range
Resolution
Settings scale value
–70.7 V to 70.7 V
0.01 pV
No Suffix code
Details
–999999999999 is returned when Terminal is RF, when Scale Mode is
Log, or when Input Source is Complex.
Example of Use
To query the value for center of the vertical scale
DISP:WIND:TRAC:Y:CVOL?
> 2000000
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2.15 DigRF 3G Settings
:CALCulate:SMOothing:LENGth:SAMPle<sample>
Smoothing Sample Length
Function
This command sets the smoothing sample length of the main trace when
Terminal is set to DigRF 3G (only for MS269x Series).
Command
:CALCulate:SMOothing:LENGth:SAMPle <sample>
Parameter
<sample>
Range
Resolution
Smoothing sample length
1 to 10000
1 sample
Details
This command is available when the following trace is active.
● Power vs Time
● Frequency vs Time
This command is not available while the Replay function is being executed.
This command is not available in the following condition:
● When Terminal is set to RF.
Example of Use
To set the smoothing sample length is 500.
CALC:SMO:LENG:SAMP 500
2
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:CALCulate:SMOothing:LENGth:SAMPle?
Smoothing Sample Length Query
Function
This command queries the smoothing sample length of the main trace when Terminal is set to DigRF 3G (only for MS269x Series).
Query
:CALCulate:SMOothing:LENGth:SAMPle?
Response
<sample>
Parameter
<sample>
Range
Resolution
Smoothing sample length
1 to 10000
1 sample
Details
This command is available when the following trace is active.
● Power vs Time
● Frequency vs Time
Example of Use
To query the smoothing sample length.
CALC:SMO:LENG:SAMP?
> 500
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2.15 DigRF 3G Settings
:UNIT:TMARker SAMPle|SECond
Marker Unit
Function
This command sets the units of the marker display value (time) when
Terminal is set to DigRF 3G (only for MS269x Series).
Command
:UNIT:TMARker <Unit>
Parameter
<unit>
SAMPle
SECond
Units of marker display value
Sets Sample for the units of marker display value.
Sets second for the units of marker display value.
Details
This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When RF is set for Terminal.
Example of Use
To set the marker display unit to Sample.
UNIT:TMAR SAMP
:UNIT:TMARker?
Marker Unit Query
Function
This command queries the units of the marker display value when
Terminal is set to DigRF 3G (only for MS269x Series).
Query
:UNIT:TMARker?
Response
<unit>
Parameter
<unit>
SAMP
SEC
Units of marker display value
Sample
Second
Example of Use
To query the units of the marker display.
UNIT:TMAR?
> SAMP
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Chapter 2 SCPI Device Message Details
2.16 Setting Replay function
Table 2.16-1 lists device messages for setting the Replay function.
Table 2.16-1 Device messages for setting Replay function
Function Device Message
Stop Replay
Execute Replay
:MMEMory:LOAD:IQData:STOP
:MMEMory:LOAD:IQData <filename>,<device>,<application>
Replay File
Information Query :MMEMory:LOAD:IQData:INFormation?
Replay Execute
Query
:MMEMory:LOAD:IQData:INFormation:STATe?
Replay Filename
Query
Replay Device
Query
:MMEMory:LOAD:IQData:INFormation:FILE?
:MMEMory:LOAD:IQData:INFormation:DEVice?
Replay Application
Query
Replay Start Time
Query
:MMEMory:LOAD:IQData:INFormation:APPLication?
:MMEMory:LOAD:IQData:INFormation:STARt?
Replay Time
Length Query
Replay Level Over
Query
Replay Error Icon
Query
Replay Correction
Query
Replay External
Reference Query
:MMEMory:LOAD:IQData:INFormation:LENGth?
:MMEMory:LOAD:IQData:INFormation:CONDition?
:MMEMory:LOAD:IQData:INFormation:ERRor?
:MMEMory:LOAD:IQData:INFormation:CORRection?
:MMEMory:LOAD:IQData:INFormation:ROSCillator?
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2.16 Setting Replay function
:MMEMory:LOAD:IQData:STOP
Stop Replay
Function
This command stops the Replay function.
Command
:MMEMory:LOAD:IQData:STOP
Details
This command is available only when the Replay function is being executed.
Example of Use
To stop the Replay function.
MMEM:LOAD:IQD:STOP
:MMEMory:LOAD:IQData <filename>,<device>,<application>
Execute Replay
Function
This command executes the Replay function. By selecting a file name, drive name, and an application, you can select IQ data for which the
Replay function is executed.
Command
:MMEMory:LOAD:IQData <filename>,<device>,<application>
Parameter
<filename>
<device>
<application>
SIGANA
EXTDIG
Target file name
Character string within 128 characters enclosed by double quotes (“ ”) or single quotes (‘ ’)
(excluding extension)
The following characters cannot be used:
\ / : * ? “ ” ‘ ’ < > |
Drive name
A,B,D,E,F,...
Application to load IQ data file
Signal Analyzer
Extended Digitizing
Details
This command is not available in the following case:
2
● When DigRF 3G (only for MS269x Series) is set for Terminal.
Example of Use
To query the IQ data file “TEST” of the signal analyzer from drive D, and execute the Replay function.
MMEM:LOAD:IQD “TEST”,D,SIGANA
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:MMEMory:LOAD:IQData:INFormation?
Replay File Information Query
Function
This command queries the file information while the Replay function is being executed.
Query
:MMEMory:LOAD:IQData:INFormation?
Response
<filename>,<start_time>,<time_length>
Parameter
<filename>
<start_time>
Resolution
<time_length>
Resolution
File name
Character string within 128 characters
(excluding extension)
*** is returned unless the Replay function is executed.
Start time of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned unless the Replay function is executed.
Time length of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned unless the Replay function is executed.
Example of Use
To query the file information while the Replay function is being executed.
MMEM:LOAD:IQD:INF?
> TEST,-38.838771500,38.838771500
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2.16 Setting Replay function
:MMEMory:LOAD:IQData:INFormation:STATe?
Replay Execute Query
Function
This command queries whether the Replay function is executed.
Query
:MMEMory:LOAD:IQData:INFormation:STATe?
Response
<switch>
Parameter
<switch>
1
0
Replay On/off
The Replay function is executed.
The Replay function is not executed.
Example of Use
To query whether the Replay function is executed.
MMEM:LOAD:IQD:INF:STAT?
> 1
:MMEMory:LOAD:IQData:INFormation:FILE?
Replay Filename Query
Function
This command queries the name of the file for which the Replay function is executed.
Query
:MMEMory:LOAD:IQData:INFormation:FILE?
Response
<filename>
Parameter
<filename> File name
Character string within 128 characters
(excluding extension)
*** is returned unless the Replay function is executed.
Example of Use
To query the name of the file for which the Replay function is executed.
MMEM:LOAD:IQD:INF:FILE?
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:MMEMory:LOAD:IQData:INFormation:DEVice?
Replay Device Query
Function
This command queries the name of the drive for which the Replay function is executed.
Query
:MMEMory:LOAD:IQData:INFormation:DEVice?
Response
<device>
Parameter
<device> Drive name
A,B,D,E,F,...
*** is returned unless the Replay function is executed.
Example of Use
To query the name of the drive for which the Replay function is executed.
MMEM:LOAD:IQD:INF:DEV?
:MMEMory:LOAD:IQData:INFormation:APPLication?
Replay Application Query
Function
This command queries the name of the application for which the Replay function is executed.
Query
:MMEMory:LOAD:IQData:INFormation:APPLication?
Response
<application>
Parameter
<application>
SIGANA
EXTDIG
Application to load IQ data file
Signal Analyzer
Extended Digitizing
*** is returned unless the Replay function is executed.
Example of Use
To query the name of the application for which the Replay function is executed.
MMEM:LOAD:IQD:INF:APPL?
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2.16 Setting Replay function
:MMEMory:LOAD:IQData:INFormation:STARt?
Replay Start Time Query
Function
This command queries the start time of analyzable IQ data for the
Replay function.
Query
:MMEMory:LOAD:IQData:INFormation:STARt?
Response
<start_time>
Parameter
<start_time>
Resolution
Example of Use
To query the start time of analyzable IQ data for the Replay function.
MMEM:LOAD:IQD:INF:STAR?
:MMEMory:LOAD:IQData:INFormation:LENGth?
Replay Time Length Query
Function
Start time of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned unless the Replay function is executed.
This command queries the time length of analyzable IQ data for the
Replay function.
Query
:MMEMory:LOAD:IQData:INFormation:LENGth?
Response
<time_length>
Parameter
<time_length>
Resolution
Time length of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned unless the Replay function is executed.
Example of Use
To query the time length of analyzable IQ data for the Replay function.
MMEM:LOAD:IQD:INF:LENG?
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:MMEMory:LOAD:IQData:INFormation:CONDition?
Replay Level Over Query
Function
This command queries whether Level Over is displayed while the Replay function is being executed.
Query
:MMEMory:LOAD:IQData:INFormation:CONDition?
Response
<switch>
1
0
Example of Use
To query whether Level Over is displayed while the Replay function is being executed.
MMEM:LOAD:IQD:INF:COND?
> 0
:MMEMory:LOAD:IQData:INFormation:ERRor?
Replay Error Icon Query
Function
This command queries whether Replay Error Info. icon is displayed while the Replay function is being executed.
Query
Level Over is displayed.
Normal
–999.0 is returned unless the Replay function is executed.
:MMEMory:LOAD:IQData:INFormation:ERRor?
Response
<switch>
1
0
Replay Error Info. icon is displayed.
Normal
–999.0 is returned unless the Replay function is executed.
Details
The Replay Error Info. icon is displayed if the loaded xml file contains error information.
Example of Use
To query whether Replay Error Info.icon is displayed while the Replay function is being executed.
MMEM:LOAD:IQD:INF:ERR?
> 0
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2.16 Setting Replay function
:MMEMory:LOAD:IQData:INFormation:CORRection?
Replay Correction Query
Function
This command queries the Correction value when the Replay function is executed.
Query
:MMEMory:LOAD:IQData:INFormation:CORRection?
Response
<real>
Parameter
<real>
Range
Correction level
− 100 to 100 dB
0.000 is returned when Correction is set to Off.
–999.0 is returned unless the Replay function is executed.
Example of Use
To query the Correction value when the Replay function is executed.
MMEM:LOAD:IQD:INF:CORR?
:MMEMory:LOAD:IQData:INFormation:ROSCillator?
Replay External Reference Query
Function
This command queries the frequency reference signal source when the
Replay function is executed.
Query
:MMEMory:LOAD:IQData:INFormation:ROSCillator?
Response
<source>
Parameter
<source>
INT
INTU
EXT
EXTU
Frequency reference signal source
Internal reference signal source
Internal reference signal source (Unlock state)
External reference signal source
External reference signal source (Unlock state)
*** is returned unless the Replay function is executed.
Example of Use
To query the frequency reference signal source when the Replay function is executed.
MMEM:LOAD:IQD:INF:ROSC?
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2.17 Sub Trace Settings
Table 2.17-1 lists device messages for setting sub traces.
Table 2.17-1 Device messages for setting sub traces
Function
Change Sub
Trace
Sub Trace
Detection Mode
Device Message
:CALCulate:STRace:MODE OFF|PVTime|SPGRam
:CALCulate:STRace:MODE?
:CALCulate:STRace:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
:CALCulate:STRace:DETector[:FUNCtion]?
Sub Trace
Analysis Time
Auto/Manual
Sub Trace
Analysis Start
Time
Sub Trace
Analysis Start
Sample
Sub Trace
Analysis Time
Length
:CALCulate:STRace:ATIMe:AUTO OFF|ON|0|1
:CALCulate:STRace:ATIMe:AUTO?
:CALCulate:STRace:ATIMe:STARt <time>
:CALCulate:STRace:ATIMe:STARt?
:CALCulate:STRace:ATIMe:STARt:SAMPle <integer>
:CALCulate:STRace:ATIMe:STARt:SAMPle?
:CALCulate:STRace:ATIMe:LENGth <time>
:CALCulate:STRace:ATIMe:LENGth?
Sub Trace
Analysis Sample
Length
Sub Trace Log
Scale Level Full
Scale
:CALCulate:STRace:ATIMe:LENGth:SAMPle <integer>
:CALCulate:STRace:ATIMe:LENGth:SAMPle?
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic
<rel_ampl>
Sub Trace
Linear Scale
Level Full Scale
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic?
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear
<percent>
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear?
Sub Trace
Resolution
Bandwidth
Sub Trace
Resolution
Bandwidth
Auto/Manual
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution] <bandwidth>
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]?
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO?
Sub Trace Result
Delay Query
:CALCulate:STRace:TRIGger:DIGRf3g:DELay?
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2.17 Sub Trace Settings
:CALCulate:STRace:MODE OFF|PVTime|SPGRam
Change Sub Trace
Function
This command sets the sub-trace type.
Command
:CALCulate:STRace:MODE <trace>
Parameter
<trace>
OFF
PVTime
SPGRam
Type
None (Default value)
Power vs Time
Spectrogram
Details
Spectrogram cannot be set when Scale Mode is set to Lin or when
Terminal is set to DigRF 3G (only for MS269x Series).
This command is not available when Trace Mode is set to No Trace.
Example of Use
To set the sub trace to Spectrogram.
CALC:STR:MODE SPGR
:CALCulate:STRace:MODE?
Change Sub Trace Query
Function
This command queries the sub-trace type.
Query
:CALCulate:STRace:MODE?
Response
<trace>
Parameter
<trace>
OFF
PVT
SPGR
Type
None
Power vs Time
Spectrogram
Example of Use
To query the sub-trace type.
CALC:STR:MODE?
> SPGR
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:CALCulate:STRace:DETector[:FUNCtion]
NORMal|POSitive|NEGative|AVERage
Sub Trace Detection Mode
Function
This command sets the detection mode for the waveform pattern of the sub-trace.
Command
:CALCulate:STRace:DETector[:FUNCtion] <mode>
Parameter
<mode>
NORMal
POSitive
NEGative
AVERage
Default value
Detection mode
Simultaneous detection of positive and negative peaks (unavailable for Spectrogram sub trace)
Positive peak detection
Negative peak detection
Average value detection (Default)
POSitive (in Spectrogram)
AVERage (in Power vs Time)
Details
This command is not available when the sub-trace is set to Off.
Example of Use
To set the detection mode to positive peak detection.
CALC:STR:DET POS
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2.17 Sub Trace Settings
:CALCulate:STRace:DETector[:FUNCtion]?
Sub Trace Detection Mode Query
Function
This command queries the detection mode for the waveform pattern of the sub-trace.
Query
:CALCulate:STRace:DETector[:FUNCtion]?
Response
<mode>
Parameter
<mode>
NORM
POS
NEG
AVER
Detection mode for sub trace
Simultaneous detection of positive and negative peaks
Positive peak detection
Negative peak detection
Average value detection
Example of Use
To query the detection mode.
CALC:STR:DET?
> POS
:CALCulate:STRace:ATIMe:AUTO OFF|ON|0|1
Sub Trace Analysis Time Auto/Manual
Function
This command selects whether to set the analysis time for sub traces automatically or manually.
Command
:CALCulate:STRace:ATIMe:AUTO <switch>
Parameter
<switch>
ON|1
OFF|0
Auto/Manual
Auto (Default)
Manual
2
Details
This command is not available when the sub-trace is set to Off.
Example of Use
To set the analysis time of the sub-trace to On (Auto).
CALC:STR:ATIM:AUTO ON
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:CALCulate:STRace:ATIMe:AUTO?
Sub Trace Analysis Time Auto/Manual Query
Function
This command queries whether the analysis time for sub traces is set automatically or manually.
Query
:CALCulate:STRace:ATIMe:AUTO?
Response
<switch>
Parameter
<switch>
1
0
Auto/Manual
Auto
Manual
Example of Use
To query whether the analysis time for sub traces is set automatically or manually.
CALC:STR:ATIM:AUTO?
> 1
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2.17 Sub Trace Settings
:CALCulate:STRace:ATIMe:STARt <time>
Sub Trace Analysis Start Time
Function
This command sets the analysis start time of the sub-trace.
Command
:CALCulate:STRace:ATIMe:STARt <time>
Parameter
<time> Analysis start time
Range/Resolution For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function
Suffix codes
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer function Operation).
NS,US,MS,S
S is used when omitted.
Details
This command is not available when the analysis time length (Sub Trace
Analysis Time Length) is set to the maximum value.
This command is not available in the following cases:
● When Terminal is set to DigRF 3G (only for MS269x Series).
● When the sub-trace is set to Off.
Example of Use
To set the analysis start time to 12 ms.
CALC:STR:ATIM:STAR 12MS
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:CALCulate:STRace:ATIMe:STARt?
Sub Trace Analysis Start Time Query
Function
This command queries the analysis start time of the sub-trace.
Query
:CALCulate:STRace:ATIMe:STARt?
Response
<time>
Parameter
<time> Analysis start time
Range/Resolution For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer function Operation).
No suffix code. Value is returned in S units.
–999.0 is returned when no measurement is performed or an error occurs.
Example of Use
To query the analysis start time.
CALC:STR:ATIM:STAR?
> 0.01200000
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2.17 Sub Trace Settings
:CALCulate:STRace:ATIMe:STARt:SAMPle <integer>
Sub Trace Analysis Start Sample
Function
This command uses the number of samples to set the sub trace analysis start position when Terminal is set to DigRF 3G (only for MS269x
Series).
Command
:CALCulate:STRace:ATIMe:STARt:SAMPle <integer>
Parameter
<integer>
Range
Resolution
Sub trace analysis start position
0 to Capture Time Length – Analysis Time
Length
1 sample
Details
This command is not available when the analysis sample length (Sub
Trace Analysis Length Sample) is set to the maximum value.
This command is not available in the following cases:
● When Terminal is RF.
● When the sub-trace is set to Off.
Example of Use
To set the analysis start position to 15360000 samples.
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:CALCulate:STRace:ATIMe:STARt:SAMPle?
Sub Trace Analysis Start Sample Query
Function
This command uses the number of samples to query the sub trace analysis start position when Terminal is set to DigRF 3G (only for
MS269x Series).
Query
:CALCulate:STRace:ATIMe:STARt:SAMPle?
Response
<integer>
Parameter
<integer>
Range
Resolution
Sub trace analysis start position
0 to Capture Time Length -Analysis Time
Length
1 sample
–999.0 is returned when no measurement is performed or an error occurs.
Example of Use
To query the analysis start position.
CALC:STR:ATIM:STAR:SAMP?
> 15360000
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2.17 Sub Trace Settings
:CALCulate:STRace:ATIMe:LENGth <time>
Sub Trace Analysis Time Length
Function
This command sets the analysis time length of the sub-trace.
Command
:CALCulate:STRace:ATIMe:LENGth <time>
Parameter
<time> Time analysis length
Range/Resolution For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Suffix code
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
NS,US,MS,S
Details
This command is not available when the analysis start time (Sub Trace
Analysis Start Time) is set to the maximum value.
This command is not available in the following cases:
● When Terminal is set to DigRF 3G (only for MS269x Series).
● When the sub-trace is set to Off.
Example of Use
To set the analysis time length of the sub-trace to 12 ms.
CALC:STR:ATIM:LENG 12MS
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Chapter 2 SCPI Device Message Details
:CALCulate:STRace:ATIMe:LENGth?
Sub Trace Analysis Time Length Query
Function
This command queries the analysis time length of the sub-trace.
Query
:CALCulate:STRace:ATIMe:LENGth?
Response
<time>
Parameter
<time> Time analysis length
Range/Resolution For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
No suffix code. Value is returned in S units –999.0 is returned when no measurement is performed or an error occurs.
Example of Use
To query the analysis time length of the sub-trace.
CALC:STR:ATIM:LENG?
> 0.01200000
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2.17 Sub Trace Settings
:CALCulate:STRace:ATIMe:LENGth:SAMPle <integer>
Sub Trace Analysis Sample Length
Function
This command sets the analysis sample length of the sub-trace when
Terminal is set to DigRF 3G (only for MS269x Series).
Command
:CALCulate:STRace:ATIMe:LENGth:SAMPle <integer>
Parameter
<integer>
Range
Resolution
Analysis sample length
0 to Capture Time Length-Analysis Start Time
1 sample
Details
This command is not available when the analysis start position (Sub
Trace Analysis Start Sample) is set to the maximum value.
2
This command is not available in the following cases:
● When Terminal is RF.
● When the sub-trace is set to Off.
Example of Use
To set the analysis sample length of the sub-trace to 15360000.
CALC:STR:ATIM:LENG:SAMP 15360000
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:CALCulate:STRace:ATIMe:LENGth:SAMPle?
Sub Trace Analysis Sample Length Query
Function
This command queries the analysis sample length of the sub-trace when
Terminal is set to DigRF 3G (only for MS269x Series).
Query
:CALCulate:STRace:ATIMe:LENGth:SAMPle?
Response
<integer>
Parameter
<integer>
Range
Resolution 1 sample
–999.0 is returned when no measurement is performed or an error occurs.
Analysis sample length
0 to Capture Time Length-Analysis Start Time
Example of Use
To query the analysis sample length of the sub-trace.
CALC:STR:ATIM:LENG:SAMP?
> 15360000
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2.17 Sub Trace Settings
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic
<rel_ampl>
Sub Trace Log Scale Level Full Scale
Function
This command sets the level-axis scale range for sub traces in Log scale mode.
Command
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGa rithmic <rel_ampl>
Parameter
<rel_ampl>
Resolution
Data Range
Default value
Suffix code
Y-axis scale
10 dB
10 to 150 dB
100 dB
DB
DB is used when omitted.
Details
This command is not available in the following cases:
● When the sub-trace is set to Off.
● When Scale Mode is set to Linear and when the sub-trace is set to
Power vs Time.
Example of Use
To set the level-axis scale range for sub traces to 50 dB.
DISP:WIND:STR:Y:PDIV:RANG:LOG 50
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:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic?
Sub Trace Log Scale Level Full Scale Query
Function
This command queries the level-axis scale range for sub traces in Log scale mode.
Query
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGa rithmic?
Response
<rel_ampl>
Parameter
<rel_ampl>
Resolution
Data Range
Y-axis scale
10 dB
10 to 150 dB
Default value 100 dB
–999.0 is returned when no measurement is performed or an error occurs.
Example of Use
To query the level-axis scale range for sub traces.
DISP:WIND:STR:Y:PDIV:RANG:LOG?
> 50
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2.17 Sub Trace Settings
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear
<percent>
Sub Trace Linear Scale Level Full Scale
Function
This command sets the level-axis scale range for sub traces in Linear scale mode.
Command
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINe ar <percent>
Parameter
<percent>
10
20
50
100
Default value
Y-axis scale
10 %
20 %
50 %
100 %
100 %
No suffix code
Details
This command is not available in the following cases:
● When the sub-trace is set to Off.
● When Scale Mode is set to Log and when the sub-trace is set to Power vs Time.
● When the sub-trace is set to Spectrogram.
Example of Use
To set the level-axis scale range for sub traces to 50%.
DISP:WIND:STR:Y:PDIV:RANG:LIN 50
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:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear?
Sub Trace Linear Scale Level Full Scale Query
Function
This command queries the level-axis scale range for sub traces in Linear scale mode.
Query
:DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LIN?
Response
<percent>
Parameter
<percent>
10
20
50
100
150
Y-axis scale
10%
20%
50%
100%
150%
–999.0 is returned when no measurement is performed or an error occurs.
Example of Use
To query the level-axis scale range for sub traces.
DISP:WIND:STR:Y:PDIV:RANG:LIN?
> 50
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2.17 Sub Trace Settings
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution] <bandwidth>
Sub Trace Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW) of the sub-trace.
Command
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]
<bandwidth>
Parameter
<bandwidth>
Range/Resolution
Suffix code
Resolution bandwidth (RBW)
1 Hz to 10 MHz (1-3 sequence)
HZ,KHZ,KZ,MHZ,MZ,GHZ,GZ
Hz is used when omitted.
Details
This command is available when the following sub-trace is set to active:
● Spectrogram
This command is not available when Terminal is set to DigRF 3G (only for MS269x Series).
The setting range of this function varies depending on the setting of the frequency span. For details, refer to MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal Analyzer function Operation) or MS2830A/MS2840A Signal Analyzer Operation Manual (Signal
Analyzer function Operation).
Example of Use
To set the RBW of the sub-trace to 300 kHz.
CALC:STR:BAND 300KHZ
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Chapter 2 SCPI Device Message Details
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]?
Sub Trace Resolution Bandwidth Query
Function
This command queries the resolution bandwidth (RBW) of the sub-trace.
Query
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]?
Response
<bandwidth>
Parameter
<bandwidth>
Range/Resolution
Resolution bandwidth(RBW)
1 Hz to 10 MHz (1-3 sequence)
No suffix code. Value is returned in Hz units.
–999.0 is returned when no measurement is performed or an error occurs.
Example of Use
To query the RBW of the sub-trace.
CALC:STR:BAND?
> 300000
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
Sub Trace Resolution Bandwidth Auto/Manual
Function
This command selects whether to set the resolution bandwidth (RBW) for sub traces automatically or manually.
Command
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO
<switch>
Parameter
<switch>
ON|1
OFF|0
Auto/Manual
Enables auto mode (Default)
Disables auto mode.
Details
This command is available when the following sub-trace is set to active:
● Spectrogram
This command is not available when Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To enable the auto mode of RBW.
CALC:STR:BAND:AUTO ON
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2.17 Sub Trace Settings
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO?
Sub Trace Resolution Bandwidth Auto/Manual
Function
This command queries whether the resolution bandwidth (RBW) for sub traces is set automatically or manually.
Query
:CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO?
Response
<switch>
Parameter
<switch>
1
0
Auto/Manual
Auto mode is on.
Auto mode is off.
Example of Use
To query whether the RBW for sub traces is set automatically or manually.
CALC:STR:BAND:AUTO?
> 1
:CALCulate:STRace:TRIGger:DIGRf3g:DELay?
Sub Trace Result Delay Query
Function
This command queries the delay time of sub trace results in sample units.
Command
:CALCulate:STRace:TRIGger:DIGRf3g:DELay?
Response
<sample>
–999.0 is returned when no measurement is performed or an error occurs.
Details
When a trigger is used for DigRF 3G (only for MS269x Series), a delay may occur in the results because there is no pre-trigger. The number of samples from the analysis start sample point to the actual trigger point
(trigger input + trigger delay) is queried as a delay.
Example of Use
To query the delay time in sample units.
CALC:STR:TRIG:DIGR:DEL?
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Chapter 2 SCPI Device Message Details
2.18 Other Function Settings
Table 2.18-1 lists device messages for other settings.
Function
Measurement
Status Query
Erase Warm Up
Message
Display Title
Title Entry
Adjust Reference
Clock
Adjust Reference
Clock Preset
Pre-selector Auto
Tune
Pre-selector Tune
Captured Data
Query
Binary Data Byte
Order
Numeric Data
Format
Micro Wave
Preselector Bypass
Table 2.18-1 Device messages for other settings
:STATus:ERRor?
Device Message
:DISPlay:ANNotation:WUP:ERASe
:DISPlay:ANNotation:TITLe[:STATe] ON|OFF|1|0
:DISPlay:ANNotation:TITLe[:STATe]?
:DISPlay:ANNotation:TITLe:DATA <string>
:DISPlay:ANNotation:TITLe:DATA?
:CALibration:RCLock[:VALue] <integer>
:CALibration:RCLock[:VALue]?
:CALibration:RCLock[:VALue]:PRESet
:CALibration:YTF
:CALibration:YTF?
[:SENSe]:POWer[:RF]:PADJust <freq>
[:SENSe]:POWer[:RF]:PADJust?
[:SENSe]:DATA?
:FORMat:BORDer NORMal|SWAPped
:FORMat:BORDer?
:FORMat[:DATA] ASCii|REAL[,<integer>]
:FORMat[:DATA]?
[:SENSe]:POWer[:RF]:MW:PRESelector[:STATe] ON|OFF|1|0
[:SENSe]:POWer[:RF]:MW:PRESelector[:STATe]?
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2.18 Other Function Settings
:STATus:ERRor?
Measurement Status Query
Function
Query
Response
Parameter
Details
Example of Use
Range
This command queries the measurement status.
:STATus:ERRor?
<status>
<status>
Value
Status
= bit0 + bit1 + bit2 + bit3 + bit4 + bit5 + bit6
+ bit7 + bit8 + bit9 + bit10 + bit11 + bit12
+ bit13 + bit14 + bit15 bit0 : 2 bit1 : 2 bit2 : 2 bit3 : 2
0
1
2
3
= 1
= 2
= 4
= 8
Not measured
Level over
Out of Range
(Not used) bit4 : 2 bit5 : 2
4
5 bit6 : 26 = 64 bit7 : 27 = 128 bit8 : 28 = 256 bit9 : 29 = 512 bit10 : 2 bit11 : 2 bit12 : 2 bit13 : 2 bit14 : 2 bit15 : 2
0 to 255
= 16
= 32
10
11
12
13
14
15
= 1024
= 2048
= 4096
= 8192
= 16384
= 32768
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
0 is returned when terminated normally.
To query the measurement status.
STAT:ERR?
> 0
2
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Chapter 2 SCPI Device Message Details
:DISPlay:ANNotation:WUP:ERASe
Erase Warm Up Message
Function
This command erases the warm-up message shown shortly after started.
Command
:DISPlay:ANNotation:WUP:ERASe
Details
Example of Use
:DISPlay:ANNotation:TITLe[:STATe] ON|OFF|1|0
Display Title
Function
To erase the warm-up message.
DISP:ANN:WUP:ERAS
This command sets the title display On/Off.
Command
This command is not available while the Replay function is being executed.
:DISPlay:ANNotation:TITLe[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Title display On/Off
Displays the title.
Hides the title.
Example of Use
To display the title.
DISP:ANN:TITL ON
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2.18 Other Function Settings
:DISPlay:ANNotation:TITLe[:STATe]?
Display Title Query
Function
This command queries the On/Off state of the title display.
Query
:DISPlay:ANNotation:TITLe[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
Example of Use
:DISPlay:ANNotation:TITLe:DATA <string>
Title Entry
Function
This command registers the title character string.
Command
To query the title display setting.
DISP:ANN:TITL?
> 1
:DISPlay:ANNotation:TITLe:DATA <string>
Parameter
<string> Character string within 32 characters enclosed by double quotation marks (“ ”) or single quotation marks (‘ ’)
Example of Use
Title display On/Off
Title is displayed.
Title is hidden.
To set the title character string.
DISP:ANN:TITL:DATA ‘SPECTRUM ANALYZER’
Related Command
This command has the same function as the following commands.
:DISPlay:ACPowe:ANNotation:TITLe:DATA
:DISPlay:CHPowe:ANNotation:TITLe:DATA
:DISPlay:OBWidth:ANNotation:TITLe:DATA
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA
2
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:DISPlay:ANNotation:TITLe:DATA?
Title Entry Query
Function
This command queries the title character string.
Query
:DISPlay:ANNotation:TITLe:DATA?
Response
<string>
Parameter
<string> Character string within 32 characters
Example of Use
To query the title character string.
DISP:ANN:TITL:DATA?
> SPECTRUM ANALYZER
Related Command
This command has the same function as the following commands.
:DISPlay:ACPowe:ANNotation:TITLe:DATA?
:DISPlay:CHPowe:ANNotation:TITLe:DATA?
:DISPlay:OBWidth:ANNotation:TITLe:DATA?
:DISPlay:BPOWer|:TXPowe:ANNotation:TITLe:DATA?
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2.18 Other Function Settings
:CALibration:RCLock[:VALue] <integer>
Adjust Reference Clock
Function
This command sets the adjustment value of the internal reference signal oscillator (Reference Clock).
Command
:CALibration:RCLock[:VALue] <integer>
Parameter
<integer>
Range
Resolution
Adjustment value
0 to 1023 (MS2830A)
0 to 4095 (MS2840A)
1
Details
Example of Use
:CALibration:RCLock[:VALue]?
Adjust Reference Clock Query
To set the adjustment value of the internal reference signal oscillator to
511.
CAL:RCL 511
Function
This command is not available while the Replay function is being executed.
This command queries the adjustment value of the internal reference signal oscillator (Reference Clock).
Query
:CALibration:RCLock[:VALue]?
Response
<integer>
Parameter
<integer>
Range
Resolution
Adjustment value
0 to 1023 (MS2830A)
0 to 4095 (MS2840A)
1
Example of Use
To query the adjustment value of the internal reference signal oscillator.
CAL:RCL?
> 511
2
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Chapter 2 SCPI Device Message Details
:CALibration:RCLock[:VALue]:PRESet
Adjust Reference Clock Preset
Function
This command resets the adjustment value of the internal reference signal oscillator (Reference Clock).
Command
:CALibration:RCLock[:VALue]:PRESet
Details
This command is not available while the Replay function is being executed.
Example of Use
To reset the adjustment value of the internal reference signal oscillator.
CAL:RCL:PRES
:CALibration:YTF
Pre-selector Auto Tune
Function
This command enables automatic setting for the preselector peaking bias value.
Command
:CALibration:YTF
Details
[MS269xA] This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is DigRF 3G (only for MS269x Series)
[MS2830A], [MS2840A]
This command is not available for MS2830A-040/041/043.
This command is not available for MS2840A-040/041.
This command is not available when the Replay function is executed.
Example of Use
To enable automatic setting for the preselector peaking bias value.
CAL:YTF
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2.18 Other Function Settings
:CALibration:YTF?
Pre-selector Auto Tune Query
Function
This command queries whether automatic setting is completed normally for the preselector peaking bias value.
Query
:CALibration:YTF?
Response
<result>
Parameter
<result>
0
1
Normal/Error
Normal
Error
Details
Example of Use
[MS269xA] This command is not available while the Replay function is being executed.
This command is not available in the following case:
● When Terminal is DigRF 3G (only for MS269x Series)
[MS2830A], [MS2840A]
This command is not available for MS2830A-040/041/043.
This command is not available for MS2840A-040/041.
This command is not available when the Replay function is executed.
To query whether automatic setting is completed normally for the preselector peaking bias value.
CAL:YTF?
> 0
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:POWer[:RF]:PADJust <freq>
Pre-selector Tune
Function
This command sets the Preselector peaking bias value.
Command
[:SENSe]:POWer[:RF]:PADJust <freq>
Parameter
<freq>
Range
Resolution
Default value
Peaking bias value
− 128 to 127
1
0
Details
[MS269xA] This command is not available in the following cases:
● When using the MS2690A.
● When not using the preselector band.
The frequency to be switched to the preselector band can be set by using
Frequency Band Mode.
● When Terminal is set to DigRF 3G (only for MS269x Series).
This command is not available while the Replay function is being executed.
Example of Use
[MS2830A], [MS2840A]
Automatic setting of the peaking bias value cannot be used under the following conditions:
● When using MS2830A-040/041/043
● When using MS2840A-040/041
● When YTF is not used
When Frequency Band Mode is Normal and signal frequency is ≤ 6.0
GHz.
When Frequency Band Mode is Spurious and signal frequency is ≤ 4.0
GHz.
This command is not available when the Replay function is executed.
To set the peaking bias value to 100.
POW:PADJ 100
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2.18 Other Function Settings
[:SENSe]:POWer[:RF]:PADJust?
Pre-selector Tune Query
Function
This command queries the Preselector peaking bias value.
Query
[:SENSe]:POWer[:RF]:PADJust?
Response
<freq>
Parameter
<freq>
Range
Resolution
Peaking bias value
− 128 to 127
1
Details
[MS269xA] This command is not available in the following cases:
● When using the MS2690A.
● When not using the preselector band.
The frequency to be switched to the preselector band can be set by using
Frequency Band Mode.
● When Terminal is set to DigRF 3G (only for MS269x Series).
This command is not available while the Replay function is being executed.
[MS2830A], [MS2840A]
Automatic setting of the peaking bias value cannot be used under the following conditions:
● When using MS2830A-040/041/043
● When using MS2840A-040/041
● When YTF is not used
When Frequency Band Mode is Normal and signal frequency is ≤ 6.0
GHz.
When Frequency Band Mode is Spurious and signal frequency is ≤ 4.0
GHz.
This command is not available when the Replay function is executed.
Example of Use
To query the peaking bias value.
POW:PADJ?
> 100
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:DATA?
Captured Data Query
Function
This command queries the IQ data captured into the waveform memory.
Query
[:SENSe]:DATA? [<start>[,<length>[,<mode>]]]
Response
When ASCii,0 is set to :FORMat[:DATA]:
<datai_1>,<dataq_1>,<datai_2>,<dataq_2>,...
When REAL,32 is set to :FORMat[:DATA], “#”(in the Ascii format) is followed by, in the following order, “Character string range which indicates the byte length of the binary data (in the Ascii format)”, “Byte length of binary data (in the Ascii format)”, and “IQ data string(in the binary format)”. Similarly, in the binary format, response message terminator is added. (For details, refer to 1.7.2 SCPI Response message formats in MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal
Analyzer Operation Manual (Mainframe Remote Control) ).
Example: To query the two samples when REAL,32 is set to :FORMat[:DATA]:
> #216<16 bytes of data>
“2” in #216 indicates that 2 characters with the binary data length follow after this, and “16” in it indicates that 16 Byte binary data follows after it.
Parameter
When Terminal is RF, parameters are set as follows:
<start> Query start point (in sample units)
Relative value from Analysis Start Time = 0 s
Range
Relative value from minimum Analysis Start
Time (when Replay function is executed)
Starting from 0
( Analysis Start Time[s]
Resolution
+ Analysis Time Length[s] )
× Sampling Rate[Hz] – 1
(When Capture Time is Auto)
Starting from 0
Capture Time Length[s] × Sampling Rate[Hz] –
1
(When Capture Time is Manual)
1
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2.18 Other Function Settings
When omitted: 0
<length> Query length (in sample units)
Range Starting from 1
( Analysis Start Time[s]
+ Analysis Time Length[s] )
× Sampling Rate[Hz] – <start>
(When Capture Time is Auto)
Starting from 1
Capture Time Length[s] × Sampling Rate[Hz]
– <start>
(When Capture Time is Manual)
Up to 200000 can be set.
Resolution 1
When omitted (Analysis Start Time[s]
+ Analysis Time Length[s] )
× Sampling Rate[Hz] – <start>
(When Capture Time is Auto)
Capture Time Length[s] × Sampling Rate[Hz]
– <start>
(When Capture Time is Manual)
If more than 200000 is set, 200000 is automatically set.
<datai_n> I phase data
No suffix code
A parameter is read out in the index format of 8 digit effective figure when ASCii,0 is set to :FORMat[:DATA].
A parameter is read out in the 32 byte single precision floating number point format, when
REAL,32 is set to :FORMat[:DATA].
2
<dataq_n> Q phase data
No suffix code
A parameter is read out in the index format of 8 digit effective figure when ASCii,0 is set to :FORMat[:DATA].
A parameter is read out in the 32 byte single precision floating number point format, when
REAL,32 is set to :FORMat[:DATA].
<mode>
SRATe
ORATe
Sampling rate
Acquires the sampling rate data.
Acquires re-sampled data for Output Rate. For details, refer to 5.1 “Saving IQ Data”.
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Chapter 2 SCPI Device Message Details
Details
When Terminal is DigRF 3G (only for MS269x Series), parameters are set as follows:
<start> Same as when Terminal is RF:
<length> Same as when Terminal is RF:
<datai_n>
<dataq_n>
I phase data
No suffix code
When ASCii,0 is set for :FORMat[:DATA], it will be output as exponential form of 8 digits of essential figures.
When REAL, 32 is set for :FORMat[:DATA],
Target System:GSM is output in 16 bit format, and Target System:W-CDMA is output in 8 bit format.
Q phase data
No suffix code
When ASCii,0 is set for :FORMat[:DATA], it will be output as exponential form of 8 digits of essential figures.
:When REAL, 32 is set for :FORMat[:DATA],
Target System:GSM is output in 16 bit format, and Target System:W-CDMA is output in 8 bit format.
(When Terminal is RF)
The actually captured IQ data range is larger than the range set in
Analysis Time, because of the internal analysis such as filter processing.
Since IQ data read out by this command is within the range set in
Analysis Time, you cannot read out all the IQ data captured by this command. Use the Save Captured Data function in order to read out all of them.
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2.18 Other Function Settings
Note that the range of the IQ data read out by this command is different from that of the IQ data saved by the Save Captured Data function. The position at which Analysis Start Time of IQ data saved by Save Capture
Data is 0 s is calculated by the following formula:
POS = TP − TD × FS
Where
POS Position at which Analysis Start Time of IQ data
saved by Save Capture Data is 0 s [sample]
TP
TD
“Trigger Position” value [sample] in XML file X
Trigger Delay setting value [s]
FS
0 is set when Trigger Switch is Off.
Sampling Rate [Hz]
2
IQ data can be converted into power by the following formula:
P = 10 Log
10
(
I 2 + Q 2
)
Where
P
I
Q
: Power[dBm]
: I phase data
: Q phase data
The query function is disabled when Analysis Start Time is set to 0 s, when Analysis Time Length is set to 0 s, and when Capture Time is set to
Auto.
The query function is disabled during measurement.
:FORMat[:DATA] and FORMat:BORDer can change the output mode in which this command reads out IQ data.
Sampling Rate can be read out by [:SENSe]:FREQuency:SRATe?.
When all the following conditions are met, this command reads out IQ data most rapidly.
● The terminal is RF.
● :FORMat[:DATA] is set to REAL,32.
● :FORMat:BORDer is set to SWAPped.
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Chapter 2 SCPI Device Message Details
(When Terminal is DigRF 3G (only for MS269x Series))
Actual range of IQ data that is captured will be wider than what is set with Analysis Sample Length (or Capture Time Length), due to the internal analysis process, such as filter process, etc. Range of the IQ data that is read with this command is only the range set with Analysis
Sample Length (or Capture Time Length), so all the IQ data that was captured with this command cannot be read. To read all the IQ data, use
Save Captured Data function.
Beware that the range of IQ data read with this command and range of
IQ data saved by the Save Captured Data function is different.
It cannot be read when the Analysis Start Sample is 0 s, Analysis Sample
Length is 0 s, and Capture Time is Auto.
It cannot be queried while measuring.
Output format of IQ data by this command can be changed by :FORMat[:DATA] and FORMat:BORDer.
Example of Use
To query two IQ data samples from the 0 th sample.
(When ASCii,0 is set to :FORMat[:DATA])
DATA? 0,2
> 2.4358980E-03,-1.9873490E+01,
6.3400291E+00,1.2231689E-03
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2.18 Other Function Settings
:FORMat:BORDer NORMal|SWAPped
Binary Data Byte Order
Function
This command sets the byte order of the reading data when REAL,32 is set to :FORMat[:DATA].
Command
:FORMat:BORDer <border>
Parameter
<border>
NORMal
SWAPped
Byte order
Sets the byte order to Big-endian (Default value)
Sets the byte order to Little-endian.
Details
This command sets the order in which the data is arranged when data is read out in a binary style. In Big-endian, the data is arranged in the descending order (starting from the most significant value in the sequence), and in Little-endian, the data is arranged in the ascending order (starting from the least significant value in the sequence).
(When Terminal is RF)
For instance, in Big-endian, “0x01234567” (four-byte data) is arranged in the order of “01 23 45 67”, while, in Little-endian, it is arranged in the order of “67 45 23 01”.
(When Terminal is DigRF 3G (only for MS269x Series))
The 2 byte data of “0x0123” in the Target System:GSM will be arranged in order of “23 01” in Big endian, and “01 23” in Little endian.
Arrangement order will not change for Target System:W-CDMA since the data is 8 bits.
2
Example of Use
To set the byte order to the little endian.
FORM:BORD SWAP
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Chapter 2 SCPI Device Message Details
:FORMat:BORDer?
Binary Data Byte Order Query
Function
This command queries the byte order of the reading data when REAL,32 is set to :FORMat[:DATA].
Query
:FORMat:BORDer?
Response
<border>
Parameter
<border>
NORM
SWAP
Byte order
Byte order is set to Big-endian.
Byte order is set to Little-endian.
Example of Use
To query the byte order.
FORM:BORD?
> SWAP
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2.18 Other Function Settings
:FORMat[:DATA] ASCii|REAL[,<integer>]
Numeric Data Format
Function
This command sets the IQ data format read out by [:SENSe]:DATA?.
Command
:FORMat[:DATA] <format>[,<length>]
Parameter
It will be following parameters when Terminal is RF:
<format>
ASCii
REAL
IQ data format
Ascii format (initial value)
Binary 32 byte floating point number format
<length>
0
Secondary setting to the selected format
This can be set only when ASCii is specified for
32 format.
Returns the results in the 32 byte floating point number format.
Setting is possible only when REAL is specified as the format.
When omitted: 0 is automatically set when ASCii is specified as the format, while 32 is automatically set when
REAL is specified as the format.
It will be following parameters when Terminal is DigRF 3G (only for
MS269x Series):
<format>
ASCii
REAL
IQ data format
Ascii format (Default value)
Binary 16 bits format (When the Target System is GSM)
<length>
0
32
When omitted:
Binary 8 bits format (When the Target System is
W-CDMA.)
Supplementary setting for selected format
0 is set only when ASCii is specified for format.
32 is set only when REAL is specified for format.
0 is set when ASCii is specified for format.
32 is set when REAL is specified for format.
2
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Chapter 2 SCPI Device Message Details
Details
(When Terminal is RF)
When REAL is set, IQ data is read out in the 32 byte single precision floating point number format specified in IEEE754.
(When Terminal is DigRF 3G (only for MS269x Series))
When the REAL is set, IQ data is output in 16 bits for the Target
System:GSM, and in 8 bits for Target System:W-CDMA.
Example of Use
To set the IQ data format to Ascii.
FORM ASC
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2.18 Other Function Settings
:FORMat[:DATA]?
Numeric Data Format Query
Function
This command queries the format of the IQ data read out by
[:SENSe]:DATA?.
Query
:FORMat[:DATA]?
Response
<format>,<length>
Parameter
When Terminal is RF, parameters are set as follows:
<format>
ASC
REAL
IQ data format
ASCii format(Default value)
Binary 32 byte floating point number format
<length>
0
Secondary setting to the selected format
Returns the results in the effective digit number unique to this instrument.
32 Returns the results in the 32 byte floating point number format.
When Terminal is RF, parameters are set as follows:
<format> IQ data format
ASC
REAL
ASCii format (Default value)
Binary 16 bits format (When Target System is
GSM)
Binary 8 bits format (When Target System is
<length>
0
32
W-CDMA)
Supplementary setting for selected format
Result is sent back in number of significant figures of this instrument.
Result is returned when the REAL is specified for format.
Example of Use
To query the IQ data format.
FORM?
> REAL,32
2
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[:SENSe]:POWer[:RF]:MW:PRESelector[:STATe] ON|OFF|1|0
Micro Wave Preselector Bypass
Function
This command sets the Microwave Preselector Bypass.
Command
[:SENSe]:POWer[:RF]:MW:PRESelector[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Default
Microwave Preselector Bypass
Enables bypassing
Disables bypassing
ON
Details
This function is available when MS269xA-067/167 is installed.
This function is available when MS2830A-007/067/167,
MS2840A-067/167 is installed.
If Frequency Span is 50 MHz or more, the microwave preselector is bypassed regardless of this setting.
Example of Use
To set the Micro Wave Preselector Bypass to ON.
POW:MW:PRES ON
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2.18 Other Function Settings
[:SENSe]:POWer[:RF]:MW:PRESelector[:STATe]?
Micro Wave Preselector Bypass Query
Function
This command queries the Micro Wave Preselector Bypass.
Query
[:SENSe]:POWer[:RF]:MW:PRESelector[:STATe]?
Response
<status>
Parameter
<status>
1
0
Microwave Preselector Bypass
Enables bypassing
Disables bypassing
Details
This function is available when MS269xA-067/167 is installed.
This function is available when MS2830A-007/067/167,
MS2840A-067/167 is installed.
If Frequency Span is 50 MHz or more, the microwave preselector is bypassed regardless of this setting.
Example of Use
To query the Micro Wave Preselector Bypass status.
POW:MW:PRES?
> 1
2
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Chapter 2 SCPI Device Message Details
2.19 QUEStionable Status Register
Figure 2.19-1, Table 2.19-1, and Table 2.19-2 show the layer structure of the QUEStionable status register.
VOLTage (NOT USED)
CURRent (NOT USED)
TIME (NOT USED)
POWer (NOT USED)
TEMPerature (NOT USED)
FREQuency (NOT USED)
PHASe (NOT USED)
MODulation (NOT USED)
CALibration (NOT USED)
MEASure
NOT USED
NOT USED
NOT USED
INSTrument (NOT USED)
Command Warning (NOT USED)
NOT USED
DB8
DB9
DB10
DB11
DB12
DB13
DB14
DB15
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
Status Byte Register DB3
Figure 2.19-1 QUEStionable Status Register
DB9
Table 2.19-1 QUEStionable Status Register
Byte Definition of QUEStionable Status Register
QUEStionable Measure register summary
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
Level Over
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
DB8
DB9
DB10
DB11
DB12
DB13
DB14
DB15
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
QUEStionable Status Register DB9
Figure 2.19-2 QUEStionable Measure Register
DB5
Table 2.19-2 QUEStionable Measure Register
Byte Definition of QUEStionable Measure Register
Indicates that the level has exceeded its limit.
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2.19 QUEStionable Status Register
Table 2.19-3 lists device messages for the QUEStionable status register.
Function
Questionable
Status Register
Event
Questionable
Status Register
Condition
Questionable
Status Register
Enable
Questionable
Status Register
Negative
Transition
Questionable
Status Register
Positive
Transition
Questionable
Measure Register
Event
Questionable
Measure Register
Condition
Questionable
Measure Register
Enable
Questionable
Measure Register
Negative
Transition
Questionable
Measure Register
Positive Transition
Table 2.19-3 Device message for QUEStionable Status Register
Device Message
:STATus:QUEStionable[:EVENt]?
:STATus:QUEStionable:CONDition?
:STATus:QUEStionable:ENABle <integer>
:STATus:QUEStionable:ENABle?
:STATus:QUEStionable:NTRansition <integer>
:STATus:QUEStionable:NTRansition?
:STATus:QUEStionable:PTRansition <integer>
:STATus:QUEStionable:PTRansition?
:STATus:QUEStionable:MEASure[:EVENt]?
:STATus:QUEStionable:MEASure:ENABle?
:STATus:QUEStionable:MEASure:CONDition?
:STATus:QUEStionable:MEASure:NTRansition <integer>
:STATus:QUEStionable:MEASure:NTRansition?
:STATus:QUEStionable:MEASure:ENABle <integer>
:STATus:QUEStionable:MEASure:PTRansition <integer>
:STATus:QUEStionable:MEASure:PTRansition?
2
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Chapter 2 SCPI Device Message Details
:STATus:QUEStionable[:EVENt]?
Questionable Status Register Event
Function
This command queries the event register of the QUEStionable status register.
Query
:STATus:QUEStionable[:EVENt]?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of event register
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To query the contents of the event register of the QUEStionable status register.
:STAT:QUES?
> 0
:STATus:QUEStionable:CONDition?
Questionable Status Register Condition
Function
This command queries the condition register of the QUEStionable status register.
Query
:STATus:QUEStionable:CONDition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of condition register
1
0 to 65535
Example of Use
To query the contents of the condition register of the QUEStionable status register.
:STAT:QUES:COND?
> 0
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2.19 QUEStionable Status Register
:STATus:QUEStionable:ENABle <integer>
Questionable Status Register Enable
Function
This command sets the event enable register of the QUEStionable status register.
Command
:STATus:QUEStionable:ENABle <integer>
Parameter
<integer>
Resolution
Range
Total bytes of event enable register
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the event enable register of the QUEStionable status register to
16.
:STAT:QUES:ENAB 16
:STATus:QUEStionable:ENABle?
Questionable Status Register Enable Query
Function
This command queries the event enable register of the QUEStionable status register.
Query
:STATus:QUEStionable:ENABle?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of event enable register
1
0 to 65535
Example of Use
To query the event enable register of the QUEStionable status register.
:STAT:QUES:ENAB?
> 16
2
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:STATus:QUEStionable:NTRansition <integer>
Questionable Status Register Negative Transition
Function
This command sets the transition filter (negative transition) of the
QUEStionable status register.
Command
:STATus:QUEStionable:NTRansition <integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(negative transition)
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the transition filter (negative transition) of the QUEStionable status register to 16.
:STAT:QUES:NTR 16
:STATus:QUEStionable:NTRansition?
Questionable Status Register Negative Transition Query
Function
This command queries the transition filter (negative transition) of the
QUEStionable status register.
Query
:STATus:QUEStionable:NTRansition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(negative transition)
1
0 to 65535
Example of Use
To query the transition filter (negative transition) of the QUEStionable status register.
:STAT:QUES:NTR?
> 16
2-560
2.19 QUEStionable Status Register
:STATus:QUEStionable:PTRansition <integer>
Questionable Status Register Positive Transition
Function
This command sets the transition filter (positive transition) of the
QUEStionable status register.
Command
:STATus:QUEStionable:PTRansition <integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(positive transition)
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the transition filter (positive transition) of the QUEStionable status register to 16.
:STAT:QUES:PTR 16
:STATus:QUEStionable:PTRansition?
Questionable Status Register Positive Transition Query
Function
This command queries the transition filter (positive transition) of the
QUEStionable status register.
Query
:STATus:QUEStionable:PTRansition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(positive transition)
1
0 to 65535
Example of Use
To query the transition filter (positive transition) of the QUEStionable status register.
:STAT:QUES:PTR?
> 16
2
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Chapter 2 SCPI Device Message Details
:STATus:QUEStionable:MEASure[:EVENt]?
Questionable Measure Register Event
Function
This command queries the event register of the QUEStionable Measure register.
Query
:STATus:QUEStionable[:EVENt]?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of event register
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To query the contents of the event register of the QUEStionable Measure register.
:STAT:QUES?
> 0
:STATus:QUEStionable:MEASure:CONDition?
Questionable Measure Register Condition
Function
This command queries the condition register of the QUEStionable
Measure register.
Query
:STATus:QUEStionable:CONDition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of condition register
1
0 to 65535
Example of Use
To query the contents of the condition register of the QUEStionable
Measure register.
:STAT:QUES:COND?
> 0
2-562
2.19 QUEStionable Status Register
:STATus:QUEStionable:MEASure:ENABle <integer>
Questionable Measure Register Enable
Function
This command sets the event enable register of the QUEStionable
Measure register.
Command
:STATus:QUEStionable:ENABle <integer>
Parameter
<integer>
Resolution
Range
Total bytes of event enable register
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the event enable register of the QUEStionable Measure register to
16.
:STAT:QUES:ENAB 16
:STATus:QUEStionable:MEASure:ENABle?
Questionable Measure Register Enable Query
Function
This command queries the event enable register of the QUEStionable
Measure register.
Query
:STATus:QUEStionable:ENABle?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of event enable register
1
0 to 65535
Example of Use
To query the event enable register of the QUEStionable Measure register.
:STAT:QUES:ENAB?
> 16
2
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Chapter 2 SCPI Device Message Details
:STATus:QUEStionable:MEASure:NTRansition <integer>
Questionable Measure Register Negative Transition
Function
This command sets the transition filter (negative transition) of the
QUEStionable Measure register.
Command
:STATus:QUEStionable:NTRansition <integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(negative transition)
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the transition filter (negative transition) of the QUEStionable
Measure register to 16.
:STAT:QUES:NTR 16
:STATus:QUEStionable:MEASure:NTRansition?
Questionable Measure Register Negative Transition Query
Function
This command queries the transition filter (negative transition) of the
QUEStionable Measure register.
Query
:STATus:QUEStionable:NTRansition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(negative transition)
1
0 to 65535
Example of Use
To query the transition filter (negative transition) of the QUEStionable
Measure register.
:STAT:QUES:NTR?
> 16
2-564
2.19 QUEStionable Status Register
:STATus:QUEStionable:MEASure:PTRansition <integer>
Questionable Measure Register Positive Transition
Function
This command sets the transition filter (positive transition) of the
QUEStionable Measure register.
Command
:STATus:QUEStionable:PTRansition <integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(positive transition)
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the transition filter (positive transition) of the QUEStionable
Measure register to 16.
:STAT:QUES:PTR 16
:STATus:QUEStionable:MEASure:PTRansition?
Questionable Measure Register Positive Transition Query
Function
This command queries the transition filter (positive transition) of the
QUEStionable Measure register.
Query
:STATus:QUEStionable:PTRansition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(positive transition)
1
0 to 65535
Example of Use
To query the transition filter (positive transition) of the QUEStionable
Measure register.
:STAT:QUES:PTR?
> 16
2
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Chapter 2 SCPI Device Message Details
2.20 OPERation Status Register
Figure 2.20-1 and Table 2.20-1 show the layer structure of the
OPERation Status Register.
CALibrating
SETTling
RANGing (NOT USED)
SWEeping
MEASuring
Wainting for TRIG
Waiting for ARM (NOT USED)
CORRecting (NOT USED)
FILE Operating
NOT USED
NOT USED
NOT USED
NOT USED
INSTrument (NOT USED)
PROGram (NOT USED)
NOT USED
DB8
DB9
DB10
DB11
DB12
DB13
DB14
DB15
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
Status Byte Register DB7
DB0
DB1
DB3
DB4
DB5
DB8
Figure 2.20-1 OPERation Status Register
Table 2.20-1 OPERation Status Register
Byte Definition of OPERation Status Register
CAL is being executed.
Warm-up message is being displayed.
During Capturing (Fixed to 1 in Continuous)
During analyzing
During waiting for trigger.
File in operation
2-566
2.20 OPERation Status Register
Table 2.20-2 lists device messages for the OPERation Status Register.
Function
Operation
Status Register
Event
Operation
Status Register
Condition
Operation
Status Register
Enable
Operation Status
Register
Negative
Transition
Operation
Status Register
Positive
Transition
Table 2.20-2 Device messages for OPERation Status Register
Device Message
:STATus:OPERation[:EVENt]?
:STATus:OPERation:CONDition?
:STATus:OPERation:ENABle <integer>
:STATus:OPERation:ENABle?
:STATus:OPERation:NTRansition <integer>
:STATus:OPERation:NTRansition?
:STATus:OPERation:PTRansition <integer>
:STATus:OPERation:PTRansition?
2
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Chapter 2 SCPI Device Message Details
:STATus:OPERation[:EVENt]?
Operation Status Register Event
Function
This command queries the event register of the OPERation status register.
Query
:STATus:OPERation[:EVENt]?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of event register
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To query the contents of the event register of the OPERation status register.
:STAT:OPER?
> 0
2-568
2.20 OPERation Status Register
:STATus:OPERation:CONDition?
Operation Status Register Condition
Function
This command queries the condition register of the OPERation status register.
Query
:STATus:OPERation:CONDition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of condition register
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To query the contents of the condition register of the OPERation status register.
:STAT:OPER:COND?
> 0
:STATus:OPERation:ENABle <integer>
Operation Status Register Enable
Function
This command sets the event enable register of the OPERation status register.
Command
:STATus:OPERation:ENABle <integer>
Parameter
<integer>
Resolution
Range
Total bytes of event enable register
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the event enable register of the OPERation status register to 16.
:STAT:OPER:ENAB 16
2
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Chapter 2 SCPI Device Message Details
:STATus:OPERation:ENABle?
Operation Status Register Enable Query
Function
This command queries the event enable register of the OPERation status register.
Query
:STATus:OPERation:ENABle?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of event enable register
1
0 to 65535
Example of Use
To query the event enable register of the OPERation status register.
:STAT:OPER:ENAB?
> 16
:STATus:OPERation:NTRansition <integer>
Operation Status Register Negative Transition
Function
This command sets the transition filter (negative transition) of the
OPERation status register.
Command
:STATus:OPERation:NTRansition <integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(negative transition)
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the transition filter (negative transition) of the OPERation status to 16.
:STAT:OPER:NTR 16
2-570
2.20 OPERation Status Register
:STATus:OPERation:NTRansition?
Operation Status Register Negative Transition Query
Function
This command queries the transition filter (negative transition) of the
OPERation status register.
Query
:STATus:OPERation:NTRansition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(negative transition)
1
0 to 65535
Example of Use
To query the transition filter (negative transition) of the OPERation status register.
:STAT:OPER:NTR?
> 16
2
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Chapter 2 SCPI Device Message Details
:STATus:OPERation:PTRansition <integer>
Operation Status Register Positive Transition
Function
This command sets the transition filter (positive transition) of the
OPERation status register.
Command
:STATus:OPERation:PTRansition <integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(positive transition)
1
0 to 65535
Details
This command is available only in the SCPI mode.
Example of Use
To set the transition filter (positive transition) of the OPERation status register to 16.
:STAT:OPER:PTR 16
:STATus:OPERation:PTRansition?
Operation Status Register Positive Transition Query
Function
This command queries the transition filter (positive transition) of the
OPERation status register.
Query
:STATus:OPERation:PTRansition?
Response
<integer>
Parameter
<integer>
Resolution
Range
Total bytes of transition filter
(positive transition)
1
0 to 65535
Example of Use
To query the transition filter (positive transition) of the OPERation status register.
:STAT:OPER:PTR?
> 16
2-572
2.21 Batch Processing Function Setting
2.21 Batch Processing Function Setting
Table 2.21-2 lists messages related to the batch processing function.
Table 2.21-1 Batch Processing Function Messages
Function
Measure Power
Adjust
Device Message
:MEASure:POWadj?
<span>,<length>,<sg_start_level>,<sg_max_level>,<target>,<ran ge> [,<frequency>[,<count>[,<adjust_log>]]]
2
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Chapter 2 SCPI Device Message Details
:MEASure:POWadj?
<span>,<length>,<sg_start_level>,<sg_max_level>,<target>,<range>[,<frequ ency>[,<count>[,<adjust_log>[,<sg_offset_switch>]]]]
Measure Power Adjust
Function
This command executes power adjustment and captures the results.
Power adjustment combines the SG option and power measurement function and sets the output level of the DUT, such as amplifiers, to the specified level.
Query
:MEASure:POWadj?
<span>,<length>,<sg_start_level>,<sg_max_level>,<target>
,<range>[,<frequency>[,<count>[,<adjust_log>]]]
Response
<judge>,<sa_input>,<sg_output>,<count_res>,<time>,<sa_in put_log_n>,<sg_output_log_n>,<count_log_n>
Parameter
<span>
Range/Resolution 1000*
Analysis bandwidth
2 , 2500*
25000* 2
500000*
,50000*
2 , 1000000*
5000000* 2
31250000*
,10000000*
1 ,50000000*
100000000* 3 * 5
2 , 5000* 2 , 10000*
2 , 100000*
2
, 125000000* 3 * 5
2 ,
2 ,250000*
2 , 2500000* 2 ,
, 25000000* 1
2 ,
,
3 * 4 , 62500000* 4 ,
[MS269xA]
*1, *2: This can be set regardless of option.
*3: Option 004/104
When the Wideband Analysis Hardware is installed, the following frequency spans can be set in addition to *1, *2.
50000000, 100000000, 125000000
*4:
*5:
Option 077/177
When the Analysis Bandwidth Extension to 62.5
MHz option is installed, the following frequency spans can be set in addition to *1, *2.
50000000, 62500000
Option 078/178
When the Analysis Bandwidth Extension to 125
MHz option is installed, the following frequency spans can be set in addition to *1, *2.
100000000, 125000000
2-574
2.21 Batch Processing Function Setting
[MS2830A], [MS2840A]
*1: Option 005/105/007/009/109
When the Analysis Bandwidth Extension to
31.25 MHz option is installed, the following frequency spans can be set in addition to *2.
25000000, 31250000
*2: Option 006/106
When the Analysis Bandwidth 10 MHz option is installed, only the following frequency spans can be set.
1000, 2500, 5000, 10000, 25000, 50000,
100000,250000,500000, 1000000, 2500000,
5000000, 10000000
*4: MS2830A-077, MS2840A-077/177
When the Analysis Bandwidth Extension to 62.5
MHz option is installed, the following frequency spans can be set in addition to *1, *2.
50000000, 62500000
*5: MS2830A-078, MS2840A-078/178
When the Analysis Bandwidth Extension to 125
MHz is installed, the following frequency spans can be set in addition to *1, *2, *3.
100000000, 125000000
Suffix code HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
HZ is assumed if the value is omitted.
MAXimum, MINimum, and DEFault cannot be
used.
<length>
Range
Suffix code
Analysis length
The setting range depends on <span>. Refer to section 2.1.4 Setting Capture Time in the
Operation version.
NS, US, MS, S
S is assumed if the value is omitted.
<sg_start_level> Set the SG output level to be set as the default. When the DUT is inserted, set so that the DUT input level and RF Input do not exceed the maximum input level.
Range [MS269xA] –140 to –5 dBm
[MS2830A], [MS2840A]
–40.00 to +20.00 dBm ( > 25 MHz)
–40.00 to +2.00 dBm ( ≤ 25 MHz)
–136.00 to +15.00 dBm ( > 25 MHz)
Resolution
(Option 022/122)
–136.00 to –3.00 dBm ( ≤ 25 MHz)
(Option 022/122)
0.01 dBm
2
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Chapter 2 SCPI Device Message Details
<sg_max_level> Specify the SG max. output level. Set so that the
DUT input level and RF Input do not exceed the
maximum input level.
Range [MS269xA] –140 to –5 dBm
[MS2830A], [MS2840A]
–40.00 to +20.00 dBm ( ≥ 25 MHz)
–40.00 to +2.00 dBm ( ≤ 25 MHz)
–136.00 to +15.00 dBm ( ≥ 25 MHz)
Resolution
Suffix code
(Option 022/122)
–136.00 to –3.00 dBm ( ≤ 25 MHz)
0.01 dBm
DBM, DM
(Option 022/122)
<target>
Range
Target level at power adjustment
–150 to 30 dBm (Pre-Amp Off)
–150 to 10 dBm (Pre-Amp On)
0.01 dBm
DBM, DM
Resolution
Suffix code
<range>
Range
Resolution
Suffix code
Power adjustment range
Power adjustment is evaluated as successful if within this specified range.
0 to 20 dB
0.01 dB
DB
<frequency> Power adjustment frequency
Range [MS269xA] 125 MHz to 6 GHz
[MS2830A] 250 kHz to 3.6 GHz
Resolution
Suffix code
(Option 020/120)
250 kHz to 6 GHz (Option 041/043 and 021/121)
[MS2840A] 250 kHz to 3.6 GHz
250 kHz to 6 GHz
0.01 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
HZ is assumed if the value is omitted.
MAXimum, MINimum, and DEFault cannot be
used.
If omitted, the currently set frequency is used.
(Option 020/120)
(Option 041 and 021/121)
<count>
Range
Resolution
Suffix code
Count of power adjustment times
1 to 10, 5 when omitted.
1
None
Power adjustment is executed five times if the value is omitted.
<adjust_log>
ON|1
OFF|0
Specifies whether or not to output log at each power adjustment.
Outputs log
Does not output log
2-576
Details
2.21 Batch Processing Function Setting
<sg_offset_switch> Specifies whether or not to return level offset
ON|1
OFF|0
<judge>
0
1
Unmeasured setting in SG output level setting range.
Returns level offset setting
Does not return level offset setting
Evaluates power adjustment.
PASS.
FAIL
“–999.0” is returned.
<sa_input>
Suffix code
Resolution
Unmeasured
<sg_output>
Suffix code
Resolution
Unmeasured
<count_res>
DUT Output Level
None, dBm units
0.01 dB
“–999.0” is returned.
Level output from SG Output of equipment
None, dBm units
0.01 dB
“–999.0” is returned.
Count of power adjustment times
<time>
Suffix code
Unmeasured
Time required for power adjustment
None, ms units
“–999.0” is returned.
<sa_input_log_n> DUT output level at each adjustment
Suffix code
Resolution
Added to response when Log Output On.
None, dBm units
0.01 dB
<sg_output_log_n> Level output from SG Output at each adjustment
Suffix code
Resolution
Added to response when Log Output On.
None, dBm units
0.01 dB
<count_log_n> Count for each adjustment
Added to response when Log Output On.
Not executed when SG option not installed.
Not executed during replay.
SG setting and measurement are repeated until the target level specified at <target>, <range> is reached within the count specified at <count>.
In this application, the Reference Level and Attenuator settings are calculated as follows from the Adjustment Target Level, Crest Factor, and Correction value and are set automatically at the measurement section. Using this application, the Attenuator is set so that the Mixer
Input Level become 0 dBm.
2
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Chapter 2 SCPI Device Message Details
Example of Use
Reference Level setting value
Reference Level = < target > + Crest Factor Correction *
*: Crest Factor = 12 dB
However, it is rounded to 50 dBm when Reference Level > 50 dBm (30 dBm at Pre-amp On) and to –120 dBm when Reference Level < –120 dBm.
Attenuator Setting
Attenuator = Reference
Amp
Level
Gain -
Mixer Input
Offset *
Level + Pre
*: Mixer Input Level = 0
Pre-Amp Gain = 20 dB (only at Pre-Amp On)
Offset: Reference Level Offset
However, it is rounded to 60 dB when Attenuator > 60 and to 0 dBm when Attenuator < 0. Additionally, when the Attenuator value is an odd number, it is rounded up to the nearest even number
(Example: 35 dB → 36 dB).
When using the SG offset function, switch to the SG application and set the offset level. Set the value with offset to this command arguments, sg_start_level and sg_max_level, and set sg_offset_switch to On.
The responses sg_output and sg_output_log_n return the output level with offset.
To execute power adjustment under the following conditions:
Frequency:
Analysis width:
Analysis length:
2 GHz
5 MHz
500 µs
Start SG output level: –30 dBm
Max. SG output level: –5 dBm
Adjustment target level: –10 dBm
Adjustment range:
Adjustment count:
Log output:
SG Offset:
0.4 dB
6 times
On
On
MEAS:POW? 5000000,500US,-30,-5,-10,0.4,2000000000,6,On
> 0,-9.6,-12.5,3,156,-28,-30,1,-9.5,-12.0,2,-9.6,-12.5,3
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2.22 Setting External Mixer
2.22 Setting External Mixer
Table 2.22-1 lists the device messages related to External Mixer settings.
Function
External Mixer
Mode
External Mixer
Band
External Mixer Bias
External Mixer
Conversion Loss
Table 2.22-1 Device messages for setting External Mixer
Device Message
[:SENSe]:MIXer[:STATe] ON|OFF|1|0
[:SENSe]:MIXer[:STATe]?
[:SENSe]:MIXer[:HARMonic]:BAND VHP|EHP|A|Q|U|V|E|W|F|D|G|Y|J
[:SENSe]:MIXer[:HARMonic]:BAND?
[:SENSe]:MIXer:BIAS <bias>
[:SENSe]:MIXer:BIAS?
[:SENSe]:MIXer:LOSS <power>
[:SENSe]:MIXer:LOSS?
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:MIXer[:STATe] ON|OFF|1|0
External Mixer Mode
Function
This command switches between Internal and External Mixer.
Command
[:SENSe]:MIXer[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
Default
External mixer switch
Selects External Mixer
Selects Internal Mixer
OFF
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
Example of Use
To use external mixer.
MIX ON
[:SENSe]:MIXer[:STATe]?
External Mixer Mode Query
Function
This command queries the current mixer mode.
Query
[:SENSe]:MIXer[:STATe]?
Response
<status>
Parameter
<status>
1
0
External mixer switch
Selects External Mixer
Selects Internal Mixer
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
Example of Use
To query the current mixer mode.
MIX?
> 1
2-580
2.22 Setting External Mixer
[:SENSe]:MIXer[:HARMonic]:BAND VHP|EHP|A|Q|U|V|E|W|F|D|G|Y|J
External Mixer Band
Function
This command selects external mixer band.
Command
[:SENSe]:MIXer[:HARMonic]:BAND <band>
Parameter
<band>
VHP
EHP
A
Q
G
Y
F
D
E
W
U
V
J
External mixer band
High Performance Waveguide Mixer
Band VHP (50.0 to 75.0 GHz, 8+)
High Performance Waveguide Mixer
Band EHP (60.0 to 90.0 GHz, 12–)
Band A (26.5 to 40.0 GHz, 4+)
Band Q (33.0 to 50.0 GHz, 5+)
Band U (40.0 to 60.0 GHz, 6+)
Band V (50.0 to 75.0 GHz, 8+)
Band E (60.0 to 90.0 GHz, 9+)
Band W (75.0 to 110.0 GHz, 11+)
Band F (90.0 to 140.0 GHz, 14+)
Band D (110.0 to 170.0 GHz, 17+)
Band G (140.0 to 220.0 GHz, 22+)
Band Y (170.0 to 260.0 GHz, 26+)
Band J (220.0 to 325.0 GHz, 33+)
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
When using High Performance Waveguide Mixer, set the parameters of the external mixer by using the Spectrum Analyzer function of the mainframe.
For details, refer to Section 2.20 “Setting External Mixer” in the
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal Analyzer
Operation Manual (Spectrum Analyzer Function Remote Control).
Example of Use
To set the external mixer band to Band U.
MIX:BAND U
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:MIXer[:HARMonic]:BAND?
External Mixer Band Query
Function
This command queries the current external mixer band.
Query
[:SENSe]:MIXer[:HARMonic]:BAND?
Response
<band>
Parameter
<band>
VHP
EHP
F
D
E
W
U
V
A
Q
G
Y
J
External mixer band
High Performance Waveguide Mixer
Band VHP (50.0 to 75.0 GHz, 8+)
High Performance Waveguide Mixer
Band EHP (60.0 to 90.0 GHz, 12–)
Band A (26.5 to 40.0 GHz, 4+)
Band Q (33.0 to 50.0 GHz, 5+)
Band U (40.0 to 60.0 GHz, 6+)
Band V (50.0 to 75.0 GHz, 8+)
Band E (60.0 to 90.0 GHz, 9+)
Band W (75.0 to 110.0 GHz, 11+)
Band F (90.0 to 140.0 GHz, 14+)
Band D (110.0 to 170.0 GHz, 17+)
Band G (140.0 to 220.0 GHz, 22+)
Band Y (170.0 to 260.0 GHz, 26+)
Band J (220.0 to 325.0 GHz, 33+)
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
Example of Use
To query the current external mixer band.
MIX:BAND?
> U
2-582
2.22 Setting External Mixer
[:SENSe]:MIXer:BIAS <bias>
External Mixer Bias
Function
This command sets the external mixer’s bias current.
Command
[:SENSe]:MIXer:BIAS <bias>
Parameter
<bias>
Range
Resolution
Suffix code
Default
External mixer’s bias current
0.0 to 20.0 mA
0.1 mA
NA,UA,MA,A
mA is used when omitted.
0.0 mA
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
A value can be set per external mixer band.
When using High Performance Waveguide Mixer, the external mixer’s bias current is fixed to 0.0 mA.
Example of Use
To set the external mixer’s bias current to 10 mA.
MIX:BIAS 10MA
2
2-583
Chapter 2 SCPI Device Message Details
[:SENSe]:MIXer:BIAS?
External Mixer Bias Query
Function
This command queries the current external mixer’s bias current.
Query
[:SENSe]:MIXer:BIAS?
Response
<bias>
Parameter
<bias>
Range
Resolution
External mixer’s bias current
0.1 to 20.0 mA
0.1 mA
No suffix code. Value is returned in mA units.
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
One value is held per external mixer band.
When using High Performance Waveguide Mixer, the external mixer’s bias current is fixed to 0.0 mA.
Example of Use
To query the current external mixer’s bias current.
MIX:BIAS?
> 10.0
2-584
2.22 Setting External Mixer
[:SENSe]:MIXer:LOSS <power>
External Mixer Conversion Loss
Function
This command sets the external mixer’s conversion loss.
Command
[:SENSe]:MIXer:LOSS <power>
Parameter
<power>
Range
Resolution
Suffix code
Default
Conversion Loss of External Mixer
0.00 to 99.99 dB
0.01 dB
DB
dB is used when omitted.
15.00 dB
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
A value can be set per external mixer band.
When using High Performance Waveguide Mixer, set the parameters of the external mixer by using the Spectrum Analyzer function of the mainframe.
For details, refer to Section 2.20 “Setting External Mixer” in the
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal Analyzer
Operation Manual (Spectrum Analyzer Function Remote Control).
Example of Use
To set the external mixer’s conversion loss to 10 dB.
MIX:LOSS 10DB
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:MIXer:LOSS?
External Mixer Conversion Loss Query
Function
This command queries the external mixer’s conversion loss.
Query
[:SENSe]:MIXer:LOSS?
Response
<power>
Parameter
<power>
Range
Resolution
Conversion Loss of External Mixer
0.00 to 99.99 dB
0.01 dB
No suffix code. Value is returned in dB units.
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
One value is held per external mixer band.
When using High Performance Waveguide Mixer, set the parameters of the external mixer by using the Spectrum Analyzer function of the mainframe.
For details, refer to Section 2.20 “Setting External Mixer” in the
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal Analyzer
Operation Manual (Spectrum Analyzer Function Remote Control).
Example of Use
To query the current external mixer’s conversion loss.
MIX:LOSS?
> 10.00
2-586
2.23 FM CW Measurement Settings
2.23 FM CW Measurement Settings
Table 2.0-1 lists device messages for setting FM CW measurement.
Table 2.0-1 Device messages for setting FM CW measurement
Function
Measure FM CW
Device Message
[:SENSe]:FMCW[:STATe] ON|OFF|1|0
[:SENSe]:FMCW[:STATe]?
FM CW Configure :CONFigure:FMCW
FM CW Initiate
FM CW Fetch
FM CW Read
:INITiate:FMCW
:FETCh:FMCW?
:READ:FMCW?
FM CW Measure :MEASure:FMCW?
FM CW
Measurement
Interval Mode
:FMCW:INTVal:MODE AUTO|MARKer
:FMCW:INTVal:MODE?
FM CW
Number of Chirp
:FETCh:FMCW:CHIRp:NUMBer?
FM CW
Fetch One of Chirp :FETCh:FMCW:CHIRp[n]?
FM CW Slope
[:SENSe]:FMCW:CHIRp:SLOPe AUTO|UP|DOWN
[:SENSe]:FMCW:CHIRp:SLOPe? n
Represents Chirp
Index. n = 0 if omitted.
Table 2.0-2 Responses to FM CW Measurement Results
Response
The numerical results of Chirp Index = n are as below.
The response is returned separated by commas in the following order.
“–999999999999” is returned when no measurement is performed or an error has occurred.
1. Chirp Index
2. Chirp State
3. Chirp Start Position
4. Chirp Finish Position
Range 0 to 9
0: Up Chirp, 1: Down Chirp
Range 0 to Trace Point count – 1
Range 0 to Trace Point count – 1
5. Chirp Deviation [Hz]
6. Chirp Rate [kHz/µs]
7. Chirp Time Length [s]
8. FM Error RMS [Hz]
9. FM Error Peak [Hz]
10. FM Slope Error RMS [kHz/µs]
11. FM Slope Error Peak [kHz/µs]
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:FMCW[:STATe] ON|OFF|1|0
Measure FM CW
Function
This command executes FM CW measurement.
Command
[:SENSe]:FMCW[:STATe] <switch>
Parameter
<switch>
ON|1
OFF|0
FM CWmeasurement On/Off
Sets FM CW measurement On.
Sets FM CW measurement Off (Default value).
Details
This command is available when the following trace is active:
● Frequency vs Time
Example of Use
To set FM CW measurement to On and query the results.
FMCW ON
*WAI
FETC:FMCW?
[:SENSe]:FMCW[:STATe]?
Measure FM CW Query
Function
This command queries the On/Off setting of Channel Power measurement.
Query
For querying the measurement value after this command has been executed, use *WAI commands to perform synchronized control.
[:SENSe]:FMCW[:STATe]?
Response
<switch>
Parameter
<switch>
1
0
FM CW measurement On/Off
On
Off
Example of Use
To query the On/Off setting of FM CW measurement.
FMCW?
> 1
2-588
2.23 FM CW Measurement Settings
:CONFigure:FMCW
FM CW Configure
Function
Command
Details
This command sets Channel Power measurement to On.
:CONFigure:FMCW
Example of Use
No measurement is performed.
For querying the measurement value after this command has been executed, use *WAI commands to perform synchronized control.
To set FM CW measurement to On and query the results.
CONF:FMCW
*WAI
FETC:FMCW?
:INITiate:FMCW
FM CW Initiate
Function
Command
Details
Example of Use
This command performs a FM CW measurement.
:INITiate:FMCW
When this command is executed, FM CW measurement is set to On and the measurement is performed.
To perform FM CW measurement and query the results.
INIT:FMCW
*WAI
FETC:FMCW?
2
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Chapter 2 SCPI Device Message Details
:FETCh:FMCW?
FM CW Fetch
Function
Query
Response
Parameter
Details
Example of Use
This command queries the result of the 1st slope (Chirp Index = 0) of the
FM CW measurement.
:FETCh:FMCW?
Refer to Table 2.23-2.
None
This function queries the measurement result of the FM CW measurement performed last. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
To query the measurement result for FM CW measurement.
FETC:FMCW?
2-590
2.23 FM CW Measurement Settings
:READ:FMCW?
FM CW Read
Function
:MEASure:FMCW?
FM CW Measure
Function
This command performs FM CW measurement and queries the result.
This command has the same function as the following commands executed in this order:
:INITiate:FMCW
:FETCh:FMCW?
This command performs FM CW measurement and queries the result.
This command has the same function as the following commands executed in this order:
:CONFigure:FMCW
:INITiate:FMCW
:FETCh:FMCW?
2
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Chapter 2 SCPI Device Message Details
[:SENSe]:FMCW:INTVal:MODE AUTO|MARKer
Measurement Interval Mode
Function
This command selects the mode to set the measurement interval.
Command
[:SENSe]:FMCW:INTVal:MODE <switch>
Parameter
<switch>
AUTO
MARKer
Measurement Interval Mode
Selects the measurement interval automatically.
(Default)
Specify the measurement interval by markers manually.
Details
When the Measurement Interval Mode is set to AUTO, chirp signals are automatically detected and the measurement is performed.
When the Measurement Interval Mode is set to MARKer, the measurement is performed in the range specified by Marker1 and 2.
Example of Use
To set the Measurement Interval by markers manually.
FMCW:INTV:MODE MARK
[:SENSe]:FMCW:INTVal:MODE?
Measurement Interval Mode Query
Function
This command queries the current mode to set the measurement interval.
Query
[:SENSe]:FMCW:INTVal:MODE?
Response
<switch>
Parameter
<switch>
AUTO
MARK
Measurement Interval Mode
Selects the measurement interval automatically.
Specify the measurement interval by markers manually.
Example of Use
To query the current status of the Measurement Interval Mode.
FMCW:INTV:MODE?
> MARK
2-592
2.23 FM CW Measurement Settings
:FETCh:FMCW:CHIRp:NUMBer?
FM CW Fetch Number of Chirp
Function
This command queries the queryable chirp number (slope number) of the
FM CW measurement.
Query
:FETCh:FMCW:CHIRp:NUMBer?
Response
<NUM>
Parameter
<NUM>
Range
Chirp number
0 to 10
Details
This command queries the chirp number queryable by the :FETCh:FMCW:CHIRp[n]? command.
Example of Use
To query the queyable chirp number.
:FETC:FMCW:CHIR:NUMB?
> 1
:FETCh:FMCW:CHIRp[n]?
FM CW Fetch One of Chirp
Function
This command queries the FM CW measurement results of the chirp
(slope) specified by ChirpIndex (n).
Query
:FETCh:FMCW:CHIRp[n]?
Response
Refer to Table 2.23-2.
Parameter
<n>
Range
Chirp Index
0 to 9
Details
This function queries the measurement result of the FM CW measurement performed last. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
Example of Use
To query the FM CW measurement results of ChipIndex (n=2).
FETC:FMCW:CHIR2?
2-593
2
Chapter 2 SCPI Device Message Details
[:SENSe]:FMCW:CHIRp:SLOPe AUTO|UP|DOWN
FMCW Slope
Function
This command sets the chirp type (up/down) to detect at automatic chirp detection.
Command
[:SENSe]:FMCW:CHIRp:SLOPe <switch>
Parameter
< switch >
UP
DOWN
AUTO
Chirp type to detect automatically
Detects up-chirps automatically.
Detects down-chirps automatically.
Detects both up-chirps and down-chirps automatically. (Default)
Details
When set to UP, up-chirps in which the frequency increases are detected.
When set to DOWN, down-chirps in which the frequency decreases are detected. When set to AUTO, both up-chirps and down-chirps are detected.
Example of Use
To set the parameter to UP to detect up-chirps automatically.
FMCW:CHIR:SLOP UP
[:SENSe]:FMCW:CHIRp:SLOPe?
FMCW Slope Query
Function
This command queries the current chirp type (up/down) which is detected automatically.
Query
[:SENSe]:FMCW:CHIRp:SLOPe?
Response
<switch>
Parameter
<switch>
UP
DOWN
AUTO
Chirp type to detect automatically
Up-chirps are detected automatically.
Down-chirps are detected automatically.
Both up-chirps and down-chirps are detected automatically.
Example of Use
To query the current chirp type that is automatically detected.
FMCW:CHIR:SLOP?
>UP
2-594.
Chapter 3 Native Device Message List
This chapter describes remote control commands for executing the signal analyzer function (hereinafter, referred to as “this application”) using a list organized by functions. Refer to Chapter 4 “Device Message Details” for detailed specifications for each command. Refer to the
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal Analyzer
Operation Manual (Mainframe Remote Control) for detailed specifications on IEEE488.2 common device messages and application common device messages.
3
IEEE488.2 Common Device Messages ....................... 3-2
Application Common Device Messages ....................... 3-4
Frequency/Time Settings .............................................. 3-7
Level Settings ............................................................... 3-8
Measurement/Trigger Settings ..................................... 3-9
Common Settings for Each Trace............................... 3-10
Spectrum Trace Settings ............................................ 3-11
Power vs Time Trace Settings .................................... 3-22
Frequency vs Time Trace Settings ............................. 3-27
CCDF Trace Settings .................................................. 3-31
Spectrogram Trace Settings ....................................... 3-40
DigRF 3G Measurement Settings ............................... 3-42
Waveform Data Saving Function Settings .................. 3-44
Replay Function Settings ............................................ 3-45
Sub Trace Settings ..................................................... 3-47
Reference Signal Settings .......................................... 3-49
Power Adjustment ....................................................... 3-50
Other Settings ............................................................. 3-51
Setting External Mixer ................................................. 3-52
3-1
3.1 IEEE488.2 Common Device Messages
Table 3.1-1 lists IEEE488.2 common device messages available in this application.
Identification
Function
Operation Complete
Preset (All Application)
Self Test
Wait to Continue
Clear Status
Service Request Enable Register
---
Table 3.1-1 IEEE488.2 common device messages
Command Query Response
*IDN?
ANRITSU,model,serial
,version
*OPC
*RST
---
*WAI
*CLS
*SRE byte
*OPC?
---
*TST?
---
---
*SRE?
1
--- result
---
--- byte
Remarks model: Main unit model name serial: Main unit serial number version: Software package version result: Self test results
= 0 | 1 byte = bit7: EESB7 bit6: Not used bit5: ESB bit4: MAV bit3: EESB3 bit2: EESB2 (END Event) bit1: EESB1 bit0: EESB0
Function
Status Byte Register ---
Table 3.1-1 IEEE488.2 common device messages (Cont’d)
Command Query Response
Standard Event Status Enable
Register
*ESE byte
Standard Event Status Register ---
*STB?
*ESE?
*ESR? byte byte byte
Remarks byte = bit7: EESB7 bit6: MSS/RQS bit5: ESB bit4: MAV bit3: EESB3 bit2: EESB2 (END Event) bit1: EESB1 bit0: EESB0 byte = bit7: Power on bit6: User request bit5: Command error bit4: Execution error bit3: Device error bit2: Query error bit1: Not used bit0: Operation complete ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.2 Application Common Device Messages
Table 3.2-1 lists application common device messages available in this application.
Function
Table 3.2-1 Application common device messages
Command Query Response
Application Switch
Preset (All Application)
Preset (Active Application only)
System Restart
LCD Power
Error Display Mode
Save Parameter
Recall Parameter Setting file
SYS apl,window
*RST
PRE
INI
REBOOT
DISPLAY on_off
REMDISP mode
SYS? apl
---
---
---
---
DISPLAY?
REMDISP?
SVPRM file device
SVPRM
---
---
RCPRM file,device,apl ---
RCPRM file,device --- status,window
---
---
---
--- on_off mode
---
---
---
---
Remarks apl: Application name
= SIGANA window: Window status
= ACT | INACT | MIN | NON status: Application execution status
= CURRENT | IDLE | RUN | UNLOAD mode: Display mode
= NORMAL | REMAIN |
REMAIN_LAST file: Filename device: Drive name
= A | B | D | E | … file: Filename device: Drive name
= A | B | D | E | … apl: Target application
= ALL | CURR
Function
Hard Copy
Hard Copy Mode
END Event Status Enable
Register
END Event Status Register
ERROR Event Status Enable
Register
ESE3 n
ERROR Event Status Register ---
Pre-selector Auto Tune
Pre-selector Bias Reset
Pre-selector Bias
Table 3.2-1 Application common device messages (Cont’d)
Command
PRINT file,device ---
Query
---
Response
PMOD format
PMOD
ESE2 n
---
PMOD?
PMOD?
ESE2?
--- format
BMP byte
---
PRESEL AUTO
PRESEL PRESET
PRESEL bias
ESR2?
ESE3?
ESR3?
---
---
PRESEL? byte byte
Byte
---
--- bias
Remarks file: Filename device: Drive name
= A | B | D | E | … format: Specifies file format
= BMP | PNG byte = Status bit bit7: End of file operation bit6: Not used bit5: Not used bit4: Not used bit3: Not used bit2: Not used bit1: Not used bit0: End of measurement byte = Status bit bit7: Not used bit6: Not used bit5: Not used bit4: Not used bit3: Not used bit2: Not used bit1: Not used bit0: Not used bias = Bias value of pre-selector
= –128 to 127 ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Table 3.2-1 Application common device messages (Cont’d)
Command Query Response
CAL mode --- --- Calibration
Micro Wave Preselector Bypass POW:MW:PRES switch POW:MW:PRES? status
Remarks mode: Calibration mode
= ALL | LEVEL | LOLEAK_SUPPRESS
| BAND
Asynchronous command switch = ON|OFF|1|0 status = 1|0
3.3 Frequency/Time Settings
Table 3.3-1 lists device messages for setting frequency and time.
Function
Center Frequency
Frequency Step Size
Frequency Span
Start Frequency
Stop Frequency
Frequency Band Mode
Sampling Rate
Capture Time Auto/Manual
Capture Time Length
Switching Speed
Table 3.3-1 Frequency/time setting messages
Command Query
CNF freq CNF?
FREQ:CENT:STEP freq FREQ:CENT:STEP?
SPF freq
STF freq
SOF freq
SPF?
STF?
SOF? freq freq freq freq freq
Response
BNDSP mode BNDSP? mode
---
ACAP auto_manual
CAPLN time
FREQ:SYNT mode
SMPLRATE?
ACAP?
CAPLN?
FREQ:SYNT? rate auto_manual time mode
Remarks mode:Frequency
= NORMAL | SPURIOUS | THROUGH mode : Frequency switching speed
= BPH | NORM |FAST ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.4 Level Settings
Table 3.4-1 lists device messages for setting levels.
Function
Reference Level
Reference Level Offset Mode
Reference Level Offset Value
Attenuator
Attenuator Step Up/Down
Pre Amp
Scale Mode
Table 3.4-1 Level setting messages
Command
RLV level
ROFFSET on_off
ROFFSETMD on_off
ROFFSET level
AT att
AT AUTO
Query
RLV?
ROFFSET?
ROFFSETMD?
ROFFSET?
AT? att
Response level
OFF on_off level
AT action
PREAMP on_off
SCALEMODE mode
---
PREAMP?
SCALEMODE?
--- on_off mode
Log Scale Unit AUNITS unit AUNITS? unit
Remarks
When set to On, response is level. att:Attenuator value action:Operation
= UP | DN mode: Scale mode
= LOG | LIN unit: Units
= DBM | DBUV | DBMV | DBUVE
| V | W | DBUVM
3.5 Measurement/Trigger Settings
Table 3.5-1 lists device messages for setting measurement/trigger.
Function
Single Measurement
Continuous Measurement
Storage Stop
Trigger Switch
SNGLS
CONTS
STOP
Table 3.5-1 Measurement/trigger setting messages
Command
---
---
---
Query
---
---
---
Response
TRGS switch TRGS? switch
Trigger Source
Trigger Level (Video/Wide IF
Video)
Trigger Slope
Trigger Delay
Trigger Hold
Trigger Hold On/Off
Frame Trigger Period
Frame Sync Source
Frame Sync Offset
TRGSOURCE source TRGSOURCE?
TRGLVL level TRGLVL?
TRGSLP edge
TDLY time
TRIG:HOLD
TRIG:HOLD:STAT
TRIG:FRAM:PER
TRGSLP?
TDLY?
TRIG:HOLD?
TRIG:HOLD:STAT?
TRIG:FRAM:PER?
TRIG:FRAM:SYNC sync TRIG:FRAM:SYNC?
TRIG:FRAM:OFFS time TRIG:FRAM:OFFS? source level edge time time switch time sync time
Remarks
Asynchronous command
Asynchronous command switch:
= FREE | TRGD source:
= VID | WIDEVID | EXT | SG |
BBIF edge :
= RISE | FALL sync :
= EXT |IMM | WIF time : time set ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.6 Common Settings for Each Trace
Table 3.6-1 lists device messages for configuring the settings common to each trace.
Function
Table 3.6-1 Common trace setting messages
Command Query Response
Change Trace
Analysis Time Auto/Manual
Analysis Time Length
Analysis Start Time
Calculate
Measurement Status
Measurement Off
Low Phase Noise Performance
Status Query
TRCCHG trace
AANLY auto_manual
ANLYLEN time
ANLYST time
CALC
---
CONF:SAN
---
TRCCHG? trace
AANLY?
ANALYLEN?
ANLYST?
---
MSTAT? auto_manual time time
--- status
--- ---
FREQ:SYNT:LPH:STAT? status
Remarks trace: Trace type
= SPECTRUM | POWERVSTIME |
FREQVSTIME|CCDF|SPECTROGRAM
Analyzes main trace. status: Status
= 0 | 2 | 9 status : status
= 1 | 0
3.7 Spectrum Trace Settings
Table 3.7-1 lists device messages for setting spectrum trace.
Zoom Center
Zoom Width
Function
Resolution Bandwidth (RBW)
Detection Mode
Table 3.7-1 Spectrum trace setting messages
Command
ZMCNT freq
ZMWDTH freq
RB bandwidth
RB AUTO
ZMCNT?
ZMWDTH?
RB?
Query freq freq
Response bandwidth
DET mode DET? mode
Storage Mode
Storage Count
STORAGEMODE mode STORAGEMODE?
STORAGECOUNT count STORAGECOUNT? mode count
Log Scale Range LOGSCALEDIV scale LOGSCALEDIV? scale
Linear Scale Range
Log Scale Line
LINSCALEDIV scale
SCALELINES line
LINSCALEDIV?
SCALELINES? scale line
Remarks bandwidth: Resolution bandwidth mode: Detection mode
= POS | NEG | AVG mode: Storage mode
= OFF | MAX | LINAVG | MIN count: Storage count scale:dB/div
= 0.1 | 0.2 | 0.5 | 1 | 2 | 5
| 10 | 20 scale:%/div
= 1 | 2 | 5 | 10 line:Number of scale lines
= 10 | 12 ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Marker Mode
Active Marker
Marker Result
Marker Frequency
Marker Width (Grid)
Marker Width (Frequency)
Peak Search
Next Peak
Signal Search Resolution
Table 3.7-1 Spectrum trace setting messages (Cont’d)
Command Query Response
MKR mode,marker MKR? Marker mode
MKR mode
MKACT marker
MKLTYPE type
MKR?
MKACT?
MKLTYPE? marker type
MKZF freq,marker MKZF? marker freq
MKW width,marker MKW? marker
MZWF freq,marker
MKPK HI
MKPK
MKPK NH
MKPX level
MZWF? marker
---
---
MKPX? width freq
---
--- level
Remarks mode: Marker mode marker: Marker name marker: Marker name type: Marker value type marker: Marker name width: Specifies width marker: Marker name marker: Marker name
Relative To
Function
Marker List
Spot Line
Couple Zone
Zone Width Type
Search Peaks Sort Y
Search Peaks Sort X
Search Peaks Number
Query Trace Data
Table 3.7-1 Spectrum trace setting messages (Cont’d)
Command Query Response
CALC:MARK:REF marker,integer
CALC:MARK:TABL switch_com
CALC:MARK:SLIN switch_com
CALC:MARK:COUP:ZONE switch_com
CALC:MARK:REF? marker integer
CALC:MARK:TABL?
CALC:MARK:SLIN? switch_res switch_res
CALC:MARK:COUP:ZONE? switch_res
CALC:MARK:WIDT:TYPE marker,type
CALC:MARK:WIDT:TYPE? marker type
CALC:MARK:PEAK:SORT:
Y
---
CALC:MARK:PEAK:SORT:
X
---
---
---
CALC:MARK:PEAK:SORT:
COUN integer
CALC:MARK:PEAK:SORT:
COUN? integer
---
TRAC?
[start[,length]] data_1,data_2,...
Remarks marker:Marker name marker:Marker name type:ZONE|SPOT ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Marker Readout Query
Marker Frequency
Marker Frequency
Marker Query
---
Table 3.7-1 Spectrum trace setting messages (Cont’d)
Command Query
CALC:MARK:READ?
Response freqs_1,power_1,freqs_2,power_
2,..., freqs_10,power_10
(in Spectrum)
<sample_1>,<freqf_1>,<sample_2
>,<freqf_2>(When using MS269x
Series, the terminal being set for
DigRF 3G) time_1,power_1,time_2,power_2(i n Power vs Time trace)
<sample_1>,<power_1>,<sample_2
>,<power_2>(When using MS269x
Series, the terminal being set for
DigRF 3G and Power vs Time trace) time_1,freqf_1,time_2,freqf_2(i n Frequency vs Time) dist,prob
(in CCDF trace)
<freqs_1>,<time_1>,<power_1>,< freqs_2>,<time_2>,<power_2>
(in Spectrogram trace)
CALC:MARK:X marker, type
CALC:MARK:X? marker freq,time,sample,dist,dist_res ult
Remarks marker : marker name type : freq| time| sample|dist
CALC:MARK:X:DELT marker, type
---
CALC:MARK:X:DELT
? marker freq
CALC:MARK:Y:DELT
? marker rel_ampl_spe,ratio_spe,rel_amp l_pvt,ratio_pvt,freq,prob,prob
_result_gauss,prob_result_ref marker : marker name type : freq marker : marker name
Function
Signal Search Mode
Signal Search Threshold Level
Marker to Center Frequency
Marker to Reference Level
Zoom
Zoom Out
Trace Point Query
Measurement Count Query
Marker Level Query
Marker Phase Query
Calculate Phase Spectrum
Marker Phase Query
Calculate Phase Spectrum
---
Table 3.7-1 Spectrum trace setting messages (Cont’d)
Command Query Response
SRCHTH mode
SRCHTHLVL level
MKCF
MKRL
ZOOM
ZOOMOUT
---
---
---
SRCHTH?
SRCHTHLVL?
---
---
---
---
FDPNT?
SWEEPCOUNT?
MKL? type
CALC:MARK:Y:PHAS? marker mode level
---
---
---
--- point count ln phase
CALC:PHAS:STAT switch_com
CALC:PHAS:STAT? switch_res
---
CALC:MARK:Y:PHAS? marker phase
CALC:PHAS:STAT switch_com
CALC:PHAS:STAT?
switch_res
Remarks
Mode : Detection mode
= OFF | ON | ABOVE | BELOW type :Marker n ln:Level of Marker n marker : marker name phase : phase spectrum switch_com :
= ON | OFF | 1 | 0 switch_res :
= 1 | 0 marker: Marker name phase: Phase spectrum switch_com :
= ON | OFF | 1 | 0 switch_res :
= 1 | 0 ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Table 3.7-2 lists device messages for setting Adjacent Channel Power measurement function of spectrum trace.
Table 3.7-2 Spectrum trace (Adjacent Channel Power measurement function) setting messages
Function
Measure Adjacent Channel Power
Command
MEAS ADJ
MEAS OFF
MEAS?
MEAS?
Query
ADJ
OFF
Response
ACP Reference
ACP Channel Bandwidth
ACP Carrier Bandwidth
ACP In Band Center
ACP Carrier Number
ACP Carrier Spacing
ACP Channel Select
ACP Offset Frequency
ACP Filter Type
ACP Power Result Type
MADJMOD mode MADJMOD?
ADJCHBW freq
ADJINBW freq
ADJCHBW?
ADJINBW?
ADJCARRIERCNT freq ADJCARRIERCNT?
ADJCARRIERNUM num ADJCARRIERNUM?
ADJCARRIERSPAC freq ADJCARRIERSPAC?
ADJCHSLCT ch,on_off ADJCHSLCT? ch
ADJCHSP ch,freq ADJCHSP? ch
ADJFILTERTYPE filter ADJFILTERTYPE?
ADJFILTERTYPE filter,target
ADJPWRTYPE mode freq freq freq num freq on_off freq filter,filter
ADJFILTERTYPE? target filter
ADJPWRTYPE? mode mode
Remarks mode: Measurement method
= MOD | TOTAL | INBAND |
BOTHSIDE num: Carrier number freq: Carrier spacing filter:Filter type
= RECT | NYQUIST | ROOTNYQUIST target: Target filter
= INBAND | OFFSET mode: Result display type
= CARRIER | OFFSET
Select Standard
Table 3.7-2 Spectrum trace (Adjacent Channel Power measurement function) setting messages (Cont’d)
Function
ACP Roll-off Factor
Load Standard Parameter
Command
ADJROF ratio ADJROF?
Query
ADJROF ratio,target ADJROF? target
SELECTSTD standard SELECTSTD?
LOADSTD ADJ,param
LOADSTD ADJ
LOADSTD? ADJ ratio,ratio ratio
Response standard param
Remarks ratio: Filter rolloff ratio target:Target filter
= INBAND | OFFSET standard: Communication method param: Parameter Type
Noise Cancel NOISECANCEL on_off NOISECANCEL? on_off on_off:
= ON | OFF ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Table 3.7-2 Spectrum trace (Adjacent Channel Power measurement function) setting messages (Cont’d)
Function
ACP Measurement Result
Query
---
Command
RES?
Query
RES? OFFSET
Response lc,(lc),lr1,la1,ur1, ua1,lr2,la2,ur2,ua2, lr3,la3,ur3,ua3
Remarks lc: Reference power absolute value by
ACP Reference lr1: Measurement frequency 1 (Bottom side) power relative value la1: Measurement frequency 1 (Bottom side) power absolute value ur1: Measurement frequency 1 (Top side) power relative value ua1: Measurement frequency 1 (Top side) power absolute value lr2: Measurement frequency 2 (Bottom side) power relative value la2: Measurement frequency 2 (Bottom side) power absolute value ur2: Measurement frequency 2 (Top side) power relative value ua2: Measurement frequency 2 (Top side) power absolute value lr3: Measurement frequency 3 (Bottom side) power relative value la3: Measurement frequency 3 (Bottom side) power absolute value ur3: Measurement frequency 3 (Top side) power relative value ua3: Measurement frequency 3 (Top side) power absolute value
Table 3.7-2 Spectrum trace (Adjacent Channel Power measurement function) setting messages (Cont’d)
Function
ACP Measurement Result
Query
---
Command Query
RES? CARRIER
Response ls,lca,lc1,lc2,lc3,l c4,lc5,lc6,lc7,lc8,l c9,lc10,lc11,lc12
Remarks ls: Measurement span frequency power absolute value lca: Measurement carrier total power absolute value lc1: Measurement carrier-1 power absolute value lc2: Measurement carrier-2 power absolute value lc3: Measurement carrier-3 power absolute value lc4: Measurement carrier-4 power absolute value lc5: Measurement carrier-5 power absolute value lc6: Measurement carrier-6 power absolute value lc7: Measurement carrier-7 power absolute value lc8: Measurement carrier-8 power absolute value lc9: Measurement carrier-9 power absolute value lc10: Measurementcarrier-10 power absolute value lc11: Measurement carrier-11 power absolute value lc12: Measurement carrier-12 power absolute value ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Table 3.7-3 lists device messages for setting Channel Power measurement function of spectrum trace.
Function
Table 3.7-3 Spectrum trace (Channel Power measurement function) setting messages
Command
Measure Channel Power
MEAS CHPWR
MEAS OFF
Channel Power Channel Center
Frequency
CHPWRCENTER freq
Channel Power Channel Bandwidth CHPWRWIDTH freq
MEAS?
MEAS?
Query
CHPWRCENTER?
CHPWRWIDTH?
CHPWR
OFF freq freq
Response
Channel Power Filter Type
Channel Power Rolloff Factor
Select Standard
Load Standard Parameter
CHPWRFLTRTYP filter CHPWRFLTRTYP?
CHPWRROF ratio CHPWRROF?
SELECTSTD standard SELECTSTD?
LOADSTD CHPWR,param
LOADSTD CHPWR
LOADSTD? CHPWR filter ratio standard param
Remarks filter: Filter type
= RECT | NYQUIST | ROOTNYQUIST ratio: Filter rolloff ratio standard: Communication method param: Parameter Type
Channel Power Measurement
Result Query
--- RES? power,density power: Total power in channel band density: Power density in channel band
Table 3.7-4 lists device messages for setting occupied bandwidth measurement function of spectrum trace.
Function
Table 3.7-4 Spectrum trace (occupied bandwidth measurement function) setting messages
Measure Occupied Bandwidth
OBW Measurement Method
OBW N% Ratio
OBW XdB Value
Select Standard
Load Standard Parameter
Command
MEAS OBW
MEAS OFF
MOBW method
MEAS?
MEAS?
MOBW?
Query
OBWN ratio
OBWXDB level
OBWN?
OBWXDB?
SELECTSTD standard SELECTSTD?
LOADSTD OBW,param
LOADSTD? OBW
LOADSTD OBW
OBW
OFF
Response method ratio level standard param
Remarks method: Measurement method
= N | XDB standard: Communication method param: Parameter Type
OBW Measurement Result Query --- RES? obw,center,start,sto p obw: Occupied bandwidth center: Center frequency of occupied band start: Start frequency of occupied band stop: Stop frequency of occupied band ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.8 Power vs Time Trace Settings
Table 3.8-1 lists device messages for setting Power vs Time trace.
Function
Detection
Smoothing
Smoothing Time Length
Table 3.8-1 Power vs Time trace setting messages
Command Query Response
DET mode
SMOOTH on_off
SMOOTHLN time
DET?
SMOOTH?
SMOOTHLN? mode on_off time
Filter Type
Roll-off Factor
Filter Bandwidth
Filter Frequency Offset
Storage Mode
Storage Count
FLTRTYP filter FLTRTYP?
ROF factor
FLTRBW bandwidth
FLTROFS freq
STORAGEMODE mode
ROF?
FLTRBW?
FLTROFS?
STORAGEMODE?
STORAGECOUNT count STORAGECOUNT? filter factor bandwidth freq mode count
Remarks mode: Detection mode
= NRM | POS | NEG | AVG filter:Filter type
= RECT | GAUSS | NYQUIST |
ROOTNYQUIST | OFF mode: Storage mode
= OFF | MAX | LINAVG | MIN count: Storage count
Function
Log Scale Range
Linear Scale Range
Log Scale Line
Marker Mode
Active Marker
Marker Position
Peak Search
Next Peak
Signal Search Resolution
Signal Search Mode
Signal Search Threshold Level
Table 3.8-1 Power vs Time trace setting messages (Cont’d)
Command Query Response
LOGSCALEDIV scale LOGSCALEDIV? scale
LINSCALEDIV scale
SCALELINES line
MKR on_off,marker
MKR on_off
MKACT marker
LINSCALEDIV?
SCALELINES?
MKR? Marker
MKR?
MKACT?
MKP time,marker
MKPK HI
MKPK
MKPK NH
MKPX level
SRCHTH mode
SRCHTHLVL level
MKP? marker
---
---
MKPX?
SRCHTH?
SRCHTHLVL? scale line on_off marker
---
--- level mode level
Remarks scale: dB/div
= 0.1 | 0.2 | 0.5 | 1 | 2 | 5
| 10 | 20 scale: %/div
= 1 | 2 | 5 | 10 line: Number of scale lines
= 10 | 12 on_off: On/off of marker marker: Marker name
= 1 | 2 marker: Marker name
= MKR1 | MKR2 | BOTH mode: Detection mode
= OFF | ON | ABOVE | BELOW ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Table 3.8-1 Power vs Time trace setting messages (Cont’d)
Function Command
Display Peak to Peak Value On/Off PEAKTOPEAK on_off
Zoom ZOOM
Zoom Out
Time Trace Point Query
Measurement Count Query
ZOOMOUT
---
---
---
Marker Level Query
Peak to Peak Value Query
---
---
---
---
---
---
---
Query Trace Data
Query Negative Trace Data
---
---
---
Query
PEAKTOPEAK?
---
---
TDPNT?
SWEEPCOUNT?
MKL?
MKL? 1
MKL? 2
MKL? 3
PEAKTOPEAKRES?
PEAKTOPEAKRES? POS
PEAKTOPEAKRES? NEG
PEAKTOPEAKRES?
DELTAAVG
PEAKTOPEAKRES? AVG
TRAC?
[start[,length]]
TRAC:NEG?
[start[,length]]
Response on_off
---
--- point count l
1
,l
2
,l
2-1 l
1 l
2 l
2-1 pos,neg,p-p,avg pos neg p-p avg data_1,data_2,... data_1,data_2,...
Remarks l
1
: Amplitude value of Marker 1 l
2
: Amplitude value of Marker 2 l
2
: Ratio between Markers 1 and 2 pos: +Peak value neg: −Peak value p-p: Peak to Peak value avg: Average value
Table 3.8-2 lists device messages for setting Burst Average Power measurement function of Power vs Time trace.
Table 3.8-2 Power vs Time trace (Burst Average Power measurement function) setting messages
Function
Measure Burst Average Power
Load Standard Parameter
Command
MEAS BRSTAVGPWR
MEAS OFF
LOADSTD
BRSTAVGPWR,param
LOADSTD BRSTAVGPWR
MEAS?
MEAS?
Query Response
BRSTAVGPWR
OFF
LOADSTD? BRSTAVGPWR param
Remarks param: Parameter Type
Noise Cancel NOISECANCEL on_off NOISECANCEL? on_off on_off:
= ON | OFF
Burst Average Power Measurement
Result Query
--- RES? level level: Average power within burst ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Measure AM Depth
Measure AM Depth
AM Depth Configure
AM Depth Initiate
AM Depth Fetch
AM Depth Read
AM Depth Measure
Table 3.8-3 lists device messages for setting the AM Depth measurement function of Power vs Time trace.
Table 3.8-3 Power vs Time trace (AM Depth Measurement Function) setting messages
Command
MEAS AM
MEAS OFF
MEAS?
MEAS?
Query
AM
OFF
Response
AM switch_com AM? tswitch_res
Remarks switch_com :
= ON|OFF|1|0
CONF:AM
INIT:AM
---
---
---
FETC:AM?
READ:AM?
MEAS:AM?
---
--- pos,neg,p-p,avg
3.9 Frequency vs Time Trace Settings
Table 3.9-1 lists device messages for setting Frequency vs Time trace.
Function
Detection
Smoothing
Smoothing Time Length
Filter Bandwidth
Filter Auto/Manual
Storage Mode
Storage Count
Frequency Scale Unit
Marker Mode
Active Marker
Marker Position
Table 3.9-1 Frequency vs Time trace setting messages
Command Query Response
DET mode
SMOOTH on_off
SMOOTHLN time
FLTRBW bandwidth
AFLTR auto_manual
STORAGEMODE mode
STORAGECOUNT count
FUNITS unit
DET?
SMOOTH?
SMOOTHLN?
FLTRBW?
AFLTR?
STORAGEMODE?
STORAGECOUNT?
FUNITS? mode on_off time bandwidth auto_manual mode count unit
MKR on_off,marker
MKR on_off
MKACT marker
MKP time
MKP time,marker
MKR? Marker
MKR?
MKACT?
MKP?
MKP? marker on_off marker time
Remarks mode: Detection mode
= NRM | POS | NEG | AVG mode: Storage mode
= OFF | MAX | MIN count: Storage count unit: Frequency scale display unit
= HZ | DHZ on_off: Marker On/off state marker: Marker name
= 1 | 2 marker: Marker name
= MKR1 | MKR2 | BOTH point: Marker position time marker: Marker name
= 1 | 2 ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Table 3.9-1 Frequency vs Time trace setting messages (Cont’d)
Command Query Response
DETMODE det,marker DETMODE? Marker
Marker Value in Pos&Neg detection
DETMODE det
Peak Search
Next Peak
Dip Search
Next Dip
Signal Search Resolution
MKPK HI
MKPK
MKPK NH
MKPK LO
MKPK NL
MKPX freq
SRCHTH mode Signal Search Mode
Signal Search Threshold Frequency
Deviation
SRCHTHLVL freq
Display Peak to Peak Value On/Off PEAKTOPEAK on_off
DETMODE?
---
---
---
---
MKPX?
SRCHTH?
SRCHTHLVL?
PEAKTOPEAK? det
---
---
---
--- freq mode freq on_off
Zoom Width ZMWDTH scale ZMWDTH? scale
Zoom
Zoom Out
Time Trace Point Query
ZOOM
ZOOMOUT
---
---
---
TDPNT?
---
--- point
Remarks det: Detection mode
= POS | NEG marker: Marker name
= MKR1 | MKR2 | BOTH mode: Detection mode
= OFF | ON | ABOVE | BELOW scale: Frequency bandwidth
= DIVBY2 | DIVBY5 | DIVBY10 |
DIVBY25
Function
Maximum Frequency Range Query ---
Measurement Count Query ---
Marker Frequency Query
Peak to Peak Value Query
---
---
---
---
---
---
---
---
Query Trace Data
Query Negative Trace Data
Table 3.9-1 Frequency vs Time trace setting messages (Cont’d)
---
---
---
Command Query
ANLYFREQRANGE?
SWEEPCOUNT?
MKL?
MKL? 1
MKL? 2
MKL? 3
PEAKTOPEAKRES?
PEAKTOPEAKRES? POS
PEAKTOPEAKRES? NEG
PEAKTOPEAKRES?
DELTAAVG
PEAKTOPEAKRES? AVG
TRAC?
[start[,length]]
TRAC:NEG?
[start[,length]]
Response freq count f
1 f
1
,f
2
,f
2-1 f
2 f
2-1 pos,neg,p-p,avg pos neg p-p avg data_1,data_2,... data_1,data_2,...
Remarks f
1 f
2
: Frequency value of Marker 1
: Frequency value of Marker 2 f
2-1
: f
2
- f
1 pos: +Peak value neg: −Peak value p-p: Peak to Peak value avg: Average value ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Measure FM CW
Measure FM CW
FM CW Configure
FM CW Initiate
FM CW Fetch
FM CW Read
FM CW Measure
Table 3.9-2 lists device messages for setting FM deviation measurement functions of Frequency vs Time trace.
Function
Measure FM deviation
Measure FM deviation
FM deviation Configure
FM deviation Initiate
FM deviation Fetch
FM deviation Read
FM deviation Measure
Table 3.9-2 Frequency vs Time trace (FM deviation Measurement Function) setting messages
Command
MEAS FM
MEAS OFF
FM switch_com
CONF:FM
INIT:FM
---
MEAS?
MEAS?
FM?
Query
---
---
FETC:FM?
READ:FM?
MEAS:FM?
FM
OFF
---
---
Response switch_res pos,neg,p-p,avg
Remarks switch_com :
= ON|OFF|1|0
Table 3.9-3 lists device messages for setting FM CW measurement functions of Frequency vs Time trace.
Table 3.9-3 Frequency vs Time trace (FM CW Measurement Function) setting messages
Command
MEAS FMCW
MEAS OFF
MEAS?
MEAS?
Query
FMCW
OFF
Response
FMCW switch_com
CONF:FMCW
INIT:FMCW
---
FMCW?
---
---
FETC:FMCW?
READ:FMCW?
MEAS:FMCW? switch_res
---
---
Remarks switch_com :
= ON|OFF|1|0
3.10 CCDF Trace Settings
Table 3.10-1 lists device messages for setting CCDF trace.
Function
Measure Method
CCDF Threshold On/Off
CCDF Threshold
Level Threshold
CCDF Measure Mode
Data Count
Gate Mode On/Off
Period
Range State
Range Start Time
Table 3.10-1 CCDF trace setting messages
Command
MMETHOD method
CALC:CCDF:THR:STAT switch_com
CALC:CCDF:THR
THRSHLD level
Query
MMETHOD?
CALC:CCDF:THR:STAT? switch_res
CALC:CCDF:THR?
THRSHLD? level
CALC:CCDF:MODE mode CALC:CCDF:MODE?
Response method mode
Remarks method: Measurement mode
= CCDF | APD switch_com :
= ON|OFF|1|0
Mode: specified method for measurement target
= TIME|COUN sample_com : data count for measurement target
Switch :
= ON|OFF|1|0
CALC:CCDF:COUN sample CALC:CCDF:COUN?
CALC:ATIM:GMOD switch_com
CALC:ATIM:GMOD:PER time
CALC:ATIM:GMOD:RANG:
STAT switch_com_1,switch_ com_2,switch_com_3
CALC:ATIM:GMOD:RANG:
STAR time_1,time2,time3
CALC:ATIM:GMOD?
CALC:ATIM:GMOD:RANG:
STAT?
CALC:ATIM:GMOD:RANG:
STAR? sample switch_res
CALC:ATIM:GMOD:PER? time switch_res_1,switch_ res_2,switch_res_3 time_1,time_2,time_3
Switch_com_n : Range_n On/Off
= ON|OFF|1|0 time_n : Range_n start time ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Table 3.10-1 CCDF trace setting messages (Cont’d)
Range Stop Time
CCDF Measure Mode
Filter Type
Filter Bandwidth
Filter Frequency Offset
Power Distribution Scale
Marker Mode
Marker Axis
Function
Marker Position
Command
CALC:ATIM:GMOD:RANG:
STOP time_1,time_2,time_3
Query
CALC:ATIM:GMOD:RANG:
STOP?
Response Remarks
Time_1,time_2,time_3 time_n : Range_n stop time
CALC:CCDF:MODE mode CALC:CCDF:MODE?
FLTRTYP filter
FLTRBW bandwidth
FLTROFS freq
DISTSCALE scale
MKR on_off
MKAXIS axis
MKP position
MKP position,type
Reset Result Every Measurement RSTEVRYCAP on_off
Data Point Query ---
FLTRTYP?
FLTRBW?
FLTROFS?
DISTSCALE?
MKR?
MKAXIS?
MKP?
MKP? Type
RSTEVRYCAP?
DTCNT?
Mode
Filter
Bandwidth
Freq
Scale
On_off
Axis
Position position
On_off
Point
Mode: specified method for measurement target
= TIME|COUN filter: Filter type
= RECT | OFF scale: Power distribution scale
= 5 | 10 | 20 | 50 type: Marker type
= PROB | DSTRBT position: Marker position type: Marker type
= PROB | DSTRBT
Function
Marker Result
Power Result Query
---
---
---
---
---
Table 3.10-1 CCDF trace setting messages (Cont’d)
Command Query Response
MKL? Data
SMMLYPWR?
SMMLYPWR?
CREST
Average,max,crest
SMMLYPWR? AVG average
SMMLYPWR? MAX max crest
--- PROBPWR? PWR pd
1
,pd
2
,pd
3
,pd
4
,pd
5
Power Deviation and Distribution
Query
--- PROBPWR? PROB r
1
,r
2
,r
3
,r
4
,r
5
Query Trace Data
Store Reference Trace
Reference Trace
---
TRAC?
[start[,lengt h]]
CALC:CCDF:STOR:REF ---
CCDF:RTR switch CCDF:RTR? data_1,data_2,…
---
Switch data:
Remarks
Measured waveform's power deviation or probability average: Average power max: Maximum power crest: Crest factor pd1: Power deviation of 10 % pd2: Power deviation of 1 % pd3: Power deviation of 0.1 % pd4: Power deviation of 0.01 % pd5: Power deviation of 0.001 % r1: Probability distribution at 1/5 grid r2: Probability distribution at 2/5 grid r3: Probability distribution at 3/5 grid r4: Probability distribution at 4/5 grid r5: Probability distribution at 5/5 grid switch : display/no display
= ON|OFF|1|0 ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Gaussian Trace
Marker Query
CCDF Fetch
CCDF:GAUS switch
---
Table 3.10-1 CCDF trace setting messages (Cont’d)
Command Query
CCDF:GAUS?
CALC:MARK:X:D
ELT? marker switch
Response Remarks switch : display/no display
= ON|OFF|1|0 dist dist_result_gauss dist_result_ref
When Result Mode is A. mean_power,peak_power_dbm,cre st (n=1 or when omitted.) marker : marker name
--- FETC:CCDF?
rel_ampl_1,rel_ampl_2,rel_am pl_3,rel_ampl_4, rel_ampl_5,rel_ampl_6 (n=2) percent_1,percent_2,percent_
3,percent_4,percent_5 (n=3)
[CCDF] meas_per_1,meas_per_2,... meas_per_5001
[APD] meas_per_1,meas_per_2,... meas_per_10001 (n=4) gauss_per_1,gauss_per_2,...g
uass_per_5001 (n=5)
[CCDF] ref_per_1,ref_per_2,...ref_p
er_5001
[APD] ref_per_1,ref_per_2,...ref_p
er_10001 (n=6)
CCDF Fetch
(Cont’d)
Function
Table 3.10-1 CCDF trace setting messages (Cont’d)
Command
---
Query
FETC:CCDF?
Response
<count>(n=7)
<mean_power_range_1>,<peak_po wer_dbm_range_1>,<crest_range
_1>(n=8)
<rel_ampl_ range_1_1>,<rel_ampl_ range_1_2>,<rel_ampl_ range_1_3>,
<rel_ampl_ range_1_4>,<rel_ampl_ range_1_5>,<rel_ampl_ range_1_6>(n=9)
<percent_range_1_1>,<percent_ range_1_2>,<percent_range_1_3
>,
<percent_ range_1_4>,<percent_ range_1_5>(n=10)
When Measure Method is CCDF:
<meas_per_ range_1_1>,<meas_per_ range_1_2>,...< meas_per_ range_1_5001>
When Measure Method is APD:
<meas_per_ range_1_1>,<meas_per_ range_1_2>,...< meas_per_ range_1_10001>(n=11)
Remarks ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
CCDF Fetch
(Cont’d)
Function
Table 3.10-1 CCDF trace setting messages (Cont’d)
Command
---
Query
FETC:CCDF?
Response
When Measure Method is CCDF:
<ref_per_range_1_1>,<ref_per
_range_1_2>,...<ref_per_rang e_1_5001>
When Measure Method is APD:
<ref_per_range_1_1>,<ref_per
_range_1_2>,…<ref_per_range_
1_10001>(n=13)
<count_range_1> (n=14)
<mean_power_range_2>,<peak_p ower_dbm_range_2>,<crest_ran ge_2> (n=15)
<rel_ampl_range_2_1>,<rel_am pl_range_2_2>,<rel_ampl_rang e_2_3>,<rel_ampl_range_2_4>,
<rel_ampl_range_2_5>,<rel_am pl_range_2_6> (n=16)
<percent_range_2_1>,<percent
_range_2_2>,<percent_range_2
_3>,<percent_range_2_4>,<per cent_range_2_5>(n=17)
Remarks
CCDF Fetch
(Cont’d)
Function
Table 3.10-1 CCDF trace setting messages (Cont’d)
Command
---
Query
FETC:CCDF?
Response
When Measure Method is CCDF:
<meas_per_range_2_1>,<meas_per
_range_2_2>,...<meas_per_range
_2_5001>
When Measure Method is APD:
<meas_per_range_2_1>,<meas_per
_range_2_2>,...<meas_per_range
_2_10001>(n=18)
When Measure Method is CCDF:
<ref_per_range_2_1>,<ref_per_r ange_2_2>,...<ref_per_range_2_
5001>
When Measure Method is APD:
<ref_per_range_2_1>,<ref_per_r ange_2_2>,...<ref_per_range_2_
10001>(n=20)
<count_range_2> (n=21)
<mean_power_range_3>,<peak_pow er_dbm_range_3>,<crest_range_3
> (n=22)
<rel_ampl_range_3_1>,<rel_ampl
_range_3_2>,<rel_ampl_range_3_
3>,
<rel_ampl_range_3_4>,<rel_ampl
_range_3_5>,<rel_ampl_range_3_
6> (n=23)
<percent_range_3_1>,<percent_r ange_3_2>,<percent_range_3_3>,
<percent_range_3_4>,<percent_r ange_3_5>(n=24) ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Remarks
CCDF Fetch
(Cont’d)
Function
Table 3.10-1 CCDF trace setting messages (Cont’d)
Command
---
Query
FETC:CCDF?
Response
When Measure Method is CCDF:
<meas_per_range_3_1>,<meas_per
_range_3_2>,...< meas_per_range_3_5001>
When Measure Method is APD:
<meas_per_range_3_1>,<meas_per
_range_3_2>,...< meas_per_range_3_10001>(n=25)
When Measure Method is CCDF:
<ref_per_range_3_1>,<ref_per_r ange_3_2>,...<ref_per_range_3_
5001>
When Measure Method is APD:
<ref_per_range_3_1>,<ref_per_r ange_3_2>,...<ref_per_range_3_
10001> (n=27)
<count_range_3> (n=28)
Remarks
CCDF Fetch
(Cont’d)
Function
Table 3.10-1 CCDF trace setting messages (Cont’d)
Command Query Response
--FETC:CCDF?
When Result Mode is B: mean_power,mean_power_prob,r el_ampl_1, rel_ampl_2,rel_ampl_3,rel_am pl_4,rel_ampl_5,rel_ampl_6,c rest,count (n=1 or when omitted.)
[CCDF] meas_per_1,meas_per_2,... meas_per_5001
[APD] meas_per_1,meas_per_2,... meas_per_10001 (n=2) gauss_per_1,gauss_per_2,...g
uass_per_5001 (n=3)
[CCDF] ref_per_1,ref_per_2,...ref_p
er_5001
[APD] ref_per_1,ref_per_2,...ref_p
er_10001 (n=4)
Remarks ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.11 Spectrogram Trace Settings
Table 3.11-1 lists device messages for setting Spectrogram trace.
Function
Level Full Scale
Resolution Bandwidth
Detection
Active Marker
Marker Mode
Time Marker Position
Marker Frequency
Marker Width (Grid)
Couple Time Marker 1 and 2
Zone Width Type
Table 3.11-1 Spectrogram trace setting messages
Command Query Response
DISP:WIND:TRAC:Y:PDI
V:RANG rel_ampl
RB bandwidth
RB AUTO
DET mode
MKACT marker
MKR mode,marker
CALC:TMAR:X n,time
MKZF freq,marker
MKW width,marker
CALC:TMAR:COUP:ZONE switch_com
DISP:WIND:TRAC:Y:PDI
V:RANG?
RB? rel_ampl bandwidth
DET?
MKACT?
MKR? marker mode marker mode
CALC:TMAR:X? n
MKZF? marker
MKW? marker time freq width
CALC:TMAR:COUP:ZONE? switch_res
CALC:MARK:WIDT:TYPE marker,type
CALC:MARK:WIDT:TYPE? marker type
Remarks mode : Detection mode
= POS | NEG | AVG marker : Marker Name mode : Marker mode marker : Marker Name marker : Marker Name marker : Marker Name switch_com :
= ON|OFF|1|0 marker : Marker Name type : Marker width type
= ZONE|SPOT
Function
Marker Result
Marker to Center Freq
Marker to Reference Level
Marker Query
Analyze with Spectrum Trace
Return To Spectrogram
Storage Mode
Storage Count
Query Trace Data
Trace Point Query
Time Trace Point Query
Time Marker Peak Query
Table 3.11-1 Spectrogram trace setting messages (Cont’d)
Command Query Response
MKLTYPE type_com MKLTYPE? type_res
MKCF
MKRL
---
CALC:ANAL:SPEC
CALC:ANAL:SPGR
STORAGEMODE mode
---
---
MKL? 1
MKL? 2
---
---
STORAGEMODE?
---
--- l
1 l
2
---
--- mode
STORAGECOUNT count STORAGECOUNT?
--- TRAC? start,length
---
---
---
FDPNT?
TDPNT? count data_1,data_2,... point point
CALC:TMAR:PEAK:X? n time
Remarks type_com : Marker result
= INT |TOTAL|DENS|AVG|
PEAK|PACC mode : Storage mode
= OFF | MAX | LINAVG | MIN ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.12 DigRF 3G Measurement Settings
Table 3.12-1 lists device messages for the DigRF 3G measurement settings.
Function
Terminal Change
Target System
AD Full Range
I/Q Sign
Measurement Channel
Capture Sample Length
Analysis Start Sample
Analysis Sample Length
Note:
The DigRF 3G is not available only when the MS269x Series Option 040/140 Baseband Interface Unit is not installed or the software package is Ver.6.00.00 or later; it is not supported by MS2830A and MS2840A.
Table 3.12-1 DigRF 3G measurement settings
Command
FEED terminal
DIGR:TARG communication
DIGR:ADR volt
FEED?
Query
DIGR:TARG?
DIGR:ADR? volt
Response terminal communication
DIGR:IQS iq_sign DIGR:IQS? iq_sign
DIGR:MEAS channel
SWE:SAMP point
CALC:ATIM:STAR:SAMP point
CALC:ATIM:LENG:SAMP point
DIGR:MEAS?
SWE:SAMP? channel point
CALC:ATIM:STAR:SAMP? point
CALC:ATIM:LENG:SAMP? point
Remarks terminal = RF | DIGRF3G communication = WCDMA | GSM volt : Voltage iq_sign
= SIGN | TWOC channel : Measurement Channel
= PRIM | DIV point : Capture Sample Count point : Analysis Sample Point point : Analysis Sample Length
Function
Input Source
Result Delay Query
Vertical Scale Center
Smoothing Sample Length
Marker Unit
Table 3.12-1 DigRF3G measurement settings (Cont’d)
Command Query Response
CALC:IQD source CALC:IQD? source
---
DISP:WIND:TRAC:Y:CVO
L voltage
CALC:SMO:LENG:SAMP sample
CALC:TRIG:DIGR:DEL? sample
DISP:WIND:TRAC:Y:CVO
L? voltage
CALC:SMO:LENG:SAMP? sample
UNIT:TMAR unit UNIT:TMAR? unit
Remarks source : Input Source
= COMP | I | Q voltage : Scale setting value sample : Smoothing sample length unit : Unit of Marker value
= SAMP | SEC ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.13 Waveform Data Saving Function Settings
Table 3.13-1 lists device messages for setting the waveform data saving function.
Function
Table 3.13-1 Waveform data saving function setting messages
Command Query Response
Save Captured Data DGTZ file,device --- ---
Cancel Execute Digitize DGTZCANCEL
Output Rate for Save Captured Data DGTZRATE rate
Time Range
MMEM:STOR:IQD:MODE mode
Start Time
Start Sample
Time Length
Sample Length
Save Wave Data
---
DGTZRATE?
--- rate
MMEM:STOR:IQD:MODE? mode
MMEM:STOR:IQD:STAR time
MMEM:STOR:IQD:STAR:S
AMP sample
MMEM:STOR:IQD:STAR? time
MMEM:STOR:IQD:STAR:S
AMP? sample
MMEM:STOR:IQD:LENG time
MMEM:STOR:IQD:LENG:S
AMP sample
MMEM:STOR:IQD:LENG? time
MMEM:STOR:IQD:LENG:S
AMP?
MMEM:STOR:TRAC trace
[,filename[,device]] --- sample
---
Remarks
File: File name
Device: Drive name
= A | B | D | E | ... rate: Output rate mode : Saving range
= FULL|ATIM|MAN time : Start position sample : Start sample position time : Time length sample : Sample length trace : Trace to save
= TRAC1|ALL
3.14 Replay Function Settings
Table 3.14-1 lists device messages for setting the Replay function.
Stop Replay
Function
Execute Replay
Command
Table 3.14-1 Replay function settings
Query
MMEM:LOAD:IQD:STOP
MMEM:LOAD:IQD filename,device,appl ication
---
---
---
---
Response
Replaying File Information Query --- MMEM:LOAD:IQD:INF? filename,start_time, time_length
Replay Execute Query
Replay Filename Query
---
--- switch filename
Remarks filename : File name device : Drive name application : Application name filename : File name start_time : Data start time time_length : Data time length
Switch Replay function On/Off state
= 1|0 filename : File name
Replay Device Query
Replay Application Query
Replay Start Time Query
Replay Time Length Query
Replay Level Over Query
---
---
---
---
---
MMEM:LOAD:IQD:INF:ST
AT?
MMEM:LOAD:IQD:INF:FI
LE?
MMEM:LOAD:IQD:INF:DE
V?
MMEM:LOAD:IQD:INF:AP
PL?
MMEM:LOAD:IQD:INF:ST
AR?
MMEM:LOAD:IQD:INF:LE
NG?
MMEM:LOAD:IQD:INF:CO
ND? device application start_time time_length switch device : Drive name application : Application name start_time : Data start time time_length : Data time length switch : Level Over On/Off state =
1|0 ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Replay Error Query
Replay Correction Query
Replay External Reference
Query
---
---
---
Table 3.14-1 Replay function settings (Cont’d)
Command Query
MMEM:LOAD:IQD:INF:ER
R?
MMEM:LOAD:IQD:INF:CO
RR? real
Response switch
MMEM:LOAD:IQD:INF:RO
SC? source
Remarks switch : Error icon On/Off state
= 1|0 real : Correction value source : Frequency reference signal source
= INT|INTU|EXT|EXTU
3.15 Sub Trace Settings
Table 3.15-1 lists device messages for setting a sub-trace.
Function
Change Sub Trace
Command
Table 3.15-1 Sub trace settings
Query
CALC:STR:MODE trace CALC:STR:MODE? trace
Response
Sub Trace Detection Mode
Sub Trace Analysis Time
Auto/Manual
Sub Trace Analysis Start Time
Sub Trace Analysis Start Sample
Sub Trace Analysis Time Length
Sub Trace Analysis Sample
Length
Sub Trace Log Scale Level Full
Scale
Sub Trace Linear Scale Level
Full Scale
Sub Trace Resolution Bandwidth
CALC:STR:DET mode
CALC:STR:ATIM:AUTO switch_com
CALC:STR:ATIM:STAR time
CALC:STR:ATIM:STAR:S
AMP integer
CALC:STR:ATIM:LENG time
CALC:STR:ATIM:LENG:S
AMP integer
DISP:WIND:STR:Y:PDIV
:RANG:LOG rel_ampl
DISP:WIND:STR:Y:PDIV
:RANG:LIN percent
CALC:STR:BAND bandwidth
CALC:STR:DET?
CALC:STR:ATIM:STAR? time
CALC:STR:ATIM:STAR:S
AMP? integer
CALC:STR:ATIM:LENG? time
CALC:STR:ATIM:LENG:S
AMP?
DISP:WIND:STR:Y:PDIV
:RANG:LOG?
DISP:WIND:STR:Y:PDIV
:RANG:LIN?
CALC:STR:BAND? integer rel_ampl percent bandwidth mode
CALC:STR:ATIM:AUTO? switch_res
Remarks trace : Trace type
= OFF|PVT|SPGR mode : Detection mode
= NORM|POS|NEG|AVER switch_com :
= ON|OFF|1|0 time : Analysis start time integer : Analysis sample length time : Analysis time length integer : Analysis sample length bandwidth : RBW ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
Function
Sub Trace Resolution Bandwidth
Auto/Manual
Sub Trace Result Delay Query
Table 3.15-1 Sub trace settings (Cont’d)
Command
CALC:STR:BAND:AUTO switch_com
Query Response
CALC:STR:BAND:AUTO? switch_res
---
CALC:STR:TRIG:DIGR:D
EL? sample
Remarks switch_com :
= ON|OFF|1|0
3.16 Reference Signal Settings
Device messages for setting reference signal are shown in Table 3.16-1.
Function
Adjust Reference Clock
Table 3.16-1 Reference signal settings
Command Query
REFCLOCK_ADJUST value REFCLOCK_ADJUST?
REFCLOCK_ADJUST
PRESET
--- value
Response
---
Remarks value : Adjustment value ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.17 Power Adjustment
The device message for setting power adjustment are shown in Table 3.17-1.
Function
Measure Power Adjust
Table 3.17-1 Power adjustment settings
Command Query
MEA:POW? span,length,sg_start
_level,sg_max_level, target,range[,freque ncy [,count
[,adjust_log]
[,sg_offset_switch]]
]]
Response judge,sa_input,sg_ou tput,count_res,time, sa_input_log_n, sg_output_log_n,coun t_log_n
Remarks
3.18 Other Settings
Table 3.18-1 lists device messages for other settings.
Function
Erase Warm Up Message
Display Title
Entry Title Character
Captured Data Query
Binary Data Byte Order
Numeric Data Format
Command
ERASEWUP
TTL on_off
TITLE string
---
Table 3.18-1 Other setting messages
FORM:BORD border
---
TTL?
TITLE?
Query Response
--- on_off string
DATA? start,length
FORM:BORD?
(Only when REAL,32 is set to FORM)
FORM? datai_1,dataq_1,data i_2,dataq_2,...
(When ASCii, 0 is set to
FORM)
#ab<b bytes of data>
(When REAL, 32 is set to
FORM) border
(Only when REAL,32 is set to FORM) format,length
Remarks string: Character string to be displayed
FORM format,length ist ist ge L ge L essa essa e M e M evic evic ive D ive D Nat Nat
3.19 Setting External Mixer
Table 3.19-1 lists the device messages related to External Mixer settings.
Function
Mixer Mode
External Mixer Band Select
Table 3.19-1 External Mixer Settings
Command Query
MXRMODE mode
FULBAND band
MXRMODE?
FULBAND? mode band
Response
External Mixer Bias MBIAS bias MBIAS? bias
External Mixer Conversion Loss CNVLOSS power CNVLOSS? power
Remarks mode : Mixer mode
=EXT | INT band : External mixer band bias : External mixer’s bias current
Range : 0.1 to 20.0 mA power : Conversion Loss of
External Mixer
Range : 0.00 to 99.99 dB
Chapter 4 Native Device Message Details
This chapter describes detailed specifications on Native remote control commands for executing functions of this application in alphabetical order. Refer to the MS2690A/MS2691A/MS2692A and
MS2830A/MS2840A Signal Analyzer Operation Manual (Mainframe
Remote Control) for detailed specifications on IEEE488.2 common device messages and application common device messages.
AANLY/AANLY? ...................................................................... 4-7
ACAP/ACAP? .......................................................................... 4-8
ADJCARRIERCNT/ADJCARRIERCNT? ................................ 4-9
ADJCARRIERNUM/ADJCARRIERNUM? ............................. 4-10
ADJCARRIERSPAC/ADJCARRIERSPAC? ......................... 4-11
ADJCHBW/ADJCHBW?........................................................ 4-12
ADJCHSLCT/ADJCHSLCT? ................................................. 4-13
ADJCHSP/ADJCHSP?.......................................................... 4-14
ADJFILTERTYPE/ADJFILTERTYPE? .................................. 4-15
ADJINBW/ADJINBW? ........................................................... 4-16
ADJPWRTYPE/ADJPWRTYPE? .......................................... 4-17
ADJROF/ADJROF? .............................................................. 4-18
AFLTR/AFLTR? .................................................................... 4-19
AM/AM? ................................................................................ 4-20
ANLYFREQRANGE? ............................................................ 4-21
ANLYLEN/ANLYLEN? .......................................................... 4-22
ANLYST/ANLYST? ............................................................... 4-23
AT/AT? .................................................................................. 4-24
AUNITS/AUNITS? ................................................................. 4-25
BNDSP/BNDSP? .................................................................. 4-26
CAL .................................................................................... 4-27
CALC .................................................................................... 4-28
CALC:ANAL:SPEC ............................................................... 4-29
CALC:ANAL:SPGR ............................................................... 4-29
CALC:ATIM:GMOD/CALC:ATIM:GMOD? ............................ 4-30
CALC:ATIM:GMOD:PER/CALC:ATIM:GMOD:PER? ........... 4-31
CALC:ATIM:GMOD:RANG:STAT/CALC:ATIM:GMOD:
RANG:STAT? ............................................................. 4-32
CALC:ATIM:GMOD:RANG:STAR/CALC:ATIM:GMOD:
RANG:STAR? ............................................................. 4-33
CALC:ATIM:GMOD:RANG:STOP/CALC:ATIM:GMOD:
RANG:STOP? ............................................................. 4-34
CALC:ATIM:LENG:SAMP/CALC:ATIM:LENG:SAMP? ........ 4-35
CALC:ATIM:STAR:SAMP/CALC:ATIM:STAR:SAMP? ......... 4-36
CALC:CCDF:MODE/CALC:CCDF:MODE? .......................... 4-37
4
4-1
Chapter 4 Native Device Message Details
CALC:CCDF:COUN/CCDF:COUN? ..................................... 4-38
CALC:CCDF:STOR:REF ...................................................... 4-39
CALC:CCDF:THR:STAT/CALC:CCDF:THR:STAT? ............ 4-39
CALC:IQD/CALC:IQD? ......................................................... 4-40
CALC:MARK:AOFF ............................................................... 4-41
CALC:MARK:COUP:ZONE/CALC:MARK:COUP:ZONE? .... 4-41
CALC:MARK:PEAK:SORT:COUN/CALC:MARK:PEAK:
SORT:COUN? ............................................................ 4-42
CALC:MARK:PEAK:SORT:X ................................................ 4-43
CALC:MARK:PEAK:SORT:Y ................................................ 4-44
CALC:MARK:READ? ............................................................ 4-45
CALC:MARK:REF/CALC:MARK:REF? ................................. 4-47
CALC:MARK:SLIN/CALC:MARK:SLIN? ............................... 4-48
CALC:MARK:TABL/CALC:MARK:TABL? ............................. 4-49
CALC:MARK:WIDT:TYPE/CALC:MARK:WIDT:TYPE? ........ 4-50
CALC:MARK:X/CALC:MARK:X? .......................................... 4-51
CALC:MARK:X:DELT/CALC:MARK:X:DELT? ...................... 4-55
CALC:MARK:Y:DELT? ......................................................... 4-58
CALC:MARK:Y:PHAS? ......................................................... 4-61
CALC:PHAS:STAT/CALC:PHAS:STAT? .............................. 4-63
CALC:MARK:Y:PHAS? ......................................................... 4-64
CALC:SMO:LENG:SAMP/CALC:SMO:LENG:SAMP? ......... 4-66
CALC:STR:ATIM:AUTO/CALC:STR:ATIM:AUTO? .............. 4-67
CALC:STR:ATIM:LENG/CALC:STR:ATIM:LENG? .............. 4-68
CALC:STR:ATIM:LENG:SAMP/CALC:STR:ATIM:LENG:
SAMP? ........................................................................ 4-69
CALC:STR:ATIM:STAR/CALC:STR:ATIM:STAR? ............... 4-70
CALC:STR:ATIM:STAR:SAMP/CALC:STR:ATIM:STAR:
SAMP? ........................................................................ 4-71
CALC:STR:BAND/CALC:STR:BAND? ................................. 4-72
CALC:STR:BAND:AUTO/CALC:STR:BAND:AUTO? ........... 4-73
CALC:STR:DET/CALC:STR:DET? ....................................... 4-74
CALC:STR:MODE/CALC:STR:MODE? ................................ 4-75
CALC:STR:TRIG:DIGR:DEL? ............................................... 4-76
CALC:TMAR:COUP:ZONE/CALC:TMAR:COUP:ZONE? .... 4-77
CALC:TMAR:PEAK:X? ......................................................... 4-78
CALC:TMAR:X/CALC:TMAR:X? ........................................... 4-79
CALC:TRIG:DIGR:DEL? ....................................................... 4-80
CAPLN/CAPLN? ................................................................... 4-81
CCDF:COUN/CCDF:COUN? ................................................ 4-82
CCDF:GAUS/CCDF:GAUS? ................................................. 4-83
CCDF:RTR/CCDF:RTR? ...................................................... 4-84
CHPWRCENTER/CHPWRCENTER? .................................. 4-85
CHPWRFLTRTYP/CHPWRFLTRTYP? ................................ 4-86
4-2
Chapter 4 Native Device Message Details
CHPWRROF/CHPWRROF? ................................................. 4-87
CHPWRWIDTH/CHPWRWIDTH? ........................................ 4-88
CNF/CNF? ............................................................................ 4-89
CNVLOSS/CNVLOSS? ......................................................... 4-91
CONF:AM .............................................................................. 4-92
CONF:FM .............................................................................. 4-92
CONF:FMCW ........................................................................ 4-93
CONF:SAN ............................................................................ 4-93
CONTS .................................................................................. 4-94
DATA? ................................................................................... 4-95
DET/DET? ............................................................................. 4-99
DETMODE/DETMODE? ..................................................... 4-100
DGTZ .................................................................................. 4-101
DGTZCANCEL .................................................................... 4-102
DGTZRATE/DGTZRATE? .................................................. 4-102
DIGR:ADR/DIGR:ADR? ...................................................... 4-104
DIGR:IQS/DIGR:IQS? ......................................................... 4-105
DIGR:MEAS/DIGR:MEAS? ................................................. 4-106
DIGR:TARG/DIGR:TARG? ................................................. 4-107
DISP:WIND:STR:Y:PDIV:RANG:LIN/DISP:WIND:STR:Y:
PDIV:RANG:LIN? ..................................................... 4-108
DISP:WIND:STR:Y:PDIV:RANG:LOG/DISP:WIND:STR:Y:
PDIV:RANG:LOG? ................................................... 4-109
DISP:WIND:TRAC:Y:CVOL/DISP:WIND:TRAC:Y:CVOL? . 4-110
DISP:WIND:TRAC:Y:PDIV:RANG/DISP:WIND:TRAC:Y:
PDIV:RANG? ............................................................ 4-111
DISTSCALE/DISTSCALE? ................................................. 4-112
DTCNT? .............................................................................. 4-113
ERASEWUP ........................................................................ 4-113
ESE2/ESE2? ....................................................................... 4-114
ESE3/ESE3? ....................................................................... 4-115
ESR2? ................................................................................. 4-116
ESR3? ................................................................................. 4-117
FDPNT? .............................................................................. 4-118
FEED/FEED? ...................................................................... 4-119
FETC:AM? .......................................................................... 4-120
FETC:CCDF? ...................................................................... 4-121
FETC:FM? ........................................................................... 4-126
FETC:FMCW? ..................................................................... 4-127
FLTRBW/FLTRBW? ............................................................ 4-128
FLTROFS/FLTROFS? ........................................................ 4-129
FLTRTYP/FLTRTYP? ......................................................... 4-130
FM/FM? ............................................................................... 4-131
FMCW/FMCW? ................................................................... 4-132
4-3
4
Chapter 4 Native Device Message Details
FORM/FORM? .................................................................... 4-133
FORM:BORD/FORM:BORD? ............................................. 4-135
FREQ:CENT:STEP/FREQ:CENT:STEP?........................... 4-136
FREQ:SYNT/FREQ:SYNT? ................................................ 4-138
FREQ:SYNT:LPH:STAT? ................................................... 4-139
FULBAND/FULBAND? ....................................................... 4-140
FUNITS/FUNITS? ............................................................... 4-141
INI .................................................................................. 4-141
INIT:AM ............................................................................... 4-142
INIT:FM ............................................................................... 4-142
INIT:FMCW ......................................................................... 4-143
LINSCALEDIV/LINSCALEDIV? .......................................... 4-143
LOADSTD/LOADSTD? ....................................................... 4-144
LOGSCALEDIV/LOGSCALEDIV? ...................................... 4-150
MADJMOD/MADJMOD? ..................................................... 4-151
MBIAS/MBIAS? ................................................................... 4-152
MEAS/MEAS? ..................................................................... 4-153
MEAS:AM? .......................................................................... 4-154
MEAS:FM? .......................................................................... 4-154
MEAS:FMCW? .................................................................... 4-154
MEAS:POW? ...................................................................... 4-155
MKACT/MKACT? ................................................................ 4-160
MKAXIS/MKAXIS? .............................................................. 4-161
MKCF .................................................................................. 4-162
MKF? .................................................................................. 4-163
MKL? .................................................................................. 4-164
MKLTYPE/MKLTYPE? ....................................................... 4-166
MKP/MKP? .......................................................................... 4-167
MKPK .................................................................................. 4-170
MKPX/MKPX? ..................................................................... 4-171
MKR/MKR? ......................................................................... 4-173
MKRL .................................................................................. 4-174
MKW/MKW? ........................................................................ 4-175
MKZF/MKZF? ...................................................................... 4-176
MMEM:LOAD:IQD ............................................................... 4-178
MMEM:LOAD:IQD:INF? ...................................................... 4-179
MMEM:LOAD:IQD:INF:APPL? ........................................... 4-180
MMEM:LOAD:IQD:INF:COND? .......................................... 4-180
MMEM:LOAD:IQD:INF:CORR? .......................................... 4-181
MMEM:LOAD:IQD:INF:DEV? ............................................. 4-181
MMEM:LOAD:IQD:INF:ERR? ............................................. 4-182
MMEM:LOAD:IQD:INF:FILE? ............................................. 4-182
MMEM:LOAD:IQD:INF:LENG? ........................................... 4-183
MMEM:LOAD:IQD:INF:ROSC? .......................................... 4-183
4-4
Chapter 4 Native Device Message Details
MMEM:LOAD:IQD:INF:STAR? ........................................... 4-184
MMEM:LOAD:IQD:INF:STAT? ........................................... 4-184
MMEM:LOAD:IQD:STOP .................................................... 4-185
MMEM:STOR:IQD:LENG/MMEM:STOR:IQD:LENG? ........ 4-185
MMEM:STOR:IQD:LENG:SAMP/MMEM:STOR:IQD:
LENG:SAMP? ........................................................... 4-186
MMEM:STOR:IQD:MODE/MMEM:STOR:IQD:MODE? ...... 4-187
MMEM:STOR:IQD:STAR/MMEM:STOR:IQD:STAR? ........ 4-188
MMEM:STOR:IQD:STAR:SAMP/MMEM:STOR:IQD:
STAR:SAMP? ........................................................... 4-189
MMEM:STOR:TRAC ........................................................... 4-190
MMETHOD/MMETHOD? .................................................... 4-191
MOBW/MOBW? .................................................................. 4-192
MSTAT? .............................................................................. 4-193
MXRMODE/MXRMODE? ................................................... 4-194
MZWF/MZWF? .................................................................... 4-195
NOISECANCEL/NOISECANCEL? ..................................... 4-197
OBWN/OBWN? ................................................................... 4-198
OBWXDB/OBWXDB? ......................................................... 4-199
PEAKTOPEAK/PEAKTOPEAK? ......................................... 4-200
PEAKTOPEAKRES?........................................................... 4-201
POW:MW:PRES/POW:MW:PRES? ................................... 4-202
PRE .................................................................................. 4-203
PREAMP/PREAMP? ........................................................... 4-203
PRESEL/PRESEL? ............................................................. 4-204
PROBPWR? ........................................................................ 4-205
RB/RB? ............................................................................... 4-206
READ:AM? .......................................................................... 4-207
READ:FM? .......................................................................... 4-207
READ:FMCW? .................................................................... 4-207
REFCLOCK_ADJUST/REFCLOCK_ADJUST? .................. 4-208
RES? .................................................................................. 4-209
RLV/RLV? ........................................................................... 4-213
ROF/ROF? .......................................................................... 4-214
ROFFSET/ROFFSET?........................................................ 4-215
ROFFSETMD/ROFFSETMD? ............................................ 4-216
RSTEVRYCAP/RSTEVRYCAP? ........................................ 4-217
SCALELINES/SCALELINES? ............................................. 4-218
SCALEMODE/SCALEMODE? ............................................ 4-219
SELECTSTD/SELECTSTD? ............................................... 4-220
SMMLYPWR? ..................................................................... 4-221
SMOOTH/SMOOTH?.......................................................... 4-222
SMOOTHLN/SMOOTHLN? ................................................ 4-223
SMPLRATE? ....................................................................... 4-224
4-5
4
Chapter 4 Native Device Message Details
SNGLS ................................................................................ 4-224
SOF/SOF? .......................................................................... 4-225
SPF/SPF? ........................................................................... 4-227
SRCHTH/SRCHTH? ........................................................... 4-230
SRCHTHLVL/SRCHTHLVL? .............................................. 4-231
STF/STF? ............................................................................ 4-233
STOP .................................................................................. 4-235
STORAGECOUNT/STORAGECOUNT? ............................ 4-236
STORAGEMODE/STORAGEMODE? ................................ 4-237
SWE:SAMP/SWE:SAMP? .................................................. 4-238
SWEEPCOUNT? ................................................................ 4-239
TDLY/TDLY? ....................................................................... 4-240
TDPNT? .............................................................................. 4-241
THRSHLD/THRSHLD? ....................................................... 4-242
TITLE/TITLE? ...................................................................... 4-243
TRAC? ................................................................................ 4-244
TRAC:NEG? ........................................................................ 4-246
TRCCHG/TRCCHG? .......................................................... 4-248
TRGLVL/TRGLVL? ............................................................. 4-249
TRGS/TRGS? ..................................................................... 4-250
TRGSLP/TRGSLP? ............................................................ 4-251
TRGSOURCE/TRGSOURCE? ........................................... 4-252
TRIG:FRAM:OFFS/TRIG:FRAM:OFFS? ............................ 4-253
TRIG:FRAM:PER/TRIG:FRAM:PER? ................................. 4-254
TRIG:FRAM:SYNC/TRIG:FRAM:SYNC? ........................... 4-255
TRIG:HOLD/TRIG:HOLD? .................................................. 4-256
TRIG:HOLD:STAT/TRIG:HOLD:STAT? ............................. 4-257
TTL/TTL? ............................................................................ 4-258
UNIT:TMAR/UNIT:TMAR? .................................................. 4-259
ZMCNT/ZMCNT? ................................................................ 4-260
ZMWDTH/ZMWDTH? ......................................................... 4-261
ZOOM ................................................................................. 4-262
ZOOMOUT .......................................................................... 4-263
4-6
Chapter 4 Native Device Message Details
AANLY/AANLY?
Analysis Time Auto/Manual
Function
This command selects Auto/Manual mode for the Analysis Time of the main trace.
Command
AANLY auto_manual
Query
AANLY?
Response auto_manual
Parameter auto_manual
AUTO
MANUAL
Auto/Manual mode of Analysis Time
Auto
Manual
Details
Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) or MS2830A/MS2840A
Signal Analyzer Operation Manual (Signal Analyzer function Operation) for automatic setting operation.
Example of Use
To set the Analysis Time of the main trace manually.
AANLY MANUAL
4
4-7
Chapter 4 Native Device Message Details
ACAP/ACAP?
Capture Time Auto/Manual
Function
This command selects Auto/Manual mode for the waveform capture time of the active trace.
Command
ACAP auto_manual
Query
ACAP?
Response auto_manual
Parameter
Details auto_manual
AUTO
MANUAL
Auto/manual mode of capture time
Auto
Manual
When set to AUTO, the minimum waveform capture time required for measurement is set.
This command is not available while the Replay function is being executed.
Example of Use
To set the waveform Capture Time automatically.
ACAP AUTO
4-8
Chapter 4 Native Device Message Details
ADJCARRIERCNT/ADJCARRIERCNT?
ACP In Band Center
Function
This command sets the In Band center frequency for Adjacent Channel
Power measurement.
Command
ADJCARRIERCNT freq
Query
ADJCARRIERCNT?
Response freq
Returns a value in Hz units without a suffix code.
Parameter freq
Range
Resolution
Suffix code
In Band center frequency
125 MHz centered at the center frequency of
waveform capture
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set In Band center frequency to 12.3 MHz.
ADJCARRIERCNT 12300000
4
4-9
Chapter 4 Native Device Message Details
ADJCARRIERNUM/ADJCARRIERNUM?
ACP Carrier Number
Function
This command sets the carrier number for Adjacent Channel Power measurement.
Command
ADJCARRIERNUM n
Query
ADJCARRIERNUM?
Response n
Returns a value without a suffix code.
Parameter n
Range
Resolution
Suffix code
Carrier Number
1 to 12
1
None
Details
This command is available when the following trace is active:
• Spectrum
This command is not available when ACP Reference is set to the following:
• Span Total
Example of Use
To set the carrier number to 12.
ADJCARRIERNUM 12
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Chapter 4 Native Device Message Details
ADJCARRIERSPAC/ADJCARRIERSPAC?
ACP Carrier Spacing
Function
This command sets the frequency interval among carriers for Adjacent
Channel Power measurement.
Command
ADJCARRIERSPAC freq
Query
ADJCARRIERSPAC?
Response freq
Returns a value in Hz units without a suffix code.
Parameter freq
Range
Resolution
Suffix code
Frequency interval among carriers
0 to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following trace is active:
• Spectrum
This command is not available when ACP Reference is set to the following:
• Span Total
Example of Use
To set the interval among carriers to 12.3 MHz.
ADJCARRIERSPAC 12300000
4
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Chapter 4 Native Device Message Details
ADJCHBW/ADJCHBW?
ACP Offset Channel BW
Function
This command sets the bandwidth of the Offset Channel for Adjacent
Channel Power measurement.
Command
ADJCHBW freq
Query
ADJCHBW?
Response freq
Returns a value in Hz units without a suffix code.
Parameter freq
Range
Resolution
Suffix code
Offset Channel bandwidth for Adjacent Channel
Power measurement
1 Hz to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the Offset Channel bandwidth to 3.84 MHz.
ADJCHBW 3840000
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Chapter 4 Native Device Message Details
ADJCHSLCT/ADJCHSLCT?
ACP Channel Select
Function
This command selects the target Offset Channel for Adjacent Channel
Power measurement.
Command
ADJCHSLCT ch,on_off
Query
ADJCHSLCT? ch
Response on_off
Parameter ch
1
2
3
Target Offset Channel for measurement
Offset Channel 1
Offset Channel 2
Offset Channel 3 on_off
ON
OFF
Measurement ON/OFF
To be measured
Not measured
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set Offset Channel 2 for the measurement target.
ADJCHSLCT 2,ON
4
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Chapter 4 Native Device Message Details
ADJCHSP/ADJCHSP?
ACP Offset Frequency
Function
This command sets the Offset Frequency of the Offset Channel for
Adjacent Channel Power measurement.
Command
ADJCHSP ch,freq
Query
ADJCHSP? ch
Response freq
Returns a value in Hz units without a suffix code.
Parameter ch
1
2
3 freq
Range
Resolution
Suffix code
Target offset channel for measurement
Offset Channel 1
Offset Channel 2
Offset Channel 3
Offset frequency for ACP measurement
− 125 to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the offset frequency of Offset Channel 1 to 50 MHz.
ADJCHSP 1,50000000
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Chapter 4 Native Device Message Details
ADJFILTERTYPE/ADJFILTERTYPE?
ACP Filter Type
Function
This command sets the In Band filter or filter type of the Offset Channel for Adjacent Channel Power measurement.
Command
ADJFILTERTYPE filter,target
Query
ADJFILTERTYPE? target
Response filter filter,filter
(When the target is omitted: The former indicates the offset channel filter and the latter the In Band filter.)
Parameter filter
RECT
NYQUIST
ROOTNYQUIST target
INBAND
OFFSET
When omitted:
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter
Filter to be set
Sets the In Band filter.
Sets the offset channel filter.
Applies the same filter type to both the In Band and offset channel filters.
4
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the Offset Channel filter type to Nyquist.
ADJFILTERTYPE ROOTNYQUIST,OFFSET
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Chapter 4 Native Device Message Details
ADJINBW/ADJINBW?
ACP Carrier BW
Function
This command sets the carrier measurement bandwidth for Adjacent
Channel Power measurement.
Command
ADJINBW freq
Query
ADJINBW?
Response freq
Returns a value in Hz units without a suffix code.
Parameter freq
Range
Resolution
Suffix code
Carrier measurement bandwidth
1 to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following trace is active:
• Spectrum
This command is not available when ACP Reference is set to the following:
• Span Total
Example of Use
To set the carrier measurement bandwidth to 3.84 MHz.
ADJINBW 3840000
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Chapter 4 Native Device Message Details
ADJPWRTYPE/ADJPWRTYPE?
ACP Power Result Type
Function
This command switches the result display type for Adjacent Channel
Power measurement.
Command
ADJPWRTYPE mode
Query
ADJPWRTYPE?
Response mode
Parameter mode
CARRIER
OFFSET
Result display type
Sets the result display for Adjacent Channel
Power measurement to Carrier Power.
Sets the result display for Adjacent Channel
Power measurement to Offset Channel Power.
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the result display for Adjacent Channel Power measurement to
Carrier Power.
ADJPWRTYPE CARRIER
4
4-17
Chapter 4 Native Device Message Details
ADJROF/ADJROF?
ACP Rolloff Factor
Function
This command sets the rolloff ratio of the In Band filter and/or Offset
Channel filter for Adjacent Channel Power measurement.
Command
ADJROF ratio,target
Query
ADJROF? target
Response ratio ratio,ratio
(When the target is omitted: The former indicates the offset channel filter rolloff ratio, and the latter the In Band filter rolloff ratio.)
Parameter
Details
Example of Use ratio
Range
Resolution target
INBAND
OFFSET
When omitted:
Filter rolloff ratio
0.01 to 1.00
0.01
Setting target
Sets the rolloff ratio of In Band filter.
Sets the rolloff ratio of Offset Channel filter.
Applies the same rolloff ratio to both the In
Band and offset channel filters.
This command is available when the following trace is active:
• Spectrum
This command is available when the target ACP filter type is set to either of the following:
• Nyquist
• Root Nyquist
The In Band filter rolloff ratio cannot be set when ACP Reference is set to the following:
• Span Total
To set the filter rolloff ratio to 0.13.
ADJROF 0.13
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Chapter 4 Native Device Message Details
AFLTR/AFLTR?
Filter Auto/Manual
Function
Command
Query
Response
Parameter
Details
Example of Use
This command switches between auto and manual for filter bandwidth.
AFLTR auto_manual
AFLTR? auto_manual auto_manual
AUTO
MANUAL
Auto/manual filter bandwidth setting
Sets filter bandwidth automatically
Sets filter bandwidth manually
This command is available when the following trace is active:
• Frequency vs Time
To set filter bandwidth automatically.
AFLTR AUTO
4
4-19
Chapter 4 Native Device Message Details
AM/AM?
Measure AM Depth
Function
Command
Query
Response
Parameter
Details
Example of Use
This command performs the AM Depth measurement.
AM switch_com
AM? switch_res switch_com
ON
1
OFF
0 switch_res
1
0
AM Depth measurement On/Off
Sets AM Depth measurement to On.
Same as above
Sets AM Depth measurement to Off.
Same as above
AM Depth measurement On/Off
On
Off
This command is available when the following trace is active:
• Power vs Time
To set the AM Depth measurement to On.
AM ON
AM?
> 1
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Chapter 4 Native Device Message Details
ANLYFREQRANGE?
Maximum Frequency Range Query
Function
This command queries the maximum value of the frequency display range.
Query
ANLYFREQRANGE?
Response freq
No suffix code. Value is returned in Hz units.
Details
This command is available when the following trace is active:
• Frequency vs Time
Example of Use
To query the maximum value of the frequency display range.
ANLYFREQRANGE?
4
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Chapter 4 Native Device Message Details
ANLYLEN/ANLYLEN?
Analysis Time Length
Function
This command sets the analysis time length for the main trace.
Command
ANLYLEN time
Query
ANLYLEN?
Response time
No suffix code. Value is returned in ms units.
Parameter time
Range and resolution
Analysis time length
Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation Manual (Signal
Analyzer function Operation) for details.
Suffix code NS,US,MS,S
Details
This command is not available in the following cases:
• When the Analysis Start Time is set to the maximum value.
• When Terminal is DigRF 3G (only for MS269x Series).
Example of Use
To set the Analysis Time length for the main trace to 12 ms.
ANLYLEN 12
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Chapter 4 Native Device Message Details
ANLYST/ANLYST?
Analysis Start Time
Function
This command sets the Analysis Start Time for the main trace.
Command
ANLYST time
Query
ANLYST?
Response time
Returns a value in ms units without a suffix code.
Parameter time
Range and resolution
Start time
Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation Manual (Signal
Analyzer function Operation) for details.
Suffix code NS,US,MS,S
ms is used when omitted.
Details
This command is not available in the following cases:
• When the Analysis Start Time is set to the maximum value.
• When Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To set the analysis start time to 12 ms.
ANLYST 12
4
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Chapter 4 Native Device Message Details
AT/AT?
Attenuator
Function
This command sets the RF attenuator.
Command
AT att
AT action
Query
AT?
Response att
Returns a value in dB units without a suffix code.
Parameter att
Range
Attenuator value
0 to 60 dB
Resolution
[MS269xA] 2 dB
[MS2830A], [MS2840A]
2 dB or 10 dB
Suffix code
Refer to “Table 2.3.2-3 Resolution of Input
Attenuator” in the MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
DB, dB is used even when omitted. action
AUTO
UP
DN
Changes RF attenuator settings
Automatically set according to the reference levels and other settings.
Increases 1 step
Decreases 1 step
Details
This command is not available in the following cases:
• When the Analysis Time Length is set to the maximum value.
• When Terminal is DigRF 3G (only for MS269x Series).
• When the Replay function is being executed.
Example of Use
To set the attenuator to 30 dB.
AT 30
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Chapter 4 Native Device Message Details
AUNITS/AUNITS?
Log Scale Unit
Function
This command sets the level display unit system at log scale.
Command
Query
Response
Parameter
Details
AUNITS unit
AUNITS? unit unit
DBM
DBUV
DBMV
DBUVE
DBUVM
V
W
Level display unit system at log scale dBm dBµV dBmV dBµV (emf) dBµV/m
V
W
This command is available when Scale Mode is set to Log.
If V (W) is selected and a measurement result is 99.999 GV (GW) or more,
99.999 GV (GW) or more is displayed.
4
Example of Use
To set the level display unit system at log scale to dBmV.
AUNITS DBMV
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Chapter 4 Native Device Message Details
BNDSP/BNDSP?
Frequency Band Mode
Function
Command
Query
Response
Parameter
Details
Example of Use
This command sets the frequency band path. The frequency at which the path is switched to the preselector band or a path that does not pass through the preselector can be set with this function.
BNDSP mode
BNDSP? mode mode
[MS269xA]
NORMAL
Frequency band mode
SPURIOUS
Sets the frequency to be switched to the preselector band to 6.0 GHz.
Sets the frequency to be switched to the preselector band to 3.0 GHz.
[MS2830A-041/043/044/045], [MS2840A-041/044/046]
NORMAL Sets the frequency to be switched to the
SPURIOUS preselector band to 4.0 GHz.
Sets the frequency to be switched to the preselector band to 3.5 GHz.
This command is not available in the following cases:
[MS269x]
• When using the MS2690A.
• Fixed to NORMAL when the Option 003/103 Extension of Preselector
Lower Limit to 3 GHz is not installed in the MS2691A.
• SPURIOUS cannot be set when the Option 003/103 Extension of
Preselector Lower Limit to 3 GHz is not installed in the MS2691A.
• SPURIOUS cannot be set during bandwidth measurement.
• When Terminal is DigRF 3G (only for MS269x Series).
• When the Replay function is being executed.
[MS2830A], [MS2840A]
• This command is not available when used with the 3.6 GHz Signal
Analyzer option.
To set the frequency to switch to the preselector band to 3.0 GHz.
BNDSP SPURIOUS
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Chapter 4 Native Device Message Details
CAL
Calibration
Function
Command
Parameter
Example of Use
This command executes calibration.
CAL mode mode
ALL
Calibration mode
Executes all calibrations
LEVEL Executes Level CAL
LOLEAK_SUPPRESS Executes local leak suppression
BAND
EXTRABAND
Executes inband calibration
Executes analysis bandwidth calibration within the current frequency.
4
To execute all calibrations.
CAL ALL
4-27
Chapter 4 Native Device Message Details
CALC
Calculate
Function
This command executes waveform analysis without capturing. Used to re-analyze the same captured waveform with different parameters.
Command
CALC
Details
Example of Use
This command can be executed only when the waveform Capture Time
(ACAP command) is set to MANUAL.
When no waveform has captured, or when a parameter that requires re-capturing of the waveform is changed, executes both waveform capturing and analysis.
Other command or query is received while this function is being executed.
If a command that requires re-capturing of a waveform or re-calculation of a trace is received, however, this function is paused during execution of such a command.
Note that this command does not support synchronized control in
Continuous mode.
To obtain ACP measurement results with 0 to 10 ms and 90 to 100 ms for the same IQ data:
TRCCHG SPECTRUM
ACAP MANUAL
Displays Spectrum trace
Sets the waveform capture time
CAPLN 100MS
SNGLS
*WAI
ANLYLEN 10MS
ANLYST 0S
MEAS ADJ
CALC
*WAI
RES?
ANLYLEN 10MS
ANLYST 90MS
MEAS ADJ
CALC
*WAI
RES? manually
Sets the waveform capture time to 100 ms
Obtains IQ data
Waits until end of query
Sets the analysis time length to 10 ms
Sets the analysis start time to 0 s
Sets ACP measurement to ON
Starts analysis
Waits until end of analysis
Obtains ACP measurement result
Sets the analysis time length to 10 ms
Sets the analysis start time to 90 ms
Sets ACP measurement to ON
Starts analysis
Waits until end of analysis
Obtains ACP measurement result.
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Chapter 4 Native Device Message Details
CALC:ANAL:SPEC
Analyze with Spectrum Trace
Function
This command analyzes the range selected in Time 1 and Time 2 by using Spectrum trace.
Command
CALC:ANAL:SPEC
Details
This command is available when the following trace is active:
• Spectrogram
The command is not available when Marker is set to Off.
Example of Use
To analyze the range selected in Time 1 and Time 2 by using Spectrum trace.
CALC:ANAL:SPEC
CALC:ANAL:SPGR
Return To Spectrogram
Function
This command is used to return to Spectrogram trace from Spectrum trace.
Command
CALC:ANAL:SPGR
Details
If you return to Spectrogram by this command after you moved on to
Spectrum by the Analyze with Spectrum Trace command, the same analysis length as in Spectrum is set in Spectrogram.
This command can be set only after the Analyze with Spectrum Trace command has been used. The command cannot be set, if you change the parameter to set the analysis length after you returned to Spectrum.
Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) or MS2830A/MS2840A
Signal Analyzer Operation Manual (Signal Analyzer function Operation) for details.
This command is not available in the following case:
• When Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To return to Spectrogram trace.
CALC:ANAL:SPGR
4
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Chapter 4 Native Device Message Details
CALC:ATIM:GMOD/CALC:ATIM:GMOD?
Gate Mode On/Off
Function
When the main trace is CCDF, this command selects whether or not to use the GateMode for analysis of only the specified section in the
Analysis Time, as well as to read-out.
Command
CALC:ATIM:GMOD switch_com
Query
CALCul:ATIM:GMOD?
Response switch_res
Parameter switch_com
ON|1
OFF|0 switch_res
1
0
Gate Mode On/Off
Sets Gate Mode to On
Sets Gate Mode to Off
Gate Mode: On
Gate Mode: Off
Details
This function can be set when the CCDF trace is active.
Example of Use
To set CCDF Gate Mode to On:
CALC:ATIM:GMOD ON
To query CCDF Gate Mode settings:
CALC:ATIM:GMOD?
> 1
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Chapter 4 Native Device Message Details
CALC:ATIM:GMOD:PER/CALC:ATIM:GMOD:PER?
Period
Function
When GateMode is On, this command sets or queries the Period setting for each range.
Command
CALC:ATIM:GMOD:PER time
Query
CALC:ATIM:GMOD:PER?
Response
Time
No suffix code
Returns the values in s unit
Parameter
<time> Range setting cycle
Range/Resolution Same as Analysis Time length
For details, refer to MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function Operation) or
MS2830A/MS2840A Signal Analyzer Operation Manual (Signal
Analyzer function Operation).
Suffix code NS, US, MS, S,s is used when omitted.
Details
This function can be set when the following trace is active.
• CCDF
• When Gate Mode is On
Example of Use
To set the interval of the CCDF gate mode to 10 ms:
CALC:ATIM:GMOD:PER 10MS
To query the interval of the CCDF gate mode:
CALC:ATIM:GMOD:PER?
> 0.01000000
4
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Chapter 4 Native Device Message Details
CALC:ATIM:GMOD:RANG:STAT/CALC:ATIM:GMOD:RANG:STAT?
Range State
Function
This command sets and queries each range On/Off.
Command
CALC:ATIM:GMOD:RANG:STAT switch_com_1, switch_com_2, switch_com_3
Query
CALC:ATIM:GMOD:RANG:STAT?
Response switch_res_1, switch_res_2, switch_res_3
Parameter switch_com_n
ON|1
OFF|0
Default
Range1
Range2 to 3 switch_res n
1
0
Range n On/Off
Sets Range_n to On
Sets Rnage_n to Off
On
Off
Range_n: On
Range_n: Off
Details
All segments cannot be set to Off.
This function can be set when the CCDF trace is active.
Also, this function can be set when Gate Mode is On.
Example of Use
To set the range On/Off:
CALC:ATIM:GMOD:RANG:STAT ON,ON,OFF
To query the range On/Off:
CALC:ATIM:GMOD:RANG:STAT?
> 1,1,0
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Chapter 4 Native Device Message Details
CALC:ATIM:GMOD:RANG:STAR/CALC:ATIM:GMOD:RANG:STAR?
Range Start Time
Function
This command sets and queries the start time of each range.
Command
CALC:ATIM:GMOD:RANG:STAR <time_n>
Query
CALC:ATIM:GMOD:RANG:STAR?
Response time_1,time_2,time_3
Suffix code none, returns values in S unit
Parameter time_n
Range
Resolution
Suffix code
Default
Start time for each Range
0~(Range setting period (Period)—Resolution)
Same as Analysis Time Length
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
NS, US, MS, S
S is used when the suffix code is omitted.
Range1 to 3 0
Details
This function can be set when the following trace is active.
• CCDF
Also, this function can be set when Gate Mode is On.
Example of Use
To set the start time of each range:
CALC:ATIM:GMOD:RANG:STAR 0,0.006,0.01
To query the start time of each range:
CALC:ATIM:GMOD:RANG:STAR?
> 0.00000000,0.00600000,0.01000000
4
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Chapter 4 Native Device Message Details
CALC:ATIM:GMOD:RANG:STOP/CALC:ATIM:GMOD:RANG:STOP?
Range Stop Time
Function
This command sets and queries the stop time for each range.
Command
CALC:ATIM:GMOD:RANG:STOP time_1,time_2,time_3
Query
CALC:ATIM:GMOD:RANG:STOP?
Response time_1,time_2,time_3
Suffix code none, returns values in S unit
Parameter time_n
Range
Resolution
Stop time for each Range
Resolution to Range setting period (Period)
Same as Analysis Time Length
Suffix code
Default
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
NS, US, MS, S
S is used when the suffix code is omitted.
Range1 to 3 100 ms
Details
This function can be set when the following trace is active.
• CCDF
Also, this function ca be set when Gate Mode is On.
Example of Use
To set the stop time for each range:
CALC:ATIM:GMOD:RANG:STOP 0.001,0.06,0.010
To query the stop time for each range:
:CALC:ATIM:GMOD:RANG:STOP?
> 0.00100000,0.06000000,0.01000000
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Chapter 4 Native Device Message Details
CALC:ATIM:LENG:SAMP/CALC:ATIM:LENG:SAMP?
Analysis Sample Length
Function
This command sets the Analysis Sample Length for main trace when
Terminal is DigRF 3G (only for MS269x Series).
Command
CALC:ATIM:LENG:SAMP point
Query
CALC:ATIM:LENG:SAMP?
Response point
Parameter point
Range
Resolution
Analysis sample length
0 to Capture Time Length − Analysis Start Time
1 sample
Details
This command is not available in the following cases:
• When Terminal is set to RF.
• When Analysis Start Sample is the maximum value.
• When the Replay function is being executed.
Example of Use
To set Analysis Sample Length of the main trace to 15360000.
CALC:ATIM:LENG:SAMP 15360000
4
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Chapter 4 Native Device Message Details
CALC:ATIM:STAR:SAMP/CALC:ATIM:STAR:SAMP?
Analysis Start Sample
Function
This command sets the number of sample to Analysis Start Sample of the main trace when Terminal is DigRF 3G (only for MS269x Series).
Command
CALC:ATIM:STAR:SAMP point
Query
CALC:ATIM:STAR:SAMP?
Response point
Parameter point
Range
Resolution
Analysis start sample
0 to Capture Time Length − Analysis Time
Length
1 sample
Details
This command is not available in the following cases:
• When Input Terminal is RF.
• When Analysis Sample Length is the maximum value.
• When the Replay function is being executed.
Example of Use
To set Analysis Start Sample to 15360000 sample.
CALC:ATIM:STAR:SAMP 15360000
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Chapter 4 Native Device Message Details
CALC:CCDF:MODE/CALC:CCDF:MODE?
CCDF Meas Mode
Function
This command sets or reads the specified measurement method for the
CCDF trace to be measured.
Command
CALC:CCDF:MODE <mode>
Query
CALC:CCDF:MODE?
Response mode
Parameter mode Specified method for CCDF trace to be measured
TIME Analyses Range data specified at Time Length
COUNT Measures until specified data count reached
Details
This function can be set when the following trace is active.
• CCDF
Also, this function can be set when Capture Time is Auto.
Example of Use
To set specified CCDF trace measurement method to data count.
CALC:CCDF:MODE COUN
To read specified CCDF trace measurement method.
CALC:CCDF:MODE?
> COUN
Remarks
An error is displayed is this function is set when Capture Time is Manual.
The error name is the same as the screen operation.
4
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Chapter 4 Native Device Message Details
CALC:CCDF:COUN/CCDF:COUN?
Data Count
Function
This command specifies and queries the measurement target data count of the CCDF trace.
Command
CALC:CCDF:COUN sample
Query
CALC:CCDF:COUN?
Response sample
Parameter sample
Range
Resolution
Default
Measurement target data count
100 to 2000000000
1 sample
10000000
Details
This function can be set when the CCDF trace is active.
Also, this function can be set when CCDF Meas Mod is Count.
Example of Use
To set the measurement target data count of the CCDF trace to 5000000:
CCDF:COUN 5000000
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Chapter 4 Native Device Message Details
CALC:CCDF:STOR:REF
Store Reference Trace
Function
This command records the current CCDF/APD waveform data in the internal memory as user-defined reference trace data.
Command
CALC:CCDF:STOR:REF
Details
This function can be set when the CCDF trace is active.
Example of Use
To record the current measurement result in the reference data.
CALC:CCDF:STOR:REF
CALC:CCDF:THR:STAT/CALC:CCDF:THR:STAT?
CCDF Threshold On/Off
Function
This command sets On/Off the minimum level setting for the CCDF measurement. When set to On, signals having a level less than the value specified by Threshold are excluded from the measurement target.
Command
CALC:CCDF:THR:STAT switch_com
Query
CALC:CCDF:THR:STAT?
Response switch_res
Parameter switch_com
ON|1
OFF|0 switch_res
1
0
Threshold On/off
Sets Threshold to On.
Sets Threshold to Off.
Threshold On/off
On
Off
Details
This command is available when the following trace is set to active:
• CCDF
This command is not available in the following condition:
• When Terminal is set to DigRF 3G (only for MS269x Series).
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Chapter 4 Native Device Message Details
Example of Use
CALC:IQD/CALC:IQD?
Input Source
Function
To set Threshold to On.
CALC:CCDF:THR:STAT ON
CALC:CCDF:THR:STAT?
> 1
This command selects the Input Source for data analysis.
Command
CALC:IQD source
Query
CALC:IQD?
Response source
Parameter source
COMP
I
Q
Input Source
Selects complex data of I and Q phases.
Selects I-phase data.
Selects Q-phase data.
Details
This command is not available in the following cases:
• When Terminal is set to RF.
• Neither I phase nor Q can be set when Trace is Frequency vs Time.
• When the Replay function is being executed.
Example of Use
To set Input Source to Complex.
CALC:IQD COMP
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Chapter 4 Native Device Message Details
CALC:MARK:AOFF
All Marker Off
Function
This command sets all markers to Off.
Command
CALC:MARK:AOFF
Example of Use
To set all markers to Off.
CALC:MARK:AOFF
CALC:MARK:COUP:ZONE/CALC:MARK:COUP:ZONE?
Couple Zone
Function
This command enables/disables sharing of the Zone Width setting.
Command
CALC:MARK:COUP:ZONE switch_com
Query
CALC:MARK:COUP:ZONE?
Response switch_res
Parameter switch_com
ON
1
Off
0 switch_res
1
0
Zone Width setting sharing On/Off
Enables setting sharing (On).
Same as above
Disables setting sharing (Off).
Same as above
Zone Width setting sharing On/Off
On
Off
Details
This command is available when the following trace is active:
• Spectrum
When set to On, the Zone Width setting is shared among markers.
Example of Use
To enable sharing of the Zone Width setting (On).
CALC:MARK:COUP:ZONE ON
CALC:MARK:COUP:ZONE?
> 1
4
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Chapter 4 Native Device Message Details
CALC:MARK:PEAK:SORT:COUN/CALC:MARK:PEAK:SORT:COUN?
Search Peaks Number
Function
This command sets the number of searches when Search Peaks Sort Y/X is executed.
Command
CALC:MARK:PEAK:SORT:COUN integer
Query
CALC:MARK:PEAK:SORT:COUN?
Response integer
Parameter integer
Range
Resolution
Default value
Number of searches
1 to 10
1
10
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the number of searches to 6.
CALC:MARK:PEAK:SORT:COUN 6
CALC:MARK:PEAK:SORT:COUN?
> 6
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Chapter 4 Native Device Message Details
CALC:MARK:PEAK:SORT:X
Search Peaks Sort X
Function
This command sorts as many markers as the number set in Search Peaks
Number by frequency (time) on the trace.
Command
CALC:MARK:PEAK:SORT:X
Details
This command is available when the following trace is active:
• Spectrum
This command cannot be executed when Marker Result is Integration or
Density.
Note that this command does not support synchronized control in
Continuous mode.
4
Example of Use
To sort the markers by frequency in order to query the marker values.
CALC:MARK:PEAK:SORT:X
*WAI
CALC:MARK:READ?
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Chapter 4 Native Device Message Details
CALC:MARK:PEAK:SORT:Y
Search Peaks Sort Y
Function
This command sorts as many markers as the number set in Search Peaks
Number by level on the trace.
Command
CALC:MARK:PEAK:SORT:Y
Details
This command is available when the following trace is active:
• Spectrum
This command cannot be executed when Marker Result is Integration or
Density.
Note that this command does not support synchronized control in
Continuous mode.
Example of Use
To query the marker value by sorting markers by level.
CALC:MARK:PEAK:SORT:Y
*WAI
CALC:MARK:READ?
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Chapter 4 Native Device Message Details
CALC:MARK:READ?
Marker Readout Query
Function
This command queries all the marker values.
Query
CALC:MARK:READ?
Response freqs_1,power_1,freqs_2,power_2,..., freqs_10,power_10
(For Spectrum trace) time_1,power_1,time_2,power_2
(For Power vs Time trace) sample_1,power_1,sample_2,power_2
(When trace is Power vs Time, and Terminal is DigRF 3G)time_1,freqf_1,time_2,freqf_2
(For Frequency vs Time trace) sample_1,freqf_1,sample_2,freqf_2
(When trace is Frequency vs Time, and Terminal is set to DigRF 3G (only for MS269x Series))
4 time_1,degree_1,time_2,degree_2
(For Phase vs Time trace) sample_1,degree_1,sample_2,degree_2
(When trace is Phase vs Time, and Terminal is set to DigRF 3G (only for MS269x Series)) dist,prob
(For CCDF trace) freqs_1,time_1,power_1,freqs_2,time_2,power_2
(For Spectrogram trace)
Parameter freqs_n Frequency of Marker n
No suffix code, Hz units, 0.1 Hz resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is set to Off. power_n Level of Marker n
(When marker level display units are dB-system units)
No suffix code, in units specified by Scale Unit, 0.001 dB
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Chapter 4 Native Device Message Details resolution
–999.0 is returned when no measurement is performed, an error has occurred, or marker is set to Off.
(When marker level display units are V-system units)
No suffix code, V units, 0.01 pV resolution
–999.0 is returned when no measurement is performed, an error has occurred, or marker is set to Off.
(When marker level display units are W-system units)
No suffix code, W units, 0.01 yW resolution
–999.0 is returned when no measurement is performed, an error has occurred, or marker is set to Off.
(When marker level display units are X-multiple-system units)
No suffix code, 0.0001 resolution. For no magnification, 1 is returned.
–999.0 is returned when no measurement is performed, an error has occurred, or marker is set to Off. time_n Time of Marker n
No suffix code, s units, 1 ns resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is set to Off. sample_n Sample of Marker n
No suffix code, 1 sample resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is set to Off. freqf_f Frequency of Marker n
No suffix code, Hz units, 0.01 Hz resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is set to Off. degree Position of Marker n
No suffix code, degree units, 0.001 degree resolution
999999999999 is returned when no measurement is performed, an dist error has occurred, or marker is set to Off.
Position of Marker n
No suffix code, dB units, 0.01 dB resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is set to Off. prob Probability of Marker n
No suffix code, % units, 0.0001% resolution
–999999999999 is returned when no measurement is performed, an error has occurred, or marker is set to Off.
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Chapter 4 Native Device Message Details
Example of Use
To query all marker values (Spectrum).
CALC:MARK:READ?
> 1000000.0,-15.321,1100000.0,-23.000,
1200000.0,-15.321,1300000.0,-12.680,
1400000.0,-5.622,1500000.0,-65.056,
1600000.0,-26.534,1700000.0,-34.264,
1800000.0,-35.644,-999999999999,-999.0
CALC:MARK:REF/CALC:MARK:REF?
Relative To
Function
This command sets the reference marker when Marker Mode is set to
Delta.
Command
CALC:MARK:REF marker,integer
Query
CALC:MARK:REF? marker
Response integer
Parameter marker
1
2
3
4
5
6
7
8
9
10 integer
5
6
7
8
9
1
2
3
4
Target marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Reference marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
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Chapter 4 Native Device Message Details
10
When omitted:
Marker10
Active marker
Details
This command is available when the following trace is active:
• Spectrum
The setting target marker cannot be set to the reference marker.
Example of Use
To set the reference marker for Marker 2 to Marker 4.
CALC:MARK:REF 2,4
CALC:MARK:REF? 2
> 4
CALC:MARK:SLIN/CALC:MARK:SLIN?
Spot Line
Function
This command displays/hides the marker line when the zone type of the marker is set to Spot.
Command
CALC:MARK:SLIN switch_com
Query
CALC:MARK:SLIN?
Response switch_res
Parameter switch_com
ON
1
OFF
0 switch_res
1
0
Marker line display
Displays the marker line.
Same as above
Hides the marker line.
Same as above
Marker line display On/Off state
Marker line is displayed.
Marker line is hidden.
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To display the marker line.
CALC:MARK:SLIN ON
CALC:MARK:SLIN?
> 1
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Chapter 4 Native Device Message Details
CALC:MARK:TABL/CALC:MARK:TABL?
Marker List
Function
This command selects the marker list display On/Off.
Command
CALC:MARK:TABL switch_com
Query
CALC:MARK:TABL?
Response switch_res
Parameter switch_com
ON
1
OFF
0 switch_res
1
0
Marker list display On/Off
Sets the marker list display to On.
Same as above
Sets the marker list display to Off.
Same as above
Marker list display On/Off state
On
Off
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the marker list display to On.
CALC:MARK:TABL ON
CALC:MARK:TABL?
> 1
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Chapter 4 Native Device Message Details
CALC:MARK:WIDT:TYPE/CALC:MARK:WIDT:TYPE?
Zone Width Type
Function
This command sets the zone type of the marker.
Command
CALC:MARK:WIDT:TYPE marker,type
Query
CALC:MARK:WIDT:TYPE? marker
Response type
Parameter type
ZONE
SPOT marker
1
2
3
4
5
6
7
8
9
10
Zone type
Zone marker
Spot marker
Marker type
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Details
This command is available when the following trace is active:
• Spectrum
• Spectrogram (Unavailable for Marker 3 to 10)
This command is not available when Marker Result is Peak (Fast) or
Peak (Accuracy).
Example of Use
To query a marker value by setting the zone type of the active marker to zone marker.
CALC:MARK:WIDT:TYPE 1,ZONE
*WAI
MKL?
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Chapter 4 Native Device Message Details
CALC:MARK:X/CALC:MARK:X?
Marker Frequency
Function
This command moves the center of the marker to the specified frequency
(time). This command queries the center of the marker.
Command
CALC:MARK:X marker, freq
(At spectrum, spectrogram trace)
CALC:MARK:X marker, time
(At Power vs Time, Frequency vs Time, Phase vs Time trace)
CALC:MARK:X marker, sample
(When performing a Power vs Time, Frequency vs Time, or
Phase vs Time trace for the MS269x series with the DigRF
3G terminal)
4
CALC:MARK:X marker, dist
(At CCDF trace)
Query
CALC:MARK:X? marker
Response freq
(At spectrum, spectrogram trace) time
(At Power vs Time, Frequency vs Time, Phase vs Time trace) sample
(When performing a Power vs Time, Frequency vs Time, or
Phase vs Time trace for the MS269x series with the DigRF
3G terminal) dist
(When Trace Mode is set to CCDF and Marker Axis is set to
Distribution. dist_result
(When Trace Mode is set to CCDF and Marker Axis is set to
Probability.
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Chapter 4 Native Device Message Details
Parameter
(At Spectrum trace) marker
1
2
3
4
5
6
7
8
9
10
When omitted
Marker number
Specifies marker 1
Specifies marker 2
Specifies marker 3
Specifies marker 4
Specifies marker 5
Specifies marker 6
Specifies marker 7
Specifies marker 8
Specifies marker 9
Specifies marker 10
Specifies marker 1
(At Power vs Time, Frequency vs Time, Phase vs Time, CCDF, or
Spectrogram trace) marker
1
Marker number
Specifies Marker 1 (except CCDF)
Specifies horizontal marker (CCDF)2
Specifies Marker 2 (except CCDF)
Cannot be specified when trace is CCDF.
When omitted freq
Specifies Marker 1 (except CCDF)
Specifies horizontal marker (CCDF)
Center Frequency of the marker
Range/Resolution Within the frequency range of trace display
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ Suffix code time
Hz is used when omitted.
Marker position
Range/Resolution Within the time range of trace display
Suffix code sample
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
NS, US, MS, S
S is used when the suffix code is omitted.
Marker position
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Chapter 4 Native Device Message Details
Range/Resolution Within the sample range of trace display
For details, refer to dist
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
Marker position
Range/Resolution Within the power deviation range of trace display
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Suffix code dist_result
Analyzer Operation Manual (Signal Analyzer
Function Operation).
DB
dB is used when omitted.
Power deviation at marker position
Range/Resolution Within the power deviation range of trace
Suffix code display
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
None. Value is returned in dB units.
–999.0 is returned at no measurement or error.
4
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Chapter 4 Native Device Message Details
Details
If the marker position is changed during a Spectrum trace, the target marker becomes the active marker. In addition, if Marker Mode is Fixed or Off, Normal is specified. If the marker position is changed during
Power vs Time, Frequency vs Time, Phase vs Time, or Spectrogram, the target marker is set to On and changed to the active marker. In addition, the marker position is shared among Power vs Time, Frequency vs Time,
Phase vs Time. During a CCDF trace, Marker Axis changes to
Distribution.
When reading out a marker value after executing this command, use the
*WAI command and execute synchronization control.
Note that synchronization control during the Continuous mode is not supported.
If using the MS269x Series, the settings for Power vs Time Frequency vs
Time and Phase vs Time will be performed in units of samples when the terminal is set to DigRF 3G.
Example of Use
Related Command
To move the center of Marker 2 to 100 MHz and query the marker value.
CALC:MARK:X 2, 100MHZ
*WAI
CALC:MARK:Y?
To query the center of Marker 2
CALC:MARK:X? 2
> 100000000.0
This command has the same function as the following command.
CALC:ACP:MARK:X marker
CALC:CHP:MARK:X marker
CALC:OBW:MARK:X marker
CALC:BPOW:MARK:X marker
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Chapter 4 Native Device Message Details
CALC:MARK:X:DELT/CALC:MARK:X:DELT?
Marker Query
Function
When in Spectrum trace, this command moves the center of the marker to the frequency specified by relative value. This command queries the center of marker in relative value. When in CCDF trace, this command queries the difference value of a Gaussian trace or reference trace.
Command
CALC:MARK:X:DELT marker, freq
(When in Spectrum trace)
Query
CALC:MARK:X:DELT? marker
Response freq dist
(When in Spectrum trace, and Marker mode is Delta)
(When Trace Mode is set to CCDF and Marker Axis is set to
Distribution. dist_result_gauss,dist_result_ref
(When Trace Mode is set to CCDF and Marker Axis is set to
Probability.
Parameter
Spectrum trace marker
1
2
3
4
5
6
7
8
9
10
When omitted
CCDF trace marker
1
When omitted:
Marker Number
Specifies marker 1 (Spectrum)
Specifies marker 2 (Spectrum)
Specifies marker 3 (Spectrum)
Specifies marker 4 (Spectrum)
Specifies marker 5 (Spectrum)
Specifies marker 6 (Spectrum)
Specifies marker 7 (Spectrum)
Specifies marker 8 (Spectrum)
Specifies marker 9 (Spectrum)
Specifies marker 10 (Spectrum)
Specifies marker 1 (Spectrum)
Marker Number
Marker set in Marker Axis
Marker set in Marker Axis
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Chapter 4 Native Device Message Details freq Marker position
Range/Resolution Within the frequency range of trace display
Suffix code
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted. dist Marker position
Range/Resolution Within the power deviation range of trace
Suffix code display
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
None. Value is returned in dB units. dist_result_gauss Difference from the Gaussian trace at the marker position
Range/Resolution Within the power deviation range of trace display
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
Suffix code None. Value is returned in dB units.
–999.0 is returned at Gaussian trace off, no measurement, or error
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Details
Example of Use
Chapter 4 Native Device Message Details dist_result_ref Difference from the reference trace at the marker position
Range/Resolution Within the power deviation range of trace display
Suffix code
For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
None. Value is returned in dB units.
–999.0 is returned at reference trace off, no measurement, or error 4
This function can be set when the following trace is active.
• Spectrum
• CCDF
To query the delta marker value
CALC:MARK:X:DELT?
> 0.065
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Chapter 4 Native Device Message Details
CALC:MARK:Y:DELT?
Marker Query
Function
This command queries the delta marker value of main trace.
Query
CALC:MARK:Y:DELT? marker
Response rel_ampl_spe
(At Spectrum trace) ratio_spe
(For a Spectrum trace when Scale Mode is set to Linear and
Marker Result is set to Peak (Fast) or Peak (Accuracy)) rel_ampl_pvt
(At Power vs Time trace) ratio_pvt
(At Power vs Time trace and when Scale Mode is set to
Linear) freq
(At Frequency vs Time) degree
(At Phase vs Time) prob
(When Trace Mode is set to CCDF and Marker Axis is set to
Probability.) prob_result_gauss,prob_result_ref
(When Trace Mode is set to CCDF and Marker Axis is set to
Distribution.
Parameter
(At Spectrum) marker
1
2
3
4
5
6
7
8
9
10
When omitted
Marker number
Specifies marker 1
Specifies marker 2
Specifies marker 3
Specifies marker 4
Specifies marker 5
Specifies marker 6
Specifies marker 7
Specifies marker 8
Specifies marker 9
Specifies marker 10
Specifies marker 1
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(At Power vs Time, Frequency vs Time, Phase vs Time trace) marker Marker number
1 Marker 1 and 2 are targeted.
When omitted Marker 1 and 2 are targeted. rel_ampl_spe Comparison of the marker selected by n and the
Relative To target marker
No suffix code. Value is returned in dB units.
–999.0 is returned at no measurement or error
–999.0 is returned when Marker Mode is set other than Delta.
(At CCDF) marker
1
When omitted
Marker Number
Marker set in Marker Axis
The marker specified for Marker Axis is targeted. rel_ampl_pvt Comparison of Marker 1 and Marker 2
No suffix code. Value is returned in dB units.
–999.0 is returned at no measurement or error ratio_spe Value of the marker selected by n or the Relative
To target marker
–999.0 is returned at no measurement or error.
–999.0 is returned when Marker Mode is set other than Delta. ratio_pvt Marker 1 or Marker 2 value
–999.0 is returned at no measurement or error freq Marker 2 frequency - Marker 1 frequency
No suffix code. Value is returned in Hz units.
–999999999999 is returned at no measurement or error degree Marker 2 frequency – Marker 1 frequency
No suffix code. Value is returned in degree units.
-999999999999 is returned if there is no measurement or an error. prob Marker position of the target marker
A percentage value with no suffix code is returned.
–999.0 is returned if there is no measurement or an error prob_result_gauss The difference value of the target marker and
Gaussian trace is returned.
A percentage value with no suffix code is returned.
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Chapter 4 Native Device Message Details prob_result_ref
–999.0 is returned if the Gaussian trace is off, there is no measurement, or there is an error.
The difference value of the target marker and reference trace is returned.
A percentage value with no suffix code is returned.
–999.0 is returned if the Gaussian trace is off, there is no measurement, or there is an error.
Details
This function can be set when the following trace is active.
• Spectrum
• Power vs Time
• Frequency vs Time
• Phase vs Time
Example of Use
To query the delta marker value
CALC:MARK:Y:DELT?
> 0.065
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Chapter 4 Native Device Message Details
CALC:MARK:Y:PHAS?
Marker Phase Query
Function
θ = arg C when marker position Fourier coefficient is C k
However, − π < θ k
≤ π
Query
CALC:MARK:Y:PHAS? marker
Response phase
Parameter marker
1
2
3
4
5
6
7
8
9
10 phase
Suffix code
Resolution
Marker Number
Specifies Marker 1
Specifies Marker 2
Specifies Marker 3
Specifies Marker 4
Specifies Marker 5
Specifies Marker 6
Specifies Marker 7
Specifies Marker 8
Specifies Marker 9
Specifies Marker 10
Marker position phase spectrum
No suffix code, rad units
0.0001 rad
–999.0 is returned at no measurement or error
Details
–999.0 is returned when C k
= 0 .
Returns phase spectrum of Zone Center position when Marker Result setting is Integration or Density.
Returns phase spectrum for marker positions in zone when Marker
Result is Peak (Fast) or Peak (Accuracy) and Zone Type is Zone.
This function can be used in the following cases:
• At Spectrum trace
• When Marker Mode of target markers is Normal
• When Storage Mode is Normal
• When Noise Cancel is Off
4
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Example of Use
When using this function, :CALCulate:PHASe:STATe must be set to
ON.
(For details, refer to :CALCulate:PHASe:STATe.)
Although multiple Fourier transformations are performed when Analysis
Time Length is longer than 0 s, the phase spectrum used for the measurement results is the one for the Fourier transform performed last in the analysis time range. For example, when Analysis Start Time is 1 s and Analysis Time Length is 3 s, the phase spectrum for the Fourier transform performed at 4 s is used for the measurement result.
To read phase spectrum at 6 GHz
CALC:PHAS:STAT ON
SNGLS
CALC:MARK:X 1,6GHZ
*WAI
CALC:MARK:Y:PHAS? 1
>1.4325
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Chapter 4 Native Device Message Details
CALC:PHAS:STAT/CALC:PHAS:STAT?
Calculate Phase Spectrum
Function
This command sets phase spectrum calculation On and Off
Command
CALC:PHAS:STAT switch_com
Query
CALC:PHAS:STAT?
Response switch_res
Parameter switch_com
0|OFF
1|ON switch_res
0
1
Sets phase spectrum calculation On and Off
Does not execute phase spectrum calculation
(default setting)
Executes phase spectrum calculation
Sets phase spectrum calculation On and Off
Does not execute phase spectrum calculation
Executes phase spectrum calculation
Details
This function does not perform phase spectrum calculation at the Off→
On switching instant. After setting to On, either execute one of the two commands below or read the phase spectrum after performing a single measurement.
SNGLS
CALC
The phase spectrum can be read using the following command:
CALC:MARK:Y:PHAS?
This function can be set when the Spectrum trace is active.
• Spectrum
Example of Use
To read phase spectrum at 6 GHz
CALC:PHAS:STAT ON
SNGLS
CALC:MARK:X 1,6GHZ
*WAI
CALC:MARK:Y:PHAS? 1
>1.4325
4
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CALC:MARK:Y:PHAS?
Marker Phase Query
Function
Returns phase spectrum θ k
= arg C k
[rad] when marker position Fourier coefficient is C k
However,
− π < θ k
≤ π .
Query
CALC:MARK:Y:PHAS? marker
Response phase
Parameter marker
1
2
3
4
5
6
7
8
9
10
When omitted: phase
Marker Number
Specifies marker 1
Specifies marker 2
Specifies marker 3
Specifies marker 4
Specifies marker 5
Specifies marker 6
Specifies marker 7
Specifies marker 8
Specifies marker 9
Specifies marker 10
Specifies marker 1
Marker position phase spectrum
No suffix code, rad units, 0.0001 rad resolution
–999.0 returned at no measurement or error
4-64
Details
Example of Use
Chapter 4 Native Device Message Details
– 999.0 returned when C k
= 0
Returns phase spectrum of Zone Center position when Marker Result setting is Integration or Density
Returns phase spectrum for marker positions in zone when Marker
Result is Peak (Fast) or Peak (Accuracy) and Zone Type is Zone
This function can be used in the following cases:
• At Spectrum trace
• When Marker Mode of target markers is Normal
• When Storage Mode is Normal
• When Noise Cancel is Off
When using this function, :CALCulate:PHASe:STATe must be set to ON.
(For details, refer to:CALCulate:PHASe:STATe.)
Although multiple Fourier transformations are performed when Analysis
Time Length is longer than 0 s, the phase spectrum used for the measurement results is the one for the Fourier transform performed last in the analysis time range. For example, when Analysis Start Time is 1 s and Analysis Time Length is 3 s, the phase spectrum for the Fourier transform performed at 4 s is used for the measurement result.
4
To read phase spectrum at 6 GHz
CALC:PHAS:STAT ON
SNGLS
CALC:MARK:X 1,6GHZ
*WAI
CALC:MARK:Y:PHAS? 1
> 1.4325
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CALC:SMO:LENG:SAMP/CALC:SMO:LENG:SAMP?
Smoothing Sample Length
Function
This command sets the Smoothing Sample Length of the main trace when Terminal is DigRF 3G (only for MS269x Series).
Command
CALC:SMO:LENG:SAMP sample
Query
CALC:SMO:LENG:SAMP?
Response sample
Parameter sample
Range
Resolution
Smoothing Sample Length
1 to 10000
1 sample
Details
This command is available when the following trace is active:
• Power vs Time
• Frequency vs Time
• Phase vs Time
This command is not available in the following cases:
• When Terminal is RF.
• When the Replay function is being executed.
Example of Use
To set the Smoothing Sample Length to 500.
CALC:SMO:LENG:SAMP 500
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Chapter 4 Native Device Message Details
CALC:STR:ATIM:AUTO/CALC:STR:ATIM:AUTO?
Sub Trace Analysis Time Auto/Manual
Function
This command selects whether to set the analysis time for sub traces automatically or manually.
Command
CALC:STR:ATIM:AUTO switch_com
Query
CALC:STR:ATIM:AUTO?
Response switch_res
Parameter switch_com
ON|1
OFF|0
Auto/Manual
Auto
Manual
4 switch_res
1
0
Auto/Manual
Auto
Manual
Details
This command is not available when the sub trace is set to Off.
Example of Use
To set the analysis time to the auto mode.
CALC:STR:ATIM:AUTO ON
CALC:STR:ATIM:AUTO?
> 1
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CALC:STR:ATIM:LENG/CALC:STR:ATIM:LENG?
Sub Trace Analysis Time Length
Function
This command sets the analysis time length of the sub-trace.
Command
CALC:STR:ATIM:LENG time
Query
CALC:STR:ATIM:LENG?
Response time
No suffix code. Value is returned in S units.
Parameter time Time analysis length
Range/Resolution For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function
Operation) or MS2830A/MS2840A Signal
Suffix code
Analyzer Operation Manual (Signal Analyzer function Operation).
NS, US, MS, S
S is used when omitted.
Details
This command is not available when the analysis start time (Sub Trace
Analysis Start Time) is set to the maximum value.
This command is not available in the following condition:
• When Terminal is set to DigRF 3G (only for MS269x Series).
• When the sub-trace is set to Off.
Example of Use
To set the analysis time length of the sub-trace to 12 ms.
CALC:STR:ATIM:LENG 12MS
CALC:STR:ATIM:LENG?
> 0.01200000
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CALC:STR:ATIM:LENG:SAMP/CALC:STR:ATIM:LENG:SAMP?
Sub Trace Analysis Sample Length
Function
This command sets the sub trace analysis sample length when Terminal is set to DigRF 3G (only for MS269x Series).
Command
CALC:STR:ATIM:LENG:SAMP integer
Query
CALC:STR:ATIM:LENG:SAMP?
Response integer
Parameter integer
Range
Resolution
Analysis sample length
0 to Capture Time Length-Analysis Start Time
1 sample
Details
This command is not available when the analysis start position (Sub
Trace Analysis Start Sample) is set to the maximum value.
This command is not available in the following condition:
• When Terminal is RF:
• When the sub-trace is set to Off.
Example of Use
To set the analysis sample length of the sub-trace to 15360000.
CALC:STR:ATIM:LENG:SAMP 15360000
CALC:STR:ATIM:LENG:SAMP?
> 15360000
4
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CALC:STR:ATIM:STAR/CALC:STR:ATIM:STAR?
Sub Trace Analysis Start Time
Function
This command sets the analysis start time of the sub-trace.
Command
CALC:STR:ATIM:STAR time
Query
CALC:STR:ATIM:STAR?,
Response time
No suffix code. Value is returned in S units.
Parameter time Time analysis length
Range/Resolution For details, refer to
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer function
Operation) or MS2830A/MS2840A Signal
Suffix code
Analyzer Operation Manual (Signal Analyzer function Operation).
NS, US, MS, S
S is used when omitted.
Details
This command is not available when the analysis time length (Sub Trace
Analysis Time Length) is set to the maximum value.
This command is not available in the following cases:
• When Terminal is set to DigRF 3G (only for MS269x Series).
• When the sub-trace is set to Off.
Example of Use
To set the analysis start time to 12 ms.
CALC:STR:ATIM:STAR 12MS
CALC:STR:ATIM:STAR?
> 0.01200000
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CALC:STR:ATIM:STAR:SAMP/CALC:STR:ATIM:STAR:SAMP?
Sub Trace Analysis Start Sample
Function
This command uses the number of samples to set the sub trace analysis start position when Terminal is set to DigRF 3G (only for MS269x
Series).
Command
CALC:STR:ATIM:STAR:SAMP integer
Query
CALC:STR:ATIM:STAR:SAMP?
Response integer
Parameter integer
Range
Resolution
Sub trace analysis start position
0 to
Capture Time Length – Analysis Time Length
1 sample
Details
This command is not available when the analysis start position (Sub
Trace Analysis Start Sample) is set to the maximum value.
This command is not available in the following cases:
• When Terminal is RF.
• When the sub-trace is set to Off.
Example of Use
To set the analysis start position to 15360000 sample.
CALC:STR:ATIM:STAR:SAMP 15360000
CALC:STR:ATIM:STAR:SAMP?
> 15360000
4
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CALC:STR:BAND/CALC:STR:BAND?
Sub Trace Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW) of the sub-trace.
Command
CALC:STR:BAND bandwidth
Query
CALC:STR:BAND?
Response bandwidth
Parameter bandwidth Resolution bandwidth (RBW)
Range/Resolution 1 Hz to 10 MHz (1-3 sequence)
Suffix code HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when the following sub-trace is set to active.
• Spectrogram
This command is not available when Terminal is set to DigRF 3G (only for MS269x Series).
The setting range is limited by the Frequency Span setting. For details, refer to MS2690A/MS2691A/MS2692A Signal Analyzer Operation
Manual (Signal Analyzer function Operation) or MS2830A/MS2840A
Signal Analyzer Operation Manual (Signal Analyzer function Operation).
Example of Use
To set the resolution bandwidth of the sub-trace to 300 kHz.
CALC:STR:BAND 300KHZ
CALC:STR:BAND?
> 300000
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CALC:STR:BAND:AUTO/CALC:STR:BAND:AUTO?
Sub Trace Resolution Bandwidth Auto/Manual
Function
This command selects whether to set the resolution bandwidth (RBW) for sub traces automatically or manually.
Command
CALC:STR:BAND:AUTO switch_com
Query
CALC:STR:BAND:AUTO?
Response switch_res
Parameter switch_com
ON|1
OFF|0 switch_res
1
0
Auto/Manual
Sets the auto mode to On.
Sets the auto mode to Off.
Auto/Manual
Auto mode is set to On.
Auto mode is set to Off.
Details
This command is not available when the following sub-trace is set to active.
• Spectrogram
This command is not available when Terminal is set to DigRF 3G (only for MS269x Series).
4
Example of Use
To enable automatic setting for the sub trace RBW.
CALC:STR:BAND:AUTO ON
CALC:STR:BAND:AUTO?
> 1
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CALC:STR:DET/CALC:STR:DET?
Sub Trace Detection Mode
Function
This command selects the detection mode for waveform patterns of sub traces.
Command
CALC:STR:DET mode
Query
CALC:STR:DET?
Response mode
Parameter mode
NORM
POS
NEG
AVER
Detection mode
Simultaneous detection of positive and negative peaks (unavailable for Spectrogram sub trace)
Positive peak detection
Negative peak detection
Average value detection
Details
This command is not available when the sub-trace is set to Off.
Example of Use
To set the detection mode to positive peak detection.
CALC:STR:DET POS
CALC:STR:DET?
> POS
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CALC:STR:MODE/CALC:STR:MODE?
Change Sub Trace
Function
This command sets the sub-trace type.
Command
CALC:STR:MODE trace
Query
CALC:STR:MODE?
Response trace
Parameter trace
OFF
PVT
SPGR
Trace type
None
Power vs Time
Spectrogram
Details
Spectrogram cannot be set when Scale Mode is set to Lin or when
Terminal is set to DigRF 3G (only for MS269x Series).
This command is not available when Trace Mode is set to No Trace.
Example of Use
To set the sub-trace to Spectrogram.
CALC:STR:MODE SPGR
CALC:STR:MODE?
> SPGR
4
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CALC:STR:TRIG:DIGR:DEL?
Sub Trace Result Delay Query
Function
This command queries the delay time of sub trace results in sample units.
Command
CALC:STR:TRIG:DIGR:DEL?
Response sample
Details
When a trigger is used for DigRF 3G (only for MS269x Series), a delay may occur in the results because there is no pre-trigger. The number of samples from the analysis start sample point to the actual trigger point
(trigger input + trigger delay) is queried as a delay.
Example of Use
To query the delay time in sample units.
CALC:STR:TRIG:DIGR:DEL?
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CALC:TMAR:COUP:ZONE/CALC:TMAR:COUP:ZONE?
Couple Time Marker 1 and 2
Function
This command enables/disables sharing of the Time Marker setting.
Command
CALC:TMAR:COUP:ZONE switch_com
Query
CALC:TMAR:COUP:ZONE?
Response switch_res
Parameter switch_com
ON
1
OFF
0 switch_res
1
0
Time Marker setting sharing On/Off
Enables setting sharing (On).
Same as above
Disables setting sharing (Off).
Same as above
Time Marker setting sharing On/Off
On
Off
Details
This command is available when the following trace is active:
• Spectrogram
This command is not available when Marker Type is Spot.
Setting to On makes Time Marker 1 and Time Marker 2 move together.
Example of Use
To enable sharing of the Time Marker setting (On).
CALC:TMAR:COUP:ZONE ON
CALC:TMAR:COUP:ZONE?
> 1
4
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CALC:TMAR:PEAK:X?
Time Marker Peak Query
Function
This command queries the time at the peak of Time Marker.
Query
:CALC:TMAR:PEAK:X?
Response time
Parameter n
1
2
Marker number
Marker 1
Marker 2
(When Marker Type is Spot, or when Marker Type is Zone and when
Couple Time 1 and 2 are Off)
Range Analysis Start Time to Analysis Start Time +
Analysis Time Length
(When Marker Type is Zone and when Couple Time 1 and 2 are On)
Range Greater value of Analysis Start Time and
(Marker1 – Marker2 + Analysis Start Time)
Suffix code to
Smaller value of (Analysis Start Time+ Analysis
Time Length) and ((Analysis Start Time+
Analysis Time Length) − (Marker 2− Marker 1))
None . Value is returned in s units.
Details
This command is available when the following trace is active:
• Spectrogram
This command is available when Marker Result is Peak.
Example of Use
To query the time at the peat of Time Marker.
CALC:TMAR:PEAK:X?
> 0.100000000
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CALC:TMAR:X/CALC:TMAR:X?
Time Marker Position
Function
This command moves Time Marker to the specified time.
Command
CALC:TMAR:X n,time
Query
CALC:TMAR:X? n
Response time
Parameter n
1
2
When omitted: time
Marker number
Time Marker 1
Time Marker 2
Time Marker 1
Marker position
(When Marker Type is Spot, or when Marker Type is Zone and when
Couple Time 1 and 2 are Off)
Range Analysis Start Time to
Default value
Analysis Start Time + Analysis Time Length
Analysis Start Time
(When Marker Type is Zone or when Couple Time 1 and 2 are On)
Range From Analysis Start Time or (Marker 1 −
Default value
Suffix code
Marker 2 + Analysis Start Time), whichever is greater, to
(Analysis Start Time + Analysis Time Length) or
((Analysis Start Time + Analysis Time Length) −
(Marker 2 − Marker 1)), whichever is smaller
Analysis Start Time + Analysis Time Length/2
NS, US, MS, S
S is used when omitted.
Details
Marker 2 cannot be set when Marker Type is set to Spot.
This command is available when the following trace is active:
• Spectrogram
Example of Use
To move the center point of Time Marker 1 to 100 ms.
CALC:TMAR:X 100MS
*WAI
CALC:TMAR:X?
4
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CALC:TRIG:DIGR:DEL?
Result Delay Query
Function
This command queries the delay time of the result by sample unit.
Query
CALC:TRIG:DIGR:DEL?
Response sample
Details
Since there is no pre-trigger when the trigger is used with DigRF 3G
(only for MS269x Series), there is a chance of delay in the results.
Sample numbers from the sample point where the analysis has started to the actual trigger point (trigger input + trigger delay) will be read as a delay.
This command is not available in the following case:
• When Terminal is RF.
Example of Use
To query the delay time by sample unit. .
CALC:TRIG:DIGR:DEL?
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Chapter 4 Native Device Message Details
CAPLN/CAPLN?
Capture Time Length
Function
Command
Query
Response
Parameter
Details
Example of Use
This command sets waveform capture time.
CAPLN time
CAPLN? time
Returns a value in ms units without a suffix code. time Capture time
Range and resolution
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation)
Suffix code for details.
NS, US, MS, S
ms is used when omitted.
4
The shortest capture time length will be set if automatic setting is enabled.
The setting method is switched to the manual setting when capture time is set.
The setting range and resolution are limited by the Frequency Span setting.
This command is not available in the following cases:
• When Terminal is DigRF 3G (only for MS269x Series).
• When the Replay function is being executed.
To set waveform capture time to 2 seconds.
CAPLN 2S
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CCDF:COUN/CCDF:COUN?
Data Count
Function
This command specifies and queries the measurement target data count of the CCDF trace.
Command
CCDF:COUN <sample>
Query
CCDF:COUN?
Response sample Measurement target data count
Parameter sample
Range
Resolution
Default
Measurement target data count
100 to 2000000000
1 sample
10000000
Details
This function can be set when the CCDF trace is active.
Also, this function can be set when CCDF Meas Mode is Count.
Example of Use
To set the measurement target data count of the CCDF trace to 5000000:
CCDF:COUN 5000000
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CCDF:GAUS/CCDF:GAUS?
Gaussian Trace
Function
This command sets whether to show or hide the Gaussian trace data during CCDF measurement.
Command
CCDF:GAUS switch
Query
CCDF:GAUS?
Parameter switch
ON|1
OFF|0
To display Gaussian trace data.
Does not display Gaussian trace data.
Details
This function can be set when the CCDF trace is active.
However, this function cannot be set if Measure Method is APD.
Example of Use
To display Gaussian trace data.
CCDF:GAUS ON
To query Gaussian trace data display setting.
CCDF:GAUS?
> 0
4
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CCDF:RTR/CCDF:RTR?
Reference Trace
Function
This command sets whether to show or hide the reference trace data recorded by a user during CCDF measurement.
Command
CCDF:RTR switch
Query
CCDF:RTR?
Parameter switch
ON|1
OFF|0
Displays the reference trace data.
Does not display the reference trace data.
Details
This function can be set when the CCDF trace is active.
Nothing can be set when no reference trace data is recorded.
Example of Use
To display the reference trace data.
CCDF:RTR ON
To query the reference trace data display settings.
CCDF:RTR?
> 0
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CHPWRCENTER/CHPWRCENTER?
Channel Power Channel Center Frequency
Function
This command sets the center frequency for Channel Power measurement.
Command
CHPWRCENTER freq
Query
CHPWRCENTER?
Response freq
Parameter freq
Range
Resolution
Suffix code
Default
Channel center frequency
125 MHz centered at the center frequency of waveform capture
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Center frequency of waveform capture
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the Channel Power center frequency to 6.01 GHz and query the results.
CHPWRCENTER 6.01GHZ
*WAI
RES?
4
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CHPWRFLTRTYP/CHPWRFLTRTYP?
Channel Power Filter Type
Function
This command sets the filter type for Channel Power measurement.
Command
CHPWRFLTRTYP filter
Query
CHPWRFLTRTYP?
Response filter
Parameter filter
RECT
NYQUIST
ROOTNYQUIST
Filter type
Rectangle filter
Nyquist filter
Root Nyquist filter
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the filter type to Nyquist filter and query the results.
CHPWRFLTRTYP NYQUIST
*WAI
RES?
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CHPWRROF/CHPWRROF?
Channel Power Rolloff Factor
Function
This command sets the filter rolloff ratio for Channel Power measurement.
Command
CHPWRROF factor
Query
CHPWRROF?
Response factor
Parameter factor
Range
Resolution
Default
Filter rolloff ratio
0.01 to 1
0.01
0.22
Details
This command is available when the following trace is active:
• Spectrum
This command is available when the channel power filter type is set to either of the followings:
• Nyquist
• Root Nyquist
Example of Use
To set the filter rolloff ratio to 0.62 and query the results.
CHPWRROF 0.62
*WAI
RES?
4
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CHPWRWIDTH/CHPWRWIDTH?
Channel Power Channel Bandwidth
Function
This command sets the channel bandwidth for Channel Power measurement.
Command
CHPWRWIDTH freq
Query
CHPWRWIDTH?
Response freq
Parameter freq
Range
Resolution
Suffix code
Default
Channel bandwidth
1 Hz to 125 MHz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
3.84 MHz
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set the channel bandwidth to 1 MHz and query the results.
CHPWRWIDTH 1MHZ
*WAI
RES?
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CNF/CNF?
Center Frequency
Function
Command
Query
Response
Parameter
This command sets the center frequency for waveform capturing.
CNF freq
CNF? freq freq
Range
Center frequency
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
4
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Details
Example of Use
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167,
Resolution
Suffix code
Default
[MS269xA]
[MS2830A]
[MS2840A] and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
6.00 GHz (MS2690A/91A/92A)
3.6 GHz (Option 040/041/043/044/045)
3.6 GHz (Option 040/041/044/045)
Limited by the Frequency Span setting.
When MS2690A/91/92A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 100 MHz.
When MS2830A or MS2840A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 300 MHz.
This command is limited in the following case.
• When Terminal is DigRF 3G (only for MS269x Series), the center frequency is fixed to 0 Hz.
This command is not available while the Replay function is being executed.
To set the center frequency for waveform capturing to 12.3 MHz.
CNF 12300000
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CNVLOSS/CNVLOSS?
External Mixer Conversion Loss
Function
This command sets the external mixer's conversion loss.
Command
CNVLOSS power
Query
CNVLOSS?
Response power
Parameter power
Range
Resolution
Suffix code
Default
External mixer's conversion loss
0.00 to 99.99 dB
0.01 dB
None. Value is returned in dB units.
15.00 dB
Details
This function is available only when Option 044/045 is installed for
MS2830A.
This function is available only when Option 044/046 is installed for
MS2840A.
A value is held per one external mixer's band.
Example of Use
To set the external mixer's conversion loss to 10.00 dB.
CNVLOSS 10.00
CNVLOSS?
> 10.00
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CONF:AM
AM Depth Configure
Function
Command
Details
Example of Use
This command sets the AM Depth measurement to On.
CONF:AM
No measurement is performed.
Scale Mode is set to Linear and Detection is set to Pos&Neg, and Peak to
Peak function is set to ON.
This command is available when the following is active:
• Power vs Time
To set the AM Depth measurement to On.
CONF:AM
CONF:FM
FM deviation Configure
Function
Command
Details
Example of Use
This command sets the FM deviation measurement to On.
CONF:FM
No measurement is performed.
Scale Unit is set to ∆Hz, Detection is set to Pos&Neg, and Peak to Peak function is set to ON.
This command is available when the following trace is active:
• Frequency vs Time
To set the FM deviation measurement to On.
CONF:FM
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CONF:FMCW
FM CW Configure
Function
Command
Details
Example of Use
CONF:SAN
Measurement Off
Function
Command
Example of Use
This command sets the FM CW measurement to On.
CONF:FMCW
No measurement is performed.
Scale Unit is set to ∆Hz, Detection is set to Pos&Neg.
To set the FM CW measurement to On.
CONF:FMCW
This command disables currently running measurement function.
No operation is made if no measurement function is running.
CONF:SAN
To disable the currently running measurement function.
CONF:SAN
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CONTS
Continuous Measurement
Function
This command executes continuous measurement.
Command
CONTS
Details
Other commands or queries are received while this function is being executed.
If a command that requires re-capturing of a waveform or re-calculation of a trace is received, however, this function is paused during execution of such command.
This command is not available while the Replay function is being executed.
Example of Use
To start continuous measurement.
CONTS
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DATA?
Captured Data Query
Function
Query
Response
Parameter
This command queries the IQ data captured into the waveform memory.
DATA? start,length
When ASC,0 is set to FORM: datai_1,dataq_1,datai_2,dataq_2,...
When REAL,32 is set to :FORM, “#” (in the Ascii format) is followed by, in the following order, “Character string range which indicates the byte length of the binary data (in the Ascii format)”, “Byte length of binary data (in the Ascii format)”, and “IQ data string (in the binary format).
Similarly, in the binary format, response message terminator is added.
For details, refer to 1.8.2 Native Response Message Mode in the
MS2690A/MS2691A/MS2692A and MS2830A/MS2840A Signal Analyzer
Operation Manual (Mainframe Remote Control).
Example: To read out two samples when REAL,32 is set to :FORM:
> #216<16 bytes of data>
”2” in #216 indicates that 2 characters with the binary data length follow, and “16” in it indicates that 16 Byte binary data follows.
4
When the terminal is set to RF, the parameters are set as follows: start Query starting point (in sample units)
Relative value from Analysis Start Time = 0 s
Range
Relative value from minimum Analysis Start
Time (when Replay function is executed)
0 to
(Analysis Start Time[s]
+ Analysis Time Length[s])
×Sampling Rate[Hz] – 1
(When Capture Time is Auto)
0 to
Capture Time Length[s]×Sampling Rate[Hz] – 1
(When Capture Time is Manual)
Resolution 1
When omitted: 0
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Range
Query length (in sample units)
1 to
(Analysis Start Time[s]
+ Analysis Time Length[s])
×Sampling Rate[Hz] – <start>
(When Capture Time is Auto)
1 to
Capture Time Length[s]×Sampling Rate[Hz]
Resolution
– <start>
(When Capture Time is Manual)
Up to 200000 can be set.
1
When omitted: (Analysis Start Time[s]
+ Analysis Time Length[s])
×Sampling Rate[Hz] – <start>
(When Capture Time is Auto)
Capture Time Length[s]×Sampling Rate[Hz]
– <start> datai_n
(When Capture Time is Manual)
If more than 200000 is set, then 200000 is automatically set.
I phase data
No suffix code
A parameter is read out in the index format of 8 digit effective figure when ASC,0 is set to :FORMat[:DATA]. dataq_n
A parameter is read out in the 32 byte single precision floating number point format, when
REAL,32 is set to :FORMat [:DATA].
Q data
No suffix code
A parameter is read out in the index format of 8 digit effective figure when ASC,0 is set to :FORMat[:DATA].
A parameter is read out in the 32 byte single precision floating number point format, when
REAL,32 is set to :FORMat[:DATA].
When the terminal is DigRF 3G (only for MS269x Series), the parameters are set as follows: start length
Same as when the terminal is RF:
Same as when the terminal is RF:
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Chapter 4 Native Device Message Details datai_n dataq_n
I-phase data
No Suffix code
When ASCii,0 is set for :FORMat[:DATA], it will be output as exponential form of 8 digits of essential figures.
When REAL,32 is set for :FORMat[:DATA],
Target System:GSM is output in 16 bit format, and Target System:W-CDMA is output in 8 bit format.
Q-phase data
No Suffix code
When ASCii,0 is set for :FORMat[:DATA], it will be output as exponential form of 8 digits of essential figures.
When REAL,32 is set for :FORMat[:DATA],
Target System:GSM is output in 16 bit format, and Target System:W-CDMA is output in 8 bit format.
4
(When Terminal is RF)
The actually captured IQ data range is larger than the range set in
Analysis Time, because of the internal analysis such as filter processing.
Since IQ data read out by this command is within the range set in
Analysis Time, you cannot read out all the IQ data captured by this command. Use the Save Captured Data function in order to read out all of them.
Note that the range of the IQ data read out by this command is different from that of the IQ data saved by the Save Captured Data function. The position at which Analysis Start Time of IQ data saved by Save Capture
Data is 0 s is calculated by the following formula:
POS = TP − TD × FS
Where, POS: Position at which Analysis Start Time of IQ data saved by Save Capture Data is 0 s [sample]
TP: ”Trigger Position” value [sample] in XML file X
TD: Trigger Delay setting value [s]
0 is set when Trigger Switch is Off.
FS: Sampling Rate [Hz]
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IQ data can be converted into power by the following formula:
P = 10 Log
10
(
I 2 + Q 2
)
Where, P: Power [dBm]
I: I phase data
Q: Q phase data
The query function is disabled when Analysis Start Time is set to 0 s, when Analysis Time Length is set to 0 s, and when Capture Time is set to
Auto.
The query function is disabled during measurement.
FORM and FORM:BORD allows you to change the mode in which this command reads out IQ data.
Sampling Rate can be read out by SMPLRATE?.
(When the terminal is DigRF 3G (only for MS269x Series))
Actual range of IQ data that is captured will be wider than what is set with Analysis Sample Length (or Capture Time Length), due to the internal analysis process, such as filter process, etc. Range of the IQ data that is read with this command is only the range set with Analysis
Sample Length (or Capture Time Length), so all the IQ data that was captured with this command cannot be read. To read all the IQ data, use
Save Captured Data function.
Beware that the range of IQ data read with this command and range of
IQ data saved by the Save Captured Data function is different.
It cannot be queried when the Analysis Start Sample is 0 s, Analysis
Sample Length is 0 s, and Capture Time is Auto.
It cannot be queried while measuring.
Output format of IQ data by this command can be changed by FORM and
FORM:BORD.
When all the following conditions are met, this command reads out IQ data most rapidly.
• The terminal is RF.
• :FORMat[:DATA] is set to REAL,32.
• :FORMat:BORDer is set to SWAPped.
Example of Use
To query two IQ data samples from the 0 th sample.
(When ASC,0 is set to FORM)
DATA? 0,2
> 2.4358980E-03,-1.9873490E+01,
6.3400291E+00,1.2231689E-03
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DET/DET?
Detection
Function
Command
Query
Response
Parameter
Details
Example of Use
This command sets the detection mode for the main trace.
DET mode
DET? mode mode
NRM
POS
NEG
AVG
SAMP
Detection mode
Maximum/minimum value detection
Maximum value detection
Minimum value detection
Average value detection
Sample detection
This command is available on the following traces:
• Spectrum, Spectrogram (NRM, SAMP is not available)
• Power vs Time (SAMP is not available)
• Frequency vs Time (SAMP is not available)
• Phase vs Time (NRM is not available)
To set the detection mode for the main trace to maximum value detection.
DET POS
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DETMODE/DETMODE?
Marker Value in Pos&Neg detection
Function
This command selects the marker value to be displayed when the detection mode is Pos&Neg.
Command
DETMODE det,marker
Query
DETMODE? marker
Response det
Parameter det
POS
NEG marker
1
2
When omitted
Detection mode to be displayed
Displays the maximum value detection value
Displays the minimum value detection value
Displayed marker
Marker 1
Marker 2
Active marker
Marker 1 applies when both Markers 1 and 2 are active.
Details
This command is available on the following trace:
• Frequency vs Time
This command is available only when Detection is set to Pos&Neg.
Example of Use
To set the display value for Marker 1 as the maximum value detection value.
DETMODE POS,1
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DGTZ
Save Captured Data
Function
Command
Parameter
Details
Example of Use
This command saves captured waveform data into a file.
DGTZ file,device file device
Name of file to be saved
Any character string enclosed by double quotes or single quotes.
Saving drive name
Drive name such as A, B, D, E, etc.
4
This function can be executed when a waveform is captured in the following cases:
• Measurement performed by Single Measurement (SNGLS command) is completed.
• Storage Mode is set to OFF.
This function results in an error if a parameter requires re-capturing of waveform after execution of waveform capturing.
Files are saved in the following directory of the specified drive.
\Anritsu Corporation\Signal Analyzer\User Data
\Digitized Data\Signal Analyzer
Up to 1000 files can be saved in a folder.
To save a waveform data file “DATA” into drive D.
DGTZ “DATA”,D
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DGTZCANCEL
Cancel Execute Digitize
Function
This command cancels saving of waveform data into a file.
Command
DGTZCANCEL
Example of Use
To cancel digitizing.
DGTZCANCEL
DGTZRATE/DGTZRATE?
Output Rate for Save Captured Data
Function
This command sets the output rate when executing Save Captured Data.
Command
DGTZRATE rate
Query
DGTZRATE?
Response rate
Parameter rate
Range
Resolution
Suffix code
Output rate
Refer to the table below.
Same as above.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
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Frequency span[Hz]
Minimum
[Hz]
1000 * 2
2500 * 2
5000 * 2
10000 * 2
25000 * 2
50000 * 2
100000 * 2
250000 * 2
500000 * 2
1000000 * 2
2500000 * 2
5000000 * 2
1000
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000 * 2
25000000 * 1
31250000 * 1
10000000
20000000
20000000
50000000 * 3, * 4
62500000 * 4
50000000
50000000
100000000* 3, * 5 100000000
125000000* 3, * 5 100000000
Maximum
[Hz]
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
Default
[Hz]
2000
5000
10000
20000
50000
100000
200000
500000
1000000
2000000
5000000
10000000
Resolution
1
1
1
1
1
10
10
[Hz]
10
100
100
100
1000
20000000
50000000
50000000
20000000
50000000
50000000
1000
1000
1000
100000000 100000000 10000
100000000 100000000 1000
200000000 200000000 10000
200000000 200000000 10000
For 2690A/91A/92A:
*1,*2: This can be set regardless of option configurations.
*3: This can be set when the Option 004/104 (Wideband Analysis Hardware) is
*4:
installed.
This can be set when the Option 077/177 (Analysis Bandwidth Extension
to 62.5 MHz) is installed.
This can be set when the Option 078/178 (Analysis Bandwidth Extension *5:
to 125 MHz) is installed.
For MS2830A, MS2840A:
*1: This can be set when the MS2830A-005/105/007/009/109,
MS2840A-005/105/009/109 (Analysis Bandwidth Extension to 31.25 MHz) is
*2:
*4:
*5: installed.
This can be set when the Option 006/106 (Analysis Bandwidth 10 MHz) is
installed.
This can be set when the MS2830A-077, MS2840A-077/177 (Analysis
Bandwidth Extension to 62.5 MHz) is installed.
This can be set when the MS2830A-078, MS2840A-078/178 (Analysis
Bandwidth Extension to 125 MHz) is installed.
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Details
Example of Use
To set the output rate to 30 MHz.
DGTZRATE 30MHZ
DIGR:ADR/DIGR:ADR?
AD Full Range
Function
This command sets the entering the factor for converting the DigRF 3G
(only for MS269x Series) signal to V units.
Command
Returns to the default value if the frequency span is changed.
The setting range is limited by the Frequency Span setting.
This command is not available in the following case:
• When Terminal is DigRF 3G (only for MS269x Series).
DIGR:ADR volt
Query
DIGR:ADR?
Response volt
Parameter volt
Range
Resolution
Suffix code
Voltage
1 mV to 10V
0.1 mV
V, MV
V is used when omitted.
Details
This command is not available in the following cases:
[MS269xA]
• Setting for AD Full Range cannot be performed when the Option
040/140 Baseband Interface Unit is not installed in this instrument.
• When the Replay function is being executed.
[MS2830A], [MS2840A]
• Not available
Example of Use
To set coefficient is 10 mV
DIGR:ADR 10MV
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DIGR:IQS/DIGR:IQS?
I/Q Sign
Function
This command sets the I/Q sign.
Command
DIGR:IQS iq_sign
Query
DIGR:IQS?
Response iq_sign
Parameter iq_sign
SIGN
TWOC
I/Q Sign
Sets to “Sign Bit + Abs. Value”
Sets to “Two's Complement”
Details
This command is not available in the following cases:
[MS269xA]
• Setting for I/Q Sign cannot be performed when the Option 040/140
Baseband Interface Unit is not installed in this instrument.
• When the Replay function is being executed.
[MS2830A], [MS2840A]
• Not available
Example of Use
To set the I/Q Sign to Sign + Bit Abs.Value.
DIGR:IQS SIGN
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DIGR:MEAS/DIGR:MEAS?
Measurement Channel
Function
This command sets the Logical channel Type of the receiving DigRF 3G
(only for MS269x Series) signal.
Command
DIGR:MEAS channel
Query
DIGR:MEAS?
Response channel
Parameter channel
PRIM
DIV
Measurement Channel
Sets to Primary
Sets to Diversity
Details
This command is not available in the following cases:
[MS269xA]
• Setting for Measurement Channel cannot be performed when the
Option 040/140 Baseband Interface Unit is not installed in this instrument.
• When the Replay function is being executed.
[MS2830A], [MS2840A]
• Not available
Example of Use
To set the Logical Channel Type to Primary.
DIGR:MEAS PRIM
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DIGR:TARG/DIGR:TARG?
Target System
Function
This command selects the communication method for DigRF 3G (only for
MS269x Series).
Command
DIGR:TARG communication
Query
DIGR:TARG?
Response communication
Parameter communication
WCDMA
GSM
Communication method
Sets the communication method to W-CDMA
Sets the communication method to GSM
Details
This command is not available in the following cases:
[MS269xA]
• Setting for Target System cannot be performed when the Option
040/140 Baseband Interface Unit is not installed in this instrument.
• When the Replay function is being executed.
[MS2830A], [MS2840A]
• Not available
4
Example of Use
To set the communication method of input signal to W-CDMA.
DIGR:TARG WCDMA
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DISP:WIND:STR:Y:PDIV:RANG:LIN/DISP:WIND:STR:Y:PDIV:RANG:LIN?
Sub Trace Linear Scale Level Full Scale
Function
This command sets the level-axis scale range for sub traces in Linear scale mode.
Command
DISP:WIND:STR:Y:PDIV:RANG:LIN percent
Query
DISP:WIND:STR:Y:PDIV:RANG:LIN?
Response percent
Parameter percent
10
20
50
100
Suffix code
Y-axis Scale
10 %
20 %
50 %
100 %
None
Details
This command is not available in the following cases:
• When the sub-trace is set to Off.
• When Scale Mode is set to Log AND the sub-trace is set to Power vs
Time.
• When the sub-trace is set to Spectrogram.
Example of Use
To set the level-axis scale range for sub traces to 50%.
DISP:WIND:STR:Y:PDIV:RANG:LIN 50
DISP:WIND:STR:Y:PDIV:RANG:LIN?
> 50
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DISP:WIND:STR:Y:PDIV:RANG:LOG/DISP:WIND:STR:Y:PDIV:RANG:LOG?
Sub Trace Log Scale Level Full Scale
Function
This command sets the level-axis scale range for sub traces in Log scale mode.
Command
DISP:WIND:STR:Y:PDIV:RANG:LOG rel_ampl
Query
DISP:WIND:STR:Y:PDIV:RANG:LOG?
Response rel_ampl
Parameter rel_ampl
Resolution
Range
Suffix code
Y-axis Scale
10 dB
10 to 150 dB
DB dB is used when omitted.
Details
This command is not available in the following cases:
• When the sub-trace is set to Off.
• When Scale Mode is set to Linear AND the sub-trace is set to Power vs
Time.
Example of Use
To set the level-axis scale range for sub traces to 50 dB.
DISP:WIND:STR:Y:PDIV:RANG:LOG 50
DISP:WIND:STR:Y:PDIV:RANG:LOG?
> 50
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DISP:WIND:TRAC:Y:CVOL/DISP:WIND:TRAC:Y:CVOL?
Vertical Scale Center
Function
This command sets the value for the center of the vertical scale.
Command
DISP:WIND:TRAC:Y:CVOL voltage
Query
DISP:WIND:TRAC:Y:CVOL?
Response voltage
Parameter voltage
Range
Resolution
Suffix code
Scale setting value
− Reference Level to Reference Level
0.01 pV
PV, NV, UV, MV, V
V is used when omitted.
Details
This command is available when the following trace is active:
• Power vs Time
This command is not available in the following cases:
• When Terminal is RF
• When Scale Mode is Log
• When Input Source is Complex
• When the Replay function is being executed.
Example of Use
To set the value for center of vertical scale to 2 mV.
DISP:WIND:TRAC:Y:CVOL 2MV
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DISP:WIND:TRAC:Y:PDIV:RANG/DISP:WIND:TRAC:Y:PDIV:RANG?
Level Full Scale
Function
This command sets the level-axis scale range.
Command
DISP:WIND:TRAC:Y:PDIV:RANG rel_ampl
Query
DISP:WIND:TRAC:Y:PDIV:RANG?
Response rel_ampl
Parameter rel_ampl Y-axis scale
Resolution
Range
10 dB
10 to 150 dB
Default value 100 dB
Details
This command is available on the following trace:
• Spectrogram
Example of Use
To set the scale range of the level axis to 50 dB.
DISP:WIND:TRAC:Y:PDIV:RANG 50
DISP:WIND:TRAC:Y:PDIV:RANG?
> 50
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DISTSCALE/DISTSCALE?
Power Distribution Scale
Function
This command sets power distribution axis scale.
Command
DISTSCALE scale
Query
DISTSCALE?
Response scale
Parameter scale
05
10
20
50
Power distribution axis scale
5 dB
10 dB
20 dB
50 dB
Details
This command is available when the following trace is active:
• CCDF
Example of Use
To set the power distribution axis scale to 10 dB.
DISTSCALE 10
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DTCNT?
Data Point Query
Function
Query
Response
Details
Example of Use
This command is available when the following trace is active:
• CCDF
To query the number of the measured points.
DTCNT?
ERASEWUP
Erase Warm Up Message
Function
Command
This command erases the warm-up message.
ERASEWUP
Details
This command queries the number of the measured points.
DTCNT? point
This command is not available while the Replay function is being executed.
Example of Use
To erase the warm-up message.
ERASEWUP
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ESE2/ESE2?
End Event Status Enable Command/Query
Function
This command sets the END event status enable register. When the query command is issued, the value of the END event status enable register is returned.
Command
ESE2 n
Query
ESE2?
Response n
Parameter n
Value
END event status enable register
= bit0 + bit1 + bit2 + bit3 + bit4 + bit5 + bit6 + bit7 bit0: 2 bit1: 2 bit2: 2 bit3: 2 bit4: 2 bit5: 2
0
1
2
3
4
5
= 1
= 2
= 4
= 8
= 16
= 32 bit6: 2 bit7: 2
6
7
= 64
= 128
Range 0 to 255
End of measurement
End of analysis
(Not used)
End of Storage Stop
End of Marker value calculation
End of Measure
End of Peak Search
End of file operation
Example of Use
To enable the measurement end status.
1: ESE2 1
2: ESE2? Response> 1
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ESE3/ESE3?
ERROR Event Status Enable Command/Query
Function
This command sets the ERROR event status enable register. When the query command is issued, the value of the ERROR event status enable register is returned.
Command
ESE3 n
Query
ESE3?
Response n
Parameter n
Value
ERROR event status enable register
= bit0 + bit1 + bit2 + bit3 + bit4 + bit5 + bit6 + bit7 bit0: 2 bit1: 2 bit2: 2 bit3: 2 bit4: 2 bit5: 2
0
1
2
3
4
5
= 1
= 2
= 4
= 8
= 16
= 32 bit6: 2 bit7: 2
6
7
= 64
= 128
Range 0 to 255
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
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ESR2?
END Event Status Register Query
Function
This command queries the END event status register value and clears the END event status register after query.
Query
ESR2?
Response n
Parameter n
Value
END event status register
= bit0 + bit1 + bit2 + bit3 + bit4 + bit5 + bit6 + bit7 bit0: 2 0 = 1 bit1: 2 1 = 2 bit2: 2 2 = 4 bit3: 2 3 = 8 bit4: 2 4 = 16 bit5: 2 5 = 32 bit6: 2 6 = 64 bit7: 2 7 = 128
Range 0 to 255
End of measurement
End of analysis
(Not used)
End of Storage Stop
End of Marker value calculation
End of Measure
End of Peak Search
End of file operation
Details
The register corresponding to ESR2 is enabled even when an operation is finished due to error occurrence.
Example of Use
To query the END event status register value.
ESR2?
Response
> 1 End of measurement
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ESR3?
ERROR Event Status Register Query
Function
This command queries the error event status register value and clears the ERROR event status register after query.
Query
ESR3?
Response n
Parameter n
Value
ERROR event status register
= bit0 + bit1 + bit2 + bit3 + bit4 + bit5 + bit6 + bit7 bit0: 2 0 = 1 bit1: 2 1 = 2 bit2: 2 2 = 4 bit3: 2 3 = 8 bit4: 2 4 = 16 bit5: 2 5 = 32 bit6: 2 6 = 64 bit7: 2 7 = 128
Range 0 to 255
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
(Not used)
4
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FDPNT?
Trace Point Query
Function
This command queries the number of data points on the frequency axis of the main trace.
Query
FDPNT?
Response point
Parameter point Number of data points on the frequency axis
Details
Example of Use
This command is available when the following traces are active:
• Spectrum
• Spectrogram
To query the number of data points on the frequency axis of the main trace.
FDPNT?
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FEED/FEED?
Terminal Change
Function
Command
Query
Response
Parameter
Details
Example of Use
This command selects Terminal.
FEED terminal
FEED? terminal terminal
RF
DIGRF3G
Terminal
Sets Terminal to RF
Sets Terminal to DigRF 3G (only for MS269x
Series)
4
This command is not available in the following cases:
[MS269xA]
• Setting for DigRF 3G (only for MS269x Series) cannot be performed when the Option 040/140 Baseband Interface Unit is not installed in this instrument.
• When the Replay function is being executed.
[MS2830A], [MS2840A]
• Not available
To set Terminal to RF.
FEED RF
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FETC:AM?
AM Depth Fetch
Function
Query
Response
Parameter
Details
This command queries the result of the AM Depth measurement.
FETC:AM? pos,neg,p-p,avg pos neg p-p
Suffix code avg
Suffix code
Peak to Peak measurement result
+Peak value
− Peak value
{(−Peak)−(+Peak)}/2
None, Value is returned in % units.
–999999999999 is returned when no measurement is performed or an error occurs.
Average value
None, Value is returned in V units.
–999999999999 is returned when no measurement is performed or an error occurs.
This function outputs the result of the last performed AM Depth measurement. Because this function is not related to capturing, it can be used to output the results of a previously finished measurement in a different format.
To perform measurement again by using the results of another capturing attempt, use the READ command.
Example of Use
To query the result of the AM Depth measurement.
FETC:AM?
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FETC:CCDF?
CCDF Fetch
Function
Query
Response
This command fetches the CCDF measurement result.
FETC:CCDF?
When Result Mode is “A”. mean_power,peak_power_dbm,crest
(n=1 or when omitted) rel_ampl_1,rel_ampl_2,rel_ampl_3,rel_ampl_4, rel_ampl_5,rel_ampl_6
(n=2) percent_1,percent_2,percent_3,percent_4, percent_5
(n=3)
[Measure method is CCDF] meas_per_1,meas_per_2,...meas_per_5001
[Measure method is APD] meas_per_1,meas_per_2,...meas_per_10001
(n=4) gauss_per_1, gauss_per_2,...guass_per_5001
(n=5)
[Measure method is CCDF] ref_per_1,ref_per_2,...ref_per_5001
[Measure method is APD] ref_per_1,ref_per_2,...ref_per_10001 count
(n=6)
(n=7) mean_power_range_1, peak_power_dbm_range_1,crest_range_1
(n=8) rel_ampl_range_1_1,rel_ampl_range_1_2, rel_ampl_ range_1_3,rel_ampl_range_1_4, rel_ampl_range_1_5,rel_ampl_range_1_6
(n=9) percent_range_1_1, percent_range_1_2, percent_range_1_3, percent_range_1_4,percent_range_1_5
(n=10)
4
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[Measure Method is CCDF] meas_per_range_1_1,meas_per_ range_1_2,... meas_per_range_1_5001
[Measure Method is APD] meas_per_range_1_1,meas_per_range_1_2,... meas_per_range_1_10001
(n=11)
[Measure Method is CCDF] ref_per_range_1_1,ref_per_range_1_2,... ref_per_range_1_5001
[Measure Method is APD] ref_per_range_1_1,ref_per_range_1_2,... ref_per_range_1_10001 count_range_1
(n=13)
(n=14) mean_power_range_2, peak_power_dbm_range_2,crest_range_2
(n=15) rel_ampl_range_2_1,rel_ampl_range_2_2, rel_ampl_range_2_3,rel_ampl_range_2_4, rel_ampl_range_2_5,rel_ampl_range_2_6
(n=16) percent_range_2_1, percent_range_2_2, percent_range_2_3, percent_range_2_4,percent_range_2_5
(n=17)
[Measure Method is CCDF] meas_per_range_2_1,meas_per_range_2_2,... meas_per_range_2_5001
[Measure Method is APD] meas_per_range_2_1,meas_per_range_2_2,... meas_per_range_2_10001
(n=18)
[Measure Method is CCDF] ref_per_range_2_1,ref_per_range_2_2,... ref_per_range_2_5001
[Measure Method is APD] ref_per_range_2_1,ref_per_range_2_2,... ref_per_range_2_10001
(n=20) count_range_2
(n=21) mean_power_range_3,peak_power_dbm_range_3,crest_range_3
(n=22)
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Parameter
Chapter 4 Native Device Message Details rel_ampl_range_3_1,rel_ampl_range_3_2, rel_ampl_range_3_3,rel_ampl_range_3_4, rel_ampl_range_3_5,rel_ampl_range_3_6
(n=23) percent_range_3_1,percent_range_3_2,percent_range_3_3, percent_range_3_4,percent_range_3_5
(n=24)
[Measure Method is CCDF] meas_per_range_3_1,meas_per_range_3_2,... meas_per_range_3_5001
[Measure Method is APD ] meas_per_range_3_1,meas_per_range_3_2,... meas_per_range_3_10001
(n=25)
[Measure Method is CCDF] ref_per_range_3_1,ref_per_range_3_2,... ref_per_range_3_5001
[Measure Method is APD] ref_per_range_3_1,ref_per_range_3_2,... ref_per_range_3_10001
(n=27) count_range_3
(n=28)
When Result Mode is “B”. mean_power, mean_power_prob, rel_ampl_1, rel_ampl_2, rel_ampl_3, rel_ampl_4, rel_ampl_5, rel_ampl_6,crest, count
(n = 1 or when omitted)
[Measure method is CCDF] meas_per_1, meas_per_2,... meas_per_5001
[Measure method is APD] meas_per_1, meas_per_2,... meas_per_10001
(n=2) gauss_per_1, gauss_per_2,...guass_per_5001
(n=3)
[Measure method is CCDF] ref_per_1, ref_per_2,...ref_per_5001
[APD] ref_per_1, ref_per_2,...ref_per_10001
(n=4)
Measurement Result types mean_power Average power peak_power dbm Max power
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Chapter 4 Native Device Message Details
Suffix code percent_n
None. Value is returned in dBm units.
–999.0 is returned at no measurement or error
Each value indicates the power deviation in the probability distributions below.
• 1, 2, 3, 4, 5 dB
(When Horizontal Scale is set to 5 dB)
• 2, 4, 6, 8, 10 dB
(When Horizontal Scale is set to 10 dB)
• 4, 8, 12, 16, 20 dB
(When Horizontal Scale is set to 20 dB)
• 10, 20, 30, 40, 50 dB
(When Horizontal Scale is set to 50 dB)
0.0001%
None. Value is returned in % units.
–999.0 is returned at no measurement or error
Resolution
Suffix code mean_power_prob
Suffix code
Mean power probability distribution
None. Value is returned in % units.
–999.0 is returned at no measurement or error. rel_ampl_n meas_percent_n
Resolution
Suffix code
Each value indicates the power deviation in the probability distributions below.
• 10, 1, 0.1, 0.01, 0.001, 0.0001%
Each value indicates the power deviation of the measured value in the probability distributions below.
• –50.00, –49.99, ...,49.99, 50.00 dB (APD)
• 00.00, 00.01, ...,49.99, 50.00 dB (CCDF)
0.0001%
None. Value is returned in % units.
–999.0 is returned at no measurement or error guauss_percent_n Each value indicates the power deviation of the
Gaussian trace in the probability distributions below.
• –50.00, –49.99, ...,49.99, 50.00 dB
(APD, "–999.0" is returned for all values.)
Resolution
Suffix code
• 00.00, 00.01, ..,49.99, 50.00 dB (CCDF)
0.0001%
None. Value is returned in % units.
–999.0 is returned at no measurement or error.
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Details
Example of Use ref_percent_n
Resolution
Suffix code crest
Suffix code
Count
Suffix code
Chapter 4 Native Device Message Details
Each value indicates the power deviation of the reference trace in the probability distributions below.
• –50.00, –49.99, ...,49.99, 50.00 dB (APD)
• 00.00, 00.01, ...,49.99, 50.00 dB (CCDF)
0.0001%
None. Value is returned in % units.
–999.0 is returned at no measurement or error
Crest factor
None. Value is returned in dB units.
–999.0 is returned at no measurement or error
Number of data samples
None.
–999.0 is returned at no measurement or error
4
This function outputs the result of the last performed CCDF measurement. Because this function is not related to capturing, it can be used to output the results of a previously finished measurement in a different format.
To perform measurement again by using the results of another capturing attempt, use the READ command.
The value returned by this command differs depending on Result Mode.
(cf. :SYSTem:RESult:MODE)
This function can be set when the following trace is active.
• CCDF
To query the measurement result during CCDF measurement (n = 1, A mode).
FETC:CCDF?
> -66.68,-54.90,11.78
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FETC:FM?
FM deviation Fetch
Function
Query
Response
Parameter
Details
Example of Use
This command queries the result of the FM deviation measurement.
FETC:FM? pos,neg,p-p,avg pos neg p-p
Suffix code avg
Suffix code
Peak to Peak measurement result
+Peak value
− Peak value
{(−Peak)−(+Peak)}/2
None, Value is returned in Hz units.
–999999999999 is returned when no measurement is performed or an error occurs.
Average value
None, Value is returned in Hz units.
–999999999999 is returned when no measurement is performed or an error occurs.
This command is available when the following trace is active:
• Frequency vs Time
This command queries the result of the Spurious Emission measurement performed lastly. This function does not accompany any sweep, thus this function is used to read out the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing sweep.
To query the result of the FM deviation measurement.
FETC:FM?
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FETC:FMCW?
FM CW Fetch
Function
Query
Response
Parameter
Details
Example of Use
This command queries the result for FM CW measurement.
FETC:FMCW?
Refer to Table 2.23-2
None
This function queries the measurement result of the FM CW measurement performed last. This function does not accompany any capture, thus this function is used to output the measurement result in a different type, when the measurement has already completed.
Use READ command to perform re-measurement with redoing capture.
4
To query the measurement result for FM CW measurement.
FETC:FMCW?
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FLTRBW/FLTRBW?
Filter Bandwidth
Function
Command
This command sets the filter bandwidth of the main trace.
FLTRBW bandwidth
Query
FLTRBW?
Response bandwidth
Parameter bandwidth Filter bandwidth
Range and resolution
Suffix code
Limited by settings for Frequency Span and
Filter Type.
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation) for details.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when any of the following traces is active:
• Power vs Time
• CCDF
• Frequency vs Time
This command is available when the Filter Type is set to any of the following:
• Rect
• Gauss
• Nyquist
• Root Nyquist
The setting range is limited by the Frequency Span and Filter Type settings.
Example of Use
To set the filter bandwidth of the main trace to 1 MHz.
FLTRBW 1MHz
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FLTROFS/FLTROFS?
Filter Frequency Offset
Function
This command sets the filter frequency offset of the main trace.
Command
FLTROFS freq
Query
FLTROFS?
Response freq
Returns a value in Hz units without a suffix code.
Parameter freq
Range
Resolution
Suffix code
Channel width
–1 × Frequency span to Frequency span Hz
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
This command is available when either of the following traces is active:
• Power vs Time
• CCDF
This command is available when the Filter Type is set to any of the following:
• Rect
• Gauss
• Nyquist
• Root Nyquist
Example of Use
To set the filter frequency offset of the main trace to 30 kHz.
FLTROFS 30KHZ
4
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FLTRTYP/FLTRTYP?
Filter Type
Function
This command selects the Filter Type for the main trace.
Command
FLTRTYP filter
Query
FLTRTYP?
Response filter
Parameter filter
RECT
GAUSS
NYQUIST
ROOTNYQUIST
OFF
Filter type
Rectangle filter
Gauss filter
Nyquist filter
Root Nyquist filter
No filtering
Details
This command is available when either of the following traces is active:
• Power vs Time
• CCDF (selectable for rectangle filter and no filtering only)
The filter type is fixed to OFF when the frequency span is set to 1 kHz.
Example of Use
To set the Filter Type to Gauss filter.
FLTRTYP GAUSS
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FM/FM?
Measure FM deviation
Function
Command
Query
Response
Parameter
Details
Example of Use
This command performs the FM deviation measurement.
FM switch_com
FM? switch_res switch_com
ON/1
OFF/0 switch_res
1
0
FM deviation measurement On/Off
Sets FM deviation measurement to On.
Sets FM deviation measurement to Off.
FM deviation measurement On/Off
On
Off
This command is available when the following trace is active:
• Frequency vs Time
To set the FM deviation measurement to On.
FM ON
FM?
> 1
4
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FMCW/FMCW?
Measure FM CW
Function
Command
Query
Response
Parameter
Details
Example of Use
This command executes FM CW measurement.
FMCW switch_com
FMCW? switch_res switch_com
ON/1
OFF/0 switch_res
1
0
FM CW measurement On/Off
Sets FM CW measurement On.
Sets FM CW measurement Off (Default value).
FM CW measurement On/Off
Set FM CW measurement On.
Set FM CW measurement Off
This command is available when the following trace is active:
● Frequency vs Time
To set FM CW measurement to On.
FMCW ON
FMCW?
> 1
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FORM/FORM?
Numeric Data Format
Function
Command
Query
Response
Parameter
This command sets the format of the IQ data read out by DATA?.
FORM format_com,length
FORM? format_res,length
The following are set when the terminal is RF: format_com IQ data format
ASC
REAL
Ascii format (Default value)
Binary 32 byte floating point number format format_res
ASC
IQ data format
Ascii format (Default value)
REAL length
0
Binary 32 byte floating point number format
Secondary setting to the selected format
Returns the results in the effective digit number unique to this instrument.
32
Setting is possible only when ASCii is specified as the format.
Returns the results in the 32 byte floating point number format.
When omitted:
Setting is possible only when REAL is specified as the format.
0 is automatically set when ASCii is specified as the format, while 32 is automatically set when REAL is specified as the format.
The following are set when the terminal is DigRF 3G (only for MS269x
Series): format_com
ASC
REAL
IQ data format
Ascii format (Default value)
Binary 16 bits format (When Target System is
GSM).
Binary 8 bits format (When Target System is
W-CDMA).
4
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Chapter 4 Native Device Message Details
Details format_res
ASC
REAL
IQ data format
Ascii format (Default value)
Binary 16 bits format (When Target System is
GSM)
Binary 8 bits format (When Target System is
W-CDMA) length
0
32
Supplementary setting for selected format
Result is sent back in number of significant figures of this instrument. This can be set only when ASCii is specified for format.
This is returned when the REAL is specified for format. This can be set only when REAL is specified for format.
When omitted 0 is set when ASC is specified for format. 32 is set when REAL is specified for format.
(When Terminal is RF)
When REAL is set, IQ data is queried in the 32 byte single precision floating point number format specified in IEEE754.
(When Terminal is DigRF 3G (only for MS269x Series))
When the REAL is set, IQ data is output in 16 bits for the Target
System:GSM, and in 8 bits for Target System:W-CDMA.
Example of Use
To set the IQ data format to Ascii.
FORM ASC
FORM?
> REAL,32
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FORM:BORD/FORM:BORD?
Binary Data Byte Order
Function
This command sets the byte order of the reading data when REAL,32 is set to FORM.
Command
FORM:BORD border_com
Query
FORM:BORD?
Response border_res
Parameter border_com
NORM
SWAP border_res
NORM
SWAP
Byte order
Sets the byte order to Big-endian (Default value)
Sets the byte order to Little-endian.
4
Byte order
Bite order is Big-endian.
Bite order is Little-endian.
Details
This command sets the order in which the data is arranged when data is read out in a binary style. In Big-endian, the data is arranged in the descending order (starting from the most significant value in the sequence), and in Little-endian, the data is arranged in the ascending order (starting from the least significant value in the sequence).
(When Terminal is RF)
For instance, in Big-endian, “0x01234567” (four-byte data) is arranged in the order of “01 23 45 67, while, in Little-endian, it is arranged in the order of “67 45 23 01”.
(When Terminal is DigRF 3G (only for MS269x Series))
The 2 byte data of “0x0123” in the Target System:GSM will be arranged in order of “23 01” in Big endian, and “01 23” in Little endian.
Arrangement order will not change for Target System:W-CDMA since the data is 8 bits.
Example of Use
To set the byte order to the little endian.
FORM:BORD SWAP
FORM:BORD?
> SWAP
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FREQ:CENT:STEP/FREQ:CENT:STEP?
Frequency Step Size
Function
This command sets the step size of the center, start and stop frequency.
Command
FREQ:CENT:STEP freq
Query
FREQ:CENT:STEP?
Response freq
Parameter freq
Range
Step size
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
1 Hz to 6 GHz (MS2690A)
1 Hz to 13.5 GHz (MS2691A)
1 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
1 Hz to 6 GHz (MS2690A)
1 Hz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
1 Hz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 13.5 GHz (Option 043)
1 Hz to 26.5 GHz (Option 044)
1 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (Option 044)
1 Hz to 6 GHz (Option 045)
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Example of Use
Chapter 4 Native Device Message Details
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
1 Hz to 26.5 GHz (Option 044)
1 Hz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
1 Hz to 26.5 GHz (Option 044)
1 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
1 Hz to 3.6 GHz (Option 040)
1 Hz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
1 Hz to 6 GHz (Option 044)
1 Hz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167,
Resolution
Suffix code
Default and frequency span > 31.25 MHz
1 Hz to 26.5 GHz (Option 044)
1 Hz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
1 GHz
4
To set the step size to 100.0 kHz.
FREQ:CENT:STEP 100000
To query the step size.
FREQ:CENT:STEP?
> 100000
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FREQ:SYNT/FREQ:SYNT?
Switching Speed
Function
This command selects the switching speed of frequency.
Command
FREQ:SYNT mode
Query
FREQ:SYNT?
Response mode Frequency switching mode
Parameter
<mode>
BPH
NORM
FAST
Frequency switching speed
The operation is done so as to improve the phase noise characteristic rather than the frequency switching speed.
Becomes same setting as BPH (response is
BPH).
The operation is done so as to increase the frequency switching speed at the cost of the phase noise characteristic.
Details
This command is available for MS2830A and MS2840A.
Note that because the FAST setting gives priority to the switching speed of the local frequency, the phase noise characteristic worsens.
Example of Use
To set the frequency switching mode to the speed priority mode.
FREQ:SYNT FAST
To query frequency switching speed
FREQ:SYNT?
> FAST
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FREQ:SYNT:LPH:STAT?
Low Phase Noise Performance Status Query
Function
This command queries the state of Low Phase Noise function with the current measurement conditions.
Query
FREQ:SYNT:LPH:STAT?
Response status Low Phase Noise function status
Parameter status
1
0
Low Phase Noise function status
Lowers Phase Noise
Does not lower Phase Noise
Detail
This function is available when MS2830A-062/066, MS2840A-066/166 is installed.
The phase noise performance is improved when the Low Phase Noise switch is On and the center frequency is less than 3.7 GHz (3.5 GHz when the Frequency Band Mode is Spurious).
Whether the Low Phase Noise option can be used or not is read from the current setting parameters by this function.
Example of Use
To query the state of Low Phase Noise function with the current measurement conditions.
FREQ:SYNT:LPH:STAT?
> 1
4
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FULBAND/FULBAND?
External Mixer Band Select
Function
This command selects external mixer band.
Command
FULBAND band
Query
FULBAND?
Response band
Parameter band
F
D
E
W
U
V
A
Q
G
Y
J
External mixer band
Band A (26.5 to 40.0 GHz, 4+)
Band Q (33.0 to 50.0 GHz, 5+)
Band U (40.0 to 60.0 GHz, 6+)
Band V (50.0 to 75.0 GHz, 8+)
Band E (60.0 to 90.0 GHz, 9+)
Band W (75.0 to 110.0 GHz, 11+)
Band F (90.0 to 140.0 GHz, 14+)
Band D (110.0 to 170.0 GHz, 17+)
Band G (140.0 to 220.0 GHz, 22+)
Band Y (170.0 to 260.0 GHz, 26+)
Band J (220.0 to 325.0 GHz, 33+)
Details
This function is available for MS2830A-044/045.
This function is available for MS2840A-044/046.
Example of Use
To set the external mixer band to Band U.
FULBAND U
FULBAND?
> U
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FUNITS/FUNITS?
Frequency Scale Unit
Function
Command
Query
Response
Parameter
Details
Example of Use
This command sets the display unit system of the frequency axis.
FUNITS unit
FUNITS? unit unit
HZ
DHZ
Display unit system of the frequency axis
Hz
∆ Hz
This command is available when the following trace is active:
• Frequency vs Time
To set the display unit system to Hz.
FUNITS HZ
INI
Initialize
Function
Command
This command initializes the parameters.
INI
Example of Use
To initialize the parameters.
INI
4
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INIT:AM
AM Depth Initiate
Function
Command
Details
Example of Use
This command starts the AM Depth measurement.
INIT:AM
When this function has been executed, the AM Depth measurement is set to On and the measurement will start.
Scale Mode is set to Linear and Detection is set to Pos&Neg, and Peak to
Peak function is set to On.
This command is available when the following trace is active:
• Power vs Time
To start the AM Depth measurement.
INIT:AM
INIT:FM
FM deviation Initiate
Function
Command
Details
Example of Use
This command starts the FM deviation measurement.
INIT:FM
When this function has been executed, the FM Deviation measurement is set to On and the measurement starts.
Scale Unit is set to ∆Hz and Detection is set to Pos&Neg, and Peak to
Peak function is set to ON.
This command is available when the following trace is active:
• Frequency vs Time
To start the FM deviation measurement.
INIT:FM
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INIT:FMCW
FM CW Initiate
Function
This command starts the FM CW measurement.
Command
INIT:FMCW
Details
When this function has been executed, the FM CW measurement is set to
On and the measurement starts.
Scale Unit is set to ∆Hz, Detection is set to Pos&Neg.
Example of Use
To start the FM CW measurement.
INIT:FMCW
LINSCALEDIV/LINSCALEDIV?
Liner Scale Range
Function
This command sets the scale range of the level axis for the main trace
(Lin scale).
4
Command
LINSCALEDIV scale
Query
LINSCALEDIV?
Response scale
Returns a value in percentage units without a suffix code.
Parameter scale
Range
Level axis scale
1 to 10% (1-2-5 sequence)
Details
This command is available when either of the following traces is active:
• Spectrum
• Power vs Time
This command is available when Scale Mode is Linear.
Example of Use
To set the scale of level axis for the main trace to 10%/div.
LINSCALEDIV 10
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LOADSTD/LOADSTD?
Load Standard Parameter
Function
This command changes parameter settings according to the communication method selected for Standard.
Command
LOADSTD measure
LOADSTD measure,pattern
Query
LOADSTD? measure
Response pattern
Parameter measure
ADJ
CHPWR
OBW
BRSTAVGPWR
Target measurement
ACP measurement (Spectrum)
Channel power measurement (Spectrum)
OBW measurement (Spectrum)
Burst Average Power measurement (Power vs
Time)
When Standard is set to W-CDMA Uplink (ACP measurement):
Pattern
UPLINK
When omitted:
Parameter to be set
3GPP W-CDMA Uplink
3GPP W-CDMA Uplink
When Standard is set to W-CDMA Uplink (OBW measurement):
Pattern Parameter to be set
UPLINK
When omitted:
3GPP W-CDMA Uplink
3GPP W-CDMA Uplink
When Standard is set to W-CDMA Uplink (Channel Power measurement)
Pattern
UPLINK
Parameter to be set
3GPP W-CDMA Uplink, Mean Power
MEAN measurement
3GPP W-CDMA Uplink, Mean Power
RRCFILTER measurement
3GPP W-CDMA Uplink, RRC Filtered Power measurement
When omitted: 3GPP W-CDMA Uplink, Mean Power measurement
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When Standard is set to W-CDMA Uplink (Burst Average Power measurement)
Pattern
MEAN
Parameter to be set
3GPP W-CDMA Uplink, Mean Power
RRCFILTER measurement
3GPP W-CDMA Uplink, RRC Filtered Power measurement
When omitted: 3GPP W-CDMA Uplink, Mean Power measurement
When Standard is set to W-CDMA Downlink (ACP measurement):
Pattern
DOWNLINK
Parameter to be set
3GPP W-CDMA Downlink (Single Carrier)
SINGLECARR
2CARR
3GPP W-CDMA Downlink (Single Carrier)
3GPP W-CDMA Downlink (2 Carriers)
When omitted: 3GPP W-CDMA Downlink (Single Carrier)
When Standard is set to W-CDMA Downlink (OBW measurement)
Pattern Parameter to be set
DOWNLINK 3GPP W-CDMA Downlink
When omitted: 3GPP W-CDMA Downlink
When Standard is set to W-CDMA Downlink (Channel Power measurement)
Pattern
DOWNLINK
Parameter to be set
3GPP W-CDMA Downlink, Mean Power
MEAN measurement
3GPP W-CDMA Downlink, Mean Power
RRCFILTER measurement
3GPP W-CDMA Downlink, RRC Filtered Power measurement
When omitted: 3GPP W-CDMA Downlink, Mean Power measurement
When Standard is set to W-CDMA Downlink (Burst Average Power measurement)
Pattern
MEAN
Parameter to be set
3GPP W-CDMA Downlink, Mean Power
RRCFILTER measurement
3GPP W-CDMA Downlink, RRC Filtered Power measurement
When omitted: 3GPP W-CDMA Downlink, Mean Power measurement
4
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When Standard is set to Mobile WiMAX pattern
10M
Parameter to be set
10MHz BW (Channel Bandwidth 10 MHz)
5M 5MHz BW (Channel Bandwidth 5 MHz)
When omitted: 10MHz BW
When Standard is set to LTE Uplink/Downlink (ACP measurement) pattern
1M4BW_UTRA5MHZ
Parameter to be set
1.4MHz BW (UTRA 5 MHz)
1M4BW_EUTRA1M4HZ
3MBW_UTRA5MHZ
3MBW_EUTRA3MHZ
5MBW_UTRA5MHZ
5MBW_EUTRA5MHZ
When omitted:
1.4MHz BW (E-UTRA 1.4 MHz)
3MHz BW (UTRA 5 MHz)
3MHz BW (E-UTRA 3 MHz)
5MHz BW (UTRA 5 MHz)
5MHz BW (E-UTRA 5 MHz)
5MHz BW (UTRA 5 MHz)
When Standard is set to LTE TDD Downlink (ACP measurement) pattern
1M4BW_UTRA1M6HZ
Parameter to be set
1.4MHz BW(UTRA 1.6 MHz)
1M4BW_EUTRA1M4HZ
3MBW_UTRA1M6HZ
1.4MHz BW(E-UTRA 1.4 MHz)
3MHz BW(UTRA 1.6 MHz)
3MBW_EUTRA3MHZ
5MBW_UTRA1M6HZ
3MHz BW(E-UTRA 3 MHz)
5MHz BW(UTRA 1.6 MHz)
5MBW_UTRA5MHZ
5MBW_EUTRA5MHZ
5MHz BW(UTRA 5 MHz)
5MHz BW(E-UTRA 5 MHz)
When omitted: 5MHz BW(E-UTRA 5 MHz)
When Standard is set to LTE TDD Uplink (ACP measurement) pattern Parameter to be set
1M4BW_UTRA1M6HZ
1M4BW_EUTRA1M4HZ
1.4MHz BW (UTRA 1.6 MHz)
1.4MHz BW (E-UTRA 1.4 MHz)
3MBW_UTRA1M6HZ
3MBW_EUTRA3MHZ
3MHz BW (UTRA 1.6 MHz)
3MHz BW (E-UTRA 3 MHz)
5MBW_UTRA1M6HZ
5MBW_EUTRA5MHZ
5MHz BW (UTRA 1.6 MHz)
5MHz BW (E-UTRA 5 MHz)
When omitted 5MHz BW (E-UTRA 5 MHz)
When Standard is set to LTE Uplink/Downlink or LTE TDD
Uplink/Downlink (OBW measurement) pattern
1M4BW
Parameter to be set
1.4MHz Bandwidth
3MBW
5MBW
10MBW
3MHz Bandwidth
5MHz Bandwidth
10MHz Bandwidth
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15MBW
20MBW
When omitted:
15MHz Bandwidth
20MHz Bandwidth
5MHz Bandwidth
When Standard is set to LTE Uplink/Downlink or LTE TDD
Uplink/Downlink (Channel Power measurement) pattern Parameter to be set
MEAN_1M4BW
MEAN_3MBW
MEAN_5MBW
MEAN_10MBW
Mean Power 1.4MHz BW
Mean Power 3MHz BW
Mean Power 5MHz BW
Mean Power 10MHz BW
MEAN_15MBW
MEAN_20MBW
Mean Power 15MHz BW
Mean Power 20MHz BW
FILTERED_1M4BW Filtered Power 1.4MHz BW
FILTERED_3MBW Filtered Power 3MHz BW
FILTERED_5MBW Filtered Power 5MHz BW
FILTERED_10MBW Filtered Power 10MHz BW
FILTERED_15MBW Filtered Power 15MHz BW
FILTERED_20MBW Filtered Power 20MHz BW
When omitted: Mean Power 5MHz BW
When Standard is set to LTE Uplink/Downlink or LTE TDD
Uplink/Downlink (Burst Average Power measurement) pattern
MEAN_1M4BW
Parameter to be set
Mean Power 1.4Hz BW
MEAN_3MBW
MEAN_5MBW
MEAN_10MBW
MEAN_15MBW
Mean Power 3MHz BW
Mean Power 5MHz BW
Mean Power 10MHz BW
Mean Power 15MHz BW
MEAN_20MBW Mean Power 20MHz BW
FILTERED_1M4BW Filtered Power 1.4MHz BW
FILTERED_3MBW Filtered Power 3MHz BW
FILTERED_5MBW Filtered Power 5MHz BW
FILTERED_10MBW Filtered Power 10MHz BW
FILTERED_15MBW Filtered Power 15MHz BW
FILTERED_20MBW Filtered Power 20MHz BW
Mean Power 5MHz BW When omitted:
When Standard is set to ETC_DSRC (Applies to all but Burst Average
Power measurement) pattern
PI4DQPSK
ASK
When omitted:
Parameter to be set
π/4DQPSK
ASK
π /4DQPSK
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When Standard is set to ETC_DSRC (Burst Average Power measurement) pattern
MEAN
Parameter to be set
Mean Power
When omitted: Mean Power
When Standard is set to TD-SCDMA (ACP measurement) pattern
TDD128M1C
Parameter to be set
Single Carrier
TDD128M2C
TDD128M3C
2 Carriers
3 Carriers
TDD128M4C
TDD128M5C
4 Carriers
5 Carriers
TDD128M6C 6 Carriers
Single Carrier When omitted:
When Standard is set to TD-SCDMA (CHP, OBW measurement) pattern
TDD128M
Parameter to be set
3GPP TDD 1.28 Mcps Option
When omitted: 3GPP TDD 1.28 Mcps Option
When Standard is set to TD-SCDMA (Burst Average Power measurement) pattern
MEAN
Parameter to be set
5 ms Subframe
(Power measurement of 1 subframe)
5 ms Subframe When omitted:
When Standard is set to XG-PHS (OBW measurement) pattern
10MBW
Parameter to be set
10MHz BW
20MBW 20MHz BW
10MHz BW When omitted:
When Standard is set to XG-PHS (CHP measurement) pattern
MEAN_10MBW
Parameter to be set
Mean Power 10MHz BW
MEAN_20MBW Mean Power 20MHz BW
Mean Power 10MHz BW When omitted:
When Standard is set to CDMA2000 Forward Link pattern
CDMA2KFWD
Parameter to be set
CDMA2000 Forward Link
When omitted: CDMA2000 Forward Link
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Example of Use
Chapter 4 Native Device Message Details
When Standard is set to EV-DO Forward Link (ACP, Channel Power,
OBW measurement) pattern
EVDOFWD
When omitted:
Parameter to be set
EV-DO Forward Link
EV-DO Forward Link
When Standard is set to EV-DO Forward Link (Burst Average Power measurement) pattern Parameter to be set
EVDOFWDACTIVE Active Slot
EVDOFWDIDLE Idle Slot
When omitted: Active Slot
When Standard is set to ISDB-Tmm (Channel Power measurement) pattern
MEAN_14M2BW
MEAN_5M6BW
When omitted:
Parameter to be set
14.2MHz BW
5.6MHz BW (ISDB-T)
14.2MHz BW
When Standard is set to ISDB-Tmm (OBW measurement) pattern
14M2BW
5M6BW
Parameter to be set
14.2MHz BW
5.6MHz BW (ISDB-T)
14.2MHz BW When omitted:
This command is available when Standard is set to OFF.
Standard parameters of a trace that is different from the main trace cannot be set.
The communication methods selectable for Standard are limited when the Replay function is executed, because Span and Capture Time are fixed.
If using MS2830A, this command is not available if Option
005/105/007/009/109 (Analysis Bandwidth Extension to 31.25 MHz) is
NOT installed.
If using MS2840A, this command is not available if Option
005/105/009/109 (Analysis Bandwidth Extension to 31.25 MHz) is NOT installed.
4
To set the ACP measurement parameters conforming to 3GPP W-CDMA
Uplink.
LOADSTD ADJ,UPLINK
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LOGSCALEDIV/LOGSCALEDIV?
Log Scale Range
Function
This command sets the scale range of the level axis for the main trace
(Log scale).
Command
LOGSCALEDIV scale
Query
LOGSCALEDIV?
Response scale
Returns a value in dB units without a suffix code.
Parameter scale
Range
Resolution
Suffix code
Level axis scale
0.1 to 20.0 dB (1-2-5 sequence)
0.1 dB
DB dB is used even when omitted.
Details
This command is available when the following traces are active:
• Spectrum
• Power vs Time
This command is available when Scale Mode is Log.
Example of Use
To set the scale of level axis for the main trace to 10 dB/div.
LOGSCALEDIV 10
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MADJMOD/MADJMOD?
ACP Reference
Function
This command sets the reference of the relative level display for Adjacent
Channel Power measurement.
Command
MADJMOD mode
MADJMOD num
Query
MADJMOD?
4
Response mode num
Parameter mode
MOD
TOTAL
INBAND num
BOTHSIDE
Range
Resolution
Suffix code
Reference method for the relative level display for ACP measurement.
Uses the integral power of the whole screen as a reference (Span Total method).
Same as MOD.
Uses the total value of all carrier power as a reference (Carrier Total method).
The carrier power of the largest carrier number is used as a reference for the upper offset, while the carrier power of the smallest carrier number is used as a reference for the lower offset (Both
Sides of Carriers method).
Carrier number used as a reference when the reference of the relative level display for ACP measurement is set to Carrier.
1 to Carrier Number (cf. ADJCARRIERNUM)
1
None
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Details
Example of Use
This command is available when the following trace is active:
• Spectrum
To set the relative level display reference for ACP measurement to
Carrier Total and query the results.
MADJMOD INBAND
*WAI
RES?
MBIAS/MBIAS?
External Mixer Bias
Function
This command sets the external mixer's bias current.
Command
MBIAS bias
Query
MBIAS?
Response bias
Parameter bias
Range
Resolution
Suffix code
Default
External mixer's bias current
0.0 to 20.0 mA
0.1 mA
None, value is returned in mA units.
0.0 mA
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
A value is held per one external mixer's band.
Example of Use
To set the external mixer's bias current to 10.0 mA.
MBIAS 10.0
MBIAS?
> 10.0
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MEAS/MEAS?
Measure
Function
Command
Query
Response
Parameter
Details
Example of Use
This command performs the measurement function for the main trace.
MEAS item
MEAS? item item
ADJ
CHPWR
OBW
BRSTAVGPWR
AM
FM
FMCW
OFF
Measurement function type
ACP measurement (Spectrum)
Channel Power measurement (Spectrum)
OBW measurement (Spectrum)
Burst Average Power measurement (Power vs
Time)
AM Depth measurement (Power vs Time)
FM deviation measurement (Frequency vs Time)
FM CW measurement (Frequency vs Time)
Measurement function OFF
Executable trace type is shown in parentheses.
4
This command is available when any of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
The following measurement functions cannot be used when Scale Mode is
Lin:
• ACP
• Channel Power
• Burst Average Power
Note that this command does not support synchronized control in
Continuous mode.
To perform OBW measurement and query the results.
SNGLS
MEAS OBW
*WAI
RES?
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MEAS:AM?
AM Depth Measure
Function
This command performs the AM Depth measurement and queries the result.
This command has the same function as the following commands executed in this order:
CONF:AM
INIT:AM
FETC:AM?
MEAS:FM?
FM deviation Measure
Function
This command performs the FM deviation measurement and queries the result.
This command has the same function as the following commands executed in this order:
CONF:FM
INIT:FM
FETC:FM?
MEAS:FMCW?
FM CW Measure
Function
This command performs the FM CW measurement and queries the result.
This command has the same function as the following commands executed in this order:CONF:FMCW
INIT:FMCW
FETC:FMCW?
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MEAS:POW?
Measure Power Adjust
Function
Query
Response
Parameter
This command executes power adjustment and reads the result.
Power adjustment combines the SG option and power measurement functions to set the output level of the DUT, such as an amplifier, to the specified level.
MEAS:POW? span,length,sg_start_level,sg_max_level,target,range[,fr equency [,count[,adjust_log]]] judge,sa_input,sg_output,count_res,time,sa_input_log_n,sg_output_log_n
,count_log_n
4 span
[MS269xA]
Analysis bandwidth
Range/Resolution 1000* 2 , 2500*
25000* 2
500000*
5000000* 2
31250000*
100000000* 3, * 5
2
,50000*
, 5000*
2
2 , 1000000* 2
,10000000* 2
2
, 2500000*
, 25000000*
1 ,50000000* 3, *
, 10000*
, 100000*
4
, 125000000* 3, * 5
2
2 ,
2 ,250000*
,
1
2 ,
,
, 62500000*
*1,*2: This can be set regardless of option configurations.
*3:
4 ,
Option 004/104
When the Wideband Analysis Hardware is installed, the following frequency spans can be set in addition to *1,*2.
50000000, 100000000, 125000000
*4:
*5:
Option 077/177
When the Analysis Bandwidth Extension to 62.5
MHz option is installed, the following frequency spans can be set in addition to *1,*2.
50000000, 62500000
Option 078/178
When the Analysis Bandwidth Extension to 125
MHz option is installed, the following frequency spans can be set in addition to *1,*2.
100000000, 125000000
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[MS2830A], [MS2840A]
*1: MS2830A-005/105/007/009/109
MS2840A-005/105/009/109
When the Analysis Bandwidth Extension to
31.25 MHz option is installed, the following frequency spans can be set in addition to *2.
25000000 , 31250000
*2: Option 006/106
When the Analysis Bandwidth 10 MHz option is installed, the following frequency spans can be set.
1000 , 2500 , 5000 , 10000 , 25000, 50000 ,
100000 ,250000 ,500000 , 1000000 ,
2500000 , 5000000 , 10000000
*4: MS2830A-077, MS2840A-077/177
When the Analysis Bandwidth Extension to 62.5
MHz option is installed, the following frequency spans can be set in addition to *1,*2.
50000000, 62500000 length
Range
*5:
Suffix code
MS2830A-078, MS2840A-078/178
When the Analysis Bandwidth Extension to 125
MHz option is installed, the following frequency spans can be set in addition to *1,*2.
100000000, 125000000
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
MAXimum, MINimum, and DEFault cannot be used.
Suffix code sg_start_level
Analysis length
The setting range varies with <span>. Refer to section 2.4.1 Setting Capture Time in the
Operation version.
NS,US,MS,S
S is used when omitted.
Set the SG output level set at the start. When inserting a DUT, specify the DUT input level and RF Input so the maximum input level is not exceeded.
Range
[MS269xA] –140 to –5 dBm
[MS2830A], [MS2840A]
Resolution sg_max_level
–40.00 to +20.00 dBm ( > 25 MHz)
–40.00 to +2.00 dBm ( ≤ 25 MHz)
–136.00 to +15.00 dBm ( > 25 MHz)
(Option 022/122)
–136.00 to –3.00 dBm ( ≤ 25 MHz)
(Option 022/122)
0.01 dBm
Set the SG maximum output level. When inserting a DUT, specify the DUT input level and RF Input so the maximum input level is not exceeded.
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Range
[MS269xA] –140 to –5 dBm
[MS2830A], [MS2840A]
–40.00 to +20.00 dBm ( > 25 MHz)
–40.00 to +2.00 dBm ( ≤ 25 MHz)
–136.00 to +15.00 dBm ( > 25 MHz)
(Option 022/122)
–136.00 to –3.00 dBm ( ≤ 25 MHz)
(Option 022/122)
Resolution
Suffix code target
0.01 dBm
DBM,DM
Target level when executing power adjustment.
–150 to 30 dBm
0.01 dBm
DBM,DM
Range
Resolution
Suffix code range
Range
Resolution
Suffix code frequency
Power adjustment range
Power adjusted is evaluated as PASS when adjustment is within the specified range.
0 to 20 dB
0.01 dB
DB
Power adjustment execution frequency
Range
[MS269xA]
[MS2830A]
[MS2840A]
Resolution
Suffix code
When omitted count
Range
Resolution
Suffix code adjust_log
125 MHz to 6 GHz
250 kHz to 3.6 GHz (Option 020/120)
250 kHz to 6 GHz (Option 041/043 and 021/121)
250 kHz to 3.6 GHz (Option 020/120)
250 kHz to 6 GHz (Option 041 and 021/121)
0.01 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
MAXimum, MINimum, and DEFault cannot be used.
The currently set frequency can be used.
Power adjustment execution count
1 to 10, 5 when omitted.
1
None
If the value is omitted, power adjustment is executed 5 times.
Specifies whether or not to output Log at each
ON|1
OFF|0
Output log
Do not output log sg_offset_switch Specifies whether or not to return level offset
ON|1
OFF|0 judge
0
1
Unmeasured power adjustment. setting in SG output level setting range.
Return level offset setting
Do not return the level offset setting values
Evaluates power adjustment
PASS.
FAIL
“–999.0” is returned.
4
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Details sa_input
Suffix code
Resolution
Unmeasured sg_output
Suffix code
Resolution
Unmeasured count_res time
Suffix code
Unmeasured sa_input_log_n
DUT output level
None, dBm units
0.01 dB (resolution)
“–999.0” is returned.
Output level of SG Output of this equipment
None, dBm units
0.01 dB (resolution)
–999.0 is returned if there is no measurement.
Power adjustment execution count
Power adjustment time
None, ms units
–999.0 is returned if there is no measurement.
DUT output level at power adjustment
Suffix code
Resolution
Added to response when Log Output on
None, dBm units
0.01 dB sg_output_log_n Output level from SG Output at each power
Suffix code
Resolution count_log_n adjustment
Added to response when Log Output on
None, dBm units
0.01 dB
Power adjustment count
Added to response when Log Output on
This function cannot be performed when the SG option is not installed.
This function cannot be executed during replay.
SG setting and measurement are executed repeatedly until the target level specified at target, range is reached within the count specified at count. This is used for various measurements with specified output level.
In this application, the Reference Level and Attenuator settings are calculated as follows from the Adjustment Target Level, Crest Factor, and Correction value and are set automatically at the measurement section. Using this application, the Attenuator is set so that the Mixer
Input Level become 0 dBm.
Reference Level setting value
Reference Level = < target
*: Crest Factor = 12 dB
> + Crest Factor Correction
*
However, it is rounded to 50 dBm when Reference Level > 50 dBm (30 dBm at Pre-amp On) and to –120 dBm when Reference Level < –120 dBm.
Attenuator setting values
Attenuator = Reference
Amp
Level
Gain -
Mixer Input
Offset *
Level
*: Mixer Input Level = 0
Pre-Amp Gain = 20 dB (only at Pre-Amp On)
Offset: Reference Level Offset
+ Pre
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However, it is rounded to 60 dB when Attenuator > 60 and to 0 dBm when Attenuator < 0. Additionally, when the Attenuator value is an odd number, it is rounded up to the nearest even number
(Example: 35 dB → 36 dB).
When using the SG offset function, switch to the SG application and set the offset level. Set the value with offset to this command arguments, sg_start_level and sg_max_level, and set sg_offset_switch to On.
The responses sg_output and sg_output_log_n return the output level with offset.
To execute power adjustment under the following conditions:
Frequency:
Analysis width:
Analysis length:
2 GHz
5 MHz
500 µs
Start SG output level: –30 dBm
Max. SG output level: –5 dBm
Adjustment target level: –10 dBm
Adjustment range:
Adjustment count:
Log output:
SG Offset:
0.4 dB
6 times
On
On
MEAS:POW? 5000000,500US,-30,-5,-10,0.4,2000000000,6,On
> 0,-9.6,-12.5,3,156,-28,-30,1,-9.5,-12.0,2,-9.6,-12.5,3
4
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MKACT/MKACT?
Active Marker
Function
This command specifies active marker for the active trace.
Command
MKACT marker
Query
Response
Parameter
Details
Example of Use
MKACT? marker
(For Spectrum trace) marker
MKR1
MKR2
MKR3
MKR4
MKR5
MKR6
MKR7
MKR8
MKR9
MKR10
Active marker
Marker 1
Marker 2
Marker 3
Marker 4
Marker 5
Marker 6
Marker 7
Marker 8
Marker 9
Marker 10
(At Power vs Time, Frequency vs Time, Phase vs Time, Spectrogram trace) marker
MKR1
MKR2
BOTH
Active marker
Marker 1
Marker 2
Both Marker 1 and 2
This command is available when any of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
• Phase vs Time
• Spectrogram
For Spectrum trace, multiple markers cannot be set to Active.
To set Marker 1 to the active marker.
MKACT MKR1
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MKAXIS/MKAXIS?
Marker Axis
Function
This command specifies the marker movement axis for the main trace.
Command
MKAXIS axis
Query
MKAXIS?
Response axis
Parameter
Details
Example of Use axis
PROB
DSTRBT
Marker movement axis
Probability distribution direction (vertical axis)
Power distribution direction (horizontal axis)
This command is available when the following trace is active:
• CCDF
To set the marker movement axis to the probability distribution direction.
MKAXIS PROB
4
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MKCF
Marker to Center Freq
Function
This command sets the active marker frequency to the center frequency for waveform capturing.
Command
MKCF
Details
This command is available when the following trace is active:
• Spectrum
• Spectrogram
This command is not available when the marker mode is set to Off.
This command is not available while the Replay function is being executed.
Example of Use
To set the active marker frequency to the center frequency for waveform capturing.
MKCF
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MKF?
Marker Frequency Query
Function
Query
Response
Details
Parameter
Example of Use
This command queries the frequency at the marker point of the active marker, and queries the frequency difference between the delta marker and the marker set by Relative To when Marker Mode is Delta.
MKF? marker freq
No suffix code. Value is returned in Hz units and with a resolution of
0.1 Hz. 4
This command is available when the following trace is active:
• Spectrum marker
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker number
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Active marker
To query the frequency at the active marker point.
MKF?
> 1000000000.0
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MKL?
Marker Query
Function
This command queries the data at the marker point of the main trace.
Query
MKL? type
MKL?
(Spectrum,Power vs Time,Freq vs Time, Phase vs Time)
(CCDF)
Response
For Spectrum, Spectrogram (Unavailable for type 3 to 10)
This command queries the level at the active marker point, and the level ratio for delta markers (Spectrum).
Type
1
2
3
4
5
6
7
8
9
10
When omitted
Response l
1 l l l
4 l
5 l
2 l
3 l
6 l
7
8
9 l
10 l
Type of Data
Level of Marker1
Level of Marker2
Level of Marker3
Level of Marker4
Level of Marker5
Level of Marker6
Level of Marker7
Level of Marker8
Level of Marker9
Level of Marker10
Level of active marker
Response has no suffix code. The units of the results are shown below:
Scale Mode
Log
Lin
Marker Result
Integration
Density
Peak (Fast)
Peak (Accuracy)
Integration
Density
Peak (Fast)
Peak (Accuracy)
Units
Log Scale Unit,
However,
µ V units for V, and µW units for W
Log Scale Unit,
However,
µ V units for V,
µ W units for µW dBm units
µ V units
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For Power vs Time trace
Response has no suffix code.
For Power vs Time trace, returns a value in Log Scale Unit when
Scale Mode is Log. However, for V, the unit is µV, and for W, the unit is µW. Returns a value in µV units when Scale Mode is Lin.
Scale Mode
1
2
3
Marker Result l l l
1
2
2-1
Units
Level of Marker1
Level of Marker2
Ratio of Marker 2 and
Marker 1 dB units. However, when Power vs Time trace and Scale Mode are Lin, it is a value of Marker2/Marker1.
When omitted
For Frequency vs Time trace l
1
,l
2
,l
2-1
Response has no suffix code. Returns a value in Hz units without a suffix code. type
1
2
3
When omitted
Response l l l
2
1
2-1 l
1
,l
2
,l
2-1
Type of data
Frequency of Marker1
Frequency of Marker2
Frequency of Marker2
− Frequency of
Marker1
For Phase vs Time trace
Response has no suffix code. Returns a value in degree units without a suffix code.
4 type
1
2
3
Response l l l
1
2
2-1
Type of data
Phase of Marker1
Phase of Marker2
Phase of Marker2
− Phase of Marker1
When omitted
For CCDF trace l
1
,l
2
,l
2-1
data
Response has no suffix code. Returns a value in dB units (when
Marker Axis is Probability).
Response has no suffix code. Returns a value in percentage units
(when Marker Axis is Distribution).
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Details
*** is returned if there is no marker value.
Example of Use
MKLTYPE/MKLTYPE?
To query the marker value of Marker 2.
MKL? 2
Marker Result
Function
This command sets the type of the marker display value of the main trace.
Command
MKLTYPE type_com
Query
MKLTYPE?
Response type_res
Parameter type_com
INT
TOTAL
DENS
AVG
PEAK
Marker value type
Integral power in zone
Same as above
Power density in zone
Same as above
Peak level in zone (emphasis on measurement speed)
Peak level in zone (emphasis on level accuracy) PACC type_res
TOTAL
AVG
PEAK
PACC
Marker value type
Integral power in zone
Power density in zone
Peak level in zone (emphasis on measurement speed)
Peak level in zone (emphasis on level accuracy)
Details
This command is available when either of the following traces is active:
• Spectrum
• Spectrogram
Example of Use
To set the marker display value type to the average power in zone band.
MKLTYPE AVG
*WAI
MKL?
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MKP/MKP?
Marker Position
Function
Command
Query
Response
Parameter
This command sets the marker position for the main trace.
MKP time, marker (Power vs Time, Frequency vs Time, Phase vs Time)
MKP sample, marker (When performing a Power vs Time, Frequency vs Time, or Phase vs Time trace for the MS269x series with the DigRF 3G terminal)
MKP position, type (CCDF)
MKP? marker
MKP? type
(Power vs Time, Frequency vs Time, Phase vs Time)
(CCDF)
4 time
Suffix code sample
Suffix code position
Suffix code
Suffix code
(Power vs Time, Frequency vs Time, Phase vs Time)
None. Value is returned in ms units.
(When performing a Power vs Time, Frequency vs Time, or Phase vs Time trace for the MS269x series with the DigRF 3G terminal)
None. Value is returned in sample units.
(CCDF)
None. Value is returned in dB units
(when type = PROB).
None. Value is returned in percentage units
(when type = DSTRBT).
(Power vs Time, Frequency vs Time, Phase vs Time trace) time Marker position
Range and resolution
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation)
Suffix code for details.
NS,US,MS,S ms is used when omitted.
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Details sample Marker position
Range and Resolution
For details, refer to the
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation)
Suffix code marker
1
2
When omitted:
None
Marker type
Marker 1
Marker 2
Active marker
Marker 1 applies when both Markers 1 and 2 are set to active.
For CCDF trace: position Marker position
Range and resolution
Suffix code
For details, refer to the
MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function
Operation) or MS2830A/MS2840A Signal
Analyzer Operation Manual (Signal Analyzer
Function Operation).
% (When type is DSTRBT)
DB (When type is PROB)
Same as above, when omitted. type
PROB
DSTRBT
When omitted:
Marker type
Power deviation (horizontal axis)
Probability distribution (vertical axis)
Marker Axis
This command is available when any of the following traces is active:
• Power vs Time
• Frequency vs Time
• Phase vs Time
• CCDF
Note that this command does not support synchronized control in
Continuous mode.
Only when performing Power vs Time, Frequency vs Time, or Phase vs
Time trace for the MS269x series with the DigRF 3G terminal, settings in sample units are available.
Example of Use
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To query a marker value by setting the position of Marker 1 to 10 µs.
MKP 10US,1
*WAI
MKL?
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MKPK
Signal Search
Function
This command searches for the peak point of the main trace and moves the marker.
Command
MKPK move
Parameter
Details
Example of Use move
HI
NH
LO
Detection method
Moves to the peak point where the marker value becomes maximum (Peak Search).
Moves to the peak point lower than that before execution where the marker value becomes maximum (Next Peak).
Moves to the peak point where the marker value
NL becomes minimum (Dip Search) (Frequency vs
Time).
Moves to the peak point higher than that before execution where the marker value becomes minimum (Next Dip) (Frequency vs Time).
When omitted: Moves to the peak point where the marker value becomes maximum (Peak Search).
This command is available when any of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
When the main trace is Power vs Time or Frequency vs Time while the active marker is set to BOTH (both Markers 1 and 2), only Marker 1 moves to the peak point.
Note that this command does not support synchronized control in
Continuous mode.
To move the main trace marker to the maximum peak point and query the marker value.
MKPK HI
*WAI
MKL?
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MKPX/MKPX?
Search Resolution
Function
Command
Query
Response
This command sets the search resolution at the search point of the main trace.
MKPX level
(For Spectrum trace, when Result Mode is Integration or
Density; or for Spectrum trace, when Result Mode is Peak
(Fast) or Peak (Accuracy) and Scale Mode is Log Scale. For
Power vs Time trace, when Scale Mode is Log Scale.)
MKPX percent
(For Spectrum trace, when Result Mode is Peak (Fast) or
Peak (Accuracy) and Scale Mode is Linear Scale. For Power vs Time trace, when Scale Mode is Linear Scale.)
MKPX freq
(For Freq vs Time trace)
4
MKPX? level percent
(For Spectrum trace, when Result Mode is Integration or
Density; or for Spectrum trace, when Result Mode is Peak
(Fast) or Peak (Accuracy) and Scale Mode is Log Scale. For
Power vs Time trace, when Scale Mode is Log Scale.)
Returns a value in dB units without a suffix code.
(For Spectrum trace, when Result Mode is Peak (Fast) or
Peak (Accuracy) and Scale Mode is Linear Scale. For Power vs Time trace, when Scale Mode is Linear Scale.)
Returns a value in percentage units without a suffix code. freq
(For Freq vs Time trace)
Returns a value in Hz units without a suffix code.
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Parameter level Search resolution
Range
Resolution
Suffix code
0.01 to 50.00 dB
0.01
DB dB is used when omitted.
Default value 1 dB percent Search resolution
Range
Resolution
0.01 to 50.00%
0.01
Suffix code None freq Search resolution
Range
Resolution
1 to 5000000 Hz
0.01
Suffix code HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
Example of Use
This command is available when any of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
To set the search resolution at the main trace point to 20 dB.
MKPX 20DB
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MKR/MKR?
Marker Mode
Function
Command
Query
Response
Parameter
This command sets the marker mode.
MKR mode,marker (Spectrum,Power vs Time,Frequency vs Time,
Phase vs Time,Spectrogram))
MKR mode (CCDF)
MKR? marker
MKR? mode
(Spectrum,Power vs Time,Frequency vs Time,
Phase vs Time,Spectrogram))
(CCDF)
(For Spectrum trace) mode
ON
DELTA
FIXED
OFF marker
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker mode
Normal
Delta
Fixed
Off
Marker type
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Active marker
(At Power vs Time, Frequency vs Time, Phase vs Time, CCDF,
Spectrogram trace) mode
ON
OFF
Marker ON/OFF
Sets the marker to ON
Sets the marker to OFF
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Example of Use marker
1
2
When omitted:
Marker type
Marker 1
Marker 2
Active marker
Marker 1 applies when both Markers 1 and 2 are active.
To query a marker value by setting the marker mode of the active marker to Delta.
MKR 1
*WAI
MKL?
MKRL
Marker to Reference Level
Function
This command sets the active marker level to the reference level.
Command
MKRL
Details
Example of Use
This command is available when either of the following traces is active:
• Spectrum
• Spectrogram
When Marker Result Type is Average Power, a value converted into Total
Power is set to the reference level.
This command is not available when the marker mode is set to Off.
To set the marker level to the reference level.
MKRL
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MKW/MKW?
Marker Width (Grid)
Function
Command
Query
Response
Parameter
Details
This command sets the zone width of the marker in grid (div).
MKW width,marker
MKW? marker width
2
3
4
5
6
7
8
9
10 width
0
5
2
1
6
7 marker
1
When omitted:
Zone marker width
0.5 div
1 div
2 div
5 div
10 div
Spot
Marker type
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Active marker
This command is available when either of the following traces is active:
• Spectrum
• Spectrogram (Unavailable for Marker 3 to 10)
Returns *** when the zone marker width is different from the set value of the width parameter when queried.
The target marker is set to be active when the width of zone marker is changed. Also, it is set to Normal when Marker Mode is set to Fixed or
Off.
Width cannot be set to Spot when Marker Result is Integration or
Density.
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Example of Use
To query a marker value by setting the width of Marker 2 to Spot.
MKW 1,2
*WAI
MKL?
MKZF/MKZF?
Marker Frequency
Function
Command
Query
Response
Parameter
This command sets the center frequency of the marker.
MKZF freq,marker
MKZF? marker freq freq Center frequency of marker
Range and resolution
Within the frequency range of trace display
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation) for details.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Marker type
Suffix code marker
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Active marker
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Example of Use
Chapter 4 Native Device Message Details
This command is available when the following trace is active:
• Spectrum
• Spectrogram (Unavailable for Marker 3 to 10)
For Spectrum, when the center frequency of a zone marker is changed, the marker is set to ON and becomes the active marker.
To set the center frequency of the active marker to 6 GHz.
MKZF 6GHZ
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MMEM:LOAD:IQD
Execute Replay
Function
Command
Parameter
Details
Example of Use
This command executes the Replay function. IQ data for which the
Replay function is to be executed can be selected by selecting a file name, drive name, and an application.
MMEM:LOAD:IQD filename,device,application filename device application
SIGANA
EXTDIG
Target file name
Character string within 128 characters enclosed by double quotes (“ ”) or single quotes (‘ ’)
(excluding extension)
The following characters cannot be used:
\ / : * ? “ ” ‘ ’ < > |
Drive name
A,B,D,E,F,...
Application to load IQ data file
Signal Analyzer
Extended Digitizing
This command is not available when Terminal is set to DigRF 3G (only for MS269x Series).
To query the IQ data file “TEST” of the signal analyzer from drive D, and execute the Replay function.
MMEM:LOAD:IQD “TEST”,D,SIGANA
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MMEM:LOAD:IQD:INF?
Replaying File Information Query
Function
This command queries the file information when the Replay function is being executed.
Query
MMEM:LOAD:IQD:INF?
Response filename,start_time,time_length
Parameter filename start_time
Resolution time_length
Resolution
File name
Character string within 128 characters
(excluding extension)
*** is returned when the Replay function is not executed.
Start time of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned when the Replay function is not executed.
Time length of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned when the Replay function is not executed.
Example of Use
To query the file information when the Replay function is being executed.
MMEM:LOAD:IQD:INF?
> TEST,-38.838771500,38.838771500
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MMEM:LOAD:IQD:INF:APPL?
Replay Application Query
Function
This command queries the name of the application for which the Replay function is executed.
Query
MMEM:LOAD:IQD:INF:APPL?
Response application
Parameter application
SIGANA
EXTDIG
Example of Use
To query the name of the application for which the Replay function is executed.
MMEM:LOAD:IQD:INF:APPL?
MMEM:LOAD:IQD:INF:COND?
Replay Level Over Query
Function
Application to load IQ data file
Signal Analyzer
Extended Digitizing
*** is returned when the Replay function is executed.
This command queries whether Level Over is displayed while the Replay function is being executed.
Query
MMEM:LOAD:IQD:INF:COND?
Response switch
1
0
Level Over is displayed.
Normal
–999.0 is returned when the Replay function is executed.
Example of Use
To query whether Level Over is displayed when the Replay function is being executed.
MMEM:LOAD:IQD:INF:COND?
> 0
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MMEM:LOAD:IQD:INF:CORR?
Replay Correction Query
Function
This command queries the Correction value when the Replay function is being executed.
Query
MMEM:LOAD:IQD:INF:CORR?
Response real
Parameter real
Range
Example of Use
To query the Correction value when the Replay function is being executed.
MMEM:LOAD:IQD:INF:CORR?
MMEM:LOAD:IQD:INF:DEV?
Replay Device Query
Function
Correction level
− 100 to 100 dB
0.000 is returned when Correction is set to Off.
–999.0 is returned when the Replay function is not executed.
This command queries the name of the drive for which the Replay function is executed.
Query
MMEM:LOAD:IQD:INF:DEV?
Response device
Parameter device Drive name
A,B,D,E,F,...
*** is returned when the Replay function is not executed.
Example of Use
To query the name of the drive for which the Replay function is executed.
MMEM:LOAD:IQD:INF:DEV?
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MMEM:LOAD:IQD:INF:ERR?
Replay Level Over Query
Function
This command queries whether Replay Error Info. icon is displayed while the Replay function is being executed.
Query
MMEM:LOAD:IQD:INF:ERR?
Response switch
1
0
Replay Error Info. icon is displayed.
Normal
–999.0 is returned when the Replay function is not executed.
Details
Example of Use
MMEM:LOAD:IQD:INF:FILE?
Replay Filename Query
Function
This command queries the name of the file for which the Replay function is executed.
Query
MMEM:LOAD:IQD:INF:FILE?
Response
To query whether Replay Error Info. icon is displayed while the Replay function is being executed.
MMEM:LOAD:IQD:INF:ERR?
> 0 filename
Parameter filename File name
Character string within 128 characters
(excluding extension)
*** is returned when the Replay function is not executed.
Example of Use
The Replay Error Info. icon is displayed if the loaded xml file contains error information.
To query the name of the file for which the Replay function is executed.
MMEM:LOAD:IQD:INF:FILE?
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MMEM:LOAD:IQD:INF:LENG?
Replay Time Length Query
Function
This command queries the time length of analyzable IQ data for the
Replay function.
Query
MMEM:LOAD:IQD:INF:LENG?
Response time_length
Parameter time_length
Resolution
Time length of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned when the Replay function is not executed.
Example of Use
To query the time length of analyzable IQ data for the Replay function.
MMEM:LOAD:IQD:INF:LENG?
MMEM:LOAD:IQD:INF:ROSC?
Replay External Reference Query
Function
This command queries the frequency reference signal source when the
Replay function is executed.
Query
MMEM:LOAD:IQD:INF:ROSC?
Response source
Parameter
<source>
INT
INTU
EXT
EXTU
Frequency reference signal source
Internal reference signal source
Internal reference signal source (Unlock state)
External reference signal source
External reference signal source (Unlock state)
*** is returned when the Replay function is not executed.
Example of Use
To query the frequency reference signal source when the Replay function is executed.
MMEM:LOAD:IQD:INF:ROSC?
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MMEM:LOAD:IQD:INF:STAR?
Replay Start Time Query
Function
This command queries the start time of analyzable IQ data for the
Replay function.
Query
MMEM:LOAD:IQD:INF:STAR?
Response start_time
Parameter start_time
Resolution
Start time of analyzable IQ data
1 ns
No suffix code. Value is returned in S units.
–999999999999 is returned when the Replay function is not executed.
Example of Use
To query the start time of analyzable IQ data for the Replay function.
MMEM:LOAD:IQD:INF:STAR?
MMEM:LOAD:IQD:INF:STAT?
Replay Execute Query
Function
This command queries whether the Replay function is executed.
Query
MMEM:LOAD:IQD:INF:STAT?
Response switch
Parameter switch
1
0
Replay function On/Off
On
Off
Example of Use
To query whether the Replay function is executed.
MMEM:LOAD:IQD:INF:STAT?
> 1
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MMEM:LOAD:IQD:STOP
Stop Replay
Function
This command stops the Replay function.
Command
MMEM:LOAD:IQD:STOP
Details
This command is available while the Replay function is being executed.
Example of Use
To stop the Replay function.
MMEM:LOAD:IQD:STOP
MMEM:STOR:IQD:LENG/MMEM:STOR:IQD:LENG?
Time Length
Function
This command sets the time length of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
MMEM:STOR:IQD:LENG time
Query
MMEM:STOR:IQD:LENG?
Response time
No suffix code. Value is returned in S units.
4
Parameter time
Range
Resolution
Suffix code
Time length of IQ data
Time Resolution to Capture Time Length – Start
Time
Time Resolution
NS, US, MS, S
S is used when omitted.
Details
This command is not available in the following cases:
• When Time Range is set to FULL or ATIMe.
• When Time Range is set to Manual AND Start Time is set to the upper limit.
• When Terminal is set to DigRF 3G (only for MS269x Series).
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Example of Use
To set the time length to 12 ms.
MMEM:STOR:IQD:LENG 12MS
MMEM:STOR:IQD:LENG?
> 0.01200000
MMEM:STOR:IQD:LENG:SAMP/MMEM:STOR:IQD:LENG:SAMP?
Sample Length
Function
This command sets the sample length of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
MMEM:STOR:IQD:LENG:SAMP sample
Query
MMEM:STOR:IQD:LENG:SAMP?
Response sample
Parameter sample
Range
Resolution
Sample length of IQ data
Time Resolution to Capture Time Length – Start
Time
Time Resolution
Details
This command is not available in the following cases:
• When Time Range is set to FULL or ATIMe.
• When Time Range is set to Manual AND Start Time is set to the upper limit.
• When Terminal is set to RF.
Example of Use
To set the sample length for saving the IQ data to 15360000.
MMEM:STOR:IQD:LENG:SAMP 15360000
MMEM:STOR:IQD:LENG:SAMP?
> 15360000
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MMEM:STOR:IQD:MODE/MMEM:STOR:IQD:MODE?
Time Range
Function
This command sets the range of IQ data to be saved when executing Save
Captured Data.
Command
MMEM:STOR:IQD:MODE mode
Query
MMEM:STOR:IQD:MODE?
Response mode
Parameter mode
FULL
ATIM
MAN
Range over which IQ data is stored.
Full range
Range set in Analysis Time
User-specified range
Details
ATIMe and MANual cannot be set when Terminal is set to RF and when
Capture Time Length is set to 0 s. Furthermore, ATIMe cannot be set when Analysis Time Length is set to 0 s.
ATIMe and MANual cannot be set when Terminal is set to DigRF and when Capture Sample Length is set to 0 s. Furthermore, ATIMe cannot be set when Analysis Sample Length is set to 0 s.
Example of Use
To set the range to Full.
MMEM:STOR:IQD:MODE FULL
MMEM:STOR:IQD:MODE?
> FULL
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MMEM:STOR:IQD:STAR/MMEM:STOR:IQD:STAR?
Start Time
Function
This command sets the start position of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
MMEM:STOR:IQD:STAR time
Query
MMEM:STOR:IQD:STAR?
Response time
No suffix code. Value is returned in S units.
Parameter time Start position
(When the Replay function is not executed.)
Range
Resolution
0 to Capture Time Length – Time Length
Time Resolution
(When the Replay function is executed.)
Range Start time of analyzable IQ data
Resolution Time Resolution
Suffix codes NS, US, MS, S
S is used when omitted.
Details
This command is not available in the following cases:
• When Time Range is set to FULL or ATIMe.
• When Time Range is set to Manual AND when Time Length is set to the upper limit.
• When Terminal is set to DigRF 3G (only for MS269x Series).
Example of Use
To set the start position to 12 ms.
MMEM:STOR:IQD:STAR 12MS
MMEM:STOR:IQD:STAR?
> 0.01200000
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MMEM:STOR:IQD:STAR:SAMP/MMEM:STOR:IQD:STAR:SAMP?
Start Sample
Function
This command uses the number of samples to set the start position of IQ data to be saved when executing Save Captured Data with Time Range set to MANual.
Command
MMEM:STOR:IQD:STAR:SAMP sample
Query
MMEM:STOR:IQD:STAR:SAMP?
Response sample
Value is returned without a suffix code.
Parameter sample
Range
Resolution
Suffix code
Start position
0 to Capture Sample Length – Sample Length
Time Resolution
None
Details
This command is not available in the following cases:
• When Time Range is set to FULL or ATIMe.
• When Time Range is set to Manual AND when Time Length is set to the upper limit.
• When Terminal is set to RF.
Example of Use
To set the start position to 15360000 sample.
MMEM:STOR:IQD:STAR:SAMP 15360000
MMEM:STOR:IQD:STAR:SAMP?
> 15360000
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MMEM:STOR:TRAC
Save Wave Data
Function
This command saves the waveform data in .csv file.
Command
MMEM:STOR:TRAC trace,filename,device
Parameter trace
TRAC1
ALL filename device
Trace to save
Trace currently displayed
Trace currently displayed
Name of the file to be saved.
Character string within 32 characters enclosed by double quotes (“ ”) or single quotes (‘ ’)
(excluding extension)
The following characters cannot be used:
\ / : * ? “ ” ‘ ’ < > |
Automatically named as “WaveData date sequential number.csv” when omitted.
Drive name
A,B,D,E,F,...
D drive is used when omitted.
Details
This function is available when the waveform is captured under the following conditions:
• Measurement performed using Single Measurement has finished.
When the file name is omitted, consecutive numbers from 0 to 99 are added to files. No more files can be saved if numbers up to 99 are already used.
Files are saved to the following directory in the specified drive.
\Anritsu Corporation\Signal Analyzer\User Data\Trace Data\Signal
Analyzer
Up to 100 files can be saved in a folder.
Example of Use
To save the trace waveform-data file "trace" to the E drive.
MMEM:STOR:TRAC TRAC1,“trace”,E
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MMETHOD/MMETHOD?
Measure Method
Function
This command selects the measurement method for CCDF trace.
Command
MMETHOD method
Query
MMETHOD?
Response method
Parameter method
APD
CCDF
Measurement method for CCDF trace
APD measurement
CCDF measurement
Details
This command is available when the following trace is active:
• CCDF
Example of Use
To set the APD measurement mode.
MMETHOD APD
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MOBW/MOBW?
OBW Method
Function
This command sets the OBW measurement method.
Command
MOBW method
Query
MOBW?
Response method
Parameter method
N
XDB
Measurement method
N% method
X dB method
Details
Example of Use
This command is available when the following trace is active:
• Spectrum
To set the OBW measurement method to X dB Down and query the results.
MOBW XDB
*WAI
RES?
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MSTAT?
Measurement Status Query
Function
This command queries the main trace status.
Query
MSTAT?
Response status
Parameter
Example of Use status
0
2
9
Status
Normal end
Level over
Not measured
To query the main trace status.
MSTAT?
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MXRMODE/MXRMODE?
Mixer Mode
Function
This command switches between Internal and External Mixer.
Command
MXRMODE mode
Query
MXRMODE?
Response mode
Parameter mode
EXT
INT
Mixer mode
Selects External Mixer
Selects Internal Mixer
Details
This function is available when Option 044/045 is installed for MS2830A.
This function is available when Option 044/046 is installed for MS2840A.
Example of Use
To use external mixer.
MXRMODE EXT
MXRMODE?
> EXT
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MZWF/MZWF?
Marker Width (Frequency)
Function
This command sets the zone width of the marker in frequency.
Command
MZWF freq,marker
Query
MZWF? marker
Response freq
Returns a value in Hz units without a suffix code.
Parameter freq
Resolution
Range
Suffix code marker
1
2
3
4
5
6
7
8
9
10
When omitted:
Marker frequency width
0.01 Hz
Within frequency range of trace display
(Restricted according to the marker’s zone width)
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation) for details.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Marker type
Marker1
Marker2
Marker3
Marker4
Marker5
Marker6
Marker7
Marker8
Marker9
Marker10
Active marker
4
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Details
Example of Use
This command is available when the following trace is active:
• Spectrum
• Spectrogram
The target marker is set to be active when the width of zone marker is changed. Also, it is set to Normal when Marker Mode is set to Fixed or
Off.
To query a marker value by setting the active marker frequency width to
2 MHz.
MZWF 2000000
*WAI
MKL?
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NOISECANCEL/NOISECANCEL?
Noise Cancel
Function
This command sets whether to enable the noise-canceling function.
Command
NOISECANCEL on_off
Query
NOISECANCEL?
Response on_off
Parameter on_off
ON
OFF
Noise-canceling function on/off
Enables the noise-canceling function.
Disables the noise-canceling function.
Details
This command is available only when the main trace is Spectrum or
Power vs Time (cf. TRCCHG).
4
The noise canceling function is fixed to Off in the following cases:
• ACP is Off (when the active trace is Spectrum).
• Burst Average Power is Off (when the active trace is Power vs Time).
• Standard is Off.
• The Standard Parameter which can execute the noise canceling function is not set in Load Standard Parameter.
• Any of Span, RBW, and Time Detection has been changed from
Standard Parameter (ACP).
• Any of Span, Detection, Filter Type, Filter BW (when Filter Type is not set to Off), and Filter Rolloff Factor (when Filter Type is Nyquist or Root Nyquist) has been changed from Standard Parameter (Burst
Average Power).
• Scale Mode is Linear.
• When the Replay function is being executed.
Example of Use
To disable the noise canceling function.
NOISECANCEL OFF
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OBWN/OBWN?
OBW N% Ratio
Function
This command sets the OBW (N% method) condition.
Command
OBWN ratio
Query
OBWN?
Response ratio
Returns a value in percentage units without a suffix code.
Parameter ratio
Range
Resolution
Suffix code
N%
0.01 to 99.99%
0.01
None
Details
Example of Use
This function can be set when the following trace is active:
• Spectrum
To set to 12.34% and query the results.
OBWN 12.34
*WAI
RES?
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OBWXDB/OBWXDB?
OBW X dB Value
Function
This command sets the OBW (X dB) condition.
Command
OBWXDB level
Query
OBWXDB?
Response level
Returns a value in dB units without a suffix code.
Parameter level
Range
Resolution
Suffix code
X dB
0.01 to 100.00 dB
0.01 dB
DB dB is used even when omitted.
Details
This command is available when the following trace is active:
• Spectrum
Example of Use
To set to 12.34 dB and query the results.
OBWXDB 12.34
*WAI
RES?
4
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PEAKTOPEAK/PEAKTOPEAK?
Display Peak to Peak Value On/Off
Function
This command sets the Peak to Peak measurement ON/OFF.
Command
PEAKTOPEAK on_off
Query
PEAKTOPEAK?
Response on_off
Parameter on_off
ON
OFF
Peak to peak measurement function ON/OFF
On
Off
Details
This command is available when either of the following traces is active:
• Power vs Time
• Frequency vs Time
For Power vs Time trace, this command is available only when Scale
Mode is Linear Scale.
Example of Use
To set the Peak to peak measurement function to On and query the results.
PEAKTOPEAK ON
*WAI
PEAKTOPEAKRES?
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PEAKTOPEAKRES?
Peak to Peak Value Query
Function
This command queries the results of the Peak to Peak measurement.
Query
PEAKTOPEAKRES? format
Response pos neg
(when format is POS)
(when format is NEG) p-p (when format is DELTAAVG)
Returns a value in percentage units without a suffix code.
Values in % units will be returned when the terminal is DigRF 3G
(only for MS269x Series) and the Input Source is Complex. Values in
µ V units will be returned if it is not set to Complex.
(Power vs Time)
No suffix code. Value is returned in Hz units.
(Frequency vs Time) avg (when format is AVG)
Returns a value in µV units without a suffix code.
(Power vs Time)
Returns a value in Hz units without a suffix code.
(Frequency vs Time) pos,neg,p-p,avg (when format is omitted)
Parameter format
POS
NEG
DELTAAVG
AVG
When omitted:
Result of Peak to Peak measurement
+Peak value
–Peak value
{(–Peak) – (+Peak)}/2
Average value
All values
Details
Returns *** when the measurement results in an error.
This command is available when either of the following traces is active:
• Power vs Time
• Frequency vs Time
Example of Use
To query all the results of Peak to Peak measurement.
PEAKTOPEAKRES?
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POW:MW:PRES/POW:MW:PRES?
Micro Wave Preselector Bypass
Function
This command sets the micro wave preselector bypass.
Command
POW:MW:PRES switch
Query
POW:MW:PRES?
Response status
Parameter switch
ON|1
OFF|0
Default status
1
0
Microwave Preselector Bypass
Enables bypassing
Disables bypassing
ON
Microwave Preselector Bypass
Enables bypassing
Disables bypassing
Details
This command is available when Option 067/167 is installed for MS269xA.
This command is available when Option 007/067/167 is installed for MS2830A.
This command is available when Option 067/167 is installed for MS2840A.
If Frequency Span is 50 MHz or more, the microwave preselector is bapassed regardless of this setting.
Example of Use
To set micro wave preselector bypass to ON.
POW:MW:PRES ON
To query the state of micro wave preselector bypass
POW:MW:PRES?
> 1
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PRE
Initialize
Function
This command initializes the parameters.
Command
PRE
Example of Use
PREAMP/PREAMP?
Pre Amp
Function
This command sets Pre Amp On/Off.
Command
To initialize the parameters.
PRE
PREAMP on_off
Query
PREAMP?
Response on_off
Parameter on_off
ON
OFF
Pre Amp On/Off
On
Off
Details
[MS269xA] The pre-amplifier is fixed to Off when the Option 008/108 6 GHz
Preamplifier is not installed.
[MS2830A] This pre-amplifier is fixed to Off when Option 008/108/068/168
Preamplifier is not installed.
[MS2840A] This pre-amplifier is fixed to Off when Option 008/108/068/168/069/169
Preamplifier is not installed.
Example of Use
[Common] This command is not available in the following cases:
• When Terminal is DigRF 3G (only for MS269x Series)
• When the Replay function is being executed.
To set Pre Amp to On.
PREAMP ON
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PRESEL/PRESEL?
Pre-selector
Function
This command sets the Preselector peaking bias value.
Command
PRESEL action
PRESEL bias
Query
PRESEL?
Response bias
Parameter action
AUTO
PRESET bias
Range
Resolution
Action
Sets peaking bias value automatically.
Sets peaking bias value to 0.
Peaking bias value
–128 to 127
1
Details
Example of Use
[MS269xA] This command is not available in the following cases:
• When using the MS2690A
• When not using the preselector band
The frequency to be switched to the preselector band can be set by using Frequency Band Mode (cf. BNDSP).
• When Terminal is DigRF 3G (only for MS269x Series)
This command is not available when the Replay function is executed.
[MS2830A], [MS2840A]
This command is not available in the following case:
• When using MS2830A-040/041/043
• When using MS2840A-040/041
• When YTF is not used
When Frequency Band Mode is Normal and signal frequency is ≤ 6.0 GHz.
When Frequency Band Mode is Spurious and signal frequency is ≤ 4.0 GHz.
This command is not available when the Replay function is executed.
To set the peaking bias value to 1.
PRESEL 1
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PROBPWR?
Power Deviation and Distribution Query
Function
This command queries the power deviation and probability distribution.
Query
PROBPWR? type
Response pd
1
,pd
2
,pd
3
,pd
4
,pd
5
,pd
6
(When type is PWR)
Returns a value without a suffix code in dB units with a resolution of
0.01 dB.
Each indicates power deviation at the following probability distribution:
• 10, 1, 0.1, 0.01, 0.001, 0.0001%
4 r
1
,r
2
,r
3
,r
4
,r
5
(When type is PROB)
Returns a value without a suffix code in percentage units with a resolution of 0.0001%.
Each of them indicates probability distribution at the following power deviation:
• 1, 2, 3, 4, 5 dB
• 2, 4, 6, 8, 10 dB
• 4, 8, 12, 16, 20 dB
• 10, 20, 30, 40, 50 dB
(When Horizontal Scale is set to 5 dB)
(When Horizontal Scale is set to 10 dB)
(When Horizontal Scale is set to 20 dB)
(When Horizontal Scale is set to 50 dB)
Parameter type
PWR
PROB
Query target
Power deviation at specific probability distribution
Probability distribution at specific power deviation
Details
This command is available when the following trace is active:
• CCDF
Returns *** when no power or probability matches.
Example of Use
To query the probability distribution at specific power deviation.
PROBPWR? PROB
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RB/RB?
Resolution Bandwidth
Function
This command sets the resolution bandwidth (RBW).
Command
RB bandwidth
RB AUTO
Query
RB?
Response bandwidth
No suffix code. Value is returned in Hz units.
Parameter
Details
Example of Use bandwidth
AUTO
Range and resolution
Suffix code
Resolution bandwidth (RBW)
1 Hz to 10 MHz (1−3 sequence)
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Sets the resolution bandwidth automatically, according to the frequency span settings.
This command is available when the following trace is active:
• Spectrum
• Spectrogram
The setting range of this function is limited according to the frequency span setting. Refer to the MS2690A/MS2691A/MS2692A Signal Analyzer
Operation Manual (Signal Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation Manual (Signal Analyzer
Function Operation) for details.
To set the RBW to 300 Hz.
RB 300
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READ:AM?
AM Depth Read
Function
READ:FM?
FM deviation Read
Function
This command performs the AM Depth measurement and queries the result.
It works in the same way as the two commands are transmitted in the following order:
INIT:AM
FETC:AM?
4
This command performs the FM deviation measurement and queries the result.
It works in the same way as the two commands are transmitted in the following order:
INIT:FM
FETC:FM?
READ:FMCW?
FM CW Read
Function
This command performs the FM CW measurement and queries the result.
It works in the same way as the two commands are transmitted in the following order:
INIT:FMCW
FETC:FMCW?
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REFCLOCK_ADJUST/REFCLOCK_ADJUST?
Adjust Reference Clock
Function
This command sets the adjustment value of the internal reference signal oscillator (Reference Clock).
Command
REFCLOCK_ADJUST value
REFCLOCK_ADJUST PRESET
Query
REFCLOCK_ADJUST?
Response value
Parameter value
Range
Resolution
PRESET
Adjustment value
0 to 1023 (MS2830A)
0 to 4095 (MS2840A)
1
Resets the adjustment value to the factory default value.
Details
This command is not available while the Replay function is being executed.
Example of Use
To set the adjustment value of the internal reference signal oscillator to
511.
REFCLOCK_ADJUST 511
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RES?
Measurement Result Query
Function
This command queries the measurement results of the measurement function for the main trace.
Query
Response
RES?
RES? mode
(in ACP measurement)
Format varies according to the measurement function to be executed.
Refer to the following pages for details.
Parameter
Details mode
CARRIER
OFFSET
When omitted:
Query mode of ACP result
Queries the result of carrier power.
Queries the adjacent channel power result.
Queries the adjacent channel power result.
Returns *** when the measurement results in an error.
This command is available when any of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
The mode can be specified when the following measurement function is executed.
• ACP
Example of Use
To execute OBW measurement and query the result.
MEAS OBW
*WAI
RES?
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Response (detailed)
Symbol lc la1 lr1 ua1 ur1 la2 lr2 ua2 ur2 la3 lr3 ua3 ur3
For ACP measurement (for Spectrum trace and when mode is set to
OFFSET or omitted): lc(,lc),lr1,la1,ur1,ua1,lr2,la2,ur2,la2,lr3,la3,ur3,ua3
Returns values without suffix codes.
Two lc values will be output when ACP Reference is set to Both Sides of Carriers.
Description
Reference power (Power specified by ACP
Reference)
Absolute value of the total power centered at
{(Carrier Freq.) – (Offset Freq.1)}
Relative value of the total power centered at
{(Carrier Freq.) – (Offset Freq.1)} and the reference power.
Absolute value of the total power centered at
{(Carrier Freq.) + (Offset Freq.1)}
Relative value of the total power centered at
{(Carrier Freq.) + (Offset Freq.1)} and the reference power.
Absolute value of the total power centered at
{(Carrier Freq.) – (Offset Freq.2)}
Relative value of the total power centered at
{(Carrier Freq.) – (Offset Freq.2)} and the reference power.
Absolute value of the total power centered at
{(Carrier Freq.) + (Offset Freq.2)}
Relative value of the total power centered at
{(Carrier Freq.) + (Offset Freq.2)} and the reference power.
Absolute value of the total power centered at
{(Carrier Freq.) – (Offset Freq.3)}
Relative value of the total power centered at
{(Carrier Freq.) – (Offset Freq.3)} and the reference power.
Absolute value of the total power centered at
{(Carrier Freq.) + (Offset Freq.3)}
Relative value of the total power centered at
{(Carrier Freq.) + (Offset Freq.3)} and the reference power.
Same as lc
In dBc units
Same as lc
Same as lr1
Same as lc
Same as lr1
Same as lc
Same as lr1
Same as lc
Same as lr1
Same as lc
Same as lr1
Units
When Scale Mode is Log:
In Log Scale Unit units (dBm for V, µW for W)
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Symbol ls lc9 lc10 lc11 lc12 lc5 lc6 lc7 lc8 lca lc1 lc2 lc3 lc4
Chapter 4 Native Device Message Details
For ACP measurement (for Spectrum trace and when mode is set to
CARRIER)
ls,lca,lc1,lc2,lc3,lc4,lc5,lc6,
lc7,lc8,lc9,lc10,lc11,lc12
• Returns a value without a suffix code.
• The result of the carrier position greater than the carrier number set by ACP Carrier Number is output as “***”.
Description
Absolute value of the integral power on the whole screen
Units
When Scale Mode is Log in Log Scale Unit (however, dBm in V, and µW in W)
Absolute value of the total of all carrier power
Absolute value of the power of carrier – 1
Absolute value of the power of carrier – 2
Absolute value of the power of carrier – 3
Absolute value of the power of carrier – 4
Absolute value of the power of carrier – 5
Absolute value of the power of carrier – 6
Absolute value of the power of carrier – 7
Absolute value of the power of carrier – 8
Absolute value of the power of carrier – 9
Absolute value of the power of carrier – 10
Absolute value of the power of carrier – 11
Absolute value of the power of carrier – 12
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
Same as ls
4
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For Channel Power measurement (for Spectrum trace): power,density
Returns values without suffix codes.
Symbol power density
Description Units
Total power of the band specified using
Channel bandwidth (CHPWRWIDTH command)
Power density of the band specified using
Channel bandwidth (CHPWRWIDTH command)
When Scale Mode is Log:
In Log Scale Unit units (dBm for V,
µ W for W )
Same as power
For OBW measurement (for Spectrum trace): obw,center,start,stop
Returns values without suffix codes.
Symbol Description obw Occupied bandwidth In Hz units center Center frequency of the occupied bandwidth In Hz units start Start frequency of the occupied bandwidth stop Stop frequency of the occupied bandwidth
In Hz units
In Hz units
Units
For Burst Average Power measurement (for Power vs Time trace): level
Returns a value without a suffix code.
Symbol Description Units level Burst average power
When Scale Mode is Log:
In Log Scale Unit units (dBm for V,
µ W for W)
For AM Depth measurement (Power vs Time trace) pos,neg,p-p,avg
Value is returned, without suffix code.
Symbol pos neg p-p avg
Description
+peak value
− peak value
{(−Peak)−(+Peak)}/2
Average value
Units
%(Values in % units will be returned when the terminal is DigRF 3G (only for MS269x
Series) and the Input Source is Complex.
Values in V units will be returned if it is not set to Complex.)
V
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Symbol pos neg p-p avg
RLV/RLV?
Reference Level
Function
Command
Query
Response
Chapter 4 Native Device Message Details
For FM deviation measurement (Frequency vs Time trace) pos,neg,p-p,avg
Value is returned, without suffix code.
Description Units
+peak value
− peak value
{(−Peak)−(+Peak)}/2
Average value
Hz
Hz
Hz
Hz
For FM CW measurement (Frequency vs Time trace)
Refer to Table 2.23-2.
4
Parameter
This command sets the reference level.
RLV level
RLV? level
Returns a value without a suffix code.
When Scale Mode is Log, returns a value in Log Scale Unit units (µV when V, and µW when W).
When Scale Mode is Lin, returns a value in µ V units. level
Range
Resolution
Suffix code
Reference level
Value equivalent to –120 to +50 dBm (regardless of the ATT and Pre-Amp settings when the
Replay function is executed)
0.01 dB (When Scale Unit settings are dB-system units)
0.01 pV (When Scale Unit settings are
V-system units.)
0.01 yW (When Scale Unit settings are
W-system units.)
DBM, DM
DBMV
DBUV
DBUVE dBm dBmV dBµV dBV (emf)
V
MV
V mV
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Example of Use
UV
W
MW
UW
NW
µ V
W mW
µ W
PW
FW nW pW fW
Log Scale Unit settings apply when omitted.
V is used for Linear Scale.
To set the reference level to –10 dBm.
RLV -10DBM
ROF/ROF?
Rolloff Factor
Function
Command
Query
Response
Parameter
Details
Example of Use
This command sets the filter rolloff ratio.
ROF factor
ROF? factor factor
Range
Resolution
Rolloff ratio
0.01 to 1.00
0.01
This command is available when the following trace is active:
• Power vs Time
This command is available when either of the following types is set using
Filter Type (FLTRTYP command):
• Nyquist
• Root Nyquist
To set the rolloff ratio to 0.62.
ROF 0.62
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ROFFSET/ROFFSET?
Reference Level Offset
Function
This command sets the offset value of the reference level offset function.
Command
ROFFSET level
ROFFSET on_off
Query
ROFFSET?
Response level
OFF
When this function is ON
When this function is OFF
Parameter level
Range
Resolution
Suffix code on_off
ON
OFF
Reference level offset value
–100 to 100 dB
0.01
DB dB is used even when omitted.
Reference level offset function ON/OFF
ON
OFF
Details
Changing the offset value sets the reference level offset function to ON.
This command is not available in the following case:
• When Terminal is DigRF 3G (only for MS269x Series).
Example of Use
To set the reference level offset function to OFF.
ROFFSET OFF
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ROFFSETMD/ROFFSETMD?
Reference Level Offset On/Off
Function
This command sets the reference level offset function On/Off.
Command
ROFFSETMD on_off
Query
ROFFSETMD?
Response on_off
Parameter on_off
ON
OFF
Reference level offset function On/Off
On
Off
Details
This command is not available in the following case:
• When Terminal is DigRF 3G (only for MS269x Series)
Example of Use
To set the reference level offset function to OFF.
ROFFSETMD OFF
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RSTEVRYCAP/RSTEVRYCAP?
Reset Result Every Capture
Function
This command sets whether to reset the result after each CCDF measurement.
Command
RSTEVRYCAP on_off
Query
RSTEVRYCAP?
Response on_off
Parameter on_off
ON
OFF
Resets the result after each measurement.
Does not reset the result after each measurement.
Details
This command is available when the following trace is active:
• CCDF
This command is not available while the Replay function is being executed.
Example of Use
To set to reset the result after each measurement.
RSTEVRYCAP ON
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SCALELINES/SCALELINES?
Log Scale Line
Function
This command sets the number of Y-axis scale segments for log scale.
Command
SCALELINES line
Query
SCALELINES?
Response line
Parameter line
10
12
Number of Y-axis scale segments
10 segments
12 segments
Details
This command is available when either of the following traces is active:
• Spectrum
• Power vs Time
This command is available only when Scale Mode is Log.
Example of Use
To set the number of scale segments to 12.
SCALELINES 12
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SCALEMODE/SCALEMODE?
Scale Mode
Function
This command switches the scale mode.
Command
SCALEMODE mode
Query
SCALEMODE?
Response mode
Parameter mode
LOG
LIN
Scale mode
Log scale
Linear scale
Details
This command is not available when Trace Mode is set to Spectrogram or
No Trace.
Example of Use
To set the scale mode to Linear scale.
SCALEMODE LIN
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SELECTSTD/SELECTSTD?
Select Standard
Function
This command selects the communication method used when executing a measurement function. The parameter set by executing Load Standard
Parameter is changed according to the selected communication method.
Command
SELECTSTD standard
Query
SELECTSTD?
Response standard
Parameter standard
OFF
Communication method
Does not use Load Standard Parameter
WCDMAUP
WCDMADN
(LOADSTD command)
3GPP W-CDMA Uplink
3GPP W-CDMA Downlink
MWIMAXDL
MWIMAXUL
3GLTE_DL
3GLTE_UL
ETC_DSRC
TDSCDMA
Mobile WiMAX (IEEE802.16e) Downlink
Mobile WiMAX (IEEE802.16e) Uplink
3GPP LTE Downlink
3GPP LTE Uplink
ARIB STD-T75
3GPP TDD 1.28Mcps Option
XGPHS
CDMA2KFWD
XG-PHS
3GPP2 CDMA2000 Forward Link
EVDOFWD
3GLTE_TDD_DL
3GPP2 EV-DO Forward Link
3GPP LTE TDD Downlink
3GLTE_TDD_UL 3GPP LTE TDD Uplink
Details
This command is not available in the following case:
• When Terminal is DigRF 3G (only for MS269x Series)
• If using MS2830A, this command is not available if Option
005/105/007/009/109 Analysis Bandwidth Extension to 31.25 MHz is not installed.
• If using MS2840A, this command is not available if Option
005/105/009/109 Analysis Bandwidth Extension to 31.25 MHz is not installed.
Example of Use
To execute a measurement function using parameter conforming to 3GPP
W-CDMA Uplink.
SELECTSTD WCDMAUP
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SMMLYPWR?
Power Result Query
Function
Query
Response
Parameter
Details
Example of Use
This command queries the average power, maximum power, and crest factor of CCDF measurement.
SMMLYPWR? type average (When type is AVG)
Returns a value in dBm units without a suffix code. max (When type is MAX)
Returns a value in dBm units without a suffix code. crest (When type is CREST)
Returns a value in dB units without a suffix code. average,max,crest (When type is omitted) type
AVG
MAX
CREST
When omitted:
Measurement result type
Average power
Maximum power
Crest factor
All of the above
This command is available when the following trace is active:
• CCDF
To query the average power of measurement result.
SMMLYPWR? AVG
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SMOOTH/SMOOTH?
Smoothing
Function
This command enables/disables smoothing for the main trace.
Command
SMOOTH on_off
Query
SMOOTH?
Response on_off
Parameter on_off
ON
OFF
Smoothing ON/OFF
On
Off
Details
This command is available when either of the following traces is active:
• Power vs Time
• Frequency vs Time
Example of Use
To enable smoothing for the main trace.
SMOOTH ON
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SMOOTHLN/SMOOTHLN?
Smoothing Time Length
Function
This command sets the time length for smoothing the main trace.
Command
SMOOTHLN time
Query
SMOOTHLN?
Response time
Returns a value in ms units without a suffix code.
Parameter time Smoothing time length
Range and resolution
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation)
Suffix code for details.
NS,US,MS,S
MS is used when omitted.
Details
This command is available when either of the following traces is active:
• Power vs Time
• Frequency vs Time
This command is not available in the following case:
• When Terminal is DigRF 3G (only for MS269x Series)
Example of Use
To set the smoothing time length to 20 µs.
SMOOTHLN 20 US
4
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SMPLRATE?
Sampling Rate Query
Function
This command queries the sampling rate of waveform capturing.
Query
SMPLRATE?
Response rate
No suffix code. Value is returned in Hz units.
Example of Use
To query the sampling rate.
SMPLRATE?
SNGLS
Single Measurement
Function
This command performs single measurement.
Command
SNGLS
Details
Other commands and queries can be received even while this function is being executed.
If a command that requires re-capturing of a waveform or re-calculation of a trace is received, however, this function is paused while executing that command.
Note that this command does not support synchronized control in
Continuous mode.
This command is not available while the Replay function is being executed.
Example of Use
To perform single measurement and query the marker value.
SNGLS
*WAI
MKL?
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SOF/SOF?
Stop Frequency
Function
Command
Query
Response
Parameter
This command sets the stop frequency of waveform capturing.
SOF freq
SOF? freq freq
Range
Stop frequency
Range adding Frequency Span/2 to the following center frequency ranges:
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
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300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167,
Resolution
Suffix code
Default
[MS269xA]
[MS2830A] and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
[MS2840A]
6.015625 GHz
3.615625 GHz
(Option 005/105/007/009/109/077/078)
3.605 GHz (Option 006/106)
3.615625 GHz
(Option 005/105/009/109/077/177/078/178)
3.605 GHz (Option 006/106)
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Details
Example of Use
SPF/SPF?
Frequency Span
Function
Command
Query
Response
Parameter
Chapter 4 Native Device Message Details
This function is restricted by the following condition:
• Stop frequency will be fixed to +270.833 kHz (for GSM) or +3.84 MHz
(for W-CDMA) when the terminal is set to DigRF 3G (only for MS269x
Series).
This command is not available while the Replay function is being executed.
To set the stop frequency to 16 MHz.
SOF 16000000
This command sets the frequency span of waveform capturing.
SPF freq
SPF? freq
Returns a value in Hz units without a suffix code. freq Frequency span
Range [MS269xA] 1000, 2500, 5000, 10000, 25000, 50000, 100000,
250000, 500000, 1000000, 2500000, 5000000,
10000000, 25000000, 31250000
50000000 * 1 * 2 , 62500000 * 2 ,
Suffix code
100000000 * 1 * 3 , 125000000 * 1 * 3
[MS2830A], [MS2840A]
1000* 2 , 2500* 2 , 5000* 2 , 10000* 2 , 25000*
50000* 2 , 100000* 2 ,250000* 2 , 500000* 2 ,
2 ,
1000000* 2 , 2500000* 2 , 5000000* 2 ,
10000000* 2 , 25000000* 1 , 31250000* 1
50000000* 3 , 62500000* 3 ,
100000000* 4 , 125000000* 4
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
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Details
Default
[MS269xA] 31.25 MHz
[MS2830A] 31.25 MHz
(Option 005/105/007/009/109/077/078)
10 MHz (Option 006/106)
[MS2840A] 31.25 MHz
(Option 005/105/009/109/077/177/078/178)
10 MHz (Option 006/106)
This function is restricted by the Frequency Band Mode, Center
Frequency and Terminal settings.
[MS269xA]
*1: Option 004/104
The following frequency spans are available when the Wideband
Analysis Hardware is installed:
50000000, 100000000, 125000000
*2: Option 077/177
The following frequency spans are available when the Analysis
Bandwidth Extension to 62.5 MHz option is installed:
50000000, 62500000
*3: Option 078/178
In addition to the *2, the following frequency spans are available when the Analysis Bandwidth Extension to 125 MHz option is installed:
100000000, 125000000
The following frequency spans are not available when the Frequency
Band Mode is Spurious.
50000000, 62500000, 100000000, 125000000
[MS2830A], [MS2840A]
*1: MS2830A-005/105/007/009/109
MS2840A-005/105/009/109
In addition to the *2 below, the following frequency spans are available when the Analysis Bandwidth Extension to 31.25 MHz option is installed:
25000000, 31250000
*2: Option 006/106
The following frequency spans are available when the Analysis
Bandwidth 10 MHz option is installed:
1000, 2500, 5000, 10000, 25000, 50000, 100000, 250000,
500000, 1000000, 2500000, 5000000, 10000000
*3: MS2830A-077, MS2840A-077/177
In addition to the *1, the following frequency spans are available when the Analysis Bandwidth Extension to 62.5 MHz option is
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Example of Use
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50000000, 62500000
*4: MS2830A-078, MS2840A-078/178
In addition to the *3, the following frequency spans are available when the Analysis Bandwidth Extension to 125 MHz option is installed:
100000000, 125000000
The following frequency spans are not available when the Frequency
Band Mode is Spurious.
50000000, 62500000, 100000000, 125000000
This function is restricted by the following condition:
• Span frequency will be fixed to 541.666 kHz (for GSM) or 7.68 MHz
(for W-CDMA) when the terminal is set to DigRF 3G (only for MS269x
Series).
• This command is not available while the Replay function is being executed.
4
To set the frequency span of waveform capturing to 25 MHz.
SPF 25000000
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SRCHTH/SRCHTH?
Search Threshold
Function
This command sets the threshold value condition for the main trace search point detection.
Command
SRCHTH mode
Query
SRCHTH?
Response mode
Parameter mode
OFF
ON
ABOVE
BELOW
Threshold value condition
Does not set the threshold value.
Sets the threshold value (setting only).
Executes detection above the threshold value.
Executes detection below the threshold value.
Details
This command is available when any one of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
Changing the detection threshold condition (ABOVE/BELOW) sets the threshold to On.
Example of Use
To set the main trace detection threshold value condition to below the threshold.
SRCHTH BELOW
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SRCHTHLVL/SRCHTHLVL?
Search Threshold Level
Function
This command sets the threshold value for the main trace search point detection.
Command
SRCHTHLVL level
SRCHTHLVL freq
(Spectrum, Power vs Time)
(Freq vs Time)
Query
SRCHTHLVL?
Response
Level
Returns a value without a suffix code.
For Spectrum trace, returns a value in Log Scale Unit units when
Scale Mode is Log (note that dBm is used for V while µW is used for W).
When Scale Mode is Lin, returns a value in dBm units.
For Power vs Time trace, returns a value in Log Scale Unit units when Scale Mode is Log (note that µV is used for V while µW is used for W). When Scale Mode is Lin, returns a value in µV units. freq
Returns a value in Hz units without a suffix code.
4
Parameter level
Range
Resolution
Threshold value for search point detection
Sets the vertical scale range of the main trace.
0.01 dB (When Scale Unit is dB-system units)
0.01 pV (When Scale Unit is V-system units)
0.01 yW (When Scale Unit is W-system units)
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Suffix code DBM, DM
DBMV
DBUV
DBUVE
V
MV
UV dBm dBmV dBµV dBµV (emf)
V mV
W
MW
UW
NW
PW
FW
µ V
W mW
µ W nW pW fW
Log Scale Unit settings apply when omitted.
(For Spectrum trace, dBm units for V.)
In the linear scale mode, dBm units are used for
Spectrum trace, while V units are used for
Power vs Time trace. freq
Range
Resolution
Suffix code
Threshold value for search point detection
Sets the vertical scale range of the main trace.
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
Example of Use
This command is available when any one of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
Changing the detection threshold value sets the detection threshold value to On.
To set the threshold value for search point detection to –50 dBm.
SRCHTHLVL -50
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STF/STF?
Start Frequency
Function
Command
Query
Response
Parameter
This command sets the start frequency of waveform capturing.
STF freq
STF? freq freq
Range
Start frequency
Range subtracting Frequency Span/2 from the following center frequency ranges:
[MS269xA]
Without MS269xA-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 6 GHz (MS2690A)
0 Hz to 13.5 GHz (MS2691A)
0 Hz to 26.5 GHz (MS2692A)
With MS269xA-077/177/078/178, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2690A)
100 MHz to 13.5 GHz (MS2691A)
With MS269xA-077/177/078/178, without MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 6 GHz (MS2692A)
With MS269xA-077/177/078/178, with MS2692A-067/167, and frequency span > 31.25 MHz
100 MHz to 26.5 GHz (MS2692A)
[MS2830A]
Without MS2830A-077/078, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 13.5 GHz (Option 043)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 43 GHz (Option 045)
With MS2830A-077/078, and frequency span > 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
300 MHz to 13.5 GHz (Option 043)
With MS2830A-077/078, without MS2830A-067/167, and frequency span > 31.25 MHz
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300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 045)
With MS2830A-077/078, with MS2830A-067/167, and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 43 GHz (Option 045)
[MS2840A]
Without MS2840A-077/177/078/178, or frequency span ≤ 31.25 MHz
0 Hz to 3.6 GHz (Option 040)
0 Hz to 6.0 GHz (Option 041)
0 Hz to 26.5 GHz (Option 044)
0 Hz to 44.5 GHz (Option 046)
With MS2840A-077/177/078/178, and frequency span ≤ 31.25 MHz
300 MHz to 3.6 GHz (Option 040)
300 MHz to 6.0 GHz (Option 041)
With MS2840A-077/177/078/178, without MS2840A-067/167, and frequency span > 31.25 MHz
300 MHz to 6 GHz (Option 044)
300 MHz to 6 GHz (Option 046)
With MS2840A-077/177/078/178, with MS2840A-067/167,
Resolution
Suffix code
Default
[MS269xA]
[MS2830A] and frequency span > 31.25 MHz
300 MHz to 26.5 GHz (Option 044)
300 MHz to 44.5 GHz (Option 046)
1 Hz
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
[MS2840A]
5.984375 GHz
3.584375 GHz
(Option 005/105/007/009/109/077/078)
3.595 GHz (Option 006/106)
3.584375 GHz
(Option 005/105/009/109/077/177/078/178)
3.595 GHz (Option 006/106)
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This command is not available while the Replay function is being executed.
This function is restricted by the Frequency Span setting.
When MS2690A/91/92A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 100 MHz.
When MS2830A, MS2840A is used and Frequency Span is 50 MHz or more, the lower limit frequency is 300 MHz.
This function is restricted by the following condition:
• Start frequency is fixed to –270.833 kHz (for GSM) or –3.84 MHz (for
W-CDMA) when the terminal is set to DigRF 3G (only for MS269x
Series).
4
To set the start frequency of waveform capturing to 12.3 MHz.
STF 12300000
Example of Use
STOP
Storage Stop
Function
Command
Details
Example of Use
This command stops waveform capturing under execution. Functions when Storage Mode of the main trace is Lin Average, Max Hold, or Min
Hold.
STOP
This command is not available while the Replay function is being executed.
To stop waveform capturing.
STOP
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STORAGECOUNT/STORAGECOUNT?
Storage Count
Function
This command sets the storage count of the main trace.
Command
STORAGECOUNT count
Query
STORAGECOUNT?
Response count
Parameter count
Range
Resolution
Storage count
2 to 9999
1
Details
This command is available when any of the following traces is active:
• Spectrum
• Power vs Time
• Freq vs Time
• Spectrogram
This command is not available while the Replay function is being executed.
Example of Use
To set the storage count of the main trace to 200.
STORAGECOUNT 200
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STORAGEMODE/STORAGEMODE?
Storage Mode
Function
This command sets the storage mode for the main trace data.
Command
STORAGEMODE mode
Query
STORAGEMODE?
Response mode
Parameter mode
OFF
MAX
LINAVG
MIN
Storage mode
Does not store any data.
Stores the maximum value.
Stores the average value.
Stores the minimum value.
Details
When Capture Time is set to Manual, the storage mode is fixed to OFF.
This command is available when any one of the following traces is active:
• Spectrum
• Power vs Time
• Freq vs Time (LINAVG cannot be set.)
• Spectrogram
This command is not available while the Replay function is being executed.
4
Example of Use
To set the storage mode to LINAVG.
STORAGEMODE LINAVG
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SWE:SAMP/SWE:SAMP?
Capture Sample Length
Function
This command sets the number of waveform capture samples when the terminal is set to DigRF 3G (only for MS269x Series).
Command
SWE:SAMP point
Query
SWE:SAMP?
Response point
Parameter point
Range
Suffix code
Resolution
Default Value
Number of capture samples
100 to 500000000 (W-CDMA)
100 to 200000000 (GSM)
None
1
0
Details
The shortest capture time length is set when the automatic setting is enabled.
The automatic mode is switched to the manual mode when the capture time length is set.
The setting range and resolution are limited by the Frequency Span setting.
This command is available in the following cases:
• When Terminal is RF.
• When the Replay function is being executed.
Example of Use
To set waveform capture sample length to 20000.
SWE:SAMP 20000
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SWEEPCOUNT?
Measurement Count Query
Function
This command queries the current storage count of the main trace.
Query
SWEEPCOUNT?
Response
Parameter
Details count count
Range
Resolution
Storage count
0 to 9999
1
This command is available when any one of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
The command is not available when Storage Mode of the main trace is set to OFF.
4
Example of Use
To query the current storage count of the main trace.
SWEEPCOUNT?
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TDLY/TDLY?
Trigger Delay
Function
This command sets the delay from trigger input to start of waveform capturing.
Command
TDLY time
Query
TDLY?
Response time
Returns a value in ms units without a suffix code.
Parameter time Delay time
Range and resolution
Refer to the MS2690A/MS2691A/MS2692A
Suffix code
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation) for details.
NS,US,MS,S
MS is used when omitted.
Details
Changing the trigger delay sets the trigger delay to ON.
The setting range is limited by the Frequency Span setting.
This command is not available in the following cases:
• When Terminal is DigRF 3G (only for MS269x Series).
• When the Replay function is being executed.
Example of Use
To set the trigger delay to 20 ms.
TDLY 20MS
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TDPNT?
Time Trace Point Query
Function
Query
Response
Parameter
Details
Example of Use
This command queries the number of trace points on the time axis of the main trace.
TDPNT? point point Number of trace points
Returns a value without a suffix code.
4
This command is available when either of the following traces is active:
• Power vs Time
• Frequency vs Time
• Phase vs Time
• Spectrogram
The number of data points is determined according to analysis time length and frequency span.
To query the number of the main trace data points.
TDPNT?
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THRSHLD/THRSHLD?
Threshold
Function
This command sets the minimum level of input signals for CCDF measurement.
Command
THRSHLD level
Query
THRSHLD?
Response level
No suffix code. Values is returned in dBm units.
Parameter level
Range
Resolution
Suffix code
Minimum level of input signals
–170 to reference level (dBm)
When the reference level offset value is On, it is added to the range.
0.01 dBm
DB,DBM,DM dBm is used when omitted.
Details
This command is available when the following trace is active:
• CCDF
Example of Use
To set the minimum level to –20 dBm.
THRSHLD -20
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TITLE/TITLE?
Title Entry
Function
Command
Query
Response
Parameter
Details
Example of Use
This command registers the title character string.
TITLE string
TITLE? string string
Range
Title character string
Character string within 32 characters enclosed by double quotes (“ ”) or single quotes (‘ ’).
4
Setting the title character string sets title display (Display Title) to On automatically.
To set the title character string to Anritsu.
TITLE “Anritsu”
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TRAC?
Query Trace Data
Function
This command queries the trace data.
Query
Response
Parameter
TRAC? [start[,length]] data_1,data_2,... start
Range
Resolution
When omitted:
Query start point
0 to Number of trace points – 1
1
0 length
Range
Resolution
When omitted:
Query length
1 to Number of trace points – start
For Spectrum, 5121 is the maximum.
For Spectrogram, 9999 is the maximum.
1
Number of trace points – start
For spectrum, if 5122 or more is set, 5121 is automatically set.
For Spectrogram, if 10000 or more is set, 9999 is automatically set. data_n Trace data
For Spectrum or Power vs Time, Spectrogram trace
Resolution (In Log scale)
0.001 dBm
(In Linear scale)
{ Voltage value (V) / Reference level (V) } × 10000
Reference level is 10000.
–999.0 is returned when no measurement is performed or an error has occurred.
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Data range Returns a value within the range of Start Freq to Stop Freq for Spectrum trace.
Returns a value within the range of Analysis
Start Time to Analysis Start Time + Analysis
Time Length for Power vs Time trace.
Divides a trace into the number of trace points and returns a value within the range of Start to
Length for Spectrogram. For the coordinates
(frequency, time), the (Start Frequency, 0 seconds) position is point 0, and, for subsequent points, the time coordinate is fixed and the trace point position increases along the frequency axis.
When the frequency axis coordinate reaches Stop
Frequency, the time coordinate increases by one point and the trace point position again increases along the frequency axis.
4
For Freq vs Time trace
Resolution 0.01 Hz
Center frequency is 0.
–999999999999 is returned when no
Data range measurement is performed or an error has occurred.
Returns a value within the range of Analysis
Start Time to Analysis Start Time + Analysis
Time Length.
For Phase vs Time trace
Resolution 0.01 degree resolution Unit: degree
− 999999999999 is returned when no
Data range measurement is performed, an error has occurred.
Returns a value within the range of Analysis
Start Time to Analysis Start Time + Analysis
Time Length.
For CCDF trace
Resolution 0.0001%
–999.0 is returned when no measurement is performed or an error has occurred.
Data range Returns a value within the range of –50 to 50 dB for APD.
Returns a value within the range of 0 to 50 dB for CCDF.
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Details
For Power vs Time or Frequency vs Time, when Detection is set to
Positive & Negative, returns the reading for the trace data of Positive detection. In other cases, reads out the data of the set Detection.
This command is not available when Trace Mode is set to No Trace.
Example of Use
To query the trace data.
TRAC?
> -20000,-20231,-21233,...
TRAC:NEG?
Query Negative Trace Data
Function
This command queries the trace data.
Query
Response
Parameter
TRAC:NEG? [start[,length]] data_1,data_2,... start
Range
Starting point to query
0 to Number of trace points – 1
Resolution
When omitted: length
Range
1
0
Query length
1 to Number of trace points – start
Resolution
When omitted:
1
Number of trace points – start data_n Trace data
For Power vs Time trace
Resolution (In Log scale)
0.001 dBm
(In Linear scale)
{ Voltage value (V) / Reference level (V) } × 10000
The reference level is 10000.
–999.0 is returned when no measurement is performed or an error has occurred.
Data range Returns a value within the range of Analysis
Start Time to Analysis Start Time + Analysis
Time Length.
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Example of Use
Chapter 4 Native Device Message Details
For Freq vs Time trace
Resolution 0.01 Hz
The center frequency is 0.00.
–999999999999 is returned when no measurement is performed or an error has occurred.
Data range Returns a value within the range of Analysis
Start Time to Analysis Start Time + Analysis
Time Length.
For Power vs Time or Frequency vs Time, when Detection is set to
Positive & Negative, reads out the trace data of Negative detection. In other cases, reads out the data of the set Detection.
This command is available when either of the following traces is active:
• Power vs Time
• Frequency vs Time
To query the trace data.
TRAC:NEG?
> -20000,-20231,-21233,...
4
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TRCCHG/TRCCHG?
Change Trace
Function
This command sets the main trace type.
Command
TRCCHG trace
Query
TRCCHG?
Response trace
Parameter trace
SPECTRUM
POWERVSTIME
FREQVSTIME
PHASEVSTIME
CCDF
SPECTROGRAM
NONE
Trace type
Spectrum
Power vs Time
Frequency vs Time
Phase vs Time
CCDF
Spectrogram
No Trace
Details
This command is not available in the following cases:
• Spectrogram can be set when Scale Mode is Linear.
• When Terminal is selected DigRF 3G (only for MS269x Series), the
CCDF, Spectrogram and No Trace cannot be set.
Example of Use
To set trace type to Spectrum.
TRCCHG SPECTRUM
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TRGLVL/TRGLVL?
Trigger Level
Function
This command sets the trigger level for the Video and Wide IF Video triggers.
Command
TRGLVL level
Query
Response
Parameter
TRGLVL? level Trigger Level (Video)
Returns Trigger Level (Video) when the trigger source is not Wide IF
Video.
Returns a value in dBm units without a suffix code (when Scale
Mode is Log).
Returns a value in percentage units without a suffix code (when
Scale Mode is Lin). level Trigger Level (Wide IF Video)
Returns Trigger Level (Wide IF Video) when the trigger source is
Wide IF Video.
Returns a value in dBm units without a suffix code.
4 level Trigger Level (Video)
When Scale Mode is Log:
Range –150 to +50 dBm (Video trigger)
When the reference level offset value is On, it is
Resolution
Suffix code added to the range.
1 dB
DBM, DM dBm is used when omitted.
When Scale Mode is Lin:
Range 0 to 100%
Resolution
Suffix code level
Range
1%
None
Trigger Level (Wide IF Video)
–60 to +50 dBm (Wide IF Video trigger)
Resolution
Suffix code
When the reference level offset value is On, it is added to the range.
1 dB
DBM, DM dBm is used when omitted.
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Details
When the trigger source is Wide IF Video, Trigger Level (Wide IF Video) is set, and trigger switch is set to ON. When the trigger source is not
Wide IF Video, Trigger Level (Video) is set, trigger source is set to Video, and trigger switch is set to ON.
This command is not available in the following cases:
• When Terminal is DigRF 3G (only for MS269x Series).
• When the Replay function is being executed.
Example of Use
To set the trigger level to 50 dBm.
TRGLVL 50
TRGS/TRGS?
Trigger Switch
Function
This command sets the trigger to On/Off.
Command
TRGS switch
Query
TRGS?
Response switch
Parameter switch
FREE
TRGD
Trigger ON/OFF
OFF
ON
Details
This command is not available while the Replay function is being executed.
Example of Use
To set the trigger to ON.
TRGS TRGD
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TRGSLP/TRGSLP?
Trigger Slope
Function
This command sets the trigger detection direction (rising/falling).
Command
TRGSLP edge
Query
TRGSLP?
Response edge
Parameter edge
RISE
FALL
Trigger detection direction
Rising edge
Falling edge
Details
Changing the trigger detection direction sets trigger switch to On.
This command is not available while the Replay function is being executed.
Example of Use
To set the trigger detection direction to rising edge.
TRGSLP RISE
4
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TRGSOURCE/TRGSOURCE?
Trigger Source
Function
This command sets the trigger source type.
Command
TRGSOURCE source
Query
TRGSOURCE?
Response source
Parameter source
[MS269xA]
VID
WIDEVID
EXT
SG
BBIF
[MS2830A], [MS2840A]
VID
WIDEVID
EXT
SG
FRAME
Trigger source type
Video trigger
Wide IF Video trigger
External trigger
SG Marker trigger
Baseband Interface trigger
Video detection (Video)
Wideband IF detection (Wide IF Video)
External input (Default)
SG Marker (SG Marker)
Frame period trigger
Details
[MS269xA] SG Marker trigger can be selected only when the Option 020/120 Vector
Signal Generator is installed. BBIF trigger can only be selected when the
Option 040/140 Baseband Interface Unit is installed or the software package is older than Ver.6.00.00.
Settings for External, Video, Wide IF Video, and SG Marker cannot be performed when Terminal is set to DigRF 3G.
[MS2830A], [MS2840A]
SG marker trigger can be selected only when the Option 020/120/021/121
Vector Signal Generator is installed.
[Common] Changing the trigger source sets trigger switch to ON.
This command is not available while the Replay function is being executed.
Example of Use
To set trigger source to External.
TRGSOURCE EXT
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TRIG:FRAM:OFFS/TRIG:FRAM:OFFS?
Frame Sync Offset
Function
This command sets the offset time between when a signal source for generating a frame trigger is input and when the frame trigger is generated.
Command
TRIG:FRAM:OFFS time
Query
TRIG:FRAM:OFFS?
Response time
Parameter
<time>
Range
Resolution
Suffix code
Default
Offset time
0 to 1 s
10 ns
NS, US, MS, S
S is used when the suffix code is omitted.
0 s
Details
This command is not available for MS269x Series.
Example of Use
To set the offset time for generating a frame trigger to 100 ms.
TRIG:FRAM:OFFS 100ms
To query the offset time for generating a frame trigger.
TRIG:FRAM:OFFS?
> 0.10000000
4
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Chapter 4 Native Device Message Details
TRIG:FRAM:PER/TRIG:FRAM:PER?
Frame Trigger Period
Function
This command sets the period for generating a frame trigger.
Command
TRIG:FRAM:PER time
Query
TRIG:FRAM:PER?
Parameter time
Range
Resolution
Suffix code
Default
Frame trigger
1 s to 1 s
10 ns
NS, US, MS, S
S is used when the suffix code is omitted.
10 ms
Details
This command is not available for MS269x Series.
Example of Use
To set the frame trigger period to 10 ms.
TRIG:FRAM:PER 10MS
To query the frame trigger period.
TRIG:FRAM:PER?
> 0.02000000
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TRIG:FRAM:SYNC/TRIG:FRAM:SYNC?
Frame Sync Source
Function
This command selects the synchronization signal source for starting a frame trigger.
Command
TRIG:FRAM:SYNC sync
Query
TRIG:FRAM:SYNC?
Parameter sync
EXT
IMM
WIF
Sync signal source
External input (Default)
Free run
Wideband IF detection (Wide IF Video)
Details
This command is not available for MS269x Series.
Example of Use
To set the frame-trigger synchronization source to the Wide IF Video trigger.
TRIG:FRAM:SYNC WIF
To query the frame-trigger synchronization signal source.
TRIG:FRAM:SYNC?
> WIF
4
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Chapter 4 Native Device Message Details
TRIG:HOLD/TRIG:HOLD?
Trigger Hold
Function
This command sets the fixed amount of time trigger input is disabled between the first trigger input and the next trigger input.
Command
TRIG:HOLD time
Query
TRIG:HOLD?
Parameter time
Range
Resolution
Suffix code
Default
Offset time
0 to 1 s
10 ns
NS, US, MS, S
S is used when the suffix code is omitted.
100 µ s
Details
This command is not available for MS269x Series.
When this function is used to change a value, the Trigger Hold (ON/OFF) function is set to ON.
This command is not available for video trigger.
Example of Use
To set the amount of time trigger input is disabled to 100 ms.
TRIG:HOLD 100ms
To query the amount of time trigger input is disabled.
TRIG:HOLD?
> 0.02000000
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Chapter 4 Native Device Message Details
TRIG:HOLD:STAT/TRIG:HOLD:STAT?
Trigger Hold On/Off
Function
This command sets the function for disabling trigger input between the first trigger input and the next trigger input for a fixed amount of time to
On or Off.
Command
TRIG:HOLD:STAT switch
Query
TRIG:HOLD:STAT?
Parameter
<switch>
ON|1
OFF|0
Trigger Hold On/Off
Trigger Hold is On.
Trigger Hold is Off.
Details
This command is not available for MS269x Series.
4
When this function is set to On, the Trigger(On/Off) function is automatically set to On.
Example of Use
To set the setting for disabling trigger input for a fixed amount of time to
On.
TRIG:HOLD:STAT ON
To query the setting for disabling trigger input for a fixed amount of time.
:TRIG:HOLD:STAT?
> 1
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Chapter 4 Native Device Message Details
TTL/TTL?
Title On/Off
Function
This command sets title display to On/Off.
Command
TTL on_off
Query
TTL?
Response on_off
Parameter on_off
ON
OFF
Title display On/Off
Displays the title.
Hides the title.
Example of Use
To hide the title.
TTL OFF
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Chapter 4 Native Device Message Details
UNIT:TMAR/UNIT:TMAR?
Marker Unit
Function
This command sets the units of the marker display value (time) when the terminal is set to DigRF 3G (only for MS269x Series).
Command
UNIT:TMAR unit
Query
UNIT:TMAR?
Response unit
Parameter unit
SAMP
SEC
Units of marker display value
Sets the units of marker display value to Sample
Sets the units of marker display value to seconds
4
Details
This command is available when either of the following trace is set to active:
• Power vs Time
• Frequency vs Time
• Phase vs Time
This command is available in the following cases:
• When Terminal is set to RF.
• When the Replay function is being executed.
Example of Use
To set the marker display unit to Sample
UNIT:TMAR SAMP
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Chapter 4 Native Device Message Details
ZMCNT/ZMCNT?
Zoom Center
Function
This command sets the center frequency of display frequency axis scale.
Command
ZMCNT freq
Query
ZMCNT?
Response freq
Parameter freq Scale center frequency
Range and resolution
Refer to the MS2690A/MS2691A/MS2692A
Suffix code
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation) for details.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted.
Details
Example of Use
This command is available when the following trace is active:
• Spectrum
To set the center frequency of the display frequency axis scale to 20 kHz.
ZMCNT 20KHZ
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Chapter 4 Native Device Message Details
ZMWDTH/ZMWDTH?
Zoom Width/Vertical Scale Width
Function
This command sets the frequency width of the display frequency axis scale.
Command
ZMWDTH freq
ZMWDTH scale
(Spectrum)
(Frequency vs Time)
Query
ZMWDTH?
Response freq
Parameter freq Scale frequency width
Range and resolution
Refer to the MS2690A/MS2691A/MS2692A
Signal Analyzer Operation Manual (Signal
Analyzer Function Operation) or
MS2830A/MS2840A Signal Analyzer Operation
Manual (Signal Analyzer Function Operation)
Suffix code for details.
HZ, KHZ, KZ, MHZ, MZ, GHZ, GZ
Hz is used when omitted. scale
DIVBY2
DIVBY5
DIVBY10
DIVBY25
Scale frequency width
Frequency bandwidth/2
Frequency bandwidth/5
Frequency bandwidth/10
Frequency bandwidth/25
Details
This command is available when either of the following traces is active:
• Spectrum
• Frequency vs Time
Example of Use
To set the frequency width of the display frequency axis scale to 31.25
MHz.
ZMWDTH 31.25MHz
4
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Chapter 4 Native Device Message Details
ZOOM
Zoom
Function
This command expands the trace in the range specified by the marker.
Command
ZOOM
Details
When the main trace is Spectrum, the active marker zone range is reflected to the display frequency range.
When the main trace is Power vs Time, Frequency vs Time, or Phase vs
Time, the time range between Marker and Marker is reflected to the analysis range.
This command is not available in the following cases:
• The analysis range is minimum (Power vs Time, Frequency vs Time,
Phase vs Time).
• The display frequency range is minimum (Spectrum).
• Marker Result is Peak (Fast), or Peak (Normal), and Zone Width Type is Spot (Spectrum).
• Either Marker 1 or 2 is set to Off (Power vs Time, Frequency vs Time,
Phase vs Time).
• Marker Mode is set to Off or Fixed (Spectrum).
This command is available when any one of the following traces is active:
• Spectrum
• Power vs Time
• Frequency vs Time
• Phase vs Time
Example of Use
To expand the specified range of the zone marker when the main trace is
Spectrum.
ZOOM
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Chapter 4 Native Device Message Details
ZOOMOUT
Zoom Out
Function
Command
Details
Example of Use
This command compresses the display frequency range to the range specified by the marker.
ZOOMOUT
When the main trace is Spectrum, the display frequency range is compressed (zoom out) to the range specified by the active marker zone width.
When the main trace is Power vs Time, Frequency vs Time, or Phase vs
Time, the analysis time range is compressed (zoom out) to the range between Marker1 and Marker2 for setting change.
This command is not available in the following cases:
• The active marker is set to Off or Fixed (Spectrum).
• Either Marker 1 or 2 is set to Off (Power vs Time, Frequency vs Time,
Phase vs Time).
• Marker Result is Peak (Fast), or Peak (Normal) AND Zone Width
Type is Spot.
4
To compress the display range when the main trace is Spectrum.
ZOOMOUT
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Chapter 4 Native Device Message Details
4-264.
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Table of contents
- 1 Cover
- 2 Safety Symbols
- 5 About This Manual
- 7 Table of Contents
- 9 Chapter 1 Overview
- 10 1.1 Overview
- 11 Chapter 2 SCPI Device Message Details
- 29 2.1 Frequency Settings
- 30 [:SENSe]:FREQuency:CENTer <freq>
- 32 [:SENSe]:FREQuency:CENTer?
- 34 [:SENSe]:FREQuency:CENTer:STEP[:INCRement] <freq>
- 36 [:SENSe]:FREQuency:CENTer:STEP[:INCRement]?
- 38 [:SENSe]:FREQuency:STARt <freq>
- 40 [:SENSe]:FREQuency:STARt?
- 42 [:SENSe]:FREQuency:STOP <freq>
- 44 [:SENSe]:FREQuency:STOP?
- 46 [:SENSe]:FREQuency:SPAN <freq>
- 49 [:SENSe]:FREQuency:SPAN?
- 51 [:SENSe]:FREQuency:BAND:MODE NORMal|SPURious
- 52 [:SENSe]:FREQuency:BAND:MODE?
- 52 [:SENSe]:FREQuency:SRATe?
- 53 [:SENSe]:FREQuency:SYNThesis[:STATe] BPHase|NORMal|FAST
- 54 [:SENSe]:FREQuency:SYNThesis[:STATe]?
- 55 2.2 Level Settings
- 56 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
- 58 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
- 59 [:SENSe]:POWer[:RF]:ATTenuation <rel_ampl>
- 60 [:SENSe]:POWer[:RF]:ATTenuation?
- 61 [:SENSe]:POWer[:RF]:ATTenuation:AUTO ON|OFF|1|0
- 62 [:SENSe]:POWer[:RF]:ATTenuation:AUTO?
- 63 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing LINear|LOGarithmic
- 63 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:SPACing?
- 64 :UNIT:POWer DBM|DBMV|V|W|DBUV|DBUVE|DBUVM
- 65 :UNIT:POWer?
- 66 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet <rel_ampl>
- 67 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet?
- 68 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet:STATe ON|OFF|1|0
- 68 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:RLEVel:OFFSet:STATe?
- 69 [:SENSe]:POWer[:RF]:GAIN[:STATe] ON|OFF|1|0
- 69 [:SENSe]:POWer[:RF]:GAIN[:STATe]?
- 70 2.3 Trigger Settings
- 71 :TRIGger[:SEQuence][:STATe] ON|OFF|1|0
- 71 :TRIGger[:SEQuence][:STATe]?
- 72 :TRIGger[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF|FRAMe
- 73 :TRIGger[:SEQuence]:SOURce?
- 74 :TRIGger[:SEQuence]:SLOPe POSitive|NEGative
- 75 :TRIGger[:SEQuence]:SLOPe?
- 76 :TRIGger[:SEQuence]:DELay <time>
- 77 :TRIGger[:SEQuence]:DELay?
- 78 :TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic] <level>
- 79 :TRIGger[:SEQuence]:VIDeo:LEVel[:LOGarithmic]?
- 79 :TRIGger[:SEQuence]:VIDeo:LEVel:LINear <level>
- 80 :TRIGger[:SEQuence]:VIDeo:LEVel:LINear?
- 80 :TRIGger[:SEQuence]:VIDeo:SLOPe POSitive|NEGative
- 81 :TRIGger[:SEQuence]:VIDeo:SLOPe?
- 81 :TRIGger[:SEQuence]:VIDeo:DELay <time>
- 81 :TRIGger[:SEQuence]:VIDeo:DELay?
- 82 :TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute <ampl>
- 83 :TRIGger[:SEQuence]:WIF|:RFBurst:LEVel:ABSolute?
- 84 :TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe POSitive|NEGative
- 84 :TRIGger[:SEQuence]:WIF|:RFBurst:SLOPe?
- 84 :TRIGger[:SEQuence]:WIF|:RFBurst:DELay <time>
- 85 :TRIGger[:SEQuence]:WIF|:RFBurst:DELay?
- 85 :TRIGger[:SEQuence]:EXTernal[1]:SLOPe POSitive|NEGative
- 85 :TRIGger[:SEQuence]:EXTernal[1]:SLOPe?
- 86 :TRIGger[:SEQuence]:EXTernal[1]:DELay <time>
- 86 :TRIGger[:SEQuence]:EXTernal[1]:DELay?
- 87 :TRIGger[:SEQuence]:HOLDoff <time>
- 88 :TRIGger[:SEQuence]:HOLDoff?
- 89 :TRIGger[:SEQuence]:HOLDoff:STATe OFF|ON|0|1
- 90 :TRIGger[:SEQuence]:HOLDoff:STATe?
- 91 :TRIGger[:SEQuence]:FRAMe:PERiod <time>
- 91 :TRIGger[:SEQuence]:FRAMe:PERiod?
- 92 :TRIGger[:SEQuence]:FRAMe:SYNC EXTernal[1]|IMMediate|Off|WIF|RFBurst
- 93 :TRIGger[:SEQuence]:FRAMe:SYNC?
- 94 :TRIGger[:SEQuence]:FRAMe:OFFSet <time>
- 95 :TRIGger[:SEQuence]:FRAMe:OFFSet?
- 96 2.4 Capture Setting
- 97 :INITiate:CONTinuous OFF|ON|0|1
- 98 :INITiate:CONTinuous?
- 98 :INITiate:MODE:SINGle
- 99 :INITiate:MODE:CONTinuous
- 99 :INITiate[:IMMediate]
- 100 :MMEMory:STORe:IQData:MODE FULL|ATIMe|MANual
- 101 :MMEMory:STORe:IQData:MODE?
- 102 :MMEMory:STORe:IQData:STARt <time>
- 103 :MMEMory:STORe:IQData:STARt?
- 104 :MMEMory:STORe:IQData:STARt:SAMPle <sample>
- 105 :MMEMory:STORe:IQData:STARt:SAMPle?
- 106 :MMEMory:STORe:IQData:LENGth <time>
- 107 :MMEMory:STORe:IQData:LENGth?
- 108 :MMEMory:STORe:IQData:LENGth:SAMPle <sample>
- 109 :MMEMory:STORe:IQData:LENGth:SAMPle?
- 110 :MMEMory:STORe:IQData <filename>,<device>
- 110 :MMEMory:STORe:IQData:CANCel
- 111 :MMEMory:STORe:IQData:RATE <freq>
- 113 :MMEMory:STORe:IQData:RATE?
- 115 :MMEMory:STORe:TRACe TRACe1|ALL[,<filename>[,<device>]]
- 116 [:SENSe]:SWEep:TIME:AUTO ON|OFF|1|0
- 117 [:SENSe]:SWEep:TIME:AUTO?
- 118 [:SENSe]:SWEep:TIME <time>
- 119 [:SENSe]:SWEep:TIME?
- 120 2.5 Marker Settings
- 122 :CALCulate:MARKer:AOFF
- 123 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y?
- 125 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y:DELTa?
- 128 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:PEAK]:Y:PHASe?
- 130 :CALCulate:PHASe:STATe ON|OFF|1|0
- 131 :CALCulate:PHASe:STATe?
- 132 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:SET]:CENTer
- 133 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10[:SET]:RLEVel
- 134 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ZOOM
- 136 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ZOUT
- 138 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:STATe ON|OFF|1|0
- 139 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:STATe?
- 140 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ACTive OFF|ON|0|1
- 141 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:ACTive?
- 142 :CALCulate:MARKer:RESult INTegation|TOTal|DENSity|AVERage|PEAK|PACCuracy
- 143 :CALCulate:MARKer:RESult?
- 144 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist>
- 147 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
- 150 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X:DELTa <freq>
- 151 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:X:DELTa?
- 152 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:PEAK:X?
- 153 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh <freq>
- 154 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh?
- 155 :CALCulate:MARKer:PTPeak[:STATe] ON|OFF|1|0
- 156 :CALCulate:MARKer:PTPeak[:STATe]?
- 157 :CALCulate:MARKer:PTPeak:RESult?
- 159 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE POSitive|NORMal|DELTa|FIXed|OFF
- 160 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
- 161 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
- 163 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
- 164 :CALCulate:MARKer:TABLe[:STATe] OFF|ON|0|1
- 165 :CALCulate:MARKer:TABLe[:STATe]?
- 165 :CALCulate:MARKer:SLINe[:STATe] OFF|ON|0|1
- 166 :CALCulate:MARKer:SLINe[:STATe]?
- 167 :CALCulate:MARKer:COUPle:ZONE[:STATe] OFF|ON|0|1
- 168 :CALCulate:MARKer:COUPle:ZONE[:STATe] ?
- 169 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh:TYPE ZONE|SPOT
- 170 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:WIDTh:TYPE?
- 171 2.6 Signal Search Settings
- 172 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
- 174 :CALCulate:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT
- 175 :CALCulate:MARKer:SIGNal:RESolution|:EXCursion <rel_ampl>|<percent>|<freq>
- 177 :CALCulate:MARKer:SIGNal:RESolution|:EXCursion?
- 179 :CALCulate:MARKer:SIGNal:THReshold:STATe ON|OFF|1|0
- 180 :CALCulate:MARKer:SIGNal:THReshold:STATe?
- 181 :CALCulate:MARKer:SIGNal:THReshold:MODE ABOVe|BELow
- 182 :CALCulate:MARKer:SIGNal:THReshold:MODE?
- 183 :CALCulate:MARKer:SIGNal:THReshold <ampl>|<freq>
- 185 :CALCulate:MARKer:SIGNal:THReshold?
- 186 :CALCulate:MARKer[1]|2:MINimum
- 187 :CALCulate:MARKer[1]|2:MINimum:NEXT
- 188 :CALCulate:MARKer:PEAK:SORT:Y
- 189 :CALCulate:MARKer:PEAK:SORT:X
- 190 :CALCulate:MARKer:PEAK:SORT:COUNt <integer>
- 190 :CALCulate:MARKer:PEAK:SORT:COUNt?
- 191 :CALCulate:MARKer:READout?
- 193 2.7 Trace Settings
- 198 :TRACe:MODE SPECtrum|PVTime|FVTime|PHASe|CCDF|SPGRam|NONE
- 199 :TRACe:MODE?
- 199 :CALCulate:ATIMe:AUTO OFF|ON|0|1
- 200 :CALCulate:ATIMe:AUTO?
- 201 :CALCulate:ATIMe:LENGth <time>
- 202 :CALCulate:ATIMe:LENGth?
- 203 :CALCulate:ATIMe:STARt <time>
- 204 :CALCulate:ATIMe:STARt?
- 205 :CALCulate:ATIMe:GMODe OFF|ON|0|1
- 205 :CALCulate:ATIMe:GMODe?
- 206 :CALCulate:ATIMe:GMODe:PERiod <time>
- 207 :CALCulate:ATIMe:GMODe:PERiod?
- 208 :CALCulate:ATIMe:GMODe:RANGe:STATe ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0,
- 209 :CALCulate:ATIMe:GMODe:RANGe: STATe?
- 210 :CALCulate:ATIMe:GMODe:RANGe:STARt <time_1>,<time_2>,<time_3>
- 210 :CALCulate:ATIMe:GMODe:RANGe: STARt?
- 211 :CALCulate:ATIMe:GMODe:RANGe:STOP <time_1>,<time_2>,<time_3>
- 211 :CALCulate:ATIMe:GMODe:RANGe: STOP?
- 212 :INITiate:CALCulate
- 214 [:SENSe]:SWEep:POINts?
- 215 :TRACe:SWEep:COUNt?
- 216 :DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer <freq>
- 217 :DISPlay[:WINDow]:TRACe:X[:SCALe]:CENTer?
- 218 :DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh <freq>
- 219 :DISPlay[:WINDow]:TRACe:X[:SCALe]:WIDTh?
- 220 [:SENSe]:BANDwidth|:BWIDth[:RESolution] <bandwidth>
- 221 [:SENSe]:BANDwidth|:BWIDth[:RESolution]?
- 222 :CALCulate:BANDwidth|:BWIDth[:RESolution] <bandwidth>
- 223 :CALCulate:BANDwidth|:BWIDth[:RESolution]?
- 224 [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
- 225 [:SENSe]:BANDwidth|:BWIDth[:RESolution]:AUTO?
- 226 :CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
- 227 :CALCulate:BANDwidth|:BWIDth[:RESolution]:AUTO?
- 228 [:SENSe]:DETector[:FUNCtion] NORMal|POSitive|NEGative|SAMPle|AVERage
- 229 [:SENSe]:DETector[:FUNCtion]?
- 230 :CALCulate:DETector[:FUNCtion] NORMal|POSitive|NEGative|SAMPle|AVERage
- 230 :CALCulate:DETector[:FUNCtion]?
- 231 :TRACe:STORage:MODE OFF|MAXHold|LAVerage|MINHold
- 232 :TRACe:STORage:MODE?
- 233 [:SENSe]:AVERage:COUNt <integer>
- 234 [:SENSe]:AVERage:COUNt?
- 235 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmic] <rel_ampl>
- 236 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision[:LOGarithmic]?
- 237 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear <percent>
- 238 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:LINear?
- 239 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic] <line>
- 240 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:LINE[:LOGarithmic]?
- 241 :CALCulate:SMOothing[:STATe] OFF|ON|0|1
- 241 :CALCulate:SMOothing[:STATe]?
- 242 :CALCulate:SMOothing:LENGth <time>
- 243 :CALCulate:SMOothing:LENGth?
- 244 :CALCulate:FILTer:TYPE OFF|RECT|GAUSsian|NYQuist|RNYQuist
- 245 :CALCulate:FILTer:TYPE?
- 246 :CALCulate:FILTer:ALPHa <real>
- 247 :CALCulate:FILTer:ALPHa?
- 248 :CALCulate:FILTer:BANDwidth <bandwidth>
- 249 :CALCulate:FILTer:BANDwidth?
- 250 :CALCulate:FILTer:FOFFset <freq>
- 251 :CALCulate:FILTer:FOFFset?
- 252 :CALCulate:FILTer:BANDwidth:AUTO ON|OFF|1|0
- 252 :CALCulate:FILTer:BANDwidth:AUTO?
- 253 :DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe D2|D5|D10|D25
- 254 :DISPlay[:WINDow]:TRACe:Y[:SCALe]:RANGe?
- 255 :DISPlay[:WINDow]:TRACe:Y[:SCALe]:WIDTh?
- 255 :UNIT:FREQuency HZ|DHZ
- 256 :UNIT:FREQuency?
- 256 :CALCulate:CCDF|:PSTatistic:METHod CCDF|APD
- 257 :CALCulate:CCDF|:PSTatistic:METHod?
- 257 :CALCulate:CCDF|:PSTatistic:THReshold:STATe ON|OFF|1|0
- 258 :CALCulate:CCDF|:PSTatistic:THReshold:STATe?
- 259 :CALCulate:CCDF|:PSTatistic:THReshold <ampl>
- 260 :CALCulate:CCDF|:PSTatistic:THReshold?
- 261 :CALCulate:CCDF|:PSTatistic:MODE TIME|COUNt
- 262 :CALCulate:CCDF|:PSTatistic:MODE?
- 263 :CALCulate:CCDF|:PSTatistic:COUNts <sample>
- 264 :CALCulate:CCDF|:PSTatistic:COUNts?
- 265 :CALCulate:CCDF|:PSTatistic:STORe:REFerence
- 265 [:SENSe]:CCDF|:PSTatistic:RTRace[:STATe] ON|OFF|1|0
- 266 [:SENSe]:CCDF|:PSTatistic:RTRace[:STATe]?
- 266 [:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe] ON|OFF|1|0
- 267 [:SENSe]:CCDF|:PSTatistic:GAUSsian[:STATe]?
- 267 :CALCulate:MARKer[1][:PEAK]:X:DELTa?
- 269 :DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision <rel_ampl>
- 269 :DISPlay:WINDow[1]:TRACe:X[:SCALe]:PDIVision?
- 270 :CALCulate:MARKer:AXIS PROB|DSTRbt
- 270 :CALCulate:MARKer:AXIS?
- 271 [:SENSe]:CCDF|:PSTatistic:ERESet[:STATe] ON|OFF|1|0
- 272 [:SENSe]:CCDF|:PSTatistic:ERESet[:STATe]?
- 272 :CONFigure:CCDF|:PSTatistic
- 273 :INITiate:CCDF|:PSTatistic
- 274 :FETCh:CCDF|:PSTatistic[n]?
- 281 :READ:CCDF|:PSTatistic[n]?
- 281 :MEASure: CCDF|:PSTatistic [n]?
- 282 :CALCulate:MARKer[1]:Y <prob>
- 283 :TRACe:STORage:STOP
- 283 :TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
- 284 :TRIGger:CCDF|:PSTatistic[:SEQuence]:SOURce?
- 285 :TRACe[:DATA]? [<start>[,<length>]]
- 288 :TRACe[:DATA]:NEGative? [<start>[,<length>]]
- 290 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe <rel_ampl>
- 291 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PDIVision:RANGe?
- 292 :CALCulate:TMARker[1]|2:X <time>
- 293 :CALCulate:TMARker[1]|2:X?
- 294 :CALCulate:TMARker:COUPle:ZONE[:STATe] OFF|ON|0|1
- 294 :CALCulate:TMARker:COUPle:ZONE[:STATe]?
- 295 :CALCulate:ANALyze:SPECtrum
- 295 :CALCulate:ANALyze:SPGRam
- 296 :CALCulate:TMARker[1]|2:PEAK:X?
- 297 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet <real>
- 297 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:OFFSet?
- 298 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE <mode>
- 298 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:MODE?
- 299 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision <real>
- 299 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:PDIVision?
- 300 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence <time>
- 300 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence?
- 301 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE <switch>
- 301 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:PHASe:REFerence:MODE?
- 302 2.8 Measure Common Function Settings
- 303 [:SENSe]:RADio:STANdard[:SELect] OFF|WCDMADN|WCDMAUP|MWIMAXDL|MWIMAXUL|3GLTE_DL| 3GLTE_UL|ETC_DSRC|TDSCDMA|XGPHS|CDMA2KFWD|EVDOFWD| 3GLTE_TDD_DL|3GLTE_TDD_UL|ISDBTMM
- 304 [:SENSe]:RADio:STANdard[:SELect]?
- 305 :CONFigure:SANalyzer
- 305 :CONFigure?
- 306 [:SENSe]:RADio:STANdard:LOAD <function>[,<pattern>]
- 312 [:SENSe]:RADio:STANdard:LOAD? <function>
- 313 [:SENSe]:FREQuency:SYNThesis:LPHase:STATe?
- 314 2.9 Adjacent Channel Power Measurement Settings
- 318 [:SENSe]:ACPower[:STATe] ON|OFF|1|0
- 318 :CALCulate:ACPower[:STATe] ON|OFF|1|0
- 319 [:SENSe]:ACPower[:STATe]?
- 320 :CALCulate:ACPower[:STATe]?
- 320 [:SENSe]:ACPower:CARRier[1]:RCARrier <integer>
- 321 :CALCulate:ACPower:CARRier[1]:RCARrier <integer>
- 321 [:SENSe]:ACPower:CARRier[1]:RCARrier?
- 322 :CALCulate:ACPower:CARRier[1]:RCARrier?
- 323 [:SENSe]:ACPower:CARRier[1]:RCARrier:METHod STOTal|CTOTal|BSIDes|CSELect
- 324 :CALCulate:ACPower:CARRier[1]:RCARrier:METHod STOTal|CTOTal|BSIDes|CSELect
- 325 [:SENSe]:ACPower:CARRier[1]:RCARrier:METHod?
- 326 :CALCulate:ACPower:CARRier[1]:RCARrier:METHod?
- 326 [:SENSe]:ACPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
- 327 :CALCulate:ACPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
- 327 [:SENSe]:ACPower:CORRection:NOISe[:AUTO]?
- 328 :CALCulate:ACPower:CORRection:NOISe[:AUTO]?
- 328 [:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration] <bandwidth>
- 329 :CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration] <bandwidth>
- 329 [:SENSe]:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
- 330 :CALCulate:ACPower:OFFSet[1]:BANDwidth[:INTegration]?
- 331 [:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration] <bandwidth>
- 332 :CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration] <bandwidth>
- 333 [:SENSe]:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]?
- 334 :CALCulate:ACPower:CARRier[1]:LIST:BANDwidth[:INTegration]?
- 335 [:SENSe]:ACPower:CARRier[1]:RCFRequency <freq>
- 336 :CALCulate:ACPower:CARRier[1]:RCFRequency <freq>
- 336 [:SENSe]:ACPower:CARRier[1]:RCFRequency?
- 337 :CALCulate:ACPower:CARRier[1]:RCFRequency?
- 338 [:SENSe]:ACPower:CARRier[1]:COUNt <integer>
- 339 :CALCulate:ACPower:CARRier[1]:COUNt <integer>
- 339 [:SENSe]:ACPower:CARRier[1]:COUNt?
- 340 :CALCulate:ACPower:CARRier[1]:COUNt?
- 341 [:SENSe]:ACPower:CARRier[1]:LIST:WIDTh <bandwidth>
- 342 :CALCulate:ACPower:CARRier[1]:LIST:WIDTh <bandwidth>
- 342 [:SENSe]:ACPower:CARRier[1]:LIST:WIDTh?
- 343 :CALCulate:ACPower:CARRier[1]:LIST:WIDTh?
- 343 [:SENSe]:ACPower:OFFSet[1]:LIST:STATe ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0
- 344 :CALCulate:ACPower:OFFSet[1]:LIST:STATe ON|OFF|1|0,ON|OFF|1|0,ON|OFF|1|0
- 345 [:SENSe]:ACPower:OFFSet[1]:LIST:STATe?
- 345 :CALCulate:ACPower:OFFSet[1]:LIST:STATe?
- 346 [:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency] <freq>,<freq>,<freq>
- 347 :CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency] <freq>,<freq>,<freq>
- 347 [:SENSe]:ACPower:OFFSet[1]:LIST[:FREQuency]?
- 348 :CALCulate:ACPower:OFFSet[1]:LIST[:FREQuency]?
- 348 [:SENSe]:ACPower:CARRier[1]:LIST:METHod IBW|RRC|RC
- 349 :CALCulate:ACPower:CARRier[1]:LIST:METHod IBW|RRC|RC
- 350 [:SENSe]:ACPower:CARRier[1]:LIST:METHod?
- 351 :CALCulate:ACPower:CARRier[1]:LIST:METHod?
- 351 [:SENSe]:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
- 352 :CALCulate:ACPower:CARRier[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
- 353 [:SENSe]:ACPower:CARRier[1]:FILTer:TYPE?
- 354 :CALCulate:ACPower:CARRier[1]:FILTer:TYPE?
- 354 [:SENSe]:ACPower:FILTer[:RRC][:STATe] OFF|ON|0|1
- 355 :CALCulate:ACPower:FILTer[:RRC][:STATe] OFF|ON|0|1
- 355 [:SENSe]:ACPower:FILTer[:RRC][:STATe]?
- 356 :CALCulate:ACPower:FILTer[:RRC][:STATe]?
- 356 [:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
- 357 :CALCulate:ACPower:OFFSet[1]:FILTer:TYPE RECT|NYQuist|RNYQuist
- 358 [:SENSe]:ACPower:OFFSet[1]:FILTer:TYPE?
- 358 :CALCulate:ACPower:OFFSet[1]:FILTer:TYPE?
- 359 :DISPlay:ACPower:RESult:TYPE CARRier|OFFSet
- 360 :DISPlay:ACPower:RESult:TYPE?
- 361 [:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa <real>
- 362 :CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa <real>
- 363 [:SENSe]:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
- 364 :CALCulate:ACPower:CARRier[1]:LIST:FILTer:ALPHa?
- 364 [:SENSe]:ACPower:FILTer[:RRC]:ALPHa <real>
- 365 :CALCulate:ACPower:FILTer[:RRC]:ALPHa <real>
- 366 [:SENSe]:ACPower:FILTer[:RRC]:ALPHa?
- 367 :CALCulate:ACPower:FILTer[:RRC]:ALPHa?
- 367 :CONFigure:ACP
- 368 :INITiate:ACP
- 369 :FETCh:ACP[n]?
- 372 :READ:ACP[n]?
- 372 :MEASure:ACP[n]?
- 372 :CALCulate:ACPower:MARKer:AOFF
- 373 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
- 373 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum:NEXT
- 374 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist>
- 374 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
- 375 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
- 375 :DISPlay:ACPower:ANNotation:TITLe:DATA <string>
- 376 :DISPlay:ACPower:ANNotation:TITLe:DATA?
- 376 :DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision <rel_ampl>
- 377 :DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ?
- 377 :DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
- 378 :DISPlay:ACPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
- 378 :TRIGger:ACPower[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
- 379 :TRIGger:ACPower[:SEQuence]:SOURce?
- 379 [:SENSe]:ACPower:AVERage:COUNt <integer>
- 380 [:SENSe]:ACPower:AVERage:COUNt?
- 380 [:SENSe]:ACPower:AVERage[:STATe] ON|OFF|1|0
- 381 [:SENSe]:ACPower:AVERage[:STATe]?
- 381 [:SENSe]:ACPower:BANDwidth[:RESolution] <freq>
- 382 :CALCulate:ACPower:BANDwidth[:RESolution] <freq>
- 382 [:SENSe]:ACPower:BANDwidth[:RESolution]?
- 383 :CALCulate:ACPower:BANDwidth[:RESolution]?
- 383 [:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
- 384 :CALCulate:ACPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
- 384 [:SENSe]:ACPower:BANDwidth[:RESolution]:AUTO?
- 385 :CALCulate:ACPower:BANDwidth[:RESolution]:AUTO?
- 385 [:SENSe]:ACPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage
- 386 :CALCulate:ACPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage
- 386 [:SENSe]:ACPower:DETector[:FUNCtion]?
- 387 :CALCulate:ACPower:DETector[:FUNCtion]?
- 387 [:SENSe]:ACPower:FREQuency:SPAN <freq>
- 387 [:SENSe]:ACPower:FREQuency:SPAN?
- 388 [:SENSe]:ACPower:SWEep:POINts?
- 388 [:SENSe]:ACPower:SWEep:TIME <time>
- 388 [:SENSe]:ACPower:SWEep:TIME?
- 389 [:SENSe]:ACPower:SWEep:TIME:AUTO OFF|ON|0|1
- 389 [:SENSe]:ACPower:SWEep:TIME:AUTO?
- 390 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE NORMal|POSition|DELTa|FIXed|OFF
- 390 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
- 391 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
- 391 :CALCulate:ACPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
- 392 2.10 Channel Power Measurement Settings
- 395 [:SENSe]:CHPower[:STATe] ON|OFF|1|0
- 396 :CALCulate:CHPower[:STATe] ON|OFF|1|0
- 396 [:SENSe]:CHPower[:STATe]?
- 396 :CALCulate:CHPower[:STATe]?
- 397 [:SENSe]:CHPower:FREQuency:CENTer <freq>
- 398 :CALCulate:CHPower:FREQuency:CENTer <freq>
- 398 [:SENSe]:CHPower:FREQuency:CENTer?
- 399 :CALCulate:CHPower:FREQuency:CENTer?
- 399 [:SENSe]:CHPower:BANDwidth:INTegration <freq>
- 400 :CALCulate:CHPower:BANDwidth:INTegration <freq>
- 400 [:SENSe]:CHPower:BANDwidth:INTegration?
- 401 :CALCulate:CHPower:BANDwidth:INTegration?
- 401 [:SENSe]:CHPower:FILTer:TYPE RECT|NYQuist|RNYQuist
- 402 :CALCulate:CHPower:FILTer:TYPE RECT|NYQuist|RNYQuist
- 402 [:SENSe]:CHPower:FILTer:TYPE?
- 403 :CALCulate:CHPower:FILTer:TYPE?
- 403 [:SENSe]:CHPower:FILTer[:RRC][:STATe] ON|OFF|1|0
- 404 :CALCulate:CHPower:FILTer[:RRC][:STATe] ON|OFF|1|0
- 404 [:SENSe]:CHPower:FILTer[:RRC][:STATe]?
- 405 :CALCulate:CHPower:FILTer[:RRC][:STATe]?
- 405 [:SENSe]:CHPower:FILTer[:RRC]:ALPHa <real>
- 406 :CALCulate:CHPower:FILTer[:RRC]:ALPHa <real>
- 406 [:SENSe]:CHPower:FILTer[:RRC]:ALPHa?
- 407 :CALCulate:CHPower:FILTer[:RRC]:ALPHa?
- 407 :CONFigure:CHPower
- 408 :INITiate:CHPower
- 409 :FETCh:CHPower[n]?
- 410 :FETCh:CHPower:CHPower?
- 411 :FETCh:CHPower:DENSity?
- 411 :READ:CHPower[n]?
- 412 :READ:CHPower:CHPower?
- 412 :READ:CHPower:DENSity?
- 412 :MEASure:CHPower[n]?
- 413 :MEASure:CHPower:CHPower?
- 413 :MEASure:CHPower:DENSity?
- 413 :CALCulate:CHPower:MARKer:AOFF
- 414 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
- 414 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist>
- 415 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
- 415 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
- 415 :DISPlay:CHPower:ANNotation:TITLe:DATA <string>
- 416 :DISPlay:CHPower:ANNotation:TITLe:DATA?
- 416 :DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision <rel_ampl>
- 417 :DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ?
- 417 :DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
- 418 :DISPlay:CHPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
- 418 :TRIGger:CHPower[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
- 419 :TRIGger:CHPower[:SEQuence]:SOURce?
- 419 [:SENSe]:CHPower:AVERage:COUNt <integer>
- 419 [:SENSe]:CHPower:AVERage:COUNt?
- 420 [:SENSe]:CHPower:AVERage[:STATe] ON|OFF|1|0
- 420 [:SENSe]:CHPower:AVERage[:STATe]?
- 420 [:SENSe]:CHPower:BANDwidth[:RESolution] <freq>
- 421 :CALCulate:CHPower:BANDwidth[:RESolution] <freq>
- 421 [:SENSe]:CHPower:BANDwidth[:RESolution]?
- 422 :CALCulate:CHPower:BANDwidth[:RESolution]?
- 422 [:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
- 423 :CALCulate:CHPower:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
- 423 [:SENSe]:CHPower:BANDwidth[:RESolution]:AUTO?
- 424 :CALCulate:CHPower:BANDwidth[:RESolution]:AUTO?
- 424 [:SENSe]:CHPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage
- 425 :CALCulate:CHPower:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage
- 425 [:SENSe]:CHPower:DETector[:FUNCtion]?
- 426 :CALCulate:CHPower:DETector[:FUNCtion]?
- 426 [:SENSe]:CHPower:FREQuency:SPAN <freq>
- 426 [:SENSe]:CHPower:FREQuency:SPAN?
- 427 [:SENSe]:CHPower:SWEep:POINts?
- 427 [:SENSe]:CHPower:SWEep:TIME <time>
- 427 [:SENSe]:CHPower:SWEep:TIME?
- 428 [:SENSe]:CHPower:SWEep:TIME:AUTO OFF|ON|0|1
- 428 [:SENSe]:CHPower:SWEep:TIME:AUTO?
- 429 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE NORMal|POSition|DELTa|FIXed|OFF
- 429 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
- 430 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
- 430 :CALCulate:CHPower:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
- 431 2.11 Occupied Bandwidth Measurement Settings
- 433 [:SENSe]:OBWidth[:STATe] ON|OFF|1|0
- 433 :CALCulate:OBWidth[:STATe] ON|OFF|1|0
- 434 [:SENSe]:OBWidth[:STATe]?
- 434 :CALCulate:OBWidth[:STATe]?
- 435 [:SENSe]:OBWidth:METHod NPERcent|XDB
- 435 :CALCulate:OBWidth:METHod NPERcent|XDB
- 436 [:SENSe]:OBWidth:METHod?
- 436 :CALCulate:OBWidth:METHod?
- 437 [:SENSe]:OBWidth:PERCent <percent>
- 437 :CALCulate:OBWidth:PERCent <percent>
- 438 [:SENSe]:OBWidth:PERCent?
- 438 :CALCulate:OBWidth:PERCent?
- 439 [:SENSe]:OBWidth:XDB <rel_ampl>
- 439 :CALCulate:OBWidth:XDB <rel_ampl>
- 440 [:SENSe]:OBWidth:XDB?
- 440 :CALCulate:OBWidth:XDB?
- 441 :CONFigure:OBWidth
- 441 :INITiate:OBWidth
- 442 :FETCh:OBWidth[n]?
- 444 :FETCh:OBWidth:FERRor?
- 444 :READ:OBWidth[n]?
- 445 :READ:OBWidth:FERRor?
- 445 :MEASure:OBWidth[n]?
- 445 :MEASure:OBWidth:FERRor?
- 446 :CALCulate:OBWidth:MARKer:AOFF
- 446 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
- 447 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist>
- 447 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
- 448 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
- 448 :DISPlay:OBWidth:ANNotation:TITLe:DATA <string>
- 449 :DISPlay:OBWidth:ANNotation:TITLe:DATA?
- 449 :DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision <rel_ampl>
- 450 :DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ?
- 450 :DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
- 451 :DISPlay:OBWidth:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
- 451 :TRIGger:OBWidth[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
- 452 :TRIGger:OBWidth[:SEQuence]:SOURce?
- 452 [:SENSe]:OBWidth:AVERage:COUNt <integer>
- 453 [:SENSe]:OBWidth:AVERage:COUNt?
- 453 [:SENSe]:OBWidth:AVERage[:STATe] ON|OFF|1|0
- 453 [:SENSe]:OBWidth:AVERage[:STATe]?
- 454 [:SENSe]:OBWidth:BANDwidth[:RESolution] <freq>
- 454 :CALCulate:OBWidth:BANDwidth[:RESolution] <freq>
- 455 [:SENSe]:OBWidth:BANDwidth[:RESolution]?
- 455 :CALCulate:OBWidth:BANDwidth[:RESolution]?
- 456 [:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
- 456 :CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO ON|OFF|1|0
- 457 [:SENSe]:OBWidth:BANDwidth[:RESolution]:AUTO?
- 457 :CALCulate:OBWidth:BANDwidth[:RESolution]:AUTO?
- 458 [:SENSe]:OBWidth:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage
- 458 :CALCulate:OBWidth:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage
- 459 [:SENSe]:OBWidth:DETector[:FUNCtion]?
- 459 :CALCulate:OBWidth:DETector[:FUNCtion]?
- 460 [:SENSe]:OBWidth:FREQuency:SPAN <freq>
- 460 [:SENSe]:OBWidth:FREQuency:SPAN?
- 460 [:SENSe]:OBWidth:SWEep:POINts?
- 461 [:SENSe]:OBWidth:SWEep:TIME <time>
- 461 [:SENSe]:OBWidth:SWEep:TIME?
- 461 [:SENSe]:OBWidth:SWEep:TIME:AUTO OFF|ON|0|1
- 462 [:SENSe]:OBWidth:SWEep:TIME:AUTO?
- 462 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE NORMal|POSition|DELTa|FIXed|OFF
- 462 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:MODE?
- 463 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence <integer>
- 463 :CALCulate:OBWidth:MARKer[1]|2|3|4|5|6|7|8|9|10:REFerence?
- 464 2.12 Burst Average Power Measurement Settings
- 466 [:SENSe]:BPOWer|:TXPower[:STATe] ON|OFF|1|0
- 467 :CALCulate:BPOWer|:TXPower[:STATe] ON|OFF|1|0
- 467 [:SENSe]:BPOWer|:TXPower[:STATe]?
- 468 :CALCulate:BPOWer|:TXPower[:STATe]?
- 468 [:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
- 469 :CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO] ON|OFF|1|0
- 469 [:SENSe]:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
- 470 :CALCulate:BPOWer|:TXPower:CORRection:NOISe[:AUTO]?
- 470 :CONFigure:BPOWer|:TXPower
- 471 :INITiate:BPOWer|:TXPower
- 472 :FETCh:BPOWer|:TXPower[n]?
- 473 :READ:BPOWer|:TXPower[n]?
- 473 :MEASure:BPOWer|:TXPower[n]?
- 474 :DISPlay:BPOWer|:TXPower:ANNotation:TITLe:DATA <string>
- 474 :DISPlay:BPOWer|:TXPower:ANNotation:TITLe:DATA?
- 475 :DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision <rel_ampl>
- 475 :DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:PDIVision ?
- 476 :DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel <real>
- 477 :DISPlay:BPOWer|:TXPower:VIEW[1]:WINDow[1]:TRACe:Y[:SCALe]:RLEVel?
- 477 :TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce EXTernal[1]|IMMediate|WIF|RFBurst|VIDeo|SG|BBIF
- 478 :TRIGger:BPOWer|:TXPower[:SEQuence]:SOURce?
- 478 [:SENSe]:BPOWer|:TXPower:AVERage:COUNt <integer>
- 479 [:SENSe]:BPOWer|:TXPower:AVERage:COUNt?
- 479 [:SENSe]:BPOWer|:TXPower:AVERage[:STATe] ON|OFF|1|0
- 479 [:SENSe]:BPOWer|:TXPower:AVERage[:STATe]?
- 480 [:SENSe]:BPOWer|:TXPower:SWEep:TIME <time>
- 480 [:SENSe]:BPOWer|:TXPower:SWEep:TIME?
- 480 :CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X <freq>|<time>|<sample>|<dist>
- 481 :CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:X?
- 481 :CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:Y?
- 481 :CALCulate:BPOWer|:TXPower:MARKer:AOFF
- 482 :CALCulate:BPOWer|:TXPower:MARKer[1]|2|3|4|5|6|7|8|9|10:MAXimum
- 482 [:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution] <freq>
- 483 :CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution] <freq>
- 483 [:SENSe]:BPOWer|:TXPower:BANDwidth[:RESolution]?
- 484 :CALCulate:BPOWer|:TXPower:BANDwidth[:RESolution]?
- 485 2.13 AM Depth Measurement Settings
- 486 [:SENSe]:AM[:STATe] ON|OFF|1|0
- 486 [:SENSe]:AM[:STATe]?
- 487 :CONFigure:AM
- 487 :INITiate:AM
- 488 :FETCh:AM?
- 489 :READ:AM?
- 489 :MEASure:AM?
- 490 2.14 FM deviation Measurement Settings
- 491 [:SENSe]:FM[:STATe] ON|OFF|1|0
- 491 [:SENSe]:FM[:STATe]?
- 492 :CONFigure:FM
- 492 :INITiate:FM
- 493 :FETCh:FM?
- 494 :READ:FM?
- 494 :MEASure:FM?
- 495 2.15 DigRF 3G Settings
- 496 [:SENSe]:FEED RF|DIGRF3G
- 496 [:SENSe]:FEED?
- 497 [:SENSe]:DIGRf3g:TARGet WCDMA|GSM
- 497 [:SENSe]:DIGRf3g:TARGet?
- 498 [:SENSe]:DIGRf3g:ADRange <volt>
- 499 [:SENSe]:DIGRf3g:ADRange?
- 500 [:SENSe]:DIGRf3g:IQSign SIGNbit|TWOComp
- 500 [:SENSe]:DIGRf3g:IQSign?
- 501 [:SENSe]:DIGRf3g:MEASch PRIMary|DIVersity
- 502 [:SENSe]:DIGRf3g:MEASch?
- 503 [:SENSe]:SWEep:SAMPle <point>
- 504 [:SENSe]:SWEep:SAMPle?
- 505 :CALCulate:ATIMe:STARt:SAMPle<point>
- 506 :CALCulate:ATIMe:STARt:SAMPle?
- 507 :CALCulate:ATIMe:LENGth:SAMPle <point>
- 508 :CALCulate:ATIMe:LENGth:SAMPle?
- 509 :CALCulate:IQData <source>
- 510 :CALCulate:IQData?
- 510 :CALCulate:TRIGger:DIGRf3g:DELay?
- 511 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:CVOLtage <voltage>
- 512 :DISPlay:WINDow[1]:TRACe:Y[:SCALe]:CVOLtage?
- 513 :CALCulate:SMOothing:LENGth:SAMPle<sample>
- 514 :CALCulate:SMOothing:LENGth:SAMPle?
- 515 :UNIT:TMARker SAMPle|SECond
- 515 :UNIT:TMARker?
- 516 2.16 Setting Replay function
- 517 :MMEMory:LOAD:IQData:STOP
- 517 :MMEMory:LOAD:IQData <filename>,<device>,<application>
- 518 :MMEMory:LOAD:IQData:INFormation?
- 519 :MMEMory:LOAD:IQData:INFormation:STATe?
- 519 :MMEMory:LOAD:IQData:INFormation:FILE?
- 520 :MMEMory:LOAD:IQData:INFormation:DEVice?
- 520 :MMEMory:LOAD:IQData:INFormation:APPLication?
- 521 :MMEMory:LOAD:IQData:INFormation:STARt?
- 521 :MMEMory:LOAD:IQData:INFormation:LENGth?
- 522 :MMEMory:LOAD:IQData:INFormation:CONDition?
- 522 :MMEMory:LOAD:IQData:INFormation:ERRor?
- 523 :MMEMory:LOAD:IQData:INFormation:CORRection?
- 523 :MMEMory:LOAD:IQData:INFormation:ROSCillator?
- 524 2.17 Sub Trace Settings
- 525 :CALCulate:STRace:MODE OFF|PVTime|SPGRam
- 525 :CALCulate:STRace:MODE?
- 526 :CALCulate:STRace:DETector[:FUNCtion] NORMal|POSitive|NEGative|AVERage
- 527 :CALCulate:STRace:DETector[:FUNCtion]?
- 527 :CALCulate:STRace:ATIMe:AUTO OFF|ON|0|1
- 528 :CALCulate:STRace:ATIMe:AUTO?
- 529 :CALCulate:STRace:ATIMe:STARt <time>
- 530 :CALCulate:STRace:ATIMe:STARt?
- 531 :CALCulate:STRace:ATIMe:STARt:SAMPle <integer>
- 532 :CALCulate:STRace:ATIMe:STARt:SAMPle?
- 533 :CALCulate:STRace:ATIMe:LENGth <time>
- 534 :CALCulate:STRace:ATIMe:LENGth?
- 535 :CALCulate:STRace:ATIMe:LENGth:SAMPle <integer>
- 536 :CALCulate:STRace:ATIMe:LENGth:SAMPle?
- 537 :DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic <rel_ampl>
- 538 :DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LOGarithmic?
- 539 :DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear <percent>
- 540 :DISPlay:WINDow[1]:STRace:Y[:SCALe]:PDIVision:RANGe:LINear?
- 541 :CALCulate:STRace:BANDwidth|:BWIDth[:RESolution] <bandwidth>
- 542 :CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]?
- 542 :CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO ON|OFF|1|0
- 543 :CALCulate:STRace:BANDwidth|:BWIDth[:RESolution]:AUTO?
- 543 :CALCulate:STRace:TRIGger:DIGRf3g:DELay?
- 544 2.18 Other Function Settings
- 545 :STATus:ERRor?
- 546 :DISPlay:ANNotation:WUP:ERASe
- 546 :DISPlay:ANNotation:TITLe[:STATe] ON|OFF|1|0
- 547 :DISPlay:ANNotation:TITLe[:STATe]?
- 547 :DISPlay:ANNotation:TITLe:DATA <string>
- 548 :DISPlay:ANNotation:TITLe:DATA?
- 549 :CALibration:RCLock[:VALue] <integer>
- 549 :CALibration:RCLock[:VALue]?
- 550 :CALibration:RCLock[:VALue]:PRESet
- 550 :CALibration:YTF
- 551 :CALibration:YTF?
- 552 [:SENSe]:POWer[:RF]:PADJust <freq>
- 553 [:SENSe]:POWer[:RF]:PADJust?
- 554 [:SENSe]:DATA?
- 559 :FORMat:BORDer NORMal|SWAPped
- 560 :FORMat:BORDer?
- 561 :FORMat[:DATA] ASCii|REAL[,<integer>]
- 563 :FORMat[:DATA]?
- 564 [:SENSe]:POWer[:RF]:MW:PRESelector[:STATe] ON|OFF|1|0
- 565 [:SENSe]:POWer[:RF]:MW:PRESelector[:STATe]?
- 566 2.19 QUEStionable Status Register
- 568 :STATus:QUEStionable[:EVENt]?
- 568 :STATus:QUEStionable:CONDition?
- 569 :STATus:QUEStionable:ENABle <integer>
- 569 :STATus:QUEStionable:ENABle?
- 570 :STATus:QUEStionable:NTRansition <integer>
- 570 :STATus:QUEStionable:NTRansition?
- 571 :STATus:QUEStionable:PTRansition <integer>
- 571 :STATus:QUEStionable:PTRansition?
- 572 :STATus:QUEStionable:MEASure[:EVENt]?
- 572 :STATus:QUEStionable:MEASure:CONDition?
- 573 :STATus:QUEStionable:MEASure:ENABle <integer>
- 573 :STATus:QUEStionable:MEASure:ENABle?
- 574 :STATus:QUEStionable:MEASure:NTRansition <integer>
- 574 :STATus:QUEStionable:MEASure:NTRansition?
- 575 :STATus:QUEStionable:MEASure:PTRansition <integer>
- 575 :STATus:QUEStionable:MEASure:PTRansition?
- 576 2.20 OPERation Status Register
- 578 :STATus:OPERation[:EVENt]?
- 579 :STATus:OPERation:CONDition?
- 579 :STATus:OPERation:ENABle <integer>
- 580 :STATus:OPERation:ENABle?
- 580 :STATus:OPERation:NTRansition <integer>
- 581 :STATus:OPERation:NTRansition?
- 582 :STATus:OPERation:PTRansition <integer>
- 582 :STATus:OPERation:PTRansition?
- 583 2.21 Batch Processing Function Setting
- 584 :MEASure:POWadj? <span>,<length>,<sg_start_level>,<sg_max_level>,<target>,<range>[,<frequency>[,<count>[,<adjust_log>[,<sg_offset_switch>]]]]
- 589 2.22 Setting External Mixer
- 590 [:SENSe]:MIXer[:STATe] ON|OFF|1|0
- 590 [:SENSe]:MIXer[:STATe]?
- 591 [:SENSe]:MIXer[:HARMonic]:BAND VHP|EHP|A|Q|U|V|E|W|F|D|G|Y|J
- 592 [:SENSe]:MIXer[:HARMonic]:BAND?
- 593 [:SENSe]:MIXer:BIAS <bias>
- 594 [:SENSe]:MIXer:BIAS?
- 595 [:SENSe]:MIXer:LOSS <power>
- 596 [:SENSe]:MIXer:LOSS?
- 597 2.23 FM CW Measurement Settings
- 598 [:SENSe]:FMCW[:STATe] ON|OFF|1|0
- 598 [:SENSe]:FMCW[:STATe]?
- 599 :CONFigure:FMCW
- 599 :INITiate:FMCW
- 600 :FETCh:FMCW?
- 601 :READ:FMCW?
- 601 :MEASure:FMCW?
- 602 [:SENSe]:FMCW:INTVal:MODE AUTO|MARKer
- 602 [:SENSe]:FMCW:INTVal:MODE?
- 603 :FETCh:FMCW:CHIRp:NUMBer?
- 603 :FETCh:FMCW:CHIRp[n]?
- 604 [:SENSe]:FMCW:CHIRp:SLOPe AUTO|UP|DOWN
- 604 [:SENSe]:FMCW:CHIRp:SLOPe?
- 605 Chapter 3 Native Device Message List
- 606 3.1 IEEE488.2 Common Device Messages
- 608 3.2 Application Common Device Messages
- 611 3.3 Frequency/Time Settings
- 612 3.4 Level Settings
- 613 3.5 Measurement/Trigger Settings
- 614 3.6 Common Settings for Each Trace
- 615 3.7 Spectrum Trace Settings
- 626 3.8 Power vs Time Trace Settings
- 631 3.9 Frequency vs Time Trace Settings
- 635 3.10 CCDF Trace Settings
- 644 3.11 Spectrogram Trace Settings
- 646 3.12 DigRF 3G Measurement Settings
- 648 3.13 Waveform Data Saving Function Settings
- 649 3.14 Replay Function Settings
- 651 3.15 Sub Trace Settings
- 653 3.16 Reference Signal Settings
- 654 3.17 Power Adjustment
- 655 3.18 Other Settings
- 656 3.19 Setting External Mixer
- 657 Chapter 4 Native Device Message Details
- 663 AANLY/AANLY?
- 664 ACAP/ACAP?
- 665 ADJCARRIERCNT/ADJCARRIERCNT?
- 666 ADJCARRIERNUM/ADJCARRIERNUM?
- 667 ADJCARRIERSPAC/ADJCARRIERSPAC?
- 668 ADJCHBW/ADJCHBW?
- 669 ADJCHSLCT/ADJCHSLCT?
- 670 ADJCHSP/ADJCHSP?
- 671 ADJFILTERTYPE/ADJFILTERTYPE?
- 672 ADJINBW/ADJINBW?
- 673 ADJPWRTYPE/ADJPWRTYPE?
- 674 ADJROF/ADJROF?
- 675 AFLTR/AFLTR?
- 676 AM/AM?
- 677 ANLYFREQRANGE?
- 678 ANLYLEN/ANLYLEN?
- 679 ANLYST/ANLYST?
- 680 AT/AT?
- 681 AUNITS/AUNITS?
- 682 BNDSP/BNDSP?
- 683 CAL
- 684 CALC
- 685 CALC:ANAL:SPEC
- 685 CALC:ANAL:SPGR
- 686 CALC:ATIM:GMOD/CALC:ATIM:GMOD?
- 687 CALC:ATIM:GMOD:PER/CALC:ATIM:GMOD:PER?
- 688 CALC:ATIM:GMOD:RANG:STAT/CALC:ATIM:GMOD:RANG:STAT?
- 689 CALC:ATIM:GMOD:RANG:STAR/CALC:ATIM:GMOD:RANG:STAR?
- 690 CALC:ATIM:GMOD:RANG:STOP/CALC:ATIM:GMOD:RANG:STOP?
- 691 CALC:ATIM:LENG:SAMP/CALC:ATIM:LENG:SAMP?
- 692 CALC:ATIM:STAR:SAMP/CALC:ATIM:STAR:SAMP?
- 693 CALC:CCDF:MODE/CALC:CCDF:MODE?
- 694 CALC:CCDF:COUN/CCDF:COUN?
- 695 CALC:CCDF:STOR:REF
- 695 CALC:CCDF:THR:STAT/CALC:CCDF:THR:STAT?
- 696 CALC:IQD/CALC:IQD?
- 697 CALC:MARK:AOFF
- 697 CALC:MARK:COUP:ZONE/CALC:MARK:COUP:ZONE?
- 698 CALC:MARK:PEAK:SORT:COUN/CALC:MARK:PEAK:SORT:COUN?
- 699 CALC:MARK:PEAK:SORT:X
- 700 CALC:MARK:PEAK:SORT:Y
- 701 CALC:MARK:READ?
- 703 CALC:MARK:REF/CALC:MARK:REF?
- 704 CALC:MARK:SLIN/CALC:MARK:SLIN?
- 705 CALC:MARK:TABL/CALC:MARK:TABL?
- 706 CALC:MARK:WIDT:TYPE/CALC:MARK:WIDT:TYPE?
- 707 CALC:MARK:X/CALC:MARK:X?
- 711 CALC:MARK:X:DELT/CALC:MARK:X:DELT?
- 714 CALC:MARK:Y:DELT?
- 717 CALC:MARK:Y:PHAS?
- 719 CALC:PHAS:STAT/CALC:PHAS:STAT?
- 720 CALC:MARK:Y:PHAS?
- 722 CALC:SMO:LENG:SAMP/CALC:SMO:LENG:SAMP?
- 723 CALC:STR:ATIM:AUTO/CALC:STR:ATIM:AUTO?
- 724 CALC:STR:ATIM:LENG/CALC:STR:ATIM:LENG?
- 725 CALC:STR:ATIM:LENG:SAMP/CALC:STR:ATIM:LENG:SAMP?
- 726 CALC:STR:ATIM:STAR/CALC:STR:ATIM:STAR?
- 727 CALC:STR:ATIM:STAR:SAMP/CALC:STR:ATIM:STAR:SAMP?
- 728 CALC:STR:BAND/CALC:STR:BAND?
- 729 CALC:STR:BAND:AUTO/CALC:STR:BAND:AUTO?
- 730 CALC:STR:DET/CALC:STR:DET?
- 731 CALC:STR:MODE/CALC:STR:MODE?
- 732 CALC:STR:TRIG:DIGR:DEL?
- 733 CALC:TMAR:COUP:ZONE/CALC:TMAR:COUP:ZONE?
- 734 CALC:TMAR:PEAK:X?
- 735 CALC:TMAR:X/CALC:TMAR:X?
- 736 CALC:TRIG:DIGR:DEL?
- 737 CAPLN/CAPLN?
- 738 CCDF:COUN/CCDF:COUN?
- 739 CCDF:GAUS/CCDF:GAUS?
- 740 CCDF:RTR/CCDF:RTR?
- 741 CHPWRCENTER/CHPWRCENTER?
- 742 CHPWRFLTRTYP/CHPWRFLTRTYP?
- 743 CHPWRROF/CHPWRROF?
- 744 CHPWRWIDTH/CHPWRWIDTH?
- 745 CNF/CNF?
- 747 CNVLOSS/CNVLOSS?
- 748 CONF:AM
- 748 CONF:FM
- 749 CONF:FMCW
- 749 CONF:SAN
- 750 CONTS
- 751 DATA?
- 755 DET/DET?
- 756 DETMODE/DETMODE?
- 757 DGTZ
- 758 DGTZCANCEL
- 758 DGTZRATE/DGTZRATE?
- 760 DIGR:ADR/DIGR:ADR?
- 761 DIGR:IQS/DIGR:IQS?
- 762 DIGR:MEAS/DIGR:MEAS?
- 763 DIGR:TARG/DIGR:TARG?
- 764 DISP:WIND:STR:Y:PDIV:RANG:LIN/DISP:WIND:STR:Y:PDIV:RANG:LIN?
- 765 DISP:WIND:STR:Y:PDIV:RANG:LOG/DISP:WIND:STR:Y:PDIV:RANG:LOG?
- 766 DISP:WIND:TRAC:Y:CVOL/DISP:WIND:TRAC:Y:CVOL?
- 767 DISP:WIND:TRAC:Y:PDIV:RANG/DISP:WIND:TRAC:Y:PDIV:RANG?
- 768 DISTSCALE/DISTSCALE?
- 769 DTCNT?
- 769 ERASEWUP
- 770 ESE2/ESE2?
- 771 ESE3/ESE3?
- 772 ESR2?
- 773 ESR3?
- 774 FDPNT?
- 775 FEED/FEED?
- 776 FETC:AM?
- 777 FETC:CCDF?
- 782 FETC:FM?
- 783 FETC:FMCW?
- 784 FLTRBW/FLTRBW?
- 785 FLTROFS/FLTROFS?
- 786 FLTRTYP/FLTRTYP?
- 787 FM/FM?
- 788 FMCW/FMCW?
- 789 FORM/FORM?
- 791 FORM:BORD/FORM:BORD?
- 792 FREQ:CENT:STEP/FREQ:CENT:STEP?
- 794 FREQ:SYNT/FREQ:SYNT?
- 795 FREQ:SYNT:LPH:STAT?
- 796 FULBAND/FULBAND?
- 797 FUNITS/FUNITS?
- 797 INI
- 798 INIT:AM
- 798 INIT:FM
- 799 INIT:FMCW
- 799 LINSCALEDIV/LINSCALEDIV?
- 800 LOADSTD/LOADSTD?
- 806 LOGSCALEDIV/LOGSCALEDIV?
- 807 MADJMOD/MADJMOD?
- 808 MBIAS/MBIAS?
- 809 MEAS/MEAS?
- 810 MEAS:AM?
- 810 MEAS:FM?
- 810 MEAS:FMCW?
- 811 MEAS:POW?
- 816 MKACT/MKACT?
- 817 MKAXIS/MKAXIS?
- 818 MKCF
- 819 MKF?
- 820 MKL?
- 822 MKLTYPE/MKLTYPE?
- 823 MKP/MKP?
- 826 MKPK
- 827 MKPX/MKPX?
- 829 MKR/MKR?
- 830 MKRL
- 831 MKW/MKW?
- 832 MKZF/MKZF?
- 834 MMEM:LOAD:IQD
- 835 MMEM:LOAD:IQD:INF?
- 836 MMEM:LOAD:IQD:INF:APPL?
- 836 MMEM:LOAD:IQD:INF:COND?
- 837 MMEM:LOAD:IQD:INF:CORR?
- 837 MMEM:LOAD:IQD:INF:DEV?
- 838 MMEM:LOAD:IQD:INF:ERR?
- 838 MMEM:LOAD:IQD:INF:FILE?
- 839 MMEM:LOAD:IQD:INF:LENG?
- 839 MMEM:LOAD:IQD:INF:ROSC?
- 840 MMEM:LOAD:IQD:INF:STAR?
- 840 MMEM:LOAD:IQD:INF:STAT?
- 841 MMEM:LOAD:IQD:STOP
- 841 MMEM:STOR:IQD:LENG/MMEM:STOR:IQD:LENG?
- 842 MMEM:STOR:IQD:LENG:SAMP/MMEM:STOR:IQD:LENG:SAMP?
- 843 MMEM:STOR:IQD:MODE/MMEM:STOR:IQD:MODE?
- 844 MMEM:STOR:IQD:STAR/MMEM:STOR:IQD:STAR?
- 845 MMEM:STOR:IQD:STAR:SAMP/MMEM:STOR:IQD:STAR:SAMP?
- 846 MMEM:STOR:TRAC
- 847 MMETHOD/MMETHOD?
- 848 MOBW/MOBW?
- 849 MSTAT?
- 850 MXRMODE/MXRMODE?
- 851 MZWF/MZWF?
- 853 NOISECANCEL/NOISECANCEL?
- 854 OBWN/OBWN?
- 855 OBWXDB/OBWXDB?
- 856 PEAKTOPEAK/PEAKTOPEAK?
- 857 PEAKTOPEAKRES?
- 858 POW:MW:PRES/POW:MW:PRES?
- 859 PRE
- 859 PREAMP/PREAMP?
- 860 PRESEL/PRESEL?
- 861 PROBPWR?
- 862 RB/RB?
- 863 READ:AM?
- 863 READ:FM?
- 863 READ:FMCW?
- 864 REFCLOCK_ADJUST/REFCLOCK_ADJUST?
- 865 RES?
- 869 RLV/RLV?
- 870 ROF/ROF?
- 871 ROFFSET/ROFFSET?
- 872 ROFFSETMD/ROFFSETMD?
- 873 RSTEVRYCAP/RSTEVRYCAP?
- 874 SCALELINES/SCALELINES?
- 875 SCALEMODE/SCALEMODE?
- 876 SELECTSTD/SELECTSTD?
- 877 SMMLYPWR?
- 878 SMOOTH/SMOOTH?
- 879 SMOOTHLN/SMOOTHLN?
- 880 SMPLRATE?
- 880 SNGLS
- 881 SOF/SOF?
- 883 SPF/SPF?
- 886 SRCHTH/SRCHTH?
- 887 SRCHTHLVL/SRCHTHLVL?
- 889 STF/STF?
- 891 STOP
- 892 STORAGECOUNT/STORAGECOUNT?
- 893 STORAGEMODE/STORAGEMODE?
- 894 SWE:SAMP/SWE:SAMP?
- 895 SWEEPCOUNT?
- 896 TDLY/TDLY?
- 897 TDPNT?
- 898 THRSHLD/THRSHLD?
- 899 TITLE/TITLE?
- 900 TRAC?
- 902 TRAC:NEG?
- 904 TRCCHG/TRCCHG?
- 905 TRGLVL/TRGLVL?
- 906 TRGS/TRGS?
- 907 TRGSLP/TRGSLP?
- 908 TRGSOURCE/TRGSOURCE?
- 909 TRIG:FRAM:OFFS/TRIG:FRAM:OFFS?
- 910 TRIG:FRAM:PER/TRIG:FRAM:PER?
- 911 TRIG:FRAM:SYNC/TRIG:FRAM:SYNC?
- 912 TRIG:HOLD/TRIG:HOLD?
- 913 TRIG:HOLD:STAT/TRIG:HOLD:STAT?
- 914 TTL/TTL?
- 915 UNIT:TMAR/UNIT:TMAR?
- 916 ZMCNT/ZMCNT?
- 917 ZMWDTH/ZMWDTH?
- 918 ZOOM
- 919 ZOOMOUT