M9391A PXIe Vector Signal Analyzer 1 MHz to 3 GHz or 6 GHz

M9391A PXIe Vector Signal Analyzer 1 MHz to 3 GHz or 6 GHz
Keysight Technologies
M9391A PXIe Vector Signal Analyzer
1 MHz to 3 GHz or 6 GHz
Data Sheet
Table of Contents
Product Overview3
Technical Specifications and Characteristics
4
Definitions for specifications
4
Recommended best practices in use
4
Block diagram5
Frequency6
Amplitude8
Dynamic range11
Spectral purity14
Data acquisition16
Measurement speed17
Format-specific measurement data 17
Environmental and physical specifications
21
System requirements
22
Software
23
Setup and Calibration Services
24
Support and Warranty25
Configuration and Ordering Information
26
3 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Overview
Be ready for tomorrow - today
RF requirements keep growing while timelines keep shrinking.
To help ease the technical and business pressures, the right
test solution provides continuity in measurements and
longevity in capability. The Keysight Technologies, Inc.
M9391A PXIe vector signal analyzer (PXI VSA) is the next
logical step in RF signal analysis.
The M9391A PXI VSA, combined with the M9381A PXIe vector signal generator provides a complete solution for fast,
high quality measurements optimized for RF manufacturing
test environments.
To help you get proven results even faster, Keysight’s PXI
VSA can be used with X-Series measurement applications
for modular instruments, 89600 VSA software and SystemVue. These software applications enable you to investigate,
validate and test your RF communications designs.
From fully modular hardware to software leverage to worldwide support, the PXI VSA is the low-risk way to manage
change and be ready for tomorrow—today.
Reference solutions
Application specific reference solutions, a combination of recommended hardware, software, and
measurement expertise, provide the essential components of a test system. The following reference
solutions include the M9391A PXI VSA as a hardware
component.
–– RF PA/FEM characterization and test, Reference Solution for the industry’s fastest envelope
tracking test, rapid waveform download, tight
synchronization, automated calibration and
digital pre-distortion. For more information, see
www.keysight.com/find/solution-padvt
–– LTE/LTE-A multi-channel test, Reference Solution for faster insight into carrier aggregation and
spatial multiplexing designs. For more information, see www.keysight.com/find/solution-LTE
Product description
The M9391A PXI VSA is a modular vector signal analyzer for
frequencies from 1 MHz to 6 GHz and up to 160 MHz analysis
bandwidth. The M9391A is comprised of four individual
PXI modules - M9350A downconverter, M9214A digitizer,
M9301A synthesizer and M9300A frequency reference. A
single M9300A frequency reference can be shared between
multiple instruments to minimize footprint.
The flexible, modular design of the M9391A enables you
to efficiently scale to multi-channel signal analysis to test
multiple-input, multiple-output (MIMO) devices. Capability
can also be scaled with options for memory, frequency range
and modulation bandwidth which can be easily upgraded in
the field.
Applications
–– Power amplifier and front-end-module design validation
and manufacturing
–– Radio transceiver design validation and production test
–– MIMO and multi-channel device test
Figure 1. M9391A PXIe vector signal analyzer with four modules consisting
of the M9214A digitizer, M9301A synthesizer, M9350A downconverter and
M9300A frequency reference.
4 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Definitions for specifications
Temperatures referred to in this document are defined as follows:
–– Full temperature range = Individual module temperature of 25
to 75 °C, as reported by the module, and environment
temperature of 0 to 55 °C.
–– Controlled temperature range = Individual module temperature of 40 to 51 °C, as reported by the module, and environment temperature of 20 to 30 °C.
Specifications describe the warranted performance of calibrated
instruments. Data represented in this document are specifications
under the following conditions unless otherwise noted.
–– Calibrated instruments have been stored for a minimum of 2
hours within the full temperature range
–– 45 minute warm-up time
–– Calibration cycle maintained
–– When used with Keysight M9300A frequency reference and
Keysight interconnect cables
Characteristics describe product performance that is useful in
the application of the product, but that is not covered by the
product warranty. Characteristics are often referred to as
Typical or Nominal values and are italicized.
–– Typical describes characteristic performance, which 80% of
instruments will meet when operated
within the controlled temperature range.
–– Nominal describes representative performance that is useful
in the application of the product when
operated within the controlled temperature range.
Recommended best practices in use
–– Use slot blockers and EMC filler panels in empty module slots
to ensure proper operating temperatures. Keysight chassis
and slot blockers optimize module temperature performance
and reliability of test.
–– Set chassis fan to high at environmental temperatures above
45 °C
–– Maintain temperature stability for best multi-channel phase
coherence
–– Set chassis fans to maximum
–– Maintain stable ambient temperature
–– Perform warm-up with session open and representative
acquisition waveform running
Conversion type operating range
Conversion types
Frequency range
Auto
1 MHz to 3 or 6 GHz
Image protect
1 MHz to 3 or 6 GHz
Single high
400 MHz to 3 or 6 GHz
Single low
1.1 GHz to 3 or 6 GHz
Additional information
–– Mixer level offset modifies the receiver gain prior to the first
mixer of the receiver. A negative setting improves distortion
(i.e., TOI) at the cost of noise performance (i.e., DANL). A
positive setting improves noise performance at the cost of
distortion.
–– Performance described in this document applies for module
temperature within ± 3 degrees of comprehensive alignment,
unless otherwise noted.
–– When used with a Keysight M9018A PXIe chassis, comprehensive alignment requires chassis FPGA version 1.05 or
greater.
–– When configured for multi-channel, phase-coherent
operation (shared synthesizer configuration), instrument level
warranted specifications only apply to the M9391A which
was previously calibrated with the M9301A synthesizer,
showing a valid calibration indicator. For all other M9391A
channels, specifications revert to typical performance. If
using an external LO distribution unit, such as the V2802A LO
distribution network, specifications for all M9391A channels
revert to typical performance.
–– All graphs contain measured data from one unit and is representative of product performance within the controlled
temperature range unless otherwise noted.
–– The specifications contained in this document are subject to
change.
5 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Block diagram
M9300A PXIe Frequency Reference
(+13 dBm sine
all 100 MHz Outs)
100 MHz
Out 1
100 MHz PLL
100 MHz
Out 2
3 dB
External Trigger Trig 2 (front)
to PXI Backplane
3 GHz to 6 GHz
Ref In
PLL
100 MHz
Out 4
10 MHz OCXO
TIMEBASE
10 MHz Out
10 MHz
OXCO Out
10 MHz
(10 MHz, +10 dBm
to 16 dBm, sine)
Switched
Preselector
Filters
LO In
1st LO
LO
RF
850 MHz
Divide
by 1 or 2
IF
LO
2.1 GHz
BPF
3.9 GHz
BPF
100 MHz In
3 dB
(+13 dBm Typical)
100 MHz
Out
X 36
2nd LO
LO
RF
RF
LO
RF/LO Out 1B
RF/LO Out 2A
RF/LO Out 2B
3 dB
(+13 dBm
Typical)
M9214A IF Digitizer
RF IN
1 MHz to 6 GHz
Pre-amp
RF
Calibrator
IF Conditioning
/ Filtering
Image Protect Path
X 24
100 MHz In
RF/LO Out 1A
(RF Outputs: 187.5 MHz to 6 GHz)
(-10 dBm to +10 dBm)
M9350A PXIe RF Downconverter
Step
Preselect
Atten
Bypass
IF
Calibrator
Single Conversion Path
IF
RF
3 dB
3 dB
100 MHz
Out 5
Divide
/10
by 10
3 dB
Banded
Switched
Filter
Bank
Divide
by 1-2-4-8
100 MHz
Out 3
100 MHz
(1 to 110 MHz)
M9301A PXIe Synthesizer
IF In
300 MHz
BPF
ADC
&
Signal
Conditioning
IF Out
FPGA
RAM
Signal
Processing
ASIC
IF
100 MHz Out
100 MHz In
(+10 dBm typical)
Signal
Conditioning
Clock
Generator
Clocks
Figure 3. M9391A PXIe vector signal analyzer block diagram with four modules consisting of the M9301A synthesizer, M9350A downconverter, M9214A digitizer
and optional M9300A frequency reference.
6 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Frequency
Frequency range and resolution
Option F03
1 MHz to 3 GHz
Option F06
1 MHz to 6 GHz
Tuning resolution
0.001 Hz
IF frequency
Nominal
15 MHz filter
326 MHz
40 MHz filter
240 MHz
160 MHz filter
300 MHz
Option B04
40 MHz
Option B10
100 MHz
Option B16
160 MHz
Analysis bandwidth 1
Maximum bandwidth
Frequency switching speed 2,3
List mode switching speed 4
Sample rate
Acquisition
bandwidth
Standard,
nominal
Option UNZ, nominal
Baseband frequency offset change 5
≤ 100 MHz
≤ 80 MHz
5 ms
27 µs
> 100 MHz to
< 180 MHz
> 80 MHz to
< 144 MHz
5 ms
102 µs
≥ 180 MHz
≥ 144 MHz
5 ms
15 µs
Arbitrary frequency change
5 ms
320 µs
Non-list mode switching speed 6
Standard,
nominal
Option UNZ, nominal
Baseband frequency offset change 5
5 ms
310 µs
Arbitrary frequency change
5 ms
2.3 ms
1. Instantaneous bandwidth (1 dB bandwidth) available around a center frequency over which the input signal can be digitized for further analysis or processing in the time, frequency or modulation domain.
2. When used with the M9018A PXIe chassis (2-link configuration: 1 x 8 [factory default]) and M9036A PXIe embedded controller.
3. Settled to within 1 kHz or 1 ppm, whichever is greater of final value. Does not include data acquisition or processing time. Amplitude settled to within 0.1 dB. Channel filter set to none. Applies for all conversion types.
4. Time from trigger input to frequency and amplitude settled. Minimum IQ sample rate ≥ 6 MHz. Minimum spectrum acquisition ≥ 4.8 MHz. Minimum power acquisition channel filter bandwidth ≥ 4.8 MHz. For lists with first point < 400 MHz or for frequency changes
from > 400 MHz to < 400 MHz, add 40 ms.
5. Baseband offset can be adjusted ± from carrier frequency within limits determined by RF analysis bandwidth and IF filter bandwidth.
Synthesizer frequency and amplitude are not changing. Baseband offset settled to within 1 kHz.
6. Mean time from IVI command to carrier frequency settled to within 1 kHz or 1 ppm, whichever is greater. Amplitude settled within 0.1 dB. Simultaneous carrier frequency and amplitude switching. For frequency changes from > 400 MHz to < 400 MHz, add 40 ms.
7 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Frequency (continued)
Frequency reference (M9300A PXIe frequency reference module)
Reference outputs
100 MHz Out (Out 1 through Out 5)
Amplitude
≥ 10 dBm
Connectors
5 SMB snap-on
Impedance
50 Ω, nominal
13 dBm, typical
10 MHz Out
Amplitude
9.5 dBm, nominal
Connectors
1 SMB snap-on
Impedance
50 Ω, nominal
OCXO Out
Amplitude
11.5 dBm, nominal
Connectors
1 SMB snap-on
Impedance
50 Ω, nominal
Frequency accuracy
Same as accuracy of internal time base or external reference input
Internal timebase
Accuracy
± [(time since last adjustment x aging rate) ± temperature effects
± calibration accuracy]
Frequency stability
Aging rate
Daily
< ±0.5 ppb/day, after 72 hours of warm-up
Yearly
< ±0.1 ppm/year, after 72 hours of warm-up
Total 10 years
< ±0.6 ppm/10yrs, after 72 hours of warm-up
Achievable initial calibration accuracy
(at time of shipment)
±5 x 10 -8
Temperature effects
20 to 30 °C
< ±10 ppb
Full temperature range
< ±50 ppb
Warm up
5 minutes over +20 to +30 °C, with respect to 1 hour
< ±0.1 ppm
15 minutes over +20 to +30 °C, with respect to 1 hour
< ±0.01 ppm
External reference input
Frequency
1 to 110 MHz, sine wave
Lock range
±1 ppm, nominal
Amplitude
0 to 10 dBm, nominal
Connector
1 SMB snap-on
Impedance
50 Ω, nominal
8 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Amplitude
Input level
Max safe average total power
+30 dBm (1 W)
Max DC voltage
25 Vdc
Max RF input (specified performance)
1 to 2 MHz
0 dBm
2 to 4 MHz
+4 dBm
4 to 100 MHz
+12 dBm
100 MHz to 6 GHz
+30 dBm
Expected input level setting
Range
Pre-amp ON
−170 to 0 dBm
Pre-amp OFF
Pre-amp AUTO
−170 to +30 dBm
−170 to +30 dBm
7
Resolution
0.1 dB
Absolute amplitude accuracy & total absolute amplitude accuracy
Conversion type
Frequency
40 MHz IF filter
Image protect
Single
Single
Single
@ 46 ºC module
temp10, typical
Total absolute
amplitude
accuracy 8
Total absolute
amplitude
accuracy 8
Total absolute
amplitude
accuracy 8
Absolute
amplitude
accuracy 9
Absolute
amplitude
accuracy 9
≤ 3 GHz
±1.78 dB
±1.72 dB
±1.27 dB
±1.21 dB
±0.46 dB
> 3 GHz
±1.54 dB
±1.48 dB
±1.19 dB
±1.13 dB
±0.46 dB
All
±1.47 dB
±1.41 dB
±1.22 dB
±1.17 dB
±0.45 dB
Module temperature within ±3 ºC of alignment, Pre-amp OFF
11
≤ 3 GHz
±1.46 dB
±1.34 dB
±0.96 dB
±0.85 dB
±0.33 dB
> 3 GHz
±1.54 dB
±1.48 dB
±1.16 dB
±1.09 dB
±0.45 dB
All
±1.18 dB
±1.08 dB
±0.94 dB
±0.86 dB
±0.36 dB
160 MHz IF filter
Image protect
Controlled temperature range
Module temperature within ± 3 ºC of alignment, pre-amp ON & OFF
160 MHz IF filter
Image protect
Full temperature range
Module temperature within ±3 ºC of alignment, Pre-amp ON
12
≤ 3 GHz
±1.68 dB
±1.60 dB
±1.18 dB
±1.10 dB
±0.39 dB
> 3 GHz
±1.55 dB
±1.49 dB
±1.21 dB
±1.15 dB
±0.45 dB
≤ 3 GHz
±1.09 dB
±0.96 dB
±0.85 dB
±0.72 dB
±0.29 dB
> 3 GHz
±1.36 dB
±1.28 dB
±1.04 dB
±0.96 dB
±0.39 dB
7. At expected input level ≤ −37 dBm, pre-amp is switched on.
8. Total absolute amplitude accuracy is the total of all amplitude measurement errors. This specification includes the sum of the following individual specifications: linearity, expected input level switching uncertainty, IF bandwidth filter switching uncertainty, absolute amplitude accuracy. The wide range of settings
used (i.e., expected input level, etc.) are tested independently. The individual error contributions are calculated as follows: a 99.8 % proportion and 95%
confidence are computed for each parameter on a statistically significant number of instruments. The root-sum-square (RSS) of these four independent
Gaussian parameters is then taken. To that RSS value, two environmental effects and measurement uncertainty are added. One environmental effect is that
of temperature (full and controlled temperature range, as defined above) and the other is the temperature variation of ±3 degrees around a field alignment.
Applies over the following subset of settings and conditions: expected input level −50 dBm to +30 dBm; input signals within 60 dB below expected input level;
40 MHz and 160 MHz IF filters; input signal at center frequency over full frequency range.
9. The absolute amplitude accuracy is the amplitude measurement error when only changing frequency. The expected input level, conversion type and IF bandwidth settings remain the same and the error introduced by those parameters are not included. Pre-amp auto/OFF expected input
level +10 dBm and −12 dBm. Pre-amp ON expected input level −30 dBm.
10. Typical specifications shown at M9350A downconverter reported module temperature of 46 ºC and a corresponding environment temperature
of 25 ºC.
11. When using pre-amp auto mode, applies for signal level within expected input level >−37 dBm.
12. When using pre-amp auto mode, applies for signal level within expected input level ≤−37 dBm.
9 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Amplitude (continued)
Amplitude repeatability and linearity
Input signal relative to
expected input level setting
Repeatability
Linearity
Specification
<0.05 dB, nominal
>−35 dB
±0.12 dB
±0.03 dB, nominal
≤−35 dB
±0.21 dB
±0.04 dB, nominal
Analysis bandwidth
IF filter
Nominal
40 MHz
40 MHz
± 0.08 dB
100 MHz
160 MHz
± 0.09 dB
160 MHz
160 MHz
± 0.10 dB
Analysis bandwidth
Conversion type
Peak to peak, nominal
40 MHz
All
1.0 º
100 MHz
Single
0.8 º
Image protect
1.7 º
Single
1.4 º
Image protect
1.8 º
13
IF flatness 14, 15
IF phase linearity 15
160 MHz
13. Input level 20 dB above the noise floor and dither on, no change in hardware settings, below expected input level.
14. Amplitude deviation from the mean error of the entire bandwidth, all conversion types.
15. Expected input level 0 dBm. Center frequency ≥ 250 MHz.
10 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Amplitude (continued)
IF bandwidth filter switching uncertainty 16
Specification
Typical
Nominal
±0.4 dB
±0.15 dB
±0.09 dB
Specification
Typical
Nominal
Max input to +5 dBm
±0.45 dB
±0.14 dB
±0.10 dB
Crossing +5 dBm
±0.63 dB
±0.24 dB
±0.17 dB
±0.41 dB
±0.16 dB
±0.11 dB
±0.64 dB
±0.27 dB
±0.21 dB
±0.95 dB
±0.19 dB
±0.12 dB
Expected input level switching uncertainty
Pre-amp Auto/OFF
Pre-amp OFF
+5 to −50 dBm
Pre-amp ON
+0 to −50 dBm
Pre-amp AUTO
Crossing −37 dBm
Amplitude switching speed
Arbitrary amplitude change
Standard, nominal
Option UNZ, nominal
List mode switching speed 17
≤ 5 ms
≤ 136 µs
≤ 5 ms
≤ 1.5 ms
Non-list mode switching speed
18
Input voltage standing wave ratio (VSWR)
Nominal
< 10 MHz
1.7:1
10 MHz to 2.5 GHz
1.4:1
> 2.5 GHz
1.7:1
16.
17. 18.
Amplitude error relative to the reference IF bandwidth filter of 40 MHz.
Settled to within 0.1 dB of final value. Does not include data acquisition or processing time.
When used with the M9018A PXIe chassis (2-link configuration: 1 x 8 [factory default]) and the M9036A PXIe embedded controller.
Mean time from IVI command to amplitude settled.
11 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Dynamic range
Displayed average noise level (DANL) 19
Conversion type
Frequency
Specification
Nominal
Pre−amp OFF
Image protect
< 100 MHz
Single
−145 dBm/Hz
100 to < 700 MHz
−137 dBm/Hz
−147 dBm/Hz
700 MHz to < 5.75 GHz
−140 dBm/Hz
−148 dBm/Hz
5.75 to 6 GHz
−129 dBm/Hz
−146 dBm/Hz
<1.2 GHz
−148 dBm/Hz
−154 dBm/Hz
1.2 to 3.1 GHz
−143 dBm/Hz
−152 dBm/Hz
> 3.1 to < 5.4 GHz
−138 dBm/Hz
−149 dBm/Hz
5.4 to 6 GHz
−133 dBm/Hz
−148 dBm/Hz
Pre−amp ON
Image protect
< 100 MHz
Single
−162 dBm/Hz
100 MHz to < 2.7 GHz
−156 dBm/Hz
−161 dBm/Hz
2.7 to 4.4 GHz
−155 dBm/Hz
−160 dBm/Hz
> 4.4 to < 5.6 GHz
−152 dBm/Hz
−157 dBm/Hz
5.6 to 6 GHz
−141 dBm/Hz
−154 dBm/Hz
<1.1 GHz
−157 dBm/Hz
−161 dBm/Hz
1.1 to < 3.6 GHz
−154 dBm/Hz
−158 dBm/Hz
3.6 to 5 GHz
−151 dBm/Hz
−156 dBm/Hz
> 5 to 6 GHz
−146 dBm/Hz
−153 dBm/Hz
Third order intermodulation distortion (TOI) 20
TOI23
Conversion type: auto
Frequency
Specification
Typical
Specification
Pre−amp OFF
≤ 400 MHz
+15 dBm
+20.5 dBm
−52 dBc
> 400 MHz to 3 GHz
+18 dBm
+23 dBm
−52 dBc
> 3 GHz
+20 dBm
+23.5 dBm
−52 dBc
≤ 100 MHz
−9.9 dBm
−2.5 dBm
−56 dBc
> 100 to 850 MHz
−7.9 dBm
+2 dBm
−58 dBc
> 850 MHz to 2 GHz
−4.3 dBm
+5 dBm
−47 dBc
> 2 to 3 GHz
−0.9 dBm
+7 dBm
−41 dBc
> 3 to 6 GHz
+1 dBm
+5 dBm
−32 dBc
Pre−amp ON
21
22
Distortion24
19. Expected input level of −50 dBm. Mixer level offset +10 dB.
20. Two tone, 100 kHz tone spacing.
21. Expected input level −5 dBm. Mixer level offset +10 dB.
22. Expected input level −25 dBm. Mixer level offset +15 dB.
23. TOI = third order intercept. The TOI is given by the input tone level (in dBm) minus (distortion/2) where distortion is the relative level of the distortion tones in dBc.
24. Expected input level -10 dBm with preamp off and -30 dBm with preamp on.
12 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Dynamic range (continued)
Second harmonic distortion (SHI)
Frequency
SHI, nominal26
Distortion, nominal27
Pre-amp OFF 25
≤ 1.35 GHz
+35 dBm
– 45 dBc
> 1.35 GHz
+95 dBm
–105 dBc
DANL and distortion relative to mixer level (dB)
Conversion type: image protect
Nominal Dynamic Range at 2 GHz
Pre-Amp Off, Single - High
-50
-60
-70
-80
-90
-100
-110
-120
-130
-140
-150
-40
-35
-30
-25
-20
-15
Mixer Level (dBm) (Queried)
3rd Order Intermodulation
-10
DANL (1Hz RBW)
-5
DANL (30KHz RBW)
DANL and distortion relative to mixer level (dB)
Using 15MHz IF Filters with 60MHz tone spacing for 3rd order intermodulation measurements
Figure 4. Dynamic range at 2 GHz, pre-amp OFF,
single-high conversion type.
Nominal Dynamic Range at 5.8 GHz
Pre-Amp Off, Single - High
-50
-60
-70
-80
-90
-100
-110
-120
-130
-140
-150
-45
-40
-35
-30
-25
-20
Mixer Level (dBm) (Queried)
3rd Order Intermodulation
DANL (1Hz RBW)
-15
-10
DANL (30KHz RBW)
Using 15MHz IF Filters with 60MHz tone spacing for 3rd order intermodulation measurements
Figure 5. Dynamic range at 5.8 GHz, pre-amp OFF,
single-high conversion type.
25. Expected input level -10 dBm. Mixer level offset +10 dB.
26. SHI = second harmonic intercept. The SHI is given by the input power in dBm minus the second harmonic distortion level relative to the input signal in dBc.
27. For 0 dBm input signal.
13 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Dynamic range (continued)
Nominal Dynamic Range at 2 GHz
Pre-Amp Off, Image Protect
DANL and distortion relative to mixer level (dB)
-50
-60
-70
-80
-90
-100
-110
-120
-130
-140
-150
-40
-35
-30
-25
-20
-15
-10
-5
Mixer Level (dBm) (Queried)
3rd Order Intermodulation
DANL (1Hz RBW)
DANL (30KHz RBW)
DANL and distortion relative to mixer level (dB)
Using 15MHz IF Filters with 60MHz tone spacing for 3rd order intermodulation measurements
Figure 6. Dynamic range at 2 GHz, pre-amp OFF,
image protect conversion type.
Nominal Dynamic Range at 5.8 GHz
Pre-Amp Off, Image Protect
-50
-60
-70
-80
-90
-100
-110
-120
-130
-140
-150
-45
-40
-35
-30
-25
-20
Actual Mixer Level (dBm) (Queried)
3rd Order Intermodulation
DANL (1Hz RBW)
-15
-10
DANL (30KHz RBW)
Using 15MHz IF Filters with 60MHz tone spacing for 3rd order intermodulation measurements
Figure 7. Dynamic range at 5.8 GHz, pre-amp OFF,
image protect conversion type.
14 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Spectral purity
Phase noise 28
Conversion type
Center frequency
Offset
Nominal
Single low
1.1 GHz
10 kHz
−120 dBc/Hz
Single high
1 GHz
10 kHz
−119 dBc/Hz
Nominal Phase Noise at 1 GHz
-90
-100
Phase Noise (dBc/Hz)
-110
Image Protect
-120
Single-Low
Single-High
-130
-140
10000
1000
Offset (kHz)
100
10
1
0.1
-150
Figure 8. Phase noise at 1 GHz
(1.1 GHz for single-low conversion type).
Nominal Phase Noise at 5.8 GHz
-80
-90
Phase Noise (dBc/Hz)
-100
-110
Image Protect
Single-Low
-120
Single-High
-130
-140
28. Mixer level offset +20 dB.
10000
1000
Offset (kHz)
100
10
1
0.1
-150
Figure 9. Phase noise at 5.8 GHz.
15 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Spectral purity (continued)
Residuals, images & spurious responses
Non-input related spurs 29
Conversion type
Frequency
Nominal
Single
All
< −120 dBm
Expected input level
Pre-amp ON
≤ 0 dBm (measured at −50 dBm)
Image protect
All
30
< −120 dBm
Single
≤ 3 GHz
< −120 dBm
Pre-amp OFF
< +5 dBm (measured at −50 dBm)
≥ +5 dBm (measured at +6 dBm)
LO related spurs 33
First order RF spurious responses 34
Higher order RF spurious responses
Image responses
IF rejection 36
35
34
> 3 GHz
< −116 dBm
Image protect
All 31
< −105 dBm
Single
All
< −98 dBm
Image protect
All
Offsets from carrier
Frequency
Nominal
200 to 10 kHz
All
− 82 dBc
10 kHz to 10 MHz
All
− 55 dBc
Offsets from carrier
Frequency
Nominal
≥ 10 MHz
≥ 200 MHz to 6 GHz
−60 dBc
Offsets from carrier
Frequency
Nominal
≥ 10 MHz
≥ 200 MHz to 6 GHz
−60 dBc
Conversion type
Frequency
Nominal
Image protect
All
< −68 dBc
IF bandwidth filter
Frequency
Nominal
15 MHz
≤ 400 MHz
< −57 dBc
> 400 MHz
< −105 dBc
≤ 450 MHz
< −57 dBc
> 450 MHz
< −98 dBc
160 MHz
All
< −85 dBc
Conversion type
Frequency
Nominal
Single
≤ 3 GHz
−72 dBm
> 3 GHz
−62 dBm
All
−88 dBm
40 MHz
LO emission 37
Image protect
29.
30.
31.
32.
33.
34.
35.
36.
37.
32
< −90 dBm
Mixer level offset at 10 dB, input terminated, with 50Ω load.
From 4.72 to 4.88 GHz, specification at <-108 dBm, nominal.
From 4.72 to 4.88 GHz, specification at <-96 dBm, nominal.
From 4.72 to 4.88 GHz, specification at <-80 dBm, nominal.
Expected input level 0 dBm. Mixer offset level -10 dB.
Conversion type: image protect, pre-amp OFF, expected input level -20 dBm and mixer level offset 0 dB.
Excitation frequency: [F=2*Final IF] MHz, expected input level -20 dBm, mixer level offset -30 dB.
Suppression of signal at IF frequencies when tuned at least 2 x IF BW away.
All input paths, image protect, expected input level -30 dBm. Input signal at -30 dBm and mixer level offset 0 dB.
Expected input level -50 dBm. Mixer level offset +10 dB.
16 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Data acquisition
Maximum capture memory
Non-list mode
List mode
Option M01
128 MSample (512 MB)
128 MSample (512 MB)
Option M05
512 MSample (2 GB)
512 MSample (2 GB)
Option M10
1 GSample (4 GB)
512 MSample (2 GB) to ~ 1 GSample
(3.999 GB) 39
38
Segments
Minimum length
1 sample 40
Maximum length
Full capture memory 38
Maximum sample rate
Option B04 / 40 MHz
50 MS/s complex, 100 MS/s real
Option B10 / 100 MHz
125 MS/s complex, 250 MS/s real
Option B16 / 160 MHz
200 MS/s complex, 400 MS/s real
List mode
Maximum number of segments
3201
Trigger sources
External, magnitude
Trigger modes
Per acquisition, interval timer trigger
Triggering
Delay range 41
−500 ms to +500 ms, nominal
Delay resolution
1 sample, nominal
External trigger signal frequency range
10 to 30 MHz for pulse
External trigger signal level
TTL
External trigger signal duty cycle range
20% to 80%
External trigger signal waveform
Sine, pulse/square, ramp (symmetry 0% to 100%)
Channel-to-channel synchronization 42
Timing
Phase
Skew
≤400 ps, nominal
–
Jitter 43
≤50 ps, nominal
≤0.3°, nominal
≤80 ps, nominal
≤1.0°, nominal
50 ps
0.05°
20 ps, nominal
0.5°, nominal
Repeatability
44
Adjustment resolution
Drift over 12 hours
45
38. The default mode for allocation of capture memory is AgM9391MemoryModeNormal, where the digitizer’s memory is shared by both the default single acquisition (capture ID = 0) and all the other acquisitions with non-zero capture IDs. In particular, the memory for the default single acquisition is allocated from the area unused by the list acquisitions. If the available memory is not sufficient for the single acquisition, the user must release memory allocated for the non-zero capture ID acquisitions manually, thus increasing free space. Total memory usage is limited
according to the memory option. Note that the maximum size of acquisition is 2 GB in this mode. To perform the default single acquisition with memory size larger than 2 GB, AgM9391MemoryModeLargeAcquisition must be selected. The non-zero capture ID acquisitions cannot be per
formed in this mode. All data acquired with AGM9391MemoryMode Normal will be invalidated.
39.The maximum size for a single list point capture is limited to 512 MSamples (2 GB). However, with option M10, total capture of up to 3.999 GB
is available across all list mode captures.
40.64-bit mode, 2 samples for 32-bit mode.
41.Negative trigger delay limited to capture size.
42. Multi-channel capability only supported with up to 8-channels when configured with a Keysight M9018A PXIe chassis with FPGA version 1.05 or greater.
Characteristics measured at 400, 900, 2400, 5800 MHz and apply in Auto Conversion mode at frequencies ≥400 MHz with IF filter = 160 MHz. V2802A LO
distribution network used for phase synchronization for more than 4 channels.
43. Jitter indicates measurement-to-measurement variation and applies over short time interval at room temperature without resetting or reinitializing a driver
session.
44. Repeatability indicates stability of alignment between channels across power cycles and IVI sessions, with identical cabling and hardware settings (frequency, span, sample rate, etc.)
45. Channel time and phase offsets can be adjusted using OffsetDelay and OffsetPhase properties respectively.
17 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Measurement speed46
IQ data capture 47
Nominal
Large block (50 MSamples)
1.5 s
Transferred in 100 kSa or 1 MSa blocks
Small block (100 captures, 100 ksamples each)
292 ms
Transferred in 10 kSa blocks
Adjust level, freq (10 ksamples)
1.7 ms
Transferred in 10 kSa blocks
Power measurements 48
Channel power settings & filter bandwidth
Acquisition Time
Averages
Nominal
3.84 MHz
400 µs
None
1.8 ms
10
7.6 ms
None
1.3 ms
10
4.1 ms
None
1.3 ms
10
3.4 ms
None
3.9 ms
10
30.4 ms
100 µs
50 µs
30 kHz
100 µs
Format specific measurement data
GSM 49, 50
Parameters
Nominal
Global phase error
0.9, 1.8, 1.9, 2.0, 2.1, 2.2 GHz
0.17 º
ORFS dynamic range
200 kHz offset
−36 dBc
250 kHz offset
−41 dBc
400 kHz offset
−69 dBc
600 kHz offset
−73 dBc
800 kHz offset
−77 dBc
1200 kHz offset
−80 dBc
1800 kHz offset
−78 dBc
Parameters
Nominal
Residual EVM
0.9, 1.8, 1.9, 2.0, 2.1, 2.2 GHz
0.23% rms
ORFS dynamic range
200 kHz offset
−37 dBc
250 kHz offset
−42 dBc
400 kHz offset
−69 dBc
600 kHz offset
−73 dBc
800 kHz offset
−77 dBc
1200 kHz offset
−80 dBc
1800 kHz offset
−77 dBc
EDGE 49, 50
46. EVM, ACPR and servo loop test times for the RF power amplifier test, reference solution are included in the solution brochure 5991-4104EN.
47. Capture block, transfer to host memory, 160 MHz BW, excludes frequency transitions below 400 MHz, with M9037A embedded controller
(2-link configuration: 1 x 8 [factory default]).
48.Transfer to host memory, 160 MHz IF bandwidth filter, excludes frequency transitions below 400 MHz, with M9037A embedded controller
(2-link configuration: 1 x 8 [factory default]).
49.Synthesizer PLL mode set to PLL mode best wide offset.
50.Expected input level 0 dBm, input signal (total power) 0 dBm, mixer level offset +10 dB, conversion type: Auto, PeakToAverage set per signal peak to average.
18 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Format specific measurement (continued)
W−CDMA 51, 52
Parameters
Typical
Residual EVM
2 GHz, 1 DPCH, 1 carrier
ACLR dynamic range
2 GHz, 1 DPCH, 1 carrier
(power mode)
Nominal
0.5%
Adjacent
−68.1 dBc
−69.8 dBc
Alternate
−70.7 dBc
−71.7 dBc
802.11g 51, 52, 56
Parameters
Nominal
EVM
2.4 GHz, 20 MHz BW
−52.8 dB
802.11a 51, 52, 56
Parameters
Nominal
EVM
5.8 GHz, 20 MHz BW
−48.1 dB
802.11n 51, 52, 56
Parameters
EVM
802.11ac 51, 52
Nominal
1-channel
2-channel 54
3-channel 54
4-channel 54
2.4 GHz, 40 MHz BW
−52.0 dB
−51.6 dB
−50.6 dB
−50.9 dB
5.8 GHz, 40 MHz BW
−48.6 dB
−46.6 dB
−45.3 dB
−46.0 dB
Parameters
Nominal
1-channel
2-channel
54
3-channel 54
4-channel 54
8-channel 54
Preamble only
EVM
55
5.8 GHz, 80 MHz BW
−46.5 dB
−44.3 dB
−43.0 dB
−43.6 dB
-41.2 dB
5.8 GHz, 160 MHz BW
−44.7 dB
−43.4 dB
−41.7 dB
−43.3 dB
-40.1 dB
5.8 GHz, 80 MHz BW
−49.4 dB
−48.6 dB
−47.3 dB
−46.4 dB
-42.3 dB
5.8 GHz, 160 MHz BW
−47.5 dB
−47.5 dB
−44.7 dB
−45.1 dB
-40.1 dB
5.8 GHz, 80 MHz BW
see Figure 10
Preamble, pilots & data
EVM 55
SEM
802.11a/g 54, 52
Parameters
SEM
2.4 GHz
see Figure 11
5.5 GHz
see Figure 12
802.11e 54, 52, 57
Parameters
OFDMA WiMAX™ EVM
2.5, 3.5, & 5.8 GHz
−48.3 dB, nominal
51. Synthesizer PLL mode set to PLL mode best wide offset.
52. Expected input level 0 dBm, input signal (total power) 0 dBm, conversion type: Auto. PeakToAverage set per signal peak to average.
53. Synthesizer PLL mode set to PLL mode normal.
54. Multi-channel performance data applies when each channel is configured with its own independent synthesizer. Sharing a single synthesizer will degrade
EVM performance approximately 1 dB.
55. Mixer level offset = +5 dB
56. Mixer level offset = +10 dB
57. Mixer level offset = +15 dB
19 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Format specific measurement (continued)
0
-10
-20
Spectral Emissions
-30
Limit
-40
-50
Figure 10. WLAN 802.11ac SEM
at 5.8 GHz, 80 MHz bandwidth.
-60
0
-10
-20
-30
Amplitude
Limit
-40
-50
-60
Figure 11. WLAN 802.11a/g SEM
at 2.4 GHz, 20 MHz bandwidth.
-70
0
-10
-20
-30
Amplitude
Limit
-40
-50
-60
-70
Figure 12. WLAN 802.11a/g SEM
at 5.5 GHz, 20 MHz bandwidth.
20 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Format specific measurement (continued)
LTE FDD - single channel 58, 59
Parameters
1-channel, nominal
10 MHz BW EVM,
E−TM 3.1 61, 62
0.7, 0.9 GHz
−52.2 dB (0.25%)
1.8, 1.9, 2.0, 2.1, 2.2 GHz
−51.0 dB (0.28%)
10 MHz BW ACLR,
E−TM 1.1 63
0.7, 0.9, 1.8, 1.9, 2.0, 2.1, 2.2 GHz
(power mode)
LTE FDD - MIMO 58, 59, 60
Parameters
2-channel, nominal 64
4-channel, nominal 64
8-channel, nominal 65
0.9 GHz
−49.8 dB (0.32%)
−50.1 dB (0.31%)
-52.6 dB (0.23%)
2.0 GHz
−49.2 dB (0.35%)
−49.3 dB (0.34%)
-48.8 dB (0.36%)
Parameters
2-channel, nominal 64
4-channel, nominal 64
8-channel, nominal 65
0.9 GHz
−50.7 dB (0.29%)
−50.3 dB (0.31%)
-56.3 dB (0.15%)
2.0 GHz
−49.0 dB (0.36%)
−49.0 dB (0.36%)
-54.8 dB (0.18%)
LTE TDD - MIMO 58, 59, 60
Adjacent
−64.2 dBc
Alternate
−65.5 dBc
58. Expected input level 0 dBm, input signal (total power) 0 dBm, conversion type: Auto. PeakToAverage set per signal peak to average.
59. Synthesizer PLL mode set to PLL mode normal.
60. Multi-channel performance data applies when each channel is configured with its own independent synthesizer. Sharing a single synthesizer will degrade EVM performance approximately 1 dB.
61. PDCCH power boost = 1.065 dB
62. Mixer level offset = +10 dB
63. Mixer level offset = +15 dB
64. 10 MHz BW EVM, R9 downlink, 64 QAM, open loop spatial multiplexing
65. 10 MHz BW, DL, TM9 multi-layer, TM4 closed loop spatial multiplexing
21 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
Environmental and physical specifications
Operating
Individual module temp 25 to 75 °C as reported by the module
and environment temp of 0 to 55 °C
Non-operating (storage)
Environment temp of −40 to +70 °C
Temperature
Type tested at 95%, +40 °C
(non-condensing)
Humidity 66
Shock/vibration 66
Operating random vibration
Survival random vibration
Functional shock
Bench handling
Up to 15,000 feet (4,572 meters) 67
Altitude
Connectors
Type tested at 5 to 500 Hz, 0.21 g rms
Type tested at 5 to 500 Hz, 2.09 g rms
Type tested at half-sine, 30 g, 11 ms
Type tested per MIL-PRF-28800F
RF In
SMA female
EMC
Complies with European EMC Directive 2004/108/EC
– IEC/EN 61326-2-1
– CISPR Pub 11 Group 1, class A
– AS/NZS CISPR 11
– ICES/NMB-001
This ISM device complies with Canadian ICES-001.
Cet appareil ISM est conforme a la norme NMB-001 du Canada.
Warm-up time
45 minutes
Size
M9300A
M9301A
M9350A
M9214A
1 PXIe slot
1 PXIe slot
1 PXIe slot
1 PXIe slot
Dimensions
Module
Length
Width
Height
M9300A
210 mm 22 mm
130 mm
M9301A
210 mm 22 mm
130 mm
M9350A
210 mm 22 mm
130 mm
M9214A
210 mm 22 mm
130 mm
Weight
M9300A
M9301A
M9350A
M9214A
0.55 kg (1.21 lbs)
0.54 kg (1.19 lbs)
0.56 kg (1.23 lbs)
0.36 kg (0.79 lbs)
Power drawn from chassis
M9300A
M9301A
M9350A
M9214A
≤ 18 W
≤ 25 W
≤ 30 W
≤ 35 W
66.
67.
Samples of this product have been type tested in accordance with the Keysight Environmental Test Manual and verified to be robust against the environmental stresses of storage, transportation and end-use--those stresses include but are not limited to temperature, humidity, shock, vibration, altitude and power-line conditions. Test methods are aligned with IEC 60068-2 and levels are similar to MIL-PRF-28800F Class 3.
At 15,000 feet, the maximum environmental temperature is de-rated to 52 °C.
22 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Technical Specifications and Characteristics
System requirements
Topic
Windows 7 requirements
Operating systems
Windows 7 (32-bit and 64-bit)
Processor speed
1 GHz 32-bit (x86), 1 GHz 64-bit (x64)
(no support for Itanium 64)
Available memory
4 GB minimum
8 GB or greater recommended
Available
disk space 68
1.5 GB available hard disk space, includes:
1 GB available for Microsoft .NET Framework 3.5 SP1 69
100 MB for Keysight IO Libraries Suite
Video
Support for DirectX 9 graphics with 128 MB graphics memory recommended
(Super VGA graphics is supported)
Browser
Microsoft Internet Explorer 7 or greater
M9391A vector signal analyzer instrument drivers
Keysight IO libraries
Version 16.3.17914 or greater
68. Because of the installation procedure, less disk space may be required for operation than is required for installation.
69. NET Framework Runtime Components are installed by default with Windows 7. Therefore, you may not need
this amount of available disk space.
23 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Software
Instrument connection software
Keysight IO
library
The IO library suite offers a single entry point for connection to
the most common instruments including AXIe, PXI, GPIB, USB,
Ethernet/LAN, RS-232, and VXI test instruments from Keysight
and other vendors. It automatically discovers interfaces, chassis, and instruments. The graphical user interface allows you to
search for, verify, and update IVI instrument and soft front panel
drivers for modular and traditional instruments. The IO suite
safely installs in side-by-side mode with NI I/O software.
Free software download at
The PXI module includes a soft front panel (SFP), a softwarebased graphical user interface (GUI) which enables the instrument’s
capabilities from your PC.
Included on CD-ROM shipped
with module or online
Connection expert is the graphical user interface included in the
IO libraries suite that allows you to search for, verify and update
IVI instrument and soft front panel drivers for modular and
traditional instruments
Free software download at
www.keysight.com/find/iosuite
Module setup and usage
Keysight soft
front panel
Module management
Keysight
connection expert
www.keysight.com/find/iosuite
Programming
Driver
Development environments
lVI-COM, IVI-C
LabVIEW, MATLAB
Visual Studio (VB.NET, C#, C/C++), VEE
LabVIEW, LabWindows/CVI, MATLAB
Included on CD-ROM shipped
with module.
Command
expert
Assists in finding the right instrument commands and setting
correct parameters. A simple interface includes documentation,
examples, syntax checking, command execution, and debug
tools to build sequences for integration in Excel, MATLAB, Visual
Studio, LabVIEW, VEE, and SystemVue.
Free software download at
Programming
examples
Each module includes programming examples for Visual Studio.
net, LabVIEW, MATLAB, LabWindows, and Keysight VEE Pro.
Included on CD-ROM shipped
with module.
X-Series
measurement
applications
for modular
instruments
The X-Series measurement applications transform modular PXI
VSAs into standards based RF transmitter testers. Provides
conformance measurements for many communications standards
including : LTE,
WLAN 802.11ac and others.
Licensed software.
For more information, visit
89600 VSA
89600 VSA software sees through the complexity of emerging
Licensed software.
and existing industry standards, serving as your window into com- For more information, visit
plex signal interactions. Quickly characterize spurs and harmonics www.keysight.com/find/vsa
with speed-optimized stepped spectrum measurement provided
by 89601B-SSA option.
SystemVue
SystemVue is a system-level EDA platform for designing communications and defense systems. Used with the M9391A,
SystemVue enables you to create model-based design validation
tests to ensure consistency from design to manufacturing.
Programming assitance
www.keysight.com/find/commandexpert
Signal analysis software
www.keysight.com/find/pxi-x-series_apps
Licensed software.
For more information, visit
www.keysight.com/find/systemvue
24 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Setup and Calibration Services
Assistance
One day startup
assistance
Gain access to a technical expert who will help you get started quickly
with the M9391A PXI VSA and its powerful software tools. The flexible
instruction format is designed to get you to your first measurements and
familiarize you with ways to adapt the equipment to a specific application.
Included in base
configuration
Calibration and traceability
Factory calibration
The M9391A PXI VSA ships factory calibrated with an ISO-9002,
NIST-traceable calibration certificate.
Included in base
configuration
Calibration cycle
A one year calibration cycle is recommended.
Calibration sites
– At Keysight worldwide service xenters
– On-site by Keysight
– By self-maintainers
For more information visit
N7800A
calibration and
adjustment software
The M9391A PXI VSA is supported by Keysight’s calibration and adjustment software. This is the same software used at Keysight service
centers to automate calibration. The software offers compliance tests
for ISO 17025:2005, ANSI/NCSL Z540.3-2006, and measurement
uncertainty per ISO Guide to Expression of Measurement Uncertainty.
Licensed software.
For more information, visit
Keysight calibration
status utility
The Keysight calibration status utility helps ensure your M9391A is
calibrated by managing the calibration interval and providing messages
regarding instrument and module calibration status.
Included in base
configuration
www.keysight.com/find/infoline
www.keysight.com/find/
calibrationsoftware
25 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Support and Warranty
Warranty
Global warranty
Keysight’s warranty service provides standard coverage for the country
where product is used.
– All parts and labor necessary to return to full specified performance
– Recalibration for products supplied originally with a calibration
certificate
– Return shipment
Included
Standard
Return to Keysight warranty—3 years
15 days typical turnaround repair service
Included
R-51B-001-5Z
Return to Keysight warranty—5 years
15 days typical turnaround repair service
Optional
R-51B-001-3X
Express warranty
3 years
The express warranty upgrades the global warranty to provide, for 3
years, a 5 day typical turnaround repair service in the US, Japan, China
and many EU countries.
Optional
R-51B-001-5X
Express warranty
5 years
The express warranty upgrades the global warranty to provide, for 5
years, a 5 day typical turnaround repair service in the US, Japan, China
and many EU countries.
Optional
Core exchange
program
Keysight’s replacement core exchange program allows fast and easy
module repairs. A replacement core assembly is a fully functioning precalibrated module replacement that is updated with the defective module
serial number, allowing the replacement module to retain the original
serial number.
For qualified self-maintainers
in US only
Self-test utility
A self-test utility runs a set of internal tests which verifies the health of
the modules and reports their status.
Included in base
configuration
Support
26 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Configuration and Ordering Information
Ordering information
Model
Description
Configurable options
M9391A
PXIe vector signal analyzer:
1 MHz to 3 or 6 GHz
Includes:
M9301A PXIe synthesizer
M9350A PXIe downconverter
M9214A PXIe IF digitizer
One day startup assistance
Module interconnect cables
Software, example programs and product
information on CD
Return to Keysight warranty—3 Years
Frequency
M9391A-F03
1 MHz to 3 GHz
 M9391A-F06
1 MHz to 6 GHz
Switching speed
 M9391A-UNZ
Fast switching
Analysis bandwidth
M9391A-B04
40 MHz
M9391A-B10
100 MHz
 M9391A-B16
160 MHz
Memory
Base configuration
M9391A-F03
Frequency range: 1 MHz to 3 GHz
M9391A-B04
Analysis bandwidth, 40 MHz
M9391A-M01
Memory, 128 MSa
M9391A-300
Required for
warranted
specifications
PXIe frequency reference:
10 and 100 MHz
Adds M9300A PXIe frequency reference:
10 and 100 MHz (M9300A module can support multiple M9391A modular instruments)
For configurations of the M9391A PXI VSA, including combinations with a single or multiple M9381A PXI VSGs, please
consult the M9391A & M9381A configuration guide, literature
number 5991-0897EN.
M9391A-M01
128 MSa
M9391A-M05
512 MSa
 M9391A-M10
1024 MSa
Other
M9391A-012
Phase coherency
M9391A-UK6
Commercial calibration certificate with test
data for M9391A (M9301A,
M9350A, M9214A)
M9300A-UK6
Commercial calibration certificate with test
data for M9300A (module only)
Related products in recommended configuration
 M9037A
PXIe embedded controller
 M9018A
18-slot PXIe chassis
 Indicates recommended configuration
27 | Keysight | M9391A PXIe Vector Signal Analyzer - Data Sheet
Configuration and Ordering Information
Software information
Accessories
Supported operating
systems
Microsoft Windows 7
(32/64-bit)
Model
Description
Y1212A
Slot blocker kit: 5 modules
Standard compliant
drivers
IVI-COM, IVI-C, LabVIEW, MATLAB
Y1213A
PXI EMC filler panel kit: 5 slots
Supported application
development environments (ADE)
VisualStudio (VB.NET, C#, C/C++), VEE,
LabVIEW, LabWindows/CVI, MATLAB
Y1299A
PXI solutions startup kits
Y1243A
Cable kit for M9301A LO distribution
M9021A
PCIe® cable interface
Keysight IO libraries
(version 16.3 or newer)
Includes: VISA libraries, Keysight
Connection Expert, IO monitor
M9045B
PCIe express card adaptor for laptop connectivity
Y1200B
PCIe cable for laptop connectivity
Keysight Command
Expert
Instrument control for SCPI or
IVI-COM drivers
M9048A
PCIe desktop adaptor for desktop connectivity
Y1202A
PCIe cable for desktop connectivity
89600 VSA Software
(version 17.21 or newer;
Option SSA added in version 18.5)
89600B-200 Basic VSA software
89601B-300 Hardware connectivity
89601B-SSA Spectrum analysis
89601B-AYA GP analysis
89601B-B7T cdma2000®/1xEV-DO
89601B-B7U W-CDMA/HSPA+
89601B-B7R WLAN 802.11a/b/g/j/p
89601B-B7X TD-SCDMA
89601B-BHD LTE FDD
89601B-BHG LTE FDD - Advanced
89601B-BHE LTE TDD
89601B-BHH LTE TDD - Advanced
X-Series Measurement
Applications for
Modular Instruments
transportable perpetual license.
M9063A Analog demodulation
M9064A Vector signal analysis
M9071A GSM/EDGE/Evo
M9072A cdma2000 ®/cdmaOne
M9073A W-CDMA/HSPA+
M9076A 1xEV-DO
M9077A WLAN 802.11a/b/g/n/ac
M9079A TD-SCDMA/HSDPA
M9080B LTE/LTE-A FDD
M9081A Bluetooth®
M9082B LTE/LTE-A TDD
Related products
Model
Description
M9381A
PXIe vector signal generator
M9380A
PXIe CW source
M9300A
PXIe frequency reference
M9018A
PXIe 18-slot chassis
M9037A
PXIe embedded controller
Advantage services: Calibration and warranty
Keysight Advantage Services is committed to your success
throughout your equipment’s lifetime
R-51B-001-5Z
Return to Keysight warranty - 5 years
R-51B-001-3X
Express warranty - 3 years
R-51B-001-5X
Express warranty - 5 years
N7800A
Calibration & adjustment software
28 | Keysight | M9391A PXIe Vector Signal Analyzer 1 MHz to 3 GHz or 6 GHz - Data Sheet
myKeysight
www.keysight.com/find/mykeysight
A personalized view into the information most relevant to you.
www.pxisa.org
PCI eXtensions for Instrumentation (PXI) modular instrumentation delivers a
rugged, PC-based high-performance measurement and automation system.
Three-Year Warranty
www.keysight.com/find/ThreeYearWarranty
Keysight’s commitment to superior product quality and lower total cost
of ownership. The only test and measurement company with three-year
warranty standard on all instruments, worldwide.
Keysight Assurance Plans
www.keysight.com/find/AssurancePlans
Up to five years of protection and no budgetary surprises to ensure your
instruments are operating to specification so you can rely on accurate
measurements.
www.keysight.com/go/quality
Keysight Technologies, Inc.
DEKRA Certified ISO 9001:2008
Quality Management System
Keysight Channel Partners
www.keysight.com/find/channelpartners
Get the best of both worlds: Keysight’s measurement expertise and product
breadth, combined with channel partner convenience.
Bluetooth and the Bluetooth logos are trademarks owned by Bluetooth SIG, Inc., U.S.A.
and licensed to Keysight Technologies, Inc.
“PCIe” and “PCI EXPRESS” are registered trademarks and/or service marks of PCI-SIG.
cdma2000 is a registered certification mark of the Telecommunications Industry
Association.
www.keysight.com/find/m9391a
www.keysight.com/find/modular
For more information on Keysight
Technologies’ products, applications or
services, please contact your local Keysight
office. The complete list is available at:
www.keysight.com/find/contactus
Americas
Canada
Brazil
Mexico
United States
(877) 894 4414
55 11 3351 7010
001 800 254 2440
(800) 829 4444
Asia Pacific
Australia
China
Hong Kong
India
Japan
Korea
Malaysia
Singapore
Taiwan
Other AP Countries
1 800 629 485
800 810 0189
800 938 693
1 800 11 2626
0120 (421) 345
080 769 0800
1 800 888 848
1 800 375 8100
0800 047 866
(65) 6375 8100
Europe & Middle East
Austria
Belgium
Finland
France
Germany
Ireland
Israel
Italy
Luxembourg
Netherlands
Russia
Spain
Sweden
Switzerland
United Kingdom
0800 001122
0800 58580
0800 523252
0805 980333
0800 6270999
1800 832700
1 809 343051
800 599100
+32 800 58580
0800 0233200
8800 5009286
800 000154
0200 882255
0800 805353
Opt. 1 (DE)
Opt. 2 (FR)
Opt. 3 (IT)
0800 0260637
For other unlisted countries:
www.keysight.com/find/contactus
(BP-02-20-15)
This information is subject to change without notice.
© Keysight Technologies, 2013-2015
Published in USA, July 10, 2015
5991-2603EN
www.keysight.com
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