datasheet for SMX2060 by Agilent

datasheet for SMX2060 by Agilent
Support Information Only
NOTICE: Signametrics was acquired by Agilent Technologies in October 2010. This document,
published prior to that date, is provided as a courtesy and may contain references to products or
services no longer supported by Agilent. For the latest information on Agilent’s modular test and
measurement products go to: www.agilent.com/find/modular
Or in the US, call Agilent Technologies at 1-800-829-4444 (8am-8pm EST)
For other Countries: www.agilent.com/find/contactus
© Agilent Technologies, Inc. November 8, 2011
5990-9484EN
7-1/2 Digit Multimeters
Features
 7-1/2 Digit Resolution
 + 24,000,000 count A/D
+2.399,999,9V
 Zero Latency from 0.5rps to
4,500rps
 Select Aperture
o 130us to 5s
 Select Read-Interval
o 0 to 1s
 Set function&range in 20ms
 DC & AC Volts 10nV to 330V
o 240mV, 2.4V, 24V, 240V, 330V
 DC Current 1nA to 2.4A
o 2.4mA, 24mA, 240mA, 2.4A
 AC Current 20uA to 2.4A
o 2.4mA, 24mA, 240mA, 2.4A
 True RMS ACV & ACI
o Fast/Slow RMS Filter
 Resistance: 10m to 24M
o 2-Wire: 240, 2.4k, 24k, 240k,
2.4M, 24M
o 4-Wire: 240, 2.4k, 24k, 240k
o 5 test currents to 1mA
 Capacitance: 1pF-12mF
o 1.2n, 12n, 120n, 1.2u, 12u,
120u, 1.2m, 12m
 Temperature:
o RTDs: pt385, pt3911, pt3916,
pt3926, Cu, Ro:2 to 24k
o Thermocouples: B, E, J, K, N,
R, S, T
 Diode V/I Characteristics
 Frequency: 2Hz – 300kHz
 Extensive triggering
 Sync Output
 Component Handler interface
 Universal Software driver
o Linux & Windows
o Fast to install - tiny footprint
o Compatible with most S/W
o Stand alone – no dependencies
o Excel, Word, MatLab, Lab
View, C, C++, C#, Lab Windows,
VB…
To preserve the accuracy of these
DMMs make sure you use
Instrumentation type Switching.
Hundreds of users consider these
to be the best plug-in DMMs.
The Signametrics 2060 models are high precision, high resolution 7-½ digit Multimeters
(DMMs), designed for PXI, PCI and USB environments. They raise the bar on system Digital
Multimeters (DMM’s), setting new performance levels, at a very reasonable price. Their
remarkable throughput and accuracy are attributable to recent advances in conversion
technology, manifested in a very gradual degradation in resolution with increased
measurement rates, making these DMM’s suitable for automated test systems and production
test. Expect them to perform much faster, and be a lot simpler to control than any bench top
DMMs.
These units replace the older generation IEEE488 and/or RS232 DMM’s, which are very
slow, unreliable, and require a lot more in hardware and software interface.
In addition to the standard DMM measurements, these full featured DMMs include a fast
frequency counter as well as a highly sensitive capacitance meter. Considering the small size,
ease of use and low cost of these DMM’s, it is hard to imagine going back to the slower box
DMM. These units will run circles around any DMM in an automated test setting. For an
additional peace of mind, these DMMs carry a 30 day no-risk trial period.
The software package that comes with these DMM’s is complete, and does not require any
additional drivers or packages. It is not in Signametrics interest to constrain users to a handful
of S/W packages. This is the reason the type of driver provided is universal. It allows these
DMM’s to be accessible by a very large number of software environments, including MS
Word, Excel, Mat Lab, Visual Basic, C, C++, C#, Lab Windows, Lab View, ATEasy, Delphi
and may other graphical and text based software packages. An added benefit of this approach
is a fast, easy and small installation, and super fast driver. In less than five minutes you will
be making measurements.
If low cost is the priority, the 2055 models should be considered. For more versatile
LCR/Source Measure DMM, the 2064 models will baffle you. When using DMMs, make
sure you use an Instrumentation quality switching system. It will prevent signal degradation.
It is best to use the SMX4032 switch with the 2060 and 2064 models, and the SMX4042 with
the 2055 DMM models.
DC Voltage Measurement
AC Voltage Measurements, True RMS







Input Resistance 240 mV, 2.4 V Ranges: >10 G
Input Resistance 24 V, 240 V, 330V Ranges: 10.00 M
Accuracy ± (% of reading + Volts) [1]
Range
Full Scale
7-½ Digits
Resolution
24 hours
23C  1C
One Year 23C
 5C
240 mV
240.00000 mV
10 V
0.003 + 1 V
2.4 V
2.4000000 V
100 V
0.002 + 3 V
24 V
24.000000 V
1 V
0.004 + 120 V
240 V
240.00000 V
10 V
0.003 + 250 V
330.00000 V
0.0075 + 0.5 mV
330 V
10 V
[1] With Aperture set to ≥ 0.5 Sec, within one hour from Self Cal.
0.005 + 2 V
0.003 + 5 V
0.006 + 150 V
0.005 + 0.5 mV
0.015 + 0.8 mV
Resolution vs. Aperture and measurement rate
Measurement Aperture
Reading Rate
0.5 s < Aperture
10 ms < Aperture
130s < Aperture
2 / second
100 / second
4,500 / second
Input Resistance 1 M, shunted by < 300 pF
Max. Crest Factor 4 at Full Scale, 7 at 10% of range
AC coupled 10 Hz to 100 kHz
Typical Settling time < 0.5s to within 0.1% of final value
Fast RMS Settling < 0.05s to within 0.1% of final value
Range [1]
240 mV
2.4 V
24 V
240 V
330 V
Resolution
7-1/2 digits
25 bits
6-1/2 digits
22 bits
5 digits
17 bits
DC Current Measurement
Range
Frequency
240 mV
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 10 kHz
10 kHz - 50 kHz
50 kHz - 100 kHz
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 10 kHz
10 kHz - 50 kHz
50 kHz - 100 kHz
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 10 kHz
10 kHz - 50 kHz
50 kHz - 100 kHz
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 10 kHz
10 kHz - 50 kHz
50 kHz - 100 kHz
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 10 kHz
10 kHz - 50 kHz
50 kHz - 100 kHz
2.4 V
Number of shunts Five
Burden Voltage 240mV max.
Protected with 2.5A Fast blow fuse
Accuracy ± (% of reading + Amps) [1]
2.4 mA
24 mA
240 mA
2.4 A
Full Scale
Reading
2.40000 mA
24.0000 mA
240.000 mA
2.40000 A
Res.
10 A
100 A
1 A
10 A
24 hours
23C  5C
0.05 + 300 A
0.05 + 350 A
0.05 + 50 A
0.3 + 60 A
24 V
One Year
23C  5C
0.07 + 550 A
0.08 + 550 A
0.065 + 80 A
0.45 + 90 A
240 V
Resistance Measurements

Number of Current Sources five
Range
240 
2.4 k
24 k
240 k
2.4 M
24 M
Full Scale
Reading
240.00000 
2.4000000 k
24.000000 k
240.00000 k
2.4000000 M
24.0000 M
Resolution
10 
100 
1 m
10 m
100 m
100 
Test
current
1 mA
1 mA
100 A
10 A
1 A
100 nA
Max. Test
Voltage
240mV
2.4V
2.4V
2.4V
2.4V
2.4V
330 V


Accuracy ± (% of reading + ) [1]
24 hours 23C  1C
One Year 23C  5C
240 
2.4 k
24 k
240 k
2.4 M
0.0037 + 3 m [2]
0.0023 + 28 m
0.0025 + 300 m
0.0055 + 3.2 
0.018 + 40 
0.007 + 5 m [2]
0.006 + 33 m
0.006 + 350 m
0.007 + 5 
0.04 + 70 
24 M
0.12 + 400 
0.2 + 600 
100 V
1 V
10 V
100 V
100 V
24 hours
23C  1C
3.0 + 350 V
0.37 + 150 V
0.13 + 100 V
0.25 + 160 V
1.9 + 350 V
3.0 + 2 mV
0.37 + 1.3 mV
0.05 + 1 mV
0.32 + 1.2 mV
1.9 + 1.5 mV
3.0 + 14 mV
0.37 + 12 mV
0.06 + 10 mV
0.18 + 18 mV
1.3 + 30 mV
3.0 + 140 mV
0.37 + 120 mV
0.04 + 100 mV
0.28 + 150 mV
1.4 + 200 mV
3.0 + 200 mV
0.43 + 180 mV
0.07 + 150 mV
0.28 + 200 mV
1.3 + 270 mV
One Year
23C  5C
3.2 + 430 V
0.4 + 200 V
0.15 + 120 V
0.27 + 230 V
2.0 + 400 V
3.2 + 2.5 mV
0.4 + 1.7 mV
0.065 + 1.2 mV
0.35 + 1.5 mV
2.1 + 2 mV
3.3 + 20 mV
0.4 + 16 mV
0.073 + 13 mV
0.22 + 25 mV
1.5 + 40 mV
3.3 + 200 mV
0.4 + 150 mV
0.06 + 130 mV
0.30 + 200 mV
1.6 + 300 mV
3.3 + 200 mV
0.45 + 250 mV
0.09 + 230 mV
0.32 + 300 mV
1.6 + 400 mV
RTD Temperature Measurement
2-Wire and 4-Wire resistance
Range
Resolution
Accuracy ± (% of reading + Volts) [1]
Hz ± 0.5%; better than 95 dB (apertures > 0.160s. CMRR, with 1 k
lead imbalance; > 120 dB.
Range
Lowest specified
Voltage
5 mV [1]
20 mV
200 mV
2V
2.5 V
[1] Between 5 mV and 10 mV, add 100 V additional errors.
6
[2] Signal is limited to 8x10 Volt Hz Product. For instance, at 32 kHz the highest
input is 250 V.
DCV Noise Rejection Normal Mode Rejection, at 50, 60, or 400



Full Scale 7-½
Digits [2]
240.0000 mV
2.400000 V
24.00000 V
240.0000 V
330.0000 V
[1] With Aperture set to ≥ 0.5 Sec, within one hour from Self Calibration (S-Cal).
Ro: Adjustable 2  to 24 k
Measurement Method: 4-Wire
RTD Type
Resolution
range
pt385, pt3911,
pt3916, pt3926
pt385, pt3911,
pt3916, pt3926
Cu (Copper)
0.01C
-150 to 650C
Accuracy 23C  5C [1]
One Year
0.06C
0.01C
-150 to 650C
0.03C
0.01C
-100 to 200C
Cu (Copper)
0.01C
-100 to 200C
0.18C at  20C, 0.05C
otherwise
0.10Cat  20C, 0.05C
otherwise
[1] With Aperture of 0.5s and higher.
2
AC Current Measurement, True RMS
` Factor 4 at Full Scale, 10 at Lowest Specified Current
 Crest


2.4 mA
24 mA
240 mA
2.4 A
Full Scale 6
1/2 Digits
2.400000 mA
24.00000 mA
240.0000 mA
2.400000 A
Lowest
Specified
60 A
300 A
3 mA
30 mA
Max
Burden
25mV
250mV
55mV
520mV
Resolution
1 nA
10 nA
100 nA
1 uA
Accuracy ± (% of reading + Amps)
Range
Frequency [1]
2.4 mA
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 1 kHz
1 kHz - 10 kHz
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 1 kHz
1 kHz - 10 kHz
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 1 kHz
1 kHz - 10 kHz
10 Hz - 20 Hz
20 Hz - 47 Hz
47 Hz - 1 kHz
1 kHz - 10 kHz
24 mA
240 mA
2.4 A
24 hours
23C  1C
3.8 + 4 A
0.9 + 4 A
0.04 + 1.5 A
0.12 + 4 A
1.8 + 30 A
0.6 + 30 A
0.07 + 10 A
0.21 + 30 A
1.8 + 400 A
0.6 + 400 A
0.1 + 100 A
0.3 + 300 A
1.8 + 4 mA
0.66 + 4 mA
0.3 + 3.8mA
0.4 + 4mA
One Year
23C  10C
2.9 + 4 A
1.0 + 4 A
0.12 + 4 A
0.22 + 4 A
2.8 + 30 A
1.0 + 30 A
0.16 + 30 A
0.4 + 40 A
2.8 + 400 A
1.0 + 400 A
0.2 + 220 A
0.4 + 400 A
2.7 + 5 mA
0.9 + 6 mA
0.35 + 4 mA
0.5 + 5 mA
[1] All have typical measurement capability of at least 20 kHz.
Measurement time as low as 200ms (depending on value)
Accuracy ± (% of reading + Farads)
Preset test currents 100 A, 1 A, 10 A, 100 A and 1 mA
1yr Current Source Uncertainty 2.5% + 2
1yr Voltage Measurement Uncertainty 0.01% + 50uV
Voltage measurement range 0V to 2.4V
Thermocouple Temperature Measurement
Cold Junction Compensation: By Sensor or soft entry.
Cold Junction range: 0 oC to 50 oC
Isothermal Blocks: SM40T, SMX40T
C Type
Resolution
B
E
J
K
N
R
S
T
0.01C
0.01C
0.01C
0.01C
0.01C
0.01C
0.01C
0.01C
Maximum
Temperature
2200C
1200C
T2000C
3000C
3000C
2700C
3500C
550C
Range
Full Scale Reading
1,200 pF
12 F
120 F
1.2 F
12 F
120 F
1.2 mF
12 mF
1,199.9 pF
11.999 F
119.99 F
1.1999 F
11.999 F
119.99 F
1.1999 mF
50.000 mF
Resolution
One Year
23C  5C
1 ± 1 pF
1.2 ± 5 pF
1.0 [1]
1.0 [1]
1.0 [1]
1.0 [1]
1.2 [1]
2 [1]
0.1 pF
1 pF
10 pF
100 pF
1 F
10 F
100 F
1 F
[1] Specified for values higher than 5% of the selected range.
Time Measurements
Frequency and Period Measurements




Input Impedance 1 M with < 300 pF
Ranging Auto-Ranging (default) or Range-Lock
Maximum acquisition time while in Auto-Ranging mode 7s
Acquisition Time in Range Locked mode 35ms to 2s
Frequency
(Hz)
1 – 130
130 – 640
640 – 2.5k
2.5k – 40k
40k – 200k
200k – 300k
One Year accuracy
(% of reading + Hz)
Resolution
(Hz)
Minimum amplitued
0.025% + 0.0015
0.025% + 0.02
0.03% + 0.075
0.03% + 1.2
0.05% + 7
0.07% + 5
0.001
0.0065
0.025
0.4
2.5
1.5
30mV or 5% of range,
(whichever is greater)
(RMS)
25% of range
Trigger Functions
Diode Characterization




Burden Voltage 240mV max.
Protected with 2.5 A Fast Blow fuse
Range





Capacitance Measurements
Temperature Accuracy
23C  5C One Year
0.38 C
0.035 C
0.06 C
0.07 C
0.10 C
0.25 C
0.35 C
0.06 C
External Hardware Trigger
Trigger Input voltage level
range (at DIN-7 connector)
Minimum Trigger Pulse
Width
Trigger input impedance
Internal Reading Buffer
Edge
+3 V to +15 V activates the trigger.
Aperture + 50S when using:
3k
Circular; 80 or 120 readings depending on
resolution.
Positive or negative.
PXI Bus Trigger inputs (SMX2060)
Trigger Input voltage level
range
Minimum Trigger Pulse Width
Internal Reading Buffer
Edge
3
CMOS level (see PXI standard)
1/Aperture + 50S
Circular; 80 or 120 readings depending on
resolution.
Selectable positive or negative edge.
s
Analog Threshold Trigger












Relations of Aperture and Time Interval parameters.
Trigger point: Selectable threshold and transition
Buffer type: Circular
Captures: up to 120 post-trigger readings
Aperture range: 160ms to 130S
Read Interval range: 1/Aperture to 65ms
Post-Trigger readings: Selectable from 0 to buffer size.
Pre-trigger readings: Selectable from 0 to buffer size.
 Apertures values: (30) 5s, 2s, 1s, 0.5s, 266ms, 160ms,133ms,
80ms, 66ms, 40ms, 33ms, 20ms, 16.6ms, 10ms, 8.3ms, 5ms,
Delayed Trigger
4.2ms, 2.5ms, 2ms, 1.25ms, 1ms, 625us, 520us, 312us, 260us,
Delay: 50s to 1s following Trigger event.
130us.
Delay Resolution: 1s

Read-Interval range: : 250s to 65s; 1s resolution, 65ms to
Trigger Edge: Positive or Negative
1s; 20s resolution.
Measurements: 1 to 120 stored in DMM’s buffer.
Accessories
Several accessories are available for the SMX2055 DMM. These can be purchased directly from Signametrics, or
one of its approved distributors or representatives. These are some of the accessories available:

DMM probes SM-PRB

DMM probe kit SM-PRK

Deluxe probe kit SM-PRD ($95.00).

Shielded SMT Tweezers Probes SM-PRSMT

Multi Stacking Double Banana shielded cable 36” SM-CBL36.

Multi Stacking Double Banana shielded cable 48” SM-CBL48.

Mini DIN Trigger, 6-Wire Ohms connector SM2060-CON7

Extended 3 Year warrantee (does not include calibration).
Signametrics reserves the rights to change any or all of the above without notice, and at any time.
See manual for more detailed specifications.
4
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