NI TB-4302C Manual
CALIBRATION PROCEDURE
PXIe-4302/4303 and TB-4302C
32 Ch, 24-bit, 5 kS/s or 51.2 kS/s Simultaneous Filtered Data
Acquisition Module
This document contains the verification and adjustment procedure for the National Instruments
PXIe-4302/4303 module and the verification procedure for the National Instruments TB-4302C
terminal block.
Contents
Software.................................................................................................................................... 1
Documentation.......................................................................................................................... 2
PXIe-4302/4303 Verification and Adjustment......................................................................... 3
Test Equipment................................................................................................................. 3
Connecting the TB-4302 .......................................................................................... 4
Test Conditions.................................................................................................................5
Initial Setup....................................................................................................................... 6
Accuracy Verification....................................................................................................... 6
Adjustment........................................................................................................................ 8
EEPROM Update ............................................................................................................. 10
Reverification ................................................................................................................... 10
TB-4302C Verification............................................................................................................. 10
Test Equipment................................................................................................................. 10
Accuracy Verification....................................................................................................... 11
Specifications............................................................................................................................ 14
World Wide Support and Services ........................................................................................... 14
Software
Calibrating the PXIe-4302/4303 requires the installation of NI-DAQmx on the calibration
system. Driver support for calibrating the PXIe-4302/4303 was first available in
NI-DAQmx 15.1. For the list of devices supported by a specific release, refer to the NI-DAQmx
Readme, available on the version-specific download page or installation media.
ni.com/manuals
DeutschFrançais
2|ni.com |PXIe-4302/4303 and TB-4302C Calibration Procedure
You can download NI-DAQmx from ni.com/downloads. NI-DAQmx supports LabVIEW,
LabWindows™/CVI™, C/C++, C#, and Visual Basic .NET. When you install NI-DAQmx, you
only need to install support for the application software that you intend to use.
No other software is required to verify the operation of the TB-4302C.
Documentation
Consult the following documents for information about the PXIe-4302/4303, NI-DAQmx, and
your application software. All documents are available on ni.com, and help files install with
the software.
NI PXIe-4302/4303 and TB-4302/4302C User Guide and Terminal Block Specifications
NI-DAQmx driver software installation and hardware setup.
NI PXIe-4302/4303 User Manual
PXIe-4302/4303 usage and reference information.
NI PXIe-4302/4303 Specifications
PXIe-4302/4303 specifications and calibration interval.
NI-DAQmx Readme
Operating system and application software support in NI-DAQmx.
NI-DAQmx Help
Information about creating applications that use the NI-DAQmx driver.
LabVIEW Help
LabVIEW programming concepts and reference information about NI-DAQmx VIs and
functions.
NI-DAQmx C Reference Help
Reference information for NI-DAQmx C functions and NI-DAQmx C properties.
NI-DAQmx .NET Help Support for Visual Studio
Reference information for NI-DAQmx .NET methods and NI-DAQmx .NET properties, key
concepts, and a C enum to .NET enum mapping table.
PXIe-4302/4303 and TB-4302C Calibration Procedure |© National Instruments |3
PXIe-4302/4303 Verification and Adjustment
This section provides information for verifying and adjusting the PXIe-4302/4303.
Test Equipment
Table 1 lists the equipment recommended for the performance verification and adjustment
procedures of the PXIe-4302/4303. If the recommended equipment is not available, select a
substitute using the requirements listed in Table 1.
Table 1. Recommended Equipment for PXIe-4302/4303 Verification and Adjustment
Equipment Recommended Model Requirements
DMM PXI-4071 Use a DMM that has an
accuracy of 13 ppm or better
when measuring the 10 V
range, an accuracy of
30 ppm or better when
measuring the 100 mV
range, and an offset error of
0.8 V or better at 0 V.
PXI Express Chassis PXIe-1062Q If this chassis is unavailable,
use another PXI Express
chassis, such as the
PXIe-1082 or PXIe-1078.
Connection Accessory TB-4302 —
SMU PXIe-4139 Noise (0.1 Hz to 10 Hz, peak
to peak) is 60 V or better at
10 V.
Noise (0.1 Hz to 10 Hz, peak
to peak) is 2 V or better at
100 mV.
4|ni.com |PXIe-4302/4303 and TB-4302C Calibration Procedure
Connecting the TB-4302
The TB-4302 provides connections for the PXIe-4302/4303. Figure 1 shows the pin assignments
of the TB-4302.
Figure 1. TB-4302 Circuit Board Parts Locator Diagram
Each channel consists of two terminal connections specific to that channel as shown in Table 2.
You can verify or adjust the accuracy for any or all channels depending on the desired test
coverage. Refer to Figure 2 and only connect the input channels required for verification or
adjustment in parallel.
Refer to Table 2 for the analog signal names of the TB-4302.
Complete the following steps to connect the TB-4302.
1. Install the PXIe-4302/4303 and the TB-4302 in the PXI Express chassis according to the
instructions in the NI PXIe-4302/4303 and TB-4302/4302C User Guide and Terminal
Block Specifications.
2. Configure the PXIe-4139 to voltage output mode and enable remote sensing. Connect the
PXIe-4139 output to the TB-4302 as shown in Figure 2.
Table 2. TB-4302 Analog Signal Names
Signal Name Signal Description
AI+ Positive input voltage terminal
AI- Negative input voltage terminal
AIGND Analog ground input
U7
AI3-
AI3+
AI2+
AI4+
AI4-
AI5-
AI7-
AI7+
AI6-
AI6+
AI5+
AI0+
AI0-
AI1-
AI2+
AI1+
AI9+
AI9-
AI10+
AI13+
AI13-
AI14+
AI15+
AI15-
AI14-
AI12+
AI11+
AI10-
AI8+
AI11-
AI8-
AI12-
AI7+
AI7-
AI18+
AI21+
AI21-
AI22+
AI23+
AI23-
AI22-
AI20+
AI19+
AI18-
AI6+
AI19-
AI6-
AI20-
AI5+
AI5-
AI16+
AI29+
AI29-
AI30+
AI31+
AI31-
AI30-
AI28+
AI17+
AI16-
AI4+
AI17-
AI4-
AI28-
FOR PATENTS: NI.COM/PATENTS
NI TB-4302
S/N
158016B-01L
COPYRIGHT 2015
UL94V-0
AIGND AIGND
AIGND AIGND
J21J4188
J5
J3
J6 J8
J9
J7
J10 J121818
8181
U6
U5
CR3
AIGND AIGND
AIGND AIGND
J15
J17
J11 J13 J18
J16J14
8181
U2
R2
U3
C1
U1
C3
C5
C2
R1
R5 R6 R4
R7
R8
R3
CR1
U4
C6
CR2
C4
PFI0
DGND
PXIe-4302/4303 and TB-4302C Calibration Procedure |© National Instruments |5
3. Use two 10 kresistors with 1% or better tolerance to build a voltage divider to bias the
PXIe-4139 output and set the common-mode input of the PXIe-4302/4303 to zero volts.
Connect one resistor between AI+ and AIGND and the other between AI- and AIGND as
shown in Figure 2.
4. Connect the PXI-4071 to measure the differential voltage across the TB-4302 AI+ and AI-
terminals. A detailed wiring diagram is shown in Figure 2.
Figure 2. Connecting the TB-4302
Test Conditions
The following setup and environmental conditions are required to ensure the PXIe-4302/4303
meets published specifications.
• Keep connections to the PXIe-4302/4303 as short as possible. Long cables and wires act as
antennas, picking up extra noise that can affect measurements.
• Verify that all connections to the TB-4302 are secure.
• Use shielded copper wire for all cable connections to the TB-4302. Use twisted-pair wire
to eliminate noise and thermal offsets.
• Maintain an ambient temperature of 23 °C ±5 °C. The PXIe-4302/4303 temperature will be
greater than the ambient temperature.
• Keep relative humidity below 80%.
• Allow a warm-up time of at least 15 minutes to ensure that the PXIe-4302/4303
measurement circuitry is at a stable operating temperature.
• Ensure that the PXI/PXI Express chassis fan speed is set to HIGH, that the fan filters are
clean, and that the empty slots contain filler panels. For more information, refer to the
Maintain Forced-Air Cooling Note to Users document available at ni.com/manuals.
4071
4139
HI
LO
SENSE HI
SENSE LO
HI
LO
AI0+
AI0–
AI1+
AI1–
AI31+
AI31–
10 k
Ω
10 k
Ω
TB-4302
6|ni.com |PXIe-4302/4303 and TB-4302C Calibration Procedure
Initial Setup
Refer to the NI PXIe-4302/4303 and TB-4302/4302C Installation Guide and Terminal Block
Specifications for information about how to install the software and hardware and how to
configure the device in Measurement & Automation Explorer (MAX).
Note When a device is configured in MAX, it is assigned a device identifier. Each
function call uses this identifier to determine which DAQ device to verify or to verify
and adjust. This document uses Dev1 to refer to the device name. In the following
procedures, use the device name as it appears in MAX.
Accuracy Verification
The following performance verification procedures describe the sequence of operations and
provides the test points required to verify the PXIe-4302/4303. The verification procedures
assume that adequate traceable uncertainties are available for the calibration references.
The PXIe-4302/4303 has 32 independent analog input channels. The input range of each channel
can be set to 10 V or 100 mV. You can verify the accuracy of either range for any or all of the
channels depending upon your desired test coverage.
Complete the following steps to verify the voltage mode accuracy of the PXIe-4302/4303.
1. Set the PXIe-4139 voltage output to zero volts.
2. Connect the PXIe-4139 and PXI-4071 to the TB-4302 as shown in Figure 2.
3. Use Table 3 to configure the PXIe-4139 to output a Test Point value for the appropriate
range shown in Table 6, beginning with the values in the first row.
Table 3. PXIe-4139 Voltage Output Setup
Configuration Value
Function Voltage output
Sense Remote
Range 600 mV range for test points less than 100 mV
60 V range for all other test points
Current Limit 20 mA
Current Limit Range 200 mA
PXIe-4302/4303 and TB-4302C Calibration Procedure |© National Instruments |7
4. Refer to Table 4 to configure the PXI-4071 and acquire a voltage measurement.
5. Acquire a voltage measurement with the PXIe-4302/4303.
a. Create a DAQmx task.
b. Create and configure the AI channel according to the values shown in Table 5.
c. Start the task.
d. Average the readings that you acquired.
Table 4. PXI-4071 Voltage Measurement Setup
Configuration Value
Function DC measurement
Range 1 V range for test points less than 100 mV.
10 V range for all other test points.
Digital Resolution 7.5 digits
Aperture Time 100 ms
Autozero On
ADC Calibration On
Input Impedance > 10 G
DC Noise Rejection High Order
Number of Averages 1
Power Line Frequency Dependent upon the local power line characteristics.
Table 5. AI Voltage Mode Setup
Configuration Value
Channel Name Dev1/aix, where xrefers to the channel number
Task AI voltage
Sample Mode Finite samples
Sample Clock Rate 5000
Samples per Channel 5000
Maximum Value Appropriate maximum range value from Table 6
Minimum Value Appropriate minimum range value from Table 6
Units Vo l t s
8|ni.com |PXIe-4302/4303 and TB-4302C Calibration Procedure
e. Clear the task.
f. Compare the resulting average to the Lower Limit and Upper Limit values in Table 6.
If the result is between these values, the device passes the test.
6. For each value in Table 6, repeat steps 3 through 5 for all channels.
7. Set the PXIe-4139 output to be zero volts.
8. Disconnect the PXIe-4139 and PXI-4071 from the TB-4302.
Adjustment
The following performance adjustment procedure describes the sequence of operations required
to adjust the PXIe-4302/4203.
Complete the following steps to adjust the accuracy of the PXIe-4302/4203.
1. Set the PXIe-4139 output to be zero volts.
2. Connect the PXIe-4139 and PXI-4071 to the TB-4302 as shown in Figure 2.
3. Call the DAQmx Initialize External Calibration function with the following parameters:
Device In: Dev1
Password: NI1
4. Call the 4302/4303 instance of the DAQmx Setup SC Express Calibration function with the
following parameters:
calhandle in: calhandle output from DAQmx Initialize External Calibration
rangeMax: Appropriate Range Max starting with the value in the first row of Table 7
rangeMin: Appropriate Range Min starting with the value in the first row of Table 7
physical channels: dev1/ai0:31
Table 6. Voltage Measurement Accuracy Limits
Range (V) Test
Point (V) Lower Limit (V) Upper Limit (V)Minimum Maximum
-0.1 0.1 -0.095 DMM Reading - 0.0007 V DMM Reading + 0.0007 V
-0.1 0.1 0DMM Reading - 0.000029 V DMM Reading + 0.000029 V
-0.1 0.1 0.095 DMM Reading - 0.0007 V DMM Reading + 0.0007 V
-10 10 -9.5 DMM Reading - 0.004207 V DMM Reading + 0.004207 V
-10 10 0DMM Reading - 0.001262 V DMM Reading + 0.001262 V
-10 10 9.5 DMM Reading - 0.004207 V DMM Reading + 0.004207 V
1 The default password is NI, which can be changed. Refer to the NI-DAQmx Help for details.
PXIe-4302/4303 and TB-4302C Calibration Procedure |© National Instruments |9
5. Refer to Table 3 to configure the PXIe-4139. Set the PXIe-4139 output equal to the first
Test Point for the corresponding range in Table 7 that was configured in step 4.
6. Enable the PXIe-4139 output.
7. Refer to Table 4 to configure the PXI-4071 and acquire a voltage measurement.
8. Call the 4302/4303 instance of the DAQmx Adjust SC Express Calibration function with
the following parameters:
calhandle in: calhandle output from DAQmx Initialize External Calibration reference
voltage: DMM measurement value from step 7
9. Repeat steps 5 through 8 for the remaining Test Point values from Table 7 for the
corresponding range that was configured in step 4.
10. Repeat steps 4 through 9 for the remaining ranges from Table 7.
11. Call the 4302/4303 instance of the DAQmx Adjust SC Express Calibration function with
the following parameters:
calhandle in: calhandle output from DAQmx Initialize External Calibration
action: commit
Table 7. Voltage Mode Adjustment Test Points
Range (V)
Test Points (V)Max Min
0.1 -0.1 -0.09
-0.06
-0.03
0
0.03
0.06
0.09
10 -10 -9
-6
-3
0
3
6
9
10 |ni.com |PXIe-4302/4303 and TB-4302C Calibration Procedure
EEPROM Update
When an adjustment procedure is completed, the PXIe-4302/4303 internal calibration memory
(EEPROM) is immediately updated.
If you do not want to perform an adjustment, you can update the calibration date without making
any adjustments by initializing an external calibration and closing the external calibration.
Reverification
Repeat the Accuracy Verification section to determine the As-Left status of the device.
Note If any test fails Reverification after performing an adjustment, verify that you
have met the Test Conditions before returning your device to NI. Refer to World Wide
Support and Services for assistance in returning the device to NI.
TB-4302C Verification
This section provides information for verifying the performance of the TB-4302C.
Test Equipment
Table 8 lists the equipment recommended for verifying the shunt value of the TB-4302C. If the
recommended equipment is not available, select a substitute using the requirements listed in
Table 8.
Table 8. Recommended Equipment for PXIe-4302/4303 Verification and Adjustment
Equipment Recommended Model Requirements
DMM PXI-4071 Use a DMM with an
accuracy of 136 ppm or
better when measuring 5 Ω
in 4-wire mode.
PXIe-4302/4303 and TB-4302C Calibration Procedure |© National Instruments |11
Accuracy Verification
The TB-4302C has a total of 32, 5 shunt resistors, one for each channel. The reference
designators of the shunt resistors range from R10 to R41 as shown in Figure 3.
Figure 3. TB-4302C Circuit Board Shunt Resistor Locator Diagram
1 R10, R11, R12, R13, R14, R15, R16, R17
(Bottom to Top)
2 R21, R20, R19, R18, R25, R24, R23, R22
(Bottom to Top)
3 R26, R27, R28, R29, R30, R31, R32, R33
(Bottom to Top)
4 R37, R36, R35, R34, R41, R40, R39, R38
(Bottom to Top)
FOR PATENTS: NI.COM/PATENTS
AI3
VSUP
AI2
VSUP
AI4
AI5
AI7
VSUP
AI6
VSUP
VSUP
VSUP
AI0
AI1
VSUP
VSUP
AI2
VSUP
AI1
VSUP
AI3
AI4
AI15
VSUP
AI8
VSUP
VSUP
VSUP
A9
AI0
VSUP
VSUP
AI19
VSUP
AI18
VSUP
AI20
AI21
AI23
VSUP
AI22
VSUP
VSUP
VSUP
AI16
AI17
VSUP
VSUP
AI28
VSUP
AI27
VSUP
AI29
AI30
AI31
VSUP
AI24
VSUP
VSUP
VSUP
A25
AI26
VSUP
VSUP
S/N
158141A-01L
NI TB-4302C
GND
PFI0
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AISENSE
AIGND
AISENSE
VSUP
J2 J4
J3 J7 J5 J9
J21
J19 J10
J6
J15 J11 J17
U9 U11 U10 J12
J8
J13 J18
J14
CR3
R37
RT28
R36
RT27
R35
RT26
R34
RT25
R41
RT32
R40
RT31
R39
RT30
R38
RT29
RT17
R26
RT18
R27
RT19
R28
RT20
R29
RT21
R30
RT24
R33
RT23
R32
RT22
R31
RT1
R10
RT2
R11
RT3
R12
RT4
R13
RT5
R14
RT6
R15
RT7
R16
RT8
R17
R24
RT15
R23
RT14
R22
RT13
R19 R18 R25
RT10 RT9
R21 R20
RT12 RT11 RT 16
C6
C5
C3
C1
C2
U3
U2
R3
R1
R6
R5 R4
U4
R7
R8
CR1
U1
R2
C4
CR2
818 1
8
1
8
1
8
1
8
1
8
1118
J1
C1 B1 A1
COPYRIGHT 2014
1234
12 |ni.com |PXIe-4302/4303 and TB-4302C Calibration Procedure
Table 9 shows the correlation between the AI channels and the shunt reference designators.
Table 9. Channel to Shunt Reference Designator Correlation
Channel Shunt Reference Designator
CH0 R10
CH1 R11
CH2 R12
CH3 R13
CH4 R14
CH5 R15
CH6 R16
CH7 R17
CH8 R21
CH9 R20
CH10 R19
CH11 R18
CH12 R25
CH13 R24
CH14 R23
CH15 R22
CH16 R26
CH17 R27
CH18 R28
CH19 R29
CH20 R30
CH21 R31
CH22 R32
CH23 R33
CH24 R37
CH25 R36
CH26 R35
CH27 R34
CH28 R41
CH29 R40
CH30 R39
CH31 R38
PXIe-4302/4303 and TB-4302C Calibration Procedure |© National Instruments |13
The following performance verification procedure describes the sequence of operations to verify
the shunt values of the TB-4302C.
1. Open the TB-4302C enclosure.
2. Configure the PXI-4071 for 4-wire resistance measurement mode as shown in Table 10.
3. Locate R10 on the TB-4302C. Refer to Figure 3.
4. Hold the HI and HI_SENSE probes of the PXI-4071 to one pad of R10 and hold the LO and
LO_SENSE probes to the other pad of R10.
5. Acquire a resistance measurement with the PXI-4071.
6. Compare the results to the Lower Limit and Upper Limit values in Table 11. If the results
are between these values, the device passes the test.
7. Repeat steps 3 through 6 for all other 5 shunt resistors.
Note If the TB-4302C fails verification, refer to World Wide Support and Services
for assistance in returning the terminal block to NI.
Table 10. PXI-4071 Voltage Measurement Setup
Configuration Value
Function 4-wire resistance measurement
Range 100
Digital Resolution 7.5
Aperture Time 100 ms
Autozero On
ADC Calibration On
Input Impedance > 10 G
DC Noise Rejection High order
Number of Averages 1
Power Line Frequency Dependent upon the local power line characteristics.
Offset Compensated Ohms On
Table 11. 5 Shunt Accuracy Limit
Nominal Upper Limit Lower Limit
5 5.025 4.975
© 2015 National Instruments. All rights reserved.
377005A-01 Sep15
Refer to the NI Trademarks and Logo Guidelines at ni.com/trademarks for more information on National Instruments trademarks. Other
product and company names mentioned herein are trademarks or trade names of their respective companies. For patents covering National
Instruments products/technology, refer to the appropriate location: Help»Patents in your software, the patents.txt file on your media, or the
National Instruments Patents Notice at ni.com/patents. You can find information about end-user license agreements (EULAs) and third-party
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NO EXPRESS OR IMPLIED WARRANTIES AS TO THE ACCURACY OF THE INFORMATION CONTAINED HEREIN AND SHALL NOT BE LIABLE FOR
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Specifications
Refer to the NI PXIe-4302/4303 Specifications document for detailed PXIe-4302/4303
specification information.
Refer to the NI PXIe-4302/4303 and TB-4302/4302C User Guide and Terminal Block
Specifications document for detailed TB-4302C specification information.
World Wide Support and Services
The National Instruments website is your complete resource for technical support. At ni.com/
support you have access to everything from troubleshooting and application development
self-help resources to email and phone assistance from NI Application Engineers.
Visit ni.com/services for NI Factory Installation Services, repairs, extended warranty, and
other services.
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facilitates technical support and ensures that you receive important information updates from NI.
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