SCXI-1314 Terminal Block Calibration Procedure

CALIBRATION PROCEDURE
SCXI™-1314 TERMINAL BLOCK
Introduction
This document contains information and step-by-step instructions for
verifying the value of the shunt-calibration resistors, the value of the
quarter-bridge resistors, and the performance of the temperature sensor on
the National Instruments SCXI-1314 terminal block.
What Is Calibration?
Calibration consists of determining the measurement accuracy of a device
and correcting for the measurement error. For SCXI-1314 terminal blocks,
calibration is simply determining the measurement accuracy of the
components on the terminal block. Because these components are not
user-adjustable, calibration consists of a verification procedure only.
Why Should You Calibrate?
Electronic components drift with time and temperature, which could
invalidate the factory-set specifications of the device. Calibration ensures
your SCXI-1314 terminal block still meets National Instruments standards
for accuracy. If the results of the verification procedure indicate that your
terminal block is out of specification, contact National Instruments for a
replacement component.
How Often Should You Calibrate?
The measurement accuracy requirements of your application determine
how often you should calibrate your SCXI-1314 terminal block.
National Instruments recommends you verify your terminal block at least
once every year. You can shorten this interval to six months or 90 days,
based on the demands of your application.
National Instruments™, ni.com™, and SCXI ™ are trademarks of National Instruments Corporation. Product and company names mentioned herein are
trademarks or trade names of their respective companies.
370288A-01
© Copyright 2000 National Instruments Corp. All rights reserved.
September 2000
Equipment and Other Test Requirements
This section describes the equipment, software, documentation, and test
conditions required for verifying the operation of your terminal block.
Test Equipment
Verification requires a high-precision voltage source with at least 50 ppm
accuracy and a multiranging 5 1/2 digit digital multimeter (DMM) with
15 ppm accuracy. If you will be verifying a temperature sensor, you will
also need a thermometer that is accurate to within 0.5 °C.
National Instruments recommends you use the following instruments for
verifying your SCXI-1314 terminal block:
•
Calibrator—Fluke 5700A
•
DMM—NI 4060 or HP 34401A
If these instruments are not available, use the accuracy requirements listed
above to select a substitute calibration standard.
Software and Documentation
No software or other documentation is required to verify the operation
of the SCXI-1314. You can find all the necessary information in this
calibration procedure. However, if you would like more information on
the product, refer to the SCXI-1314 Universal Strain Terminal Block
Installation Guide.
Test Conditions
Follow these guidelines to optimize the connections and the environment
during verification:
•
Keep connections to the SCXI-1314 terminal block short. Long cables
and wires act as antennae, picking up extra noise that can affect
measurements.
•
Use shielded copper wire for all cable connections to the device.
Use twisted-pair wire to eliminate noise and thermal offsets.
•
Keep relative humidity below 80%.
•
Maintain a temperature between 15 and 35 °C.
SCXI-1314 Terminal Block Calibration Procedure
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Verification
This section contains step-by-step instructions for verifying the value of the
shunt-calibration and quarter-bridge resistors of your SCXI-1314 terminal
block. It also contains instructions for verifying the performance of the
temperature sensor for those terminal blocks that have a temperature
sensor.
Verifying the Value of the Shunt-Calibration Resistors
To verify the value of the shunt-calibration resistors in your SCXI-1314
terminal block, complete the following steps:
1.
Open the terminal block enclosure by removing the side cover.
2.
Refer to Figure 1 at the end of this document to locate the SCA and
SCB resistors on the printed circuit board. SCA and SCB resistors are
socketed resistors used for shunt calibration. The SCXI-1314 terminal
block comes with a 100 kΩ, 0.1% tolerance resistor installed.
However, you can replace this resistor with another one having
different resistance or tolerance values. If this resistor is not a 100 kΩ,
0.1% tolerance resistor, modify the formulas in step 4 by replacing the
resistance and tolerance values with the corresponding values from
your resistor.
3.
Using a calibrated DMM, measure the resistance of the SCA for
channel 0.
4.
Determine if the value of the shunt-calibration resistor meets these
specifications:
5.
•
If 100 kΩ –{0.001× 100 kΩ} ≤ SCA ≤ 100 kΩ + {0.001 ×
100 kΩ}, the shunt-calibration resistor value meets its
specifications.
•
If SCA < 100 kΩ −{0.001 × 100 kΩ}, the shunt-calibration
resistor is out of specification. Contact National Instruments to
obtain a replacement resistor.
•
If SCA > 100 kΩ + {0.001 × 100 kΩ}, the shunt-calibration
resistor is out of specification. Contact National Instruments to
obtain a replacement resistor.
Repeat steps 3 and 4 for the remaining shunt-calibration resistors:
•
SCA for channels 1 through 7
•
SCB for channels 0 through 7
You have completed verifying the value of the shunt-calibration resistors on
the SCXI-1314 terminal block.
© National Instruments Corporation
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SCXI-1314 Terminal Block Calibration Procedure
Verifying the Value of the Quarter-Bridge Resistors
To verify the value of the quarter-bridge resistors on your SCXI-1314
terminal block, complete the following steps:
1.
Remove the side cover of the terminal block if you have not already
done so.
2.
Refer to Figure 1 to locate the QTR for channel 0 on the printed circuit
board. A QTR is a socketed resistor used for quarter-bridge
completion. SCXI-1314 terminal blocks come with a 350 Ω, 0.1%
tolerance resistor installed. However, you can replace this resistor with
another one having different resistance or tolerance values. If the QTR
for channel 0 is not a 350 Ω, 0.1% tolerance resistor, modify the
formulas in step 4 by replacing the resistance and tolerance values with
the corresponding values from your resistor.
3.
Using the 4-wire mode of a calibrated DMM, measure the resistance
of the QTR for channel 0.
4.
Determine if the value of the quarter-bridge resistor meets these
specifications:
5.
•
If 350 Ω − {0.001× 350 Ω} ≤ QTR ≤ 350 Ω + {0.001 × 350 Ω},
the quarter-bridge resistor value meets its specifications.
•
If QTR < 350 Ω − {0.001 × 350 Ω}, the quarter-bridge resistor
is out of specification. Contact National Instruments to obtain a
replacement resistor.
•
If QTR > 350 Ω + {0.001 × 350 Ω}, the quarter-bridge resistor
is out of specification. Contact National Instruments to obtain a
replacement resistor.
Repeat steps 3 and 4 for the QTR resistors for channels 1 through 7.
You have completed verifying the quarter-bridge resistors on the
SCXI-1314 terminal block. If your terminal block does not contain a
temperature sensor, you have completed all calibration verification
procedures for your device. If your terminal block contains a temperature
sensor, go on to the next section, Verifying Temperature Sensor
Performance.
SCXI-1314 Terminal Block Calibration Procedure
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Verifying Temperature Sensor Performance
If your SCXI-1314 terminal block has Q1 loaded, it contains a temperature
sensor. Complete the following steps to verify the performance of the
temperature sensor:
1.
Connect a +5 VDC power source to the terminal block.
a.
Hold the terminal block vertically upright and view it from the
rear. The terminals on the 96-pin DIN connector are designated
as follows for the purposes of this procedure:
–
Column A is on the right, Column B is in the middle,
and Column C is on the left.
–
Row 1 is at the bottom and Row 32 is at the top.
Individual pins are identified by their column and row.
For example, “A3” denotes the terminal located in Column A
and Row 3. This corresponds to the labeling of the pins on the
front connector of a matching SCXI module. It does not
necessarily correspond to the labeling of the pins on the rear of
the terminal block connector itself, which you can only view by
opening the terminal block enclosure.
2.
3.
© National Instruments Corporation
b.
Strip 0.5 in. of insulation from one end of a 22 AWG solid wire.
Insert the stripped end of the wire into terminal A1 on the 96-pin
female DIN connector on the rear of the terminal block. Attach
the other end of this wire to the positive terminal of the +5 VDC
power supply.
c.
Strip 0.5 in. of insulation from one end of a 22 AWG solid wire.
Insert the stripped end of the wire into terminal A2 on the 96-pin
female DIN connector on the rear of the terminal block. Attach the
other end of this wire to the negative terminal of the +5 VDC
power supply.
Connect a calibrated DMM to the temperature-sensor output of the
terminal block.
a.
Strip 0.5 in. of insulation from one end of a 22 AWG solid wire.
Insert the stripped end of the wire into terminal A3 on the 96-pin
female DIN connector on the rear of the terminal block. Attach
the other end of this wire to the positive input terminal of the
calibrated DMM.
b.
Connect the negative input terminal of the calibrated DMM to the
negative terminal of the +5 VDC power supply.
Place the terminal block in a temperature-controlled environment
where the temperature is between 15 and 35 °C.
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SCXI-1314 Terminal Block Calibration Procedure
4.
When the terminal block temperature equilibrates with its
surroundings, measure the temperature sensor output Vmeas using a
calibrated DMM.
5.
Measure the actual temperature Tact in the temperature-controlled
environment using a thermometer calibrated to within 0.5 °C accuracy.
6.
Convert Vmeas (in volts) to measured temperature Tmeas (in degrees
Celsius) by multiplying Vmeas by 100.
7.
Compare Tact to Tmeas.
•
If (Tmeas − 0.9 °C) ≤ Tact ≤ (Tmeas + 0.9 °C), the temperature
sensor operation has been verified.
•
If Tact < (Tmeas − 0.9 °C), the temperature sensor is nonfunctional.
Contact National Instruments for a replacement sensor.
•
If Tact > (Tmeas + 0.9 °C), the temperature sensor is nonfunctional.
Contact National Instruments for a replacement sensor.
You have completed verifying the temperature sensor on the SCXI-1314
terminal block.
SCXI-1314 Terminal Block Calibration Procedure
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SCXI-1314 Printed Circuit Board Diagram
The following illustration shows the locations of the SCA and SCB
resistors, the quarter-bridge resistors, and channels 0 through 7 of the
SCXI-1314 terminal block.
Screw Terminal and Associated Resistors for CH0 through CH7
R1
C2
R3
C3
J1
CH3
CH4
SCB
QTR
SCA
QTR
SCA
QTR
CH5
J9
SCB
J8
SCB
SCB
SCA
QTR
FRONT
SCB
FRONT
QTR
SCA
SCB
FRONT
QTR
SCA
SCB
FRONT
SCA
QTR
SCA
CH2
SCB
SCB
SCB
SCB
SCA
SCA
SCA
SCA
P–
P–
P+
P+
QTR
QTR
S+
S+
S–
S–
RS+
RS+
RS–
RS–
SCXI-1314
J7
FRONT
CH1
J6
FRONT
CH0
J5
FRONT
Quarter-Bridge
Resistors
J4
FRONT
SCA Resistors
QTR
SCB Resistors
J3
SCB
J2
Q1
R4
RPJ
CH6
SCA
R2
CH7
STRAIN GAUGE
S/N
UJ
ASSY187212A-01
Figure 1. SCXI-1314 Shunt-Calibration Resistors and Quarter-Bridge Resistors
© National Instruments Corporation
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SCXI-1314 Terminal Block Calibration Procedure