National Instruments Car Stereo System SCXI 1125 User Manual

CALIBRATION PROCEDURE

™

SCXI -1125

Introduction

This document contains information and step-by-step instructions for

verifying and calibrating the National Instruments SCXI-1125 signal

conditioning module.

What Is Calibration?

Calibration is a procedure of reading offset and gain errors from a device

and updating special analog calibration circuitry that corrects these errors.

National Instruments calibrates every SCXI-1125 module at the factory.

During the factory calibration process, the calibration constants are stored

in the non-volatile memory of the device. These values are loaded from

memory and used as needed by the device.

Why Should You Calibrate?

Offset and gain errors drift with time and temperature changes, which could

invalidate the factory-set calibration of a device and increase measurement

uncertainty. Calibration restores the device to its specified accuracy.

How Often Should You Calibrate?

The measurement accuracy requirements of your application

determine how often you should calibrate your SCXI-1125 module.

National Instruments recommends you perform a complete calibration

at least once every year. You can shorten this interval to six months or

90 days, based on the demands of your application.

CVI^™, LabVIEW^™, National Instruments^™, ni.com^™, NI-DAQ^™, and SCXI^™are trademarks of National Instruments Corporation. Product and company

names mentioned herein are trademarks or trade names of their respective companies.

370271A-01

December 2000

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Documentation

The NI-DAQ Function Reference Online Help file and NI-DAQ User

Manual for PC Compatibles contain detailed information on using the

NI-DAQ driver. The function reference online help file includes detailed

information on the driver functions. You can access the online help by

clicking Start»Programs»National Instruments DAQ»NI-DAQ Help.

The user manual provides instructions on installing and configuring

National Instruments DAQ devices. This manual also includes detailed

information on creating applications that use the NI-DAQ driver. These are

your primary references for writing your calibration utility. For further

information on the products you are calibrating, refer to your device user

manuals.

Test Conditions

Follow these guidelines to optimize the connections and the environment

during calibration:

•

Keep connections to the SCXI module short. Long cables and wires act

as antennae, picking up extra noise and thermal offsets 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.

•

Maintain the temperature between 18 and 28 °C.

Keep relative humidity below 80%.

Allow a warm-up time of at least 15 minutes for the SCXI module and

30 minutes for the E Series device to ensure the measurement circuitry

is at a stable operating temperature.

Calibration

The calibration process consists of the following steps:

1. Setting up the device for testing.

2. Verifying the existing operation of the device to determine whether it

is operating within its specifications.

3. Adjusting the device with respect to a known voltage source.

4. Verifying that the device is operating within its specifications after

adjustments.

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Setting Up Your Module

Complete the following steps to set up your module for testing:

1. Install the SCXI-1125 in slot 1 of the SCXI chassis.

2. Connect a 68-to-68-pin cable between the SCXI module and the

E Series DAQ device installed in the host computer.

3. Configure the hardware with Measurement & Automation Explorer

(MAX). For more information on configuring the system, refer to the

E Series device and SCXI module documentation.

Verifying Gain and Offset Errors

The verification procedure determines how well the SCXI-1125 module is

meeting its specifications. You can use this information to select the

appropriate calibration interval for your application.

Complete the following steps to verify gain and offset errors in the

SCXI-1125:

1. Read the Test Conditions section earlier in this document.

2. Refer to the specifications in Table 1 at the end of this document.

3. Connect the E Series device to the SCXI-1125.

4. Call Calibrate_E_Seriesto minimize the uncertainty associated

with the E Series device measurements. Set the following parameters:

•

deviceNumber—The value assigned by MAX

calOp—ND_SELF_CALIBRATE

setOfCalConstants—ND_USER_EEPROM_AREA

calRefVolts—0.0

5. Call AI_Configureto put the E Series device in bipolar mode. Set the

following parameters:

•

deviceNumber—The value assigned by MAX

chan—0

inputMode—0

inputRange—0

polarity—0

driveAIS—0

6. Call MIO_Configto enable dithering on the E Series device. Set the

following parameters:

•

deviceNumber—The value assigned by MAX

dither—1

useAMUX—0

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7. Connect the calibrator to the appropriate analog input, starting

with channel 0. Refer to Figure 1 to determine which pins on the

96-pin front connector correspond to the positive and negative inputs

of the specified channel. For example, the positive input for channel 0

(CH0+) is pin A32. The negative input for channel 0 (CH0–) is pin

C32. If you are using an SCXI-1320 terminal block connected to the

SCXI-1125, connect the calibrator to the CH0+ and CH0– inputs.

8. Call SCXI_Single_Chan_Setupto configure the module for

single-channel measurements. Set the following parameters:

•

SCXIchassisID—The value assigned by MAX

moduleSlot—1

moduleChan—The same channel number from step 7

DAQdeviceNumber—The device number assigned by MAX for

the E Series DAQ device

9. Call SCXI_Set_Gainto set the gain you want to test on the module.

Set the following parameters:

•

SCXIchassisID—The ID obtained when the chassis is configured

with MAX

•

moduleSlot—1

channel—The channel number from step 7

gain—The first gain value you want to test—you can find this

gain value in Table 1.

10. Call SCXI_Configure_Filterto configure the filter setting on the

module. Set the following parameters:

•

SCXIchassisID—The ID obtained when the chassis is configured

with MAX

•

moduleSlot—1

channel—The channel number from step 7

filterMode—1

cutoffFrequency—10,000

11. Set the calibrator to output the test point voltage from Table 1.

12. Call DAQ_Op. Set the following parameters:

•

deviceNumber—The device number of the DAQ device

channel—0

gain—1 for 16-bit E Series devices or –1 for 12-bit E Series

devices

•

count—5,000

sampleRate—10,000

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13. Call SCXI_Scale. Set the following parameters:

•

SCXIChassisID—The value assigned by MAX

moduleSlot—1

channel—The same channel number from step 7

SCXIgain—The same gain value from step 9

TBgain—1

DAQboard—The device number for the DAQ device

DAQChannel—0

DAQgain—1 for 16-bit devices, –1 for 12-bit devices

numPoints—5.000

binArray—The array returned from the DAQ_Opfunction

The result is a set of scaled voltages that you read from the SCXI

module.

14. Average the results returned from the SCXI_Scalefunction. Compare

the averaged result to the upper and lower limits in Table 1. If the result

falls within these limits, your module has passed this portion of the

test. If it does not, your module needs to be adjusted using the steps in

the next section, Adjusting for Gain and Offset Errors.

15. Repeat steps 8 through 14 for the remaining gains.

16. Repeat steps 7 through 15 for the remaining channels.

You have now finished verifying your SCXI-1125.

Note If all channels fall within the upper and lower limits, your device does not need to

be adjusted.

Adjusting for Gain and Offset Errors

The following two sections explain how to determine the gain and offset

errors of your SCXI-1125 and how to adjust the calibration constants to

correct for these errors.

Determining Gain and Offset Errors

Complete the following steps to determine the gain and offset errors of the

SCXI-1125:

1. Read the Test Conditions section.

2. Connect the E Series device to the SCXI-1125.

3. Call Calibrate_E_Seriesto minimize the uncertainty associated

with the E series device measurements. Set the following parameters:

•

deviceNumber—The value assigned by MAX

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•

calOp—ND_SELF_CALIBRATE

setOfCalConstants—ND_USER_EEPROM_AREA

calRefVolts—0.0

4. Call AI_Configureto put the E Series device in bipolar mode. Set the

following parameters:

•

deviceNumber—The value assigned by MAX

chan—0

inputMode—0

inputRange—0

polarity—0

driveAIS—0

5. Call MIO_Configto enable dithering on the E Series device. Set the

following parameters:

•

deviceNumber—The value assigned by MAX

dither—1

useAMUX—0

6. Call SCXI_Single_Chan_Setupto configure the module for

single-channel measurements. Set the following parameters:

•

SCXIchassisID—The value assigned by MAX

moduleSlot—1

moduleChan—The channel you want to adjust

DAQdeviceNumber—The device number assigned by MAX for

the E Series DAQ device

7. Call SCXI_Set_Gain. Set the following parameters:

•

SCXIchassisID—The ID of the SCXI chassis obtained when you

configure the chassis with MAX

•

moduleSlot—1, because the SCXI-1125 should be installed in

slot 1

•

channel—The same channel number from step 6

gain—The gain value you want to adjust. Refer to Table 1 for

acceptable gain values

8. Call SCXI_Configure_Filterto configure the filter setting on the

module. Set the following parameters:

•

SCXIchassisID—The ID of the SCXI chassis obtained when you

configure the chassis with MAX

•

moduleSlot—1

channel—The same channel number from step 7

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•

filterMode—1

cutoffFrequency—10,000

9. Connect the calibrator to the analog input you want to adjust. Refer

to Figure 1 to determine the pins on the 96-pin front connector that

correspond to the positive and negative inputs of the specified channel.

For example, the positive input for channel 0 is pin A32, which is

labeled CH0+. The negative input for channel 0 is pin C32, which

is labeled CH0–. If you are using an SCXI-1320 terminal block

connected to the SCXI-1125, connect the calibrator to the CH0+

and CH0– inputs.

10. Connect the DMM to the positive output on pin 3 (MCH0+) and

negative output on pin 4 (MCH0–) on the rear panel connector.

Figure 2 shows the 50-pin rear panel connector.

Tip For easy access to individual pins, use a screw terminal adapter connected to a

50-pin terminal block.

11. Set the calibrator voltage to the positive test point value in Table 1.

12. Read the voltage from the DMM. Record the actual DMM reading,

which is output1, and the calibrator output voltage, which is volt1, for

later use.

13. Set the calibrator to the negative test point value for the same gain.

Skip any input limits that are specified as 0.0 V. You need only upper

and lower limits for adjustment.

14. Read the voltage from the DMM. Record the actual DMM reading,

output2, and the calibrator output voltage, voltage2.

You now have two pairs of data points, (volt1, output1) and (volt2,

output2), where volt is the calibrator reading and output is the DMM

reading.

15. Convert the DMM voltage readings (output1 and output2) to binary

readings (binary1 and binary2) by using one of the following

equations:

output









× 2¹²

----------------

binary reading for 12-bit E Series products (binary) =

output

----------------







binary reading for 16-bit E Series products (binary)=

× 2¹⁶



For example, using a 12-bit product such as a PCI-MIO-16E-1 and

obtaining a DMM reading of –9.9 V, you would have the following

results:

binary reading = (–9.9/20) × 2¹²= –2027.52

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16. Record binary1 with volt1 and binary2 with volt2 for later use.

17. Repeat steps 7 through 16 for the remaining gain values you want to

adjust on this channel.

18. Repeat steps 6 through 17 for the remaining channels you want to

adjust.

You have determined the new calibration constants. Use these values in the

the following section, Adjusting Calibration Constants.

Adjusting Calibration Constants

Complete the following steps to adjust the calibration constants on the

SCXI-1125:

1. Call SCXI_Cal_Constantsto create and store the new calibration

constants in the SCXI-1125 memory. Set the following parameters:

•

SCXIchassisID—The ID assigned by MAX

ModuleSlot—1, because the SCXI-1125 should be installed in

slot 1

•

channel—The channel on the SCXI-1125 you want to adjust

OpCode—2

calibrationArea—0

rangeCode—0 (not used for the SCXI-1125)

SCXIgain—The gain you want to adjust

DAQboard—The device number assigned by MAX

DAQChan—0

DAQGain—1 for 16-bit devices, –1 for 12-bit devices

Tbgain—1.0

volt1 and volt2—The first and second voltage readings for the

gain values that you are about to save on the SCXI-1125

•

binary1 and binary2—The first and second binary readings for

the gain values that you are about to save on the SCXI-1125

calConst1 and calConst2—These are return values

2. Repeat step 1, changing calibrationArea to 1.

3. Repeat steps 1 and 2 for the next channel.

You have now finished adjusting the calibration constants of your

SCXI-1125.

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Verifying Adjusted Values

After completing the adjustments to your SCXI-1125 module, it is

important that you verify the analog input operation by repeating the steps

listed in the Verifying Gain and Offset Errors section of this document.

Reverifying after adjustments ensures that your SCXI-1125 module is now

operating within its specifications.

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Front and Rear Signal Connector Diagrams

CH0+

CH1+

CH0–

CH1–

CH2+

CH3+

26 CH2–

24 CH3–

20 CH4–

CH4+

CH5+

CH5–

CH6+

14 CH6–

12 CH7–

CH7+

RSVD

CJTEMP

RSVD

+5 V

CHSGND

This symbol indicates that no physical pin is present

Figure 1. Front Signal Connector Pin Assignments

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AOGND

MCH0+

MCH1+

MCH2+

MCH3+

AOGND

MCH0–

MCH1–

MCH2–

10 MCH3–

MCH4+ 11 12 MCH4–

MCH5+ 13 14 MCH5–

15 16

MCH6–

MCH6+

MCH7+ 17 18 MCH7–

OUTREF 19 20

21 22

23 24

DIGGND

SERDATIN 25 26 SERDATOUT

DAQD*/A 27 28

SLOT0SEL* 29 30

31 32

DIGGND 33 34

SCANCLK

35 36

SERCLK 37 38

39 40

41 42

43 44

45 46

SYNC

47 48

49 50

Figure 2. Rear Signal Connector Pin Assignments

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Specifications

The following table contains the specifications you should use when

verifying and calibrating your SCXI-1125 module. If your device has been

calibrated within the last year, the test point value should fall between the

Upper Limit and Lower Limit values.

Table 1. SCXI-1125 Specifications at 25 °C 10 °C

Gain

Range

Test Point

4.950000

0.000000

–4.950000

2.475000

0.000000

–2.475000

0.990000

0.000000

–0.990000

0.495000

0.000000

–0.495000

0.247500

0.000000

–0.247500

0.099000

0.000000

–0.099000

0.0495000

0.000000

–0.049500

0.024750

0.000000

Upper Limit (V)

4.9623181

0.005002

Lower Limit (V)

4.9376819

–0.005002

–4.9623181

2.4688400

–0.002502

–2.4811601

0.9875348

–0.001002

–0.9924652

0.4937664

–0.000502

–0.4962336

0.24688220

–0.000252

–0.24811781

0.09875168

–0.000102

–0.09924832

0.04937484

–0.000052

–0.04962516

0.02468642

–0.000027

–5

–4.9376819

2.4811601

0.002502

2.5

–2.5

–2.4688400

0.9924652

0.001002

–1

–0.9875348

0.4962336

0.000502

100

200

0.5

–0.5

0.25

–0.4937664

0.24811781

0.000252

–0.25

0.1

–0.24688220

0.09924832

0.000102

–0.1

0.05

–0.09875168

0.04962516

0.000052

–0.05

0.025

–0.04937484

0.02481358

0.000027

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Table 1. SCXI-1125 Specifications at 25 °C 10 °C (Continued)

Gain

200

Range

–0.025

0.02

Test Point

–0.024750

0.019800

0.000000

–0.019800

0.009900

0.000000

–0.009900

0.00495

Upper Limit (V)

–0.02468642

0.01985126

0.000022

Lower Limit (V)

–0.02481358

0.01974874

–0.000022

250

–0.02

0.01

–0.01974874

0.00992663

0.000012

–0.01985126

0.00987337

–0.000012

500

–0.01

0.005

–0.00987337

0.00496432

0.000007

–0.00992663

0.00493568

–0.000007

1000

2000

0.000000

–0.004950

0.002475

0.000000

–0.002475

–0.005

0.0025

–0.00493568

0.00248316

0.000005

–0.00496432

0.00246684

–0.000005

0.0025

–0.00246684

–0.00248316

Limits Valid for 4 Hz or 10 kHz Filter Settings

Valid when using an MIO device after performing an MIO internal calibration.

Valid for both filter settings with 5.000 point averaging at 10,000 samples per second.

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