background image

National Instruments

, NI

, 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.

370268B-01

©

2000, 2001 National Instruments Corp. All rights reserved.

September 2001

CALIBRATION PROCEDURE

SCXI -1120/D

Introduction

This document contains information and step-by-step instructions for
calibrating the National Instruments (NI) SCXI-1120 and SCXI-1120D
modules.

What Is Calibration?

Calibration

consists of verifying the measurement accuracy of a module

and adjusting for any measurement error.

Verification

is measuring the

performance of the module and comparing these measurements to the
factory specifications. During calibration, you supply and read voltage
levels using external standards, then you adjust the module calibration
circuitry. This circuitry compensates for any inaccuracies in the module,
and returns the accuracy of the module to the factory specifications.

Why Should You Calibrate?

The accuracy of electronic components drifts with time and temperature,
which can affect measurement accuracy as a module ages. Calibration
restores these components to their specified accuracy and ensures that the
module still meets NI standards.

How Often Should You Calibrate?

The measurement requirements of your application determine how often
the SCXI-1120/D module needs to be calibrated to maintain accuracy.
NI recommends that you perform a complete calibration at least once every
year. You can shorten this interval to 90 days or six months based on the
demands of your application.

Содержание SCXI-1120/D

Страница 1: ...factory specifications During calibration you supply and read voltage levels using external standards then you adjust the module calibration circuitry This circuitry compensates for any inaccuracies in the module and returns the accuracy of the module to the factory specifications Why Should You Calibrate The accuracy of electronic components drifts with time and temperature which can affect measu...

Страница 2: ...not available use the accuracy requirements listed previously to select substitute calibration instruments Connectors If you do not have custom connection hardware you need the following connectors Terminal block such as the SCXI 1320 Shielded 68 pin connector cable 50 pin ribbon cable 50 pin breakout box SCXI 1349 adapter These components give easy access to the individual pins on the SCXI 1120 D...

Страница 3: ...inate noise and thermal offsets Maintain the temperature between 18 28 C Keep relative humidity below 80 Allow a warm up time of at least 15 minutes for the SCXI 1120 D module to ensure the measurement circuitry is at a stable operating temperature Calibration The calibration procedure for the SCXI 1120 D module consists of the following steps 1 Set up the module for testing 2 Verify the existing ...

Страница 4: ...p the SCXI 1120 D module for verification 1 Remove the grounding screw from the module 2 Remove the cover on the module to access the potentiometers Figure 1 Grounding Screw and Module Cover Removal 3 Remove the side plate of the SCXI chassis 4 Install the SCXI 1120 D into slot 4 of the SCXI chassis 1 Grounding screw 2 Module cover 1 2 ...

Страница 5: ...ut channel has two user configurable gain stages The first stage gain provides gains of 1 10 50 and 100 The second stage gain provides gains of 1 2 5 10 and 20 Table 1 shows the jumper reference designators for gain selection associated with each channel Table 2 shows how to position each jumper to select the desired gain for each channel 1 Thumbscrews 2 Slot 4 3 Side plate Table 1 Gain Jumper Ref...

Страница 6: ... for jumper reference designators and Figure 3 for the location of the jumpers 3 W4 W12 4 W5 W13 5 W6 W14 6 W7 W15 7 W8 W16 Table 2 Gain Jumper Positions Gain Setting Jumper Position First Stage 1 10 50 100 D C B A factory setting Second Stage 1 2 5 10 20 A B C D factory setting E Table 1 Gain Jumper Reference Designators Continued Input Channel Number First Stage Gain Jumper Second Stage Gain Jum...

Страница 7: ...ber 4 Output Null Adjust Potentiometers 5 Second Stage Filter Jumpers 6 Rear Signal Connector 7 SCXIbus Connector 8 Input Null Adjust Potentiometers 9 First Stage Gain Jumpers 10 Second Stage Gain Jumpers 11 First Stage Filter Jumpers 12 Terminal Block Mounting Hole 13 Grounding Screw 3 6 7 1 2 1 4 5 8 9 10 11 12 12 Front Rear V25 V26 W27 W28 W29W30 W31V32V33 W34 W35 W36 V37 V38 V39 V40 W45 W43 W4...

Страница 8: ...ion and the SCXI 1120 D module ships in the 4 5 kHz position Refer to Table 3 or 4 to find the correct jumper setting for the desired cutoff frequency Figure 3 shows the locations of the jumper blocks on the SCXI 1120 D modules Verify that both filter stages are set to the same filter setting to ensure that you achieve the required bandwidth Table 3 SCXI 1120 Filter Jumper Settings Input Channel N...

Страница 9: ...ges used in your application 3 Set the channel filter for all channels on the module to 4 Hz for the SCXI 1120 module or 4 5 kHz for the SCXI 1120D module 4 Set the channel gain on all channels to the gain you want to test starting with the smallest gain available for the module Available gains are shown in Tables 7 and 8 5 Connect the calibrator to the analog input channel you are testing startin...

Страница 10: ...CXI 1120 D Front Connector Pin Assignments Pin Number Column A Column B Column C 32 CH0 NP CH0 31 NP NP NP 30 CH1 NP CH1 29 NP NP NP 28 NC NP NC 27 NP NP NP 26 CH2 NP CH2 25 NP NP NP 24 CH3 NP CH3 23 NP NP NP 22 NC NP NC 21 NP NP NP 20 CH4 NP CH4 19 NP NP NP 18 CH5 NP CH5 17 NP NP NP 16 NC NP NC 15 NP NP NP 14 CH6 NP CH6 13 NP NP NP 12 CH7 NP CH7 11 NP NP NP 10 NC NP NC 9 NP NP NP 8 NC NP RSVD ...

Страница 11: ...or that correspond to the positive and negative outputs for the specified channel For example the positive output for channel 0 is pin 3 which is labeled MCH0 The negative output for channel 0 is pin 4 which is labeled MCH0 7 NP NP NP 6 RSVD NP RSVD 5 NP NP NP 4 5V NP MTEMP 3 NP NP NP 2 CHSGND NP DTEMP 1 NP NP NP NP No pin NC No connect Table 5 SCXI 1120 D Front Connector Pin Assignments Continued...

Страница 12: ...for the remaining analog input channels 11 Repeat steps 4 through 10 for the remaining gain settings specified in the appropriate table 12 Repeat steps 3 through 11 but set the channel filter to 10 kHz for the SCXI 1120 module or 22 5 kHz for the SCXI 1120D module You have completed verifying the operation of the module RSVD SERCLK DIG GND SLOT0SEL DAQD A SERDATIN OUTREF MCH7 NC NC NC NC NC NC NC ...

Страница 13: ...hich is labeled CH0 The negative input for channel 0 is pin C32 which is labeled CH0 3 Connect the DMM to the output of the same channel to which the calibrator was connected in step 2 Refer to Figure 4 to determine the pins on the 50 pin rear connector that correspond to the positive and negative outputs for the specified channel For example the positive output for channel 0 is pin 3 which is lab...

Страница 14: ...ng analog inputs You have completed adjusting the module Verifying Adjusted Values After you complete the adjustment procedure it is important to verify the accuracy of the adjusted values by repeating the procedure in the Verifying the Operation of the Module section Verifying the adjusted values ensures the module is operating within its specifications after adjustments Note If the SCXI 1120 D m...

Страница 15: ...49248 2 300752 0 021 186 3 751095 3 688905 3 753353 3 686647 0 021 0 0 006922 0 006922 0 009180 0 009180 0 021 186 3 751095 3 688905 3 753353 3 686647 0 051 93 4 687000 4 613000 4 689236 4 610764 0 051 0 0 006784 0 006784 0 009020 0 009020 0 051 93 4 687000 4 613000 4 689236 4 610764 0 11 46 5 4 686925 4 613075 4 689186 4 610814 0 11 0 0 006709 0 006709 0 008970 0 008970 0 11 46 5 4 686925 4 61307...

Страница 16: ...690046 4 609954 4 692331 4 607669 50 0 0 009831 0 009831 0 012115 0 012115 50 0 093 4 690046 4 609954 4 692331 4 607669 100 0 0465 4 689758 4 610242 4 692066 4 607934 100 0 0 009542 0 009542 0 011850 0 011850 100 0 0465 4 689758 4 610242 4 692066 4 607934 200 0 02325 4 689464 4 610536 4 691936 4 608064 200 0 0 009248 0 009248 0 011720 0 011720 200 0 02325 4 689464 4 610536 4 691936 4 608064 250 0 ...

Страница 17: ... Lower Limit V Upper Limit V Lower Limit V 0 011 232 5 2 351764 2 298236 2 365234 2 284766 0 011 0 0 006230 0 006230 0 019700 0 019700 0 011 232 5 2 351764 2 298236 2 365234 2 284766 0 0251 186 4 698751 4 601249 4 733819 4 566181 0 0251 0 0 007683 0 007683 0 042750 0 042750 0 0251 186 4 698751 4 601249 4 733819 4 566181 0 051 93 4 697789 4 602211 4 768769 4 531231 0 051 0 0 006720 0 006720 0 07770...

Страница 18: ... 0 0 007750 0 007750 0 077750 0 077750 5 0 93 4 698726 4 601274 4 768726 4 531274 10 0 465 4 700796 4 599204 4 841236 4 458764 10 0 0 009820 0 009820 0 150260 0 150260 10 0 465 4 700796 4 599204 4 841236 4 458764 25 0 18 5 070004 3 929996 4 870004 4 129996 25 0 0 530350 0 530350 0 330350 0 330350 25 0 18 5 070004 3 929996 4 870004 4 129996 50 0 086 4 360392 4 239608 4 825892 3 774108 50 0 0 022500...

Страница 19: ... 176000 0 176000 1 713000 1 713000 500 0 006 3 273770 2 726230 4 810770 1 189230 1000 0 0029 3 416058 2 383942 4 895058 0 904942 1000 0 0 342000 0 342000 1 821000 1 821000 1000 0 0029 3 416058 2 383942 4 895058 0 904942 1Value available only when used with the SCXI 1327 high voltage terminal block Table 8 SCXI 1120D Specifications Continued 4 5KHz filter setting 22 5KHz filter setting Gain Test Po...

Отзывы: