Calibration procedure, an example – Measurement Computing eZ-Analyst rev.14.1 User Manual

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Calibration Procedure, an Example

Accelerometer type - Piezotronics 303A03
Calibrator - Piezotronics 394B05 - 1.02 G (RMS) at 80Hz
Unit of acceleration - in/sec^2

Note: 1.02 G RMS is equivalent to 393.811 in/sec^2 (1G=386.089in/sec^2).

This is a linear scale, thus we will be selecting Lin in the Calibrator Scale column.

In this example we will be calibrating channel 1.

1. Attach the accelerometer to the calibrator (signal source). Connect the other end of the

accelerometer cable to the channel 1.

2. Set the FSV into a proper range (i.e. 32.4 mV) in the Input Channels Setup window,

then click the button.

3. Set the desired blocksize in the Analyzer Tab if a block size of greater than 4096 is

desired.

4. Set the “No. of Averages” in the Analyzer Tab if an average count of greater than 5 is

desired.

5. Open the Calibration Window from the Task Menu, or from the Input/Output Channels

Tab.

6. Select “Single Channel.”

7. Select “Auto Range,” if desired.

8. Select a Calibration domain. In this case, either “Time” or “Frequency” can be selected.

9. Enter 80 Hz in the Calibrator Frequency field.

10. Ensure the radio button for Channel 1 is enabled (in the Active column.)

11. Select RMS for the Calibrator Type.

12. Select Linear in the Calibrator Scale field.

13. Leave EU dB Reference set at 1.000. Note that this step can be skipped when linear

scale is used.

14. Set Calibrator EU at 1.02 ; implying an engineering unit of 1G.

15. Enter 393.811 in the Transducer mv/EU field.

16. Leave the EU Offset at 0.0000. We are assuming no offset in this example.

17. Leave 1.000 as the Transducer Gain. No amplifier or attenuator is being used in our

example.

18. Click so your new values will not be lost.

19. Click the button to begin calibration.