11-06-2023 05:59 AM
We develop custome devices to acquire signal from IEPE accelerometers, and to provide current excitation to IEPE accelerometers.
It's a kind of NI USB-4432 (to be clear).
The current excitation is always present, and it cannot be disabled by software.
We've built a test bench using a set of NI devices, and we use this test bench to test all our devices (EOL test before delivering to the customer).
For the device that acquires signal from IEPE accelerometers, we need a testing device that behaves like a normal IEPE acceleormeter:
Which is the recommended NI device for this need?
I'm almost sure a "classic" AO (+/- 24V) cannot handle very well a constan current as an input.
11-06-2023 06:57 AM - edited 11-06-2023 07:05 AM
You can get a IEPE Simulator from PCB/Modalshop.
Cheap solution, one resistor (set bias for the given current) and a big cap (modulate the bias)
more :
Fig 15 & 16
I build my own... DC capable 🙂 and I wanted a ~8V Bias ... and used want was there...
Sorry, *.asc are not possible here
11-06-2023 07:29 AM - edited 11-06-2023 07:33 AM
Thank you very much for your suggestion.
In the past I built my own IEPE simulator (one resistor and one capacitor only - fig. 15 of the paper you linked), but it introduces some little changes on the dynamic signal amplitude.
So it's not ok to do measurement and calibration test.
Is your design free from this issue?
11-08-2023 04:35 AM
You want to calibrate your device, the transferfunction is S_ud(w)= U_input/<digital_representation>
The direct way: Use whatever simulator you have (including the transferfunction S_sim (w)) and measure U_input (and not U-generator)
Usually one run into the challange that the available reference voltmeter is +- 5V or +- 10V and you want to measure ~+1 V to + +18V
or +-5V +Bias.
Or you measure the transferfunction S_sim (w) and include it in your calibration. In the simple RC case the impedances of the generator and the DUT matter.... (as you already found)
other tricks:(maybe not for EOL-test but for qualification)
Measure U_input with a floating 9V or 12V Battery in series.
Slow (need a settle time for the bias, can be 10 min or more depending on your needs) Add a big good capacitor in front of your reference voltmeter and do a AC calibration of your reference including that capacitor.
We measure U-input and usually a +-2V amplitude is fine for our needs, so the S_sim doesn't matter.(Still can use the 10V range)
I attached an old measurement (2012) of S_sim @ 4mA of my actual device. Phase is already delay compesated