LabVIEW

Hey Bill. Thanks for your comments. I thought about of what you said, the weird thing is that the initial accelerations were not showing -1g, even when the accelerometers were in rest position or with the tests as suggested by Henrik. However, the analog signal is very noisy. Thanks for the link. 

Henrik: Thanks for the test suggestions. I aim to do the ruler test shortly to check the accelerations, natural frequencies and displacements.  

Regards. 

Starting from scratch is a good thing.  Maybe there was a loose wire or you did one step slightly different.  Maybe all that confusion was all because something was connected quite right.  It's happened too many time to me.  😉

Bill

(Mid-Level minion.)
My support system ensures that I don't look totally incompetent.
Proud to say that I've progressed beyond knowing just enough to be dangerous. I now know enough to know that I have no clue about anything at all.
Humble author of the CLAD Nugget.

Hi, 

Do gravity needs to be considered as well?

Regards, 

StathiPol

On this type of test and with these sensors/couplers ... no, not really. DC values are filtered by the high pass filter.

But you always have to consider gravity ! Otherwise things will drop 😄

I found from the amplifier that it has a short time constant where it is always hovering around zero at rest. It shows the dynamic signal.

Mike and I did the experiment that you suggested with the cantilever, as I think this question was uploaded in a different board from Mike as we had some issues of getting the displacement from acceleration in DIAdem. 

A ruller was fixed on the table and then the free end was allowed in free vibration. Accelerometer was measured in g force, then multiplied by 9.81 to give m/s^2. The results for velocity and position are very very weird. 

I also considered a low pass filter and offset. Please find the attached pdf file showing the results. 

Thank you , 

StathPol

As noted before: Why don't you post some (raw) data in a format others can help you to interpret? ( Like TDMS or the vi with saved values )

Have you tried the sound and vibration vis? They have a integration vi that includes a highpass and migth avoid the drift you see ......

The fixure of your additional mass can be improved 😉  If I interpret you gragh correctly the ripple on the first peak migth be due to a lift off of the taped mass 🙂 (So acceleration was sligthly higher than 1g;) )

I have posted the vi, pdf and excel file with the raw data from 3 trial tests using 50 mm initial vertical displacement. It doesn't recognise the TDX file of the TDMS, so I cannot use it that’s why the raw data were transferred in the excel file. Unfortunately, I don't have access on the sounds and vibration vis. 

I have done some tests today but again, there is a lot of noise in the signal, despite the fact that the signal range was devreased to +/- 1000 g for +/- 10 Volts as you can notice in the vi. Indeed, a high pass can be applied to to avoid the drift on the signal. In the pdf document, the procedure followed was development of fft, filter, offset and double integration. 

Thanks a lot, 

StathPol