I have been characterizing the sub 200Hz characteristic of the IIS3DWB, and we are aware that it is somewhat an uncharted territory.
But I was somewhat surprised by my observation when I compared a piezoelectric sensor attached to an IIS3DWB, vibrated together. The piezoelectric sensor is single axis, and I use only the z axis to take the measurement. (The vibrating coil is not perfect, might also have perpendicular components.)
The ratio of the signal that I get from both sensors are like the following. (Had to diminish the amplitude for IIS3DWB not to saturate.)
It seems that there is a resonant peak at about 70 Hz, (the cone also has a resonance there, but I look at relative outputs, and I wonder whether this is an issue.)
And there is a high-pass characteristic, where at the lowest frequencies the signal dies out.
I wonder:
- How does IIS3DWB measure gravitational acceleration if low frequencies have a cutoff even without the digital filter
- Is there a structural reason for a low frequency resonance?
- I am using an audio speaker cone to vibrate the assembly, can magnetic field be the culprit here?
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Accepted Solutions
Hi @Community member Anil ,
Can you please check whether the FDS bit of the CTRL8_XL (17h) register is enabled? See datasheet, p. 16.
It looks as the HPF is enabled in the ODR/4 configuration.
By default, you should be able to clearly see the 1g acceleration along z axis when in flat position.
-Eleon
