What is the bias in-run stability / instability of the LSM6DSR gyros and accelerometers?

WJohn.1 · ‎2020-09-21

Eleon BORLINI · ‎2021-01-07

Hi @Singh.Harjit ,

Can you please specify your application?

I can only share you the LSM6DSR Gyro drift related to the below Sinusoidal wave input test on shaker. Gyro ODR is 208Hz.

Amplitude: 4 g
Frequency: 100 Hz

The number of tested devices is 22.

Please let me know if these info can help you.

-Eleon

View solution in original post

Eleon BORLINI · ‎2020-09-22

Hi @WJohn.1 ,

Since these two AVAR parameters (the bias stability and bias instability) are not tested at production level, I can share you some characterization results on a limited set of data:

Accelerometer, Velocity random walk (Bias stability)

Accelerometer, Bias instability

Gyroscope, Angle walk (Bias stability)

Gyroscope, Bias instability

-Eleon

Singh.Harjit · ‎2021-01-02

Thank you for sharing this.

Any chance you have gyro vibration rejection data for this part?

Eleon BORLINI · ‎2021-01-07

Hi @Singh.Harjit ,

Can you please specify your application?

I can only share you the LSM6DSR Gyro drift related to the below Sinusoidal wave input test on shaker. Gyro ODR is 208Hz.

Amplitude: 4 g
Frequency: 100 Hz

The number of tested devices is 22.

Please let me know if these info can help you.

-Eleon

Singh.Harjit · ‎2021-01-09

Thank you for sharing. This actually looks really good.

The application is robotics / drone. I'd love to see this over a larger frequency range but I understand you all may not be setup for it.

Eleon BORLINI · ‎2021-01-11

Hi @Singh.Harjit ,

thank you for the appreciation.

Unfortunately I have only these data for ODR 208Hz (and frequency stimulus of 100Hz)... but should be ok at least up to ODR doubled.

-Eleon