MEMS sensor drivers and tilt-compensated compass using the STEVAL-MKI124V1 header board: LPS331 pressure sensor, LSM303DLHC magnetometer/accelerometer and L3GD20 gyroscope.

Dependencies:   mbed

I used a header board for an STM MEMS evaluation kit in order to take a look at some common MEMS sensors:

  • LPS301: Pressure and temperature sensor
  • LG3D20: Gyroscope
  • LSM303DLHC: Accelerometer and magnetometer

The header was an STEVAL-MKI124V1 which is designed to work with an STM motherboard evaluation system. I took a shortcut and used it with an LPC1768 MBED over I2C

Hook-up was trivial:

/media/uploads/liamg/setup2.png

The schematic is here:

http://www.st.com/web/en/catalog/tools/PF253482

The orientation of the sensors on the board is like this:

/media/uploads/liamg/board_shot.png

The code sets up each of the sensors and then provides a continuous output of temperature, pressure and orientation. Rather than optimize for performance or efficiency, the code here is intended to show clearly how to access the sensors.

An interesting twist was to use the linear accelerometer to find the vector of the earth's gravitational field (i.e. down) and to use that to make a tilt-adjusted compass. Algorithm came from ST Apps note AN3192.

The sensors do need some calibration. Here is a scatter plot of the raw output of X and Y values from the magnetometer:

/media/uploads/liamg/calibration.png

The chart should be a perfect circle around the origin (allowing for distortion on Excel charting).

  • Blue points are the raw data
  • Red is offset-corrected
  • Green is offset and soft-iron corrected

As you can see, there is an offset error but also and X:Y ratio term. The latter is a soft iron error and is well described in a great article here:

http://www.sensorsmag.com/sensors/motion-velocity-displacement/compensating-tilt-hard-iron-and-soft-iron-effects-6475

no such method: tip