We are using the LSM6DSRX in a design for underground mining. The approval center asks for the RTH value of the sensor to calculate the max. temperature in any case of failure. Could you pleas send it to me?

Hi @PRahm.1​ ,

That's an interesting application! If I can ask, are you using this device for (offline) inertial navigation, for vibration patter recognition (for example with the embedded MLC), for predictive maintenance of mining tools or other applications? You can write me a message if these info are confidential.

About the topic, please consider first the "Absolute maximum ratings" table limits in the LSM6DSRX datasheet, p.15:

• Storage temperature range: -40 to +125 °C;
• Operating temperature range: -40 to +85 °C.

Please note also that the sensor temperature and resulting thermal impedance from “junction to sensor�? depend on many conditions that are outside the design of the module itself (board design, cooling system etc...). These conditions influence both lateral temperature spreading and vertical heat conductivity in the system.

In any case, the total thermal junction resistance for the LSM6DSRX is dominated by the package thermal resistance whose average value is 80°C/W: considering a maximum supply voltage of 3.6V and a max current high-resolution mode) of 1.2mA, the power consumed in the worst case is P=V*I=4.32mW. the thermal difference between the device and the environment is DeltaT < 0.5°C.

For this reason the dominant worry about the junction temperature with respect to storage temperature.

You can of course monitor the internal "real-time" sensor temperature using the embedded temperature sensor (described in the datasheet at p.12), to prevent any potential damage of the sensor and of the application.

-Eleon