Define the test, characterization, and calibration protocols of the sensors.
Develop and implement electronic boards for the characterization of innovative MEMS, ASICs, and inertial sensors.
Carry out test and qualification campaigns and analyze the results.
Participate in the installation and maintenance of new test equipment in our laboratory in Grenoble (electronic measuring instruments, shakers, rate tables, etc.)
Min. 10 years experience in sensors test or characterization
MSc in instrumentation and/or physics or electronics
Fluent in French and English; Italian is a plus
Proven experience in testing, characterization of sensors, with strong knowledge of inertial sensors, electronics, instrumentation and data analysis.
Hands-on development of test and characterization benches, from PCB design (e.g. Altium) to automated test scripting (e.g. Python, MATLAB, or similar).
Ability to integrate microcontroller or FPGAs on board is highly valued.
Knowledge of calibration algorithms and sensor performance optimization is a plus.
Understanding of ASIC design and debugging is an advantage.
Proactive, solution-driven mindset with strong collaboration skills in fast-paced, multidisciplinary environments.
As Senior Inertial Sensor Characterization Engineer, you will play a key role in the implementation of iNGage’s test and characterization lab and protocoles and in the validation of our inertial sensors.
Based in Grenoble (FR) and Milan (IT), iNGage is a start-up company which is bringing to market disruptive high-performance MEMS inertial sensors (accelerometers, gyros, IMUs) and pressure sensors for GPS-free navigation in autonomous mobilities.
With a patented breakthrough technology developed at CEA-Leti in partnership with PoliMi, we push the limits of high-performance MEMS navigation sensors to make them accessible to high-volume applications such as industrial robotics and automotive.
With a patented breakthrough technology developed at CEA-Leti in partnership with PoliMi, we push the limits of high-performance MEMS navigation sensors to make them accessible to high-volume applications such as industrial robotics and automotive.
