The goal of the master thesis is to create a HW demonstrator / protoype for a specific magnetic sensor, for example a new generation of xMR (Magneto Resistance) sensor, into a specific application, such as a speed sensor for ABS application, using state of the art HW platform and modeling languages / tools (SystemC/Matlab).
The goal of the master thesis is to create a HW demonstrator / protoype for a specific magnetic sensor, for example a new generation of xMR (Magneto Resistance) sensor, into a specific application, such as a speed sensor for ABS application, using state of the art HW platform and modeling languages / tools (SystemC/Matlab). The work starts with the identification of the relevant use cases for the application (i.e. car cranking, start-stop) and the definition of the related testbenches to prove the compliance to the product specifications. Then it continues with the creation of a prototype where the sensor model is embedded. This step may reuse existing models developed for other products/generations. By proper use cases and test plan, the combination of sensor, product and application is then tested to verify that the sensor specifications fulfill the application requirements. The results of the work are then reported and internally presented.
This position is subject to the collective agreement for workers and employees in the electrical and electronics industry. The salary for this position is 1.766,-- gross p.m.(full-time basis).
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In the Automotive (ATV) segment, we develop high-value products and services to advance fully and partly self-driving cars. To enable radar-based advanced driver assistance systems, we deliver end-to-end solutions to capture and process complex, safety-critical data from the vehicle's surroundings. These include radar sensor ICs as well as microcontrollers optimized for radar signal preprocessing. We are helping to realize the Zero Vision for road traffic safety through our certified components and subsystems. In the connected car of the future, our security microcontrollers will help protect sensitive data more effectively. In addition, ATV is making a valuable contribution to the development of e-mobility. Power semiconductors are driving electric motors and innovative system solutions using silicon carbide are increasing the efficiency and reducing the weight of chargers and inverters. These technologies are paving the way for electric vehicles that offer the same range with smaller batteries. In combustion engines too, power semiconductors are making a difference by reducing exhaust emissions.