From the building technology to the transport of passengers and freight, we are facing substantial upheavals in all areas of the daily life. A brand-new topic is electromobility. Automotive manufacturers, industrial companies and research institutes work hand in hand to implement entirelly electrically driven vehicles and the necessary infrastructure. The prospects for electric vehicles have improved significantly in the recent past. New drive concepts have been researched and tested by various companies during the last few years. The first models of hybrid and electric vehicles are now available on the market. New components such as power electronics systems are integrated into the car which have not existed in conventional diesel / gasoline vehicles.
Examples include systems such as:
- Drive inverters to drive the drive motor (up to 300 kW)
- Battery chargers (onboard chargers) from 3,6 kW to 22 kW
- Inductive charge (wireless charging) from 3,6 kW to 22 kW
- DC/ DC converter up to 5 kW
- Inverter for auxiliary units such as air conditioning, steering support, water pumps, etc.
For the abovementioned systems, power electronics plays a decisive role in ensuring the functionality of hybrid respectively electric vehicles.
SiC- efficient semiconductor material
The requirements of the automotive OEMs placed on power electronics systems are a great challenge for the developers of such systems. In particular, space requirements, weight and efficiency play a significant role. In addition, the entire system costs and the effort in the product design phase are to be kept low while at the same time, product quality and operational safety have to be guaranteed as well.
The efficiency of conventional power electronics is based on silicon semiconductor technologies and generally varies between 85% and 95%. This means that during each power conversion about 10% of the electrical energy gets lost as heat. Generally, it can be said that the efficiency of power electronics is mainly limited by the performance characteristics of power semiconductors. Due to its physical properties, the semiconductor material SiC has great potential to meet the requirements of these market trends.