90431 Nürnberg, de
+49 (911) 6559-158
Maximum Efficiency when Converting Power from Renewable Energy Sources to Electricity
The research project between SEMIKRON, PCS Power Converter Solutions GmbH (PCS) and the Technical University of Dresden (TU Dresden) for optimizing the energy efficiency of wind and solar power modules has been successfully completed. The project was back
During the course of the research project, SEMIKRON was tasked with designing an inverter system with new modular phase components, which would then be integrated into an innovative power converter by PCS. The driver circuitry and protective components were developed by the Electrical Engineering Institute's Chair for Power Electronics at the Technical University of Dresden.
The original project focused on improving the efficiency of wind turbines applications. However the group was able to significantly expand upon this concept. In the future, these converters could also be used with highly robust drives for raw materials mining, with main drive and onboard power supply systems in rail vehicles, for 1500 V DC overhead lines as well as with solar inverters.
With the innovative converter system created as a result of this initiative, electrical energy that is generated using wind turbines or solar power modules can be efficiently and inexpensively converted for supplying the power supply network. Variable speed drives are an additional possible area of use. In order for the generated power to meet the minimum feed-in quality requirements, standard converters now available in the market require electrical filter switches which result in high loss levels. The multi-level topology applied as part of the EEMT project has resulted in a significant reduction in the role of these filters and the resulting losses. For low-voltage applications that have their own grid connection transformers, such as wind turbines or solar power modules, the voltage level can now be increased to just under the medium voltage level. This approach makes sense because it enables low losses, however it cannot be realized using IGBT converters with a conventional two-point topology. t, By using these more technologically advanced, intelligent three-point phase components, energy efficiency is improved and economic benefits can be realized. Other applications with DC steady-state voltage of over 1300 V already must focus on this kind of switching technology if 1200 V/1700 V standard IGBTs are used.
Communication between the phase components, which are equipped with 3-level IGBT modules, occurs on the basis of a decentralized modulator, which allows for plug-and-play integration in a conventional converter system. A central controller and decentralized phase components are synchronized via serial high-speed EtherCAT data bus connections.
To test the functionality and to check all of the technical features, a 1.0 MW prototype was also created as part of the project.
About PCS Power Converter Solutions GmbH
PCS is an independent, experienced manufacturer of power converters with approximately 240 qualified employees and, most recently, a turnover of 40 million euros. The electrical equipment produced by this Berlin-based company has proven itself more than 70,000 times worldwide – in rail vehicles (PCS Rail), in the field of wind energy generation (PCS Green Line), as well as for the highly dynamic requirements of industrial use (PCS Blue Line). PCS has been developing, producing and servicing electrical equipment for rail vehicles for over 100 years. The PCS Rail division’s product portfolio now includes not only onboard power supply systems, energy supply systems and battery charger units, but also pre-assembled components such as driver’s consoles and electrical cabinets for all types of rail vehicles.
About the Electrical Engineering Institute of the TU Dresden
The Electrical Engineering Institute (ETI) of the Technical University of Dresden is a teaching and research institute specializing in power electronics, drive engineering, and electrical engineering theory and boasts a more than 100-year-old tradition in these fields. The ETI is part of the Faculty of Electrical Engineering and Information Technology, which is one of top research faculties in the area of electrical engineering in Germany.
The use of information published here for personal information and editorial processing is generally free of charge. Please clarify any copyright issues with the stated publisher before further use. In the event of publication, please send a specimen copy to firstname.lastname@example.org.