Compact and Efficient Electromotor: The “MotorBrain” Research Team Presents the First Prototype at the Hannover Messe 2014

Apr 8, 2014 | Business & Financial Press

Hannover and Neubiberg, Germany – April 8, 2014 – German researchers present the prototype of an electric motor that may shape the future of electromobility: Small, light and efficient. The electric motor was created and constructed by the four German partners in the European research project “MotorBrain”: Infineon Technologies, Siemens, the Institute of Lightweight Engineering and Polymer Technology at the Technische Universität (Technical University) Dresden and ZF Friedrichshafen. The prototype is being presented at the Hannover Messe “MobiliTec” fair stand of the German federal government (Hall 27, Stand H51).

The MotorBrain prototype is a highly integrated electric motor that unifies the most important components of the powertrain for an electric vehicle. The researchers have succeeded in designing a highly compact electric motor with only three-quarters the size of models from 2011, the year when MotorBrain began. The electric motor prototype now being presented could easily fit in a conventional-sized laptop or notebook backpack. And on top of that, it’s lighter than before. By the integration of motor, gear drive and inverter the MotorBrain partners were able to cut down the weight of the powertrain by approximately 15 percent, from 90 kilograms to less than 77 kilograms. Reduced size and weight will benefit the future car owner: A lighter electric vehicle that brings battery power “to the street” more efficiently and has a longer range than the electric vehicles of today. A medium-sized vehicle with MotorBrain electric motor and performance of 60 kilowatts (equal to about 80 hp) would be able to drive a good 30 to 40 kilometers farther than today’s electric vehicles with their average range of approximately 150 kilometers per battery charge.

Furthermore, the partners succeeded in building the MotorBrain prototype without using rare earth metals, which are currently a fundamental cost driver in hybrid and electric vehicles. Today rare earth metals are an important component in the permanent magnet of any electric motor, generating a particularly strong, constant magnetic field. The stronger the magnetic field, the higher the performance capabilities of the motor. However, obtaining rare earth metals is extremely complicated and environmentally harmful. Also, rare earth metal prices are high and fluctuate widely. The MotorBrain electric motor therefore utilizes readily available and less expensive ferrite magnets. The lower performance level of ferrite magnets compared to those with rare earth metals is compensated for by the specially developed high-RPM (revolutions per minute) rotor of the MotorBrain electric motor.

About the European research project “MotorBrain”
Led by Infineon, a total of 30 partners from nine European countries are conducting research in MotorBrain with the goal of increasing the range and safety of electric vehicles while at the same time reducing dependency on rare earth metals. The interdisciplinary team represents all development and production sectors relevant to electromobility. The team includes universities, non-university research facilities, semiconductor manufacturers, electric motor builders, automobile component suppliers and automobile manufacturers. The MotorBrain project began in the fall of 2011. Half a year before the project conclusion in October 2014, the research partners can already present their highly integrated electric motor without rare earth metals. They now have time until October 2014 to validate and prove their research results. A budget of approximately Euro 36 million makes Motor-Brain one of the largest European research projects in the area of electromobility, with financing coming from business and from national funding providers such as Germany’s Federal Ministry of Education and Research (BMBF) and the European ENIAC Joint Undertaking.

Compact and Efficient Electromotor: Prototype and presentation at MobiliTec 2014 trade fair
The MotorBrain project will be presented as a part of the Hannover Messe (April 7-11, 2014, Hannover, Germany) in the MobiliTec trade fair at the German federal government stand (Hall 27, Stand H51). With the theme “Our way to electromobility” the German federal government is presenting exemplary research projects from the core areas of electromobility: Manufacturing, Charging, Driving and Saving Resources. The MotorBrain presentation is located in the “Manufacturing” area at station 3 “Efficient Battery and Powertrain Systems”.

In addition to the stand presentation, Dipl.-Ing. Reiner John of Infineon Technologies will speak on the central MotorBrain research results in a talk entitled “Safety, Independence and Energy Efficiency for Electric Automobiles” in the MobiliTec Forum (April 9, 2014, at 3:30 pm; Hall 27, Stand G85).

You'll find more information on MotorBrain and the participating research partners at www.motorbrain.eu.

About Infineon
Infineon Technologies AG, Neubiberg, Germany, offers semiconductor and system solutions addressing three central challenges to modern society: energy efficiency, mobility, and security. In the 2013 fiscal year (ending September 30), the company reported sales of Euro 3.84 billion with close to 26,700 employees worldwide. Infineon is listed on the Frankfurt Stock Exchange (ticker symbol: IFX) and in the USA on the over-the-counter market OTCQX International Premier (ticker symbol: IFNNY).

Further information is available at www.infineon.com
This news release is available online at www.infineon.com/press

Press contacts:

Siemens AG
Klaudia Kunze
Public Relations and Technology Media
Phone: +49 89 636-33446
E-Mail: klaudia.kunze@siemens.com
www.siemens.com
ZF Friedrichshafen
Robert Buchmeier
Communication Press Technology
Phone: +49 7541 77-2488
E-Mail: robert.buchmeier@zf.com
www.zf.com


Technische Universität Dresden

Institute of Lightweight Engineering and Polymer Technology
Tanja Kirsten
Public Relations
Phone: +49 351 463-39471
E-Mail: tanja.kirsten@tu-dresden.de
http://tu-dresden.de/die_tu_dresden/fakultaeten/fakultaet_maschinenwesen/ilk/