Company Filing History:
Years Active: 2017
Title: Innovations in Electric Machine Technology: The Contributions of Daniel Bönke
Introduction: Daniel Bönke, based in Nürnberg, Germany, is a prominent inventor recognized for his innovative contributions to electric machine technology. With a keen focus on enhancing the efficiency of electric machines, Bönke has successfully secured a patent that addresses the critical challenge of vibration damping in these devices.
Latest Patents: Bönke’s patent, titled "Efficient damping of vibrations of an electric machine," presents a novel approach to managing vibrations within poly-phase electric machines. The invention involves a sophisticated converter with a control facility that dynamically updates key parameters such as the base commutation angle. By effectively determining both direct-axis and quadrature-axis current components, the system enhances the overall operational efficiency of the electric machine.
Career Highlights: Daniel Bönke is currently employed at Siemens Aktiengesellschaft, where he focuses on advancing technology within the field of electric machines. His inventive solutions not only contribute to the company's mission of innovation but also demonstrate his commitment to enhancing machine performance. With a total of one patent to his name, his work stands as a testament to the intersection of engineering skill and innovative thinking.
Collaborations: In his role at Siemens, Bönke collaborates with talented professionals such as Michael Jäntsch and Stefan Künzel. These partnerships foster a creative environment that encourages the exchange of ideas and accelerates the development of groundbreaking technologies in the field of electric machines.
Conclusion: Daniel Bönke’s contributions to the electric machine sector through his patent on vibration damping reflect a remarkable blend of theoretical knowledge and practical application. As electric machines play a crucial role in modern technology, innovations like those introduced by Bönke pave the way for more efficient and reliable systems, influencing the future of energy and industrial applications.