Company Filing History:
Years Active: 2004
Title: Su-Xue Chu: Innovator in Booster Circuit Technology
Introduction
Su-Xue Chu is a notable inventor based in Shenzhen, China. He has made significant contributions to the field of electrical engineering, particularly in the development of booster circuit technology. His innovative approach has led to the creation of a unique patent that enhances the efficiency of power conversion systems.
Latest Patents
Su-Xue Chu holds a patent for a "Push-pull booster circuit with a pair of inductors for coupling." This modified push-pull booster circuit features two alternately switching transistors positioned on the primary winding of a transformer. A bridge rectifier and a charging circuit are located on the secondary winding. The bridge rectifier incorporates a pair of inductors with inductive coupling installed on both halves of the circuit. This design utilizes series inductance to step up the bus voltage. The degaussing effect induced on the inductors allows for a reduction in inductance without the need for a snubber circuit, thereby decreasing the peak voltage of the bridge rectifier and balancing the current flow in the secondary winding. By minimizing the turn ratio on the transformer windings, the operating efficiency of the booster circuit is significantly improved. Su-Xue Chu has 1 patent to his name.
Career Highlights
Su-Xue Chu is currently employed at Phoenixtec Power Co., Ltd., where he continues to innovate in the field of power electronics. His work has been instrumental in advancing technologies that improve energy efficiency and reliability in electrical systems.
Collaborations
Su-Xue Chu has collaborated with notable colleagues, including Heng-Lian Luo and Jia-Bing Zou. Their combined expertise has contributed to the successful development of innovative solutions in their field.
Conclusion
Su-Xue Chu's contributions to booster circuit technology exemplify the impact of innovative thinking in electrical engineering. His patent reflects a commitment to enhancing efficiency and performance in power conversion systems.