Company Filing History:
Years Active: 2016
Title: Xijun Yang: Innovating Bootstrap Driving Circuits
Introduction
Xijun Yang, an accomplished inventor based in Shanghai, China, has made significant contributions to the field of electronic engineering. With one patent to his name, Yang's innovative work focuses on enhancing circuit efficiency and reducing energy consumption through advanced design techniques.
Latest Patents
Yang's patent, titled "Bootstrap Driving Circuit without Extra Power Supply," presents a novel approach to driving circuits. The invention provides a bootstrap driving circuit which includes a power unit, a switching unit, a bootstrap unit, and a drive unit. Notably, this design eliminates the need for an extra power supply by utilizing an energy storage capacitor within the bootstrap unit. The result is a circuit that minimizes power consumption while efficiently controlling the operation of a three-phase AC-DC converter.
Career Highlights
Xijun Yang is currently associated with Shanghai Ruking Electronics Co., Ltd., where he works alongside colleagues like Huaigang Lei and Yuanqing Zhu. His work at Ruking Electronics highlights his commitment to advancing electronic technology and developing solutions that meet contemporary circuit demands.
Collaborations
Yang's collaborations with fellow professionals in the industry have not only led to the successful development of his patent but have also fostered a cooperative spirit in the electronics sector. Working alongside talented colleagues such as Huaigang Lei and Yuanqing Zhu, Yang continues to push the boundaries of innovation in electronic circuit design.
Conclusion
With his inventive spirit and technical expertise, Xijun Yang stands out as a notable figure in the realm of electronic innovations. His patent for a bootstrap driving circuit without an extra power supply is a testament to his capability to solve complex engineering challenges while promoting energy efficiency. As he continues his work at Shanghai Ruking Electronics Co., Ltd., the impact of his contributions to this field is expected to grow significantly.