Company Filing History:
Years Active: 2020
Title: Innovations of Guangchun Xia in Capacitor Technology
Introduction
Guangchun Xia is a notable inventor based in Qingdao, China. He has made significant contributions to the field of capacitor technology, particularly with his innovative designs that enhance the functionality and efficiency of capacitor systems. His work is characterized by a focus on flexibility and ease of assembly, which are crucial in modern electronic applications.
Latest Patents
Guangchun Xia holds a patent for a hard-shell flexibly-packaged capacitor module and system. This invention includes a flexibly-packaged individual capacitor and fastening plates, which consist of a first and a second fastening plate that are oppositely mounted and connected in a clasped manner. The design also features supports that connect the individual positive and negative tabs, forming a closed structure that accommodates the individual capacitor. The assembly of individual capacitors and a silica gel insulator within the fastening plates creates a robust 'hard-shell' structure. This innovative capacitor module can be assembled as a whole, allowing multiple modules to be connected in series or parallel to form a required capacitor system. The design is noted for its expansibility and ease of assembly.
Career Highlights
Guangchun Xia is currently employed at CRRC Qingdao Sifang Rolling Stock Research Institute Co., Ltd. His work at this esteemed research institution has allowed him to focus on advancing capacitor technology, contributing to the development of more efficient and reliable electronic components.
Collaborations
Some of Guangchun Xia's coworkers include Yajun Liang and Lipeng Shao. Their collaboration in the research environment fosters innovation and the sharing of ideas, which is essential for the advancement of technology in their field.
Conclusion
Guangchun Xia's contributions to capacitor technology exemplify the importance of innovation in the electronics industry. His patented designs not only enhance the functionality of capacitor systems but also pave the way for future advancements in the field.