Company Filing History:
Years Active: 2019
Title: Innovations by Xuanqi Zhang in Optical Transceiver Technology
Introduction
Xuanqi Zhang is a notable inventor based in Chengdu, China. He has made significant contributions to the field of optical transceiver technology. His innovative work focuses on improving the performance and reliability of optical communication systems.
Latest Patents
Xuanqi Zhang holds a patent for "Methods of reducing or eliminating internal optical light reflections, increasing yield, reducing high-temperature transmission failures and/or improving OSA transmission performance and an improved optical transceiver implementing the same." This patent describes an optical transceiver that includes a base or housing with a roughened or darkened optics mounting surface, a transmitter optical subassembly (TOSA), a receiver optical subassembly (ROSA), a beam splitter mount, and an optical fiber adapter. The TOSA is equipped with a laser diode that converts a received electrical signal into an outgoing optical signal, while the ROSA contains a photodiode that converts a received optical signal into an outgoing electrical signal. The beam splitter is designed to be transparent to one of the optical signals and reflects the other, enhancing the overall efficiency of the transceiver.
Career Highlights
Xuanqi Zhang is currently employed at Source Photonics (Chengdu) Company Limited. His work at this company has allowed him to focus on developing advanced optical technologies that are crucial for modern communication systems. His innovative approaches have led to improved performance metrics in optical transceivers.
Collaborations
Xuanqi Zhang has collaborated with several talented individuals in his field, including Yongbu Hailai and Ke Liu. These collaborations have fostered a creative environment that encourages the development of cutting-edge technologies.
Conclusion
Xuanqi Zhang's contributions to optical transceiver technology demonstrate his commitment to innovation and excellence. His patent reflects a significant advancement in the field, showcasing his ability to address complex challenges in optical communication.