Company Filing History:
1 out of 41,012 
Years Active: 2024
Title: Lei Zhao: Innovator in 3D Imaging and Power Transfer Technologies
Introduction
Lei Zhao is a prominent inventor based in Xi'an, China. He has made significant contributions to the fields of 3D imaging and power transfer systems. With a total of 2 patents, Zhao's work is at the forefront of technological innovation.
Latest Patents
Zhao's latest patents include a "Metasurface-based structured light 3D imaging system and method." This invention utilizes a metasurface-based control device to achieve high-quality control of a laser beam. It employs a MEMS micromirror to scan and project the laser beam, enabling high-precision reconstruction of 3D information from the surface of an object. The invention enhances the quality of structured light fields, reduces laser speckles, and improves power, thereby increasing the precision and robustness of 3D imaging.
Another notable patent is the "Capacitive power transfer system with integrated wide bandwidth communication." This system features a power transmitter with primary side filter components, a communications modulator, and transmitter capacitive couplers. The power receiver is designed with receiver capacitive couplers that are capacitively coupled to the transmitter capacitive couplers, along with secondary side filter components and a communication demodulator. This innovative design allows for efficient power delivery and stable communication.
Career Highlights
Lei Zhao is currently employed at Apple Inc., where he continues to push the boundaries of technology. His work is instrumental in developing advanced systems that integrate communication and power transfer capabilities.
Collaborations
Zhao collaborates with talented individuals such as Shaoge Zang and Zonghong Hu, contributing to a dynamic and innovative work environment.
Conclusion
In summary, Lei Zhao is a distinguished inventor whose work in 3D imaging and power transfer systems is paving the way for future technological advancements. His contributions are vital to the ongoing evolution of these fields.