Company Filing History:
1 out of 622 
1 out of 3 Years Active: 2023
Title: Innovator Spotlight: Hou-Yi Lee
Introduction
Hou-Yi Lee is a prominent inventor based in New Taipei, Taiwan, known for his contribution to thruster technology. He has secured a patent that showcases his innovative approach to designing a lightweight and efficient propulsion device.
Latest Patents
Hou-Yi Lee holds a patent for the "Vacuum Cathode Arc-Induced Pulsed Thruster." This advanced thruster design features a housing that comprises both a triggering room and an electric discharging room, which are interconnected. The design includes a first anode unit and a first cathode unit, both concentrically positioned in the triggering room, alongside a second anode unit situated in the electric discharging room. An insulating fuel layer is placed concentrically between the first anode and cathode units. The overall design ensures low manufacturing costs, reduced system complexity, and minimized energy consumption. Furthermore, it prevents carbon deposition during the electric discharging process, which prolongs the thruster's service life while enhancing control precision and inducing accuracy.
Career Highlights
Throughout his career, Hou-Yi Lee has made significant strides in the field of aerospace engineering. He has worked with esteemed institutions such as National Cheng Kung University and the Taiwan Space Agency, where he has contributed to various research initiatives and innovations in propulsion technologies.
Collaborations
In pursuit of his innovative work, Hou-Yi Lee has collaborated with notable coworkers, including Yueh-Heng Li and Sheng-Wen Liu. These partnerships have facilitated the exchange of ideas and advancements in the exploration of thruster technologies.
Conclusion
Hou-Yi Lee's contributions to the field of thruster technology exemplify the spirit of innovation. His patented work on vacuum cathode arc-induced pulsed thrusters highlights his commitment to creating efficient and practical solutions in aerospace. With his continued research and collaboration, Lee is set to make further impacts in the industry.