Company Filing History:
Years Active: 2020
Title: An-Tai Huang: Innovator in High-Power Control Devices
Introduction
An-Tai Huang is a notable inventor based in Taoyuan, Taiwan. He has made significant contributions to the field of electrical engineering, particularly in the development of high-power control devices. His innovative work has led to the creation of a patent that enhances the efficiency and functionality of electrical generating and consuming devices.
Latest Patents
An-Tai Huang holds a patent for a "Flexible high-power control device and motor assembly comprising the control device." This invention is designed to control at least one high-power electrical generating or consuming device, which features a plurality of electrical terminals and a housing with a non-planar surface. The device is thermal-conductively connected to an active cooling unit. The flexible high-power control device includes a flexible thermal-conductive interfacial insulation substrate, at least one circuit layer, and at least one electronic element. The interfacial insulation substrate is affixed to the non-planar surface of the electrical device, while the circuit layer contains multiple electrical terminals that connect to the device's terminals. The electronic element is mounted on the circuit layer, forming a control circuit for managing the electrical device.
Career Highlights
An-Tai Huang is currently associated with Sentec E&E Co., Ltd., where he continues to innovate in the field of electrical engineering. His work focuses on developing advanced control systems that improve the performance of high-power devices. His dedication to research and development has positioned him as a key figure in his industry.
Collaborations
An-Tai Huang collaborates with Chun-Hung Lin, a fellow innovator in the field. Together, they work on projects that aim to push the boundaries of technology in high-power control systems.
Conclusion
An-Tai Huang's contributions to the field of electrical engineering, particularly through his patented innovations, demonstrate his commitment to advancing technology. His work not only enhances the efficiency of high-power devices but also showcases the potential for future developments in this area.