Company Filing History:
Years Active: 2020
Title: Chen-Chun Huang: Innovator in Power-On Reset Circuits
Introduction
Chen-Chun Huang is a notable inventor based in Chongqing, China. He has made significant contributions to the field of electronics, particularly in the development of power-on reset circuits. His innovative work has led to the filing of a patent that addresses critical aspects of power supply management.
Latest Patents
Chen-Chun Huang holds a patent for a "Power-on reset circuit and related reset method." This invention is designed to generate a reset signal based on the power supply voltage. The circuit includes a power supply voltage detector, a holding circuit, a reference voltage generator, and a reset determination circuit. The power supply voltage detector is controlled by the reset signal and detects the power supply voltage level to generate a detection signal. The holding circuit outputs an enablement signal based on the detection signal, selectively maintaining its level. The reference voltage generator, controlled by the enablement signal, outputs a reference voltage. Finally, the reset determination circuit generates the reset signal according to both the power supply voltage and the reference voltage. This innovative approach enhances the reliability of electronic devices during power fluctuations.
Career Highlights
Chen-Chun Huang is currently employed at Artery Technology Company, where he continues to develop cutting-edge technologies. His work focuses on improving electronic circuit designs, contributing to advancements in the industry. His expertise in power management circuits has positioned him as a valuable asset to his team.
Collaborations
Chen-Chun Huang collaborates with talented colleagues, including Zhengxiang Wang and Hung-Yu Lin. Together, they work on various projects that aim to push the boundaries of electronic innovation.
Conclusion
In summary, Chen-Chun Huang is a distinguished inventor whose work in power-on reset circuits has made a significant impact in the field of electronics. His contributions continue to influence the development of reliable electronic systems.