Company Filing History:
Years Active: 2002
Title: Innovations of Peng-Chuan Huang
Introduction
Peng-Chuan Huang is a notable inventor based in Tainan, Taiwan. He has made significant contributions to the field of clock architecture, showcasing his innovative spirit through his patented invention.
Latest Patents
Huang holds a patent for a "Programmable Clock Trunk Architecture." This invention includes a clock source, a multi-phase clock signal generator, a control bus, several clock signal lines, and at least one circuit block. The clock source generates a global clock signal, which is then transferred to the multi-phase clock signal generator. Upon receiving the global clock signal, the multi-phase clock signal generator, connected to a control bus, generates clock signals of different phases according to the signals from the control bus. Each clock signal branch transfers one of the clock signals of different phases, with each branch individually connected to the circuit block through an electrical switch. Only one switch is in the on state at any given time, allowing the clock signal of the corresponding phase to be transferred to the circuit block. The driving forces applied on the clock buffer connected to the clock source and the clock buffers on the branches are adjustable to reduce clock skew. Alternatively, programmable delay buffers can be utilized to achieve the same goal.
Career Highlights
Huang is currently employed at Faraday Technology Corporation, where he continues to develop innovative technologies. His work has positioned him as a key figure in the advancement of clock architecture.
Collaborations
Huang collaborates with talented individuals such as Chen-Teng Fan and Jyh-Herng Wang, contributing to a dynamic and innovative work environment.
Conclusion
Peng-Chuan Huang's contributions to clock architecture through his patented invention highlight his innovative capabilities and dedication to advancing technology. His work at Faraday Technology Corporation and collaborations with esteemed colleagues further emphasize his impact in the field.