Company Filing History:
Years Active: 2017
Title: Innovations of Chiang-Hsiang Liao
Introduction
Chiang-Hsiang Liao is a notable inventor based in Hsinchu, Taiwan. He has made significant contributions to the field of electronics, particularly in the design of flip-flop circuits. His innovative work has led to the development of a patent that enhances the functionality of electronic devices.
Latest Patents
Chiang-Hsiang Liao holds a patent for a flip-flop circuit. This circuit includes a first logic circuit, a first master latch, a second master latch, and a slave latch. The first logic circuit performs a logic operation on a selecting signal and a clock signal to generate a first control signal. The first master latch receives a data signal according to the first control signal and latches the data signal based on the selecting signal and the clock signal. The second master latch receives a scan data signal according to the selecting signal and the clock signal, with its output terminal directly connected to the output terminal of the first master latch. The slave latch latches a signal on the output terminals of the first and second master latches to generate an output signal. This innovation is crucial for improving the performance of digital circuits.
Career Highlights
Chiang-Hsiang Liao is currently employed at Faraday Technology Corporation, where he continues to work on advanced electronic solutions. His expertise in circuit design has made him a valuable asset to the company. He has been instrumental in developing technologies that push the boundaries of electronic performance.
Collaborations
Chiang-Hsiang Liao collaborates with Sheng-Hua Chen, who is also a key figure in the field of electronics. Their partnership has led to innovative solutions and advancements in circuit technology.
Conclusion
Chiang-Hsiang Liao's contributions to the field of electronics, particularly through his patented flip-flop circuit, demonstrate his innovative spirit and technical expertise. His work at Faraday Technology Corporation continues to influence the development of advanced electronic systems.