Company Filing History:
Years Active: 1989-1990
Title: Syoichi Suzuki: Innovator in Time Division Multiplex Transmission Systems
Introduction
Syoichi Suzuki is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of telecommunications, particularly in the development of time division multiplex transmission systems. With a total of two patents to his name, Suzuki's work has had a lasting impact on data transmission technologies.
Latest Patents
One of Syoichi Suzuki's latest patents is a time division multiplex transmission system. This system includes a time division multiplex encoder that supplies a master clock to multiple PCM digital signal sources. These sources have the same sampling frequency and quantization bit number, which allows for effective clock synchronization. The encoder generates a time-divisionally multiplexed data signal based on a data word that is not D/A converted and sampled from each digital signal source. The system also features a transmission line for transmitting the multiplexed data signal and a time division demultiplex decoder that selects a desired transmitted multiplexed data signal. This decoder demultiplexes the selected data signal according to the transmission rate before the time division multiplexing occurs.
Career Highlights
Syoichi Suzuki is currently employed at Kenwood Corporation, where he continues to innovate in the field of telecommunications. His work has been instrumental in advancing the efficiency and reliability of data transmission systems.
Collaborations
Throughout his career, Syoichi Suzuki has collaborated with notable colleagues, including Yukihiko Miyamoto and Hirokazu Kobayashi. These collaborations have contributed to the development of cutting-edge technologies in the telecommunications sector.
Conclusion
Syoichi Suzuki's contributions to time division multiplex transmission systems highlight his role as a key innovator in telecommunications. His patents and collaborations reflect a commitment to advancing technology in this critical field.