Toshiyuki Katayama

Title: **Toshiyuki Katayama: Innovator in Clock Generating and Data Transmission Apparatus**

Introduction

Toshiyuki Katayama is a prominent inventor based in Hitachi, Japan, known for his innovative contributions to the field of electrical engineering. He holds a significant patent related to clock generating apparatuses and data transmitting/receiving technology. His work has been essential in enhancing data communication methods and ensuring high efficiency in data transmission processes.

Latest Patents

Katayama's notable patent focuses on a data transmitting/receiving apparatus that involves a master clock signal and a slave clock signal. These signals differ in phase based on a basic clock signal, allowing for advanced data transmission techniques. The technology ensures that serial data can be inputted according to either clock signal, facilitating a protocol process that outputs transformed data while maintaining synchronization. Importantly, the invention generates a start delimiter detecting signal to pinpoint the beginning of data frames, effectively managing shifts on bit boundaries during transmission without delays.

Career Highlights

Throughout his career, Toshiyuki Katayama has worked with esteemed companies such as Hitachi, Ltd. and Hitachi Engineering Co., Ltd. His role in these organizations has allowed him to collaborate with various engineers and experts in the field, ultimately leading to significant advancements in data transmission technologies.

Collaborations

Katayama has collaborated with notable colleagues such as Norihiko Sugimoto and Shunji Inada, who have contributed to his innovative projects. Their combined skills and expertise have played a crucial role in the development and refinement of the patented technologies.

Conclusion

In summary, Toshiyuki Katayama has made remarkable strides in the field of data communication through his inventive work in clock generating and data transmitting/receiving apparatuses. His patent represents a substantial contribution to improving data transmission efficiency, highlighting the importance of innovation within electrical engineering. As technology continues to advance, Katayama's work will undoubtedly influence future developments in this critical area.