Location History:
- Tokyo, JA (1977)
- Tokyo, JP (1980)
Company Filing History:
Years Active: 1977-1980
Title: Mitsuru Kawasaki: Innovator in Solid-State Imaging Technology
Introduction
Mitsuru Kawasaki is a prominent inventor based in Tokyo, Japan, known for his contributions to solid-state imaging technology. With a total of three patents to his name, Kawasaki has made significant advancements in the field of charge-coupled devices (CCDs).
Latest Patents
Kawasaki's latest patents include a CCD imager operable in single frame and repetitive frame modes. This solid-state imaging apparatus features a charge-coupled device equipped with photoelectric converting means for accumulating charges corresponding to incident light rays. It also includes a charge storage means for storing and transforming the accumulated charges during periods determined by a bias signal. Additionally, the apparatus has means for controlling the period of the bias signal and read-out means for obtaining the video signal from the charge-coupled device. Another notable patent is for a solid-state color imaging apparatus that utilizes charge-coupled devices to convert light signals into electrical video signals. This invention allows for variable accumulation times of charges in the imaging area, enabling effective compensation of video signal components.
Career Highlights
Kawasaki has had a distinguished career at Nippon Electric Co., Ltd., where he has been instrumental in developing innovative imaging technologies. His work has significantly impacted the field of imaging, particularly in enhancing the performance and versatility of CCDs.
Collaborations
Throughout his career, Kawasaki has collaborated with notable colleagues, including Masanobu Morishita and Hidehiko Inoue. These collaborations have fostered a creative environment that has led to groundbreaking advancements in imaging technology.
Conclusion
Mitsuru Kawasaki's contributions to solid-state imaging technology have established him as a key figure in the field. His innovative patents and collaborative efforts continue to influence the development of advanced imaging solutions.