Company Filing History:
Years Active: 2008-2011
Title: Yasuhiro Suzuki: Innovator in Photodetection Technology
Introduction
Yasuhiro Suzuki is a prominent inventor based in Hamamatsu, Japan. He has made significant contributions to the field of photodetection technology, holding a total of 10 patents. His work has advanced the capabilities of solid-state image pickup devices and photodetecting systems.
Latest Patents
One of his latest inventions is a photodetector that includes a photodiode, a switch for the photodiode, an integrating circuit, and a noise removing circuit. The integrating circuit accumulates electric charge input from the photodiode through the switch and outputs a voltage value based on the accumulated charge. The noise removing circuit features an amplifier, multiple switches, capacitors, and a power supply, which processes the voltage value output from the integrating circuit to enhance signal clarity.
Another notable invention is a solid-state image pickup device designed to minimize the non-sensitive regions between adjacent devices, thereby improving imaging accuracy. This apparatus consists of a photodetecting section, an output section, and both row and column selecting sections. It also incorporates waveform shaping circuits to refine the row selecting signals before they are input into the pixels of the photodetecting section.
Career Highlights
Yasuhiro Suzuki is currently employed at Hamamatsu Photonics K.K., where he continues to innovate in the field of photonics. His work has been instrumental in developing technologies that enhance imaging and detection capabilities.
Collaborations
He has collaborated with notable colleagues such as Seiichiro Mizuno and Masaki Mizoguchi, contributing to various projects that push the boundaries of photodetection technology.
Conclusion
Yasuhiro Suzuki's contributions to photodetection and imaging technology have established him as a key figure in his field. His innovative patents reflect a commitment to advancing technology and improving the accuracy of imaging systems.