Location History:
- Tokyo, JP (2014)
- Shinagawa-Ku, JP (2017)
Company Filing History:
Years Active: 2014-2017
Title: Tsuyoshi Kawabata: Innovator in Surge Protection Technology
Introduction
Tsuyoshi Kawabata is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of surge protection technology, holding three patents to his name. His innovative designs focus on enhancing the safety and reliability of electrical systems against lightning surges.
Latest Patents
Kawabata's latest patents include a surge protective system and a lightning surge detector. The surge protective system features a plinth for wiring that connects multiple line side wires to a ground wire. It incorporates several surge protective devices (SPDs) and a surge detector, all arranged in parallel and detachably fitted into the plinth. This system effectively channels lightning surge currents to the surge detector, which then discharges the current safely to the ground.
The lightning surge detector patent includes a first terminal unit connected to a ground-side terminal unit of a surge protective device and a second terminal unit linked to a ground wire. It features a conducting coupling bar, a detection coil, a waveform processing unit, a computation control unit, and a display unit, all housed within a single casing. This innovative design allows for accurate detection and management of lightning surge currents.
Career Highlights
Kawabata is currently employed at Sankosha Corporation, where he continues to develop advanced surge protection technologies. His work has significantly impacted the safety standards in electrical systems, making them more resilient to natural electrical phenomena.
Collaborations
Some of his notable coworkers include Shuji Higashi and Yuichi Takahashi, who contribute to the innovative environment at Sankosha Corporation.
Conclusion
Tsuyoshi Kawabata's contributions to surge protection technology exemplify his commitment to innovation and safety. His patents reflect a deep understanding of electrical systems and a dedication to improving their reliability against lightning surges.