Company Filing History:
Years Active: 2021-2025
Title: The Innovative Contributions of Sho Fujino
Introduction
Sho Fujino is a notable inventor based in Kyoto, Japan. He has made significant advancements in the field of radiation thermometry, holding a total of 2 patents. His work focuses on enhancing the accuracy and efficiency of temperature measurement devices.
Latest Patents
Fujino's latest patents include innovative designs for radiation thermometers. The first patent details a downsized radiation thermometer that increases circuit scale. This invention features an infrared sensor, a signal processing unit that processes signals from the infrared sensor, and a casing that accommodates both components. The signal processing unit is uniquely configured by stacking multiple substrates with spacers in between.
The second patent addresses the challenge of measuring the temperature of objects with narrow non-transmission wavelength ranges, such as isopropyl alcohol. This radiation thermometer incorporates an infrared detection element to accurately measure the temperature based on the intensity of infrared rays emitted from the measurement object. Additionally, it includes a filter group composed of several infrared filters arranged along the optical path, allowing for the transmission of infrared rays in distinct, non-overlapping wavelength ranges.
Career Highlights
Fujino has worked with reputable companies such as Horiba Advanced Techno, Co., Ltd. and Horiba, Ltd. His contributions to these organizations have been instrumental in advancing their technological capabilities in temperature measurement.
Collaborations
Throughout his career, Fujino has collaborated with talented individuals, including Naohiro Ohsuga and Yu Takiguchi. These partnerships have fostered innovation and creativity in his projects.
Conclusion
Sho Fujino's work in the field of radiation thermometry exemplifies his commitment to innovation and precision. His patents reflect a deep understanding of the challenges in temperature measurement and offer practical solutions that enhance the functionality of radiation thermometers.