Company Filing History:
Years Active: 2015
Title: Ryuji Ito: Innovator in Thermal Management Technology
Introduction
Ryuji Ito is a notable inventor based in Kawasaki, Japan. He has made significant contributions to the field of thermal management technology, particularly in the design of heat sinks for electronic components. His innovative approach has led to the development of a unique patent that enhances the efficiency of temperature measurement in electronic devices.
Latest Patents
Ryuji Ito holds a patent for a heat sink designed for measuring the temperature of electronic components. The patent describes a heat sink that includes a heat radiating plate, a fin, a heat receiving plate, and a temperature detector. The heat radiating plate features a first surface that receives heat from the electronic component. The fin is responsible for radiating heat energy that conducts through the heat radiating plate and is connected to it. The heat receiving plate is arranged apart from the heat radiating plate and has a second surface that can move to be parallel to the first surface. The temperature detector, which is crucial for accurate temperature measurement, is disposed on the heat receiving plate. This innovative design allows for more effective monitoring of temperature in electronic devices.
Career Highlights
Ryuji Ito is currently employed at Fujitsu Corporation, where he continues to work on advancements in thermal management technologies. His expertise in this area has positioned him as a valuable asset to the company and the industry as a whole.
Collaborations
Ryuji has collaborated with several talented individuals in his field, including Tomomi Okamoto and Hiroshi Yamada. These collaborations have fostered an environment of innovation and creativity, leading to further advancements in their respective projects.
Conclusion
Ryuji Ito's contributions to thermal management technology, particularly through his patented heat sink design, demonstrate his commitment to innovation in the electronics industry. His work continues to influence the way temperature is measured and managed in electronic components, showcasing the importance of effective thermal solutions.