A vibration tester specialized for various electrical contacts such as connectors. In addition to hammer-based vibration, it is equipped with functions to measure contact resistance and interruptions. This allows users to check resistance changes per vibration cycle without the need for separate measuring instruments.
An enhanced version of the hammering micro vibration tester supporting high current up to 10A (previously limited to 50mA). It enables vibration testing of connectors for automotive devices and power connectors for medical equipment.
Designed for connector vibration research, this tester visualizes degradation of electrical contacts caused by micro-fretting. It is also applicable for reliability testing of electrical contacts in mobile devices and automotive equipment.
Easily perform quantitative vibration anywhere! Enables controlled impact testing in the field, such as inspection of electrical devices installed in cars or trains.
An air compressor co-developed with Tokyo Medical and Dental University. By utilizing unused energy such as factory wastewater, it serves as an environmentally friendly compressor for factories, water treatment facilities, and power plants with high compressed air demand.
A compact, lightweight, high-output compressor jointly developed with Tokyo Institute of Technology. Battery-powered operation enables applications such as air supply for power-assist suits.
We present research on the degradation of electrical contacts (using our in-house products such as the hammering micro vibration tester) and on air compression systems utilizing unused energy such as factory wastewater (water hammer air compression system) at academic conferences in Japan and abroad.
TMC System participates in this project, contributing to technological advancement and the promotion of joint R&D between industry and academia.
As a members of the Tokyo National College of Technology's technical discussion group, we engage in information exchange and company visits related to technical research and education.
Together with the Kawashima Laboratory at Tokyo Medical and Dental University, we conduct R&D on energy-related equipment, welfare devices, and various other systems and devices.