Products list

Infrared lamp heating system RTP-mini
This system is a compact desktop type of RTP-6 for conventional infrared-heating system. We have achieved quiet heating with efficient cooling and reduced noise with eliminating the conventional heat exhaust unit and adopting a cooling fan.
Thermal Flow Rate Evaluation System for Low Thermal Resistance Multilayer Substrates F-CAL
It is possible to measure the multilayer materials, which is difficult with the laser flash method. This system is to measure the heat flow rate of a sample. A heating block is contact with the high temperature side of the sample, and the low temperature side of the sample is contacted with a low temperature block which works as both a cooling and a heat flow meter to perform measurement.v It is possible to measure the heat flow rate flowing……
Ultra High Precision Thermal Expansion Measurement System by Laser Interferometer SuperLIX
The world of expansion with accuracy of 1×10-8/K or less Thermal expansion measurement with the world-class ultra high accuracy ＊as a commercial measurement system Application case Development of zero-expansion materials Development of negative thermal expansion material and anode materials Development of standard materials Development of materials for actuator
Polymeric Thermoelectric Sheet Evaluation System ZEM-d
This system can measure Seebeck coefficient and electrical resistivity in the thickness direction and also evaluate the thermoelectric properties on anisotropic materials at the same measurement direction.
Seebeck Coefficient / Electric Resistance Measurement System ZEM-3 series
Simultaneously measures the Seebeck coefficient and electric conductivity of thermoelectric materials. Based on requests from both domestic and international academic societies and customers, this system features our easy to use, high-precision measurement techniques. Complies with JIS standards for thermoelectric material Seebeck coefficient measurement equipment.
Atmospheric Thermoelectric Module Evaluation System F-PEM
The system can evaluate the power generation and heat flow that can be gathered when the temperature difference is given to thermoelectric module in the environment(in atmosphere and under load) and conversion efficiency that can be calculated from maximum power generation and heat flow. In addition, this system can conduct long-hours operation and heat cycle tests of thermoelectric modules and can be used for testing newly developed modules as well as for durability tests under load and temerature in which……
Power Generation Efficiency Characteristics Evaluation System PEM-2
Property evaluations of thermoelectric generator modules By applying a maximum 500°C temperature difference across a thermoelectric generator module, this system finds the thermoelectric conversion rate η by finding the power that is generated P when a one-dimensional heat flow Q is passed through the module.
Thermoelectric Conversion Efficiency Evaluation System for Small Modules Mini-PEM
Measure thermoelectric conversion efficiency for thermoelectric material alone and a pair of thermoelectric material This system can evaluate not only power generation but also conversion efficiency of thermoelectric modules. The conversion efficiency is evaluated from current dependency of power generation measured with four-probe method and heat flow measured with heat flow meter. High temperature part can reach up to 500 ℃(standard specifications), while low temperature part is cooled with water flow.
Laser Flash Method Thermal Constant Measurement System TC-1200RH / TC-9000 series
Thermal conductivity measurements covering a wide range of materials not only thermoelectric materials but also metals, ceramics, carbon etc. The systems measure 3 thermal constants (Thermal diffusivity, Specific heat capacity, Thermal conductivity) for uniform solid materials such as thermoelectric materials, ceramics, carbon, Metal, etc
Scanning Thermal Probe Micro-image STPM-1000
2 dimensional distribution of Seebeck coefficient and thermal conductivity measurement system by thermal probe STPM-1000 is used for evaluating Seebeck coefficient and thermal conductivity simultaneously. Simple evaluation of thermoelectric materials is possible by simultaneous evaluations of seebeck coefficient and thermal conductivity. The thermal conductivity distribution evaluation of functionally graded materials, multilayer substrates and organic materials is also possible. STPM-1000 is expected to use materials evaluation as a basic tool.