Direct measurement of the heat generation of ECE materials.
1. Directly measures the heat generated from ECE materials. 2. Ensures accurate thermal measurements through an inherently precise calibration process. 3. The integrated sample holder allows for easy switching between calibration and high voltage testing. 4. Protection circuit to safeguard the Stanford Research Systems SR560 preamplifier. 5. A compact heat flux sensor capable of measuring both heat flux and temperature. Extremely small size with minimized thermal mass. Response time: over 0.1 seconds. Thermal resistance: 0.01°F / BTU / ft²-hr; Output signal: >3µV/BTU/ft²-hr; Thermal capacity: 0.02 BTU/ft²/°F. 6. Genuine Stanford Research Systems SR560 preamplifier with wide bandwidth, noise filtering, and gain.
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basic information
<Specifications> 1. Measurement temperature range: -50℃ to 200℃ 2. Response time: Better than 100 milliseconds 3. Sample size: Maximum 20 mm x 20 mm 4. Sensitivity of heat flux sensor: >3 μV/BTU/ft²-hr 5. Data acquisition system: 16-bit ADA 6. Software-controlled measurement system allows for automatic multi-frequency/cycle/voltage testing 7. Low-noise preamplifier usable for other common electrical tests with variable gain from 1 to 50,000. Bandwidth of 1 MHz.
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Applications/Examples of results
Research and development of ECE materials
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Company information
Since its establishment, we have primarily engaged in the import and sales of advanced materials and research equipment, focusing on national research institutions, public universities, and corporate research laboratories. Our main market is in the field of material development, including dielectrics, ferroelectrics, piezoelectrics, and pyroelectrics. We contribute to research and development across a wide range of material fields, from bulk materials to polymers.