Dexter Research Center, Inc.
Since 1977, Dexter Research has been the preferred provider of infrared thermopile detectors for science and industry. Today we offer the world's largest selection of thermopile-based solutions including high-quality, high-output Bismuth-Antimony thin film and silicon-based infrared-sensing thermopile detectors. We offer standard detectors in high volumes. We also customize detectors for specific needs. Integrated modules serve as complete sensing subsystems.
- +1 (734) 426-3921
- +1 (734) 426-5090
- info@dexterresearch.com
- 7300 Huron River Drive
Dexter, MI 48130
United States of America
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Product
Security/Detection
DR26
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A two-channel thin-film thermopile that offers low noise in a TO-5 package. Each small active area is 2mm x 0.6mm. This is our lowest noise-voltage two-channel detector.
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Product
Imaging
SLA64 (Preliminary)
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A 1 x 64 element silicon-based thermopile array. Each active area is 0.45mm x 2.0mm with a time constant of 42ms and a low Temperature Coefficient of Responsivity of -0.06%/C. It is packaged in a 68-pin QIP. Includes internal 30k 5% NTC chip thermistor provides ambient package temperature measurement. See Thermistor Options p/n: MT04.
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Product
Fire Suppression/Detection
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Dexter's sensitive yet rugged fire detectors, or fire sensors, serve as the foundation of US combat fire suppression systems on combat aircraft and ground vehicles ranging from the HUMVEE to the Abraham's Tank. Our fire sensors consume low energy, making them the premier safety component on battery-powered as well as hot-wired systems. We like to call them "the eye that never sleeps." How fast are they? Fast enough to race the fire caused by a rocket hitting a fuel tank and win, triggering fire suppression on the spot to help protect soldier and pilot alike. Rugged missions require rugged equipment. Intensive MIL-STD-883H testing performed by Trialon Corporation, an independent testing facility, confirm that Dexter Research's silicon-based temperature sensor detectors meet the same rugged requirements of 1,000G's for mechanical shock and 30G's in random vibration for which our thin-film detectors are famous. Download Dexter's report here (PDF).
