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Thermal imaging binoculars T300-75. Features

    Thermal imaging binoculars designed for use as a tracking device in low light conditions, the lack of lighting at night. This model has the characteristics of binoculars that are listed in the table at right. For more information, please contact: info@sensorse.com
Thermal imaging module M100 and M300
   Thermal imaging module M100 is remote uncooled longwave thermal imaging camera suitable for a wide range of applications.
   Thermal imaging cameras operate without a mechanical shutter and sensor thermoelectric cooler , have lower power consumption, high sensitivity and reliability .
   These features together with a compact structure make them lighter, smaller and more convenient to use, as an individual device , and the embedded member.
   Optional lenses with different focal lengths are ideal for this purpose.


   Downstairs specifications thermal imaging modules and night video obtained using the car imager module M100 . Made in China .
русский / english
   Modern multifunctional uncooled thermal imagers feature matrix , giving the opportunity to receive and store the information about the temperature fields of objects . Thermal sensing element - matrix miniature detectors senses infrared signals and converts them into electrical impulses that after amplification converted into a video signal . The imager can be used as a device for non-contact temperature measurement of distant objects and temperature fields .
   Areas of application of thermal imagers : energy and energy audits , engineering, medicine , construction, oil and chemical industry , transportation, etc. The Imager can quickly identify predictors of the presence of defects and in oil and gas pipelines , in heating mains , water pipes and electrical connections , thereby prevent serious accidents . Timely detection using a thermal heat loss and temperature anomalies reflecting invisible dangerous processes around us, will allow to take measures to eliminate the causes of potential accidents in the workplace. Application of thermal imaging at airports and train stations as a device for measuring the temperature of a person is much more efficient than conventional contact thermography. Due to the high speed contactless temperature measurement thermal imager and usability passenger did not even notice that his temperature was measured . Using a thermal imager to determine autocompensation temperature increased body temperature and, after further examination , to prevent cross-border movement of ill passengers.

Information about various converters and sensors of physical quantities, parameters of various physical processes is presented.
Electrophysical properties and effects in various electrical materials.
Theory, experimental results, practical application

Contacts: info@sensorse.com
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