Photoelectronic module based on cadmium mercury telluride linear focal plane array FEM1MPhotoelectronic module is intended for complete set scanning thermal vision systems used for geology, medicine, fire protection, the ecological control and the control of outflow of heat. FEM1M assures time delay and integration mode, that leads to increasing signal/noise relation and as a result increasing in photodetector detectivity. The signal may be extra amplified in multiplexer circuit. Photoelectronic module consists of: cooled focal plane array, cooled multiplexer, microcryogenic system (MCS) Integral-Stirling, electronic block of interface.
Photoelectronic module based on cadmium mercury telluride linear focal plane array FEM2MAs component of infrared devices focal plane array don’t need optical-mechanical scanners, therefore thermal imagers on its base have small dimensions, low power consumption and noiseless operation. FEM2M is intended for complete high-sensitivity thermal imagers «looking» type with high resolution for medicine, geological prospecting, meteorological and ecological monitoring and agriculture. Photoelectronic module consists of: focal plane array, microcryogenic system (MCS) Split -Stirling, electronic block of interface.
Photoelectronic module based on cadmium mercury telluride linear focal plane array FEM4MAs component of infrared devices focal plane array don’t need optical-mechanical scanners, therefore thermal imagers on its base have small dimensions, low power consumption and noiseless operation. FEM4M assures time delay and integration mode, that leads to increasing signal/noise relation and as a result increasing in photodetector detectivity. The signal may be extra amplified in multiplexer circuit. Photoelectronic module consists of: focal plane array, microcryogenic system (MCS) Split-Stirling.
Photoelectronic module based on cadmium mercury telluride focal plane array(FPA) FEM6MAs component of infrared devices focal plane array don’t need optical-mechanical scanners, therefore thermal imagers on its base have small dimensions, low power consumption and noiseless operation. FEM6M assures time delay and integration mode, that leads to increasing signal/noise relation and as a result increasing in photodetector detectivity. The signal may be extra amplified in multiplexer circuit. Photoelectronic module consists of: focal plane array, microcryogenic system (MCS) Integral-Stirling, electronic block of interface, electronic block of image processing.
Photoelectronic module based on cadmium mercury telluride focal plane array(FPA) FEM7MAs component of infrared devices focal plane array don’t need optical-mechanical scanners, therefore thermal imagers on its base have small dimensions, low power consumption and noiseless operation. FEM7M assures time delay and integration mode, that leads to increasing signal/noise relation and as a result increasing in photodetector detectivity. The signal may be extra amplified in multiplexer circuit. Photoelectronic module consists of: focal plane array, microcryogenic system (MCS) Integral-Stirling, electronic block of interface, electronic block of image processing.
Focal plane array (FPA) based on photodiodes of cadmium mercury telluride FUK6MAs component of infrared devices FPA don’t need optical-mechanical scanners, therefore thermal imagers on its base have small dimensions, low power consumption and noiseless operation. FUK6M is used in high-sensitivity thermal imagers «looking» type with high resolution for medicine, geological prospecting, meteorological and ecological monitoring and agriculture. Cooling up to operating temperature (80Ê) is carried out by microcryogenic system (MCS) Split-Stirling.
Focal plane array (FPA) based on photodiodes of cadmium mercury telluride FUK10MAs component of infrared devices FPA don’t need optical-mechanical scanners, therefore thermal imagers on its base have small dimensions, low power consumption and noiseless operation. FUK10M is used in high-sensitivity thermal imagers and detectors «looking» type with high resolution for medicine, geological prospecting, meteorological and ecological monitoring and agriculture. Cooling up to operating temperature (80Ê) is carried out by microcryogenic system (MCS) Integral-Stirling.
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