The cooled infrared detector assembly consists of three parts: a focal plane detector chip, a metal micro Dewar, and a Stirling refrigerator. The focal plane detector chip is composed of a photovoltaic HgCdTe/MCT two-dimensional detector array coupled with a silicon readout circuit. Cooled MWIR Camera Module adopts an all-metal micro Dewar packaging and is equipped with an integrated Stirling refrigerator to achieve the overall connection between the micro Dewar and the Stirling refrigerator. This highly integrated design ensures the Exatimes cooled MWIR camera module offers a compact and rugged package, with the competitive cooled thermal camera price further enhancing its cost-performance advantage, making it ideal for applications with strict size, weight, and power (SWaP) constraints. The closed-loop temperature control of the stirling refrigerator can be achieved through temperature sensors, which can meet the requirements of use for the mwir camera module. As a key component, the Cooled MWIR Camera Module delivers reliable high-sensitivity imaging in demanding thermal detection scenarios.
The cooled MWIR camera module is a high-performance thermal imaging solution for diverse applications. Featuring advanced infrared detection and efficient cooling, this versatile laser imaging module delivers exceptional sensitivity and precision, making the mwir camera module an invaluable tool for security, surveillance, and scientific research—with the competitive cooled thermal camera price further boosting its cost-performance advantage in these fields. The technical specifications highlight the module's impressive capabilities, including high resolution, wide dynamic range, and advanced image processing. For applications demanding superior thermal sensitivity and stability, the Cooled MWIR Camera Module stands out as a core solution. Exatimes' cooled MWIR camera module integrates seamlessly into a variety of systems, providing users with a reliable and powerful imaging solution. Refer to the chart below to find specifications that match your particular requirements.
| Refrigeration Method | Stirling Cooler | |
| Detector performance | Type | HgCdTe |
| Pixel | 640×512 | |
| Pixel spacing | 15μm | |
| Wavelength range | 3.7~4.8μm | |
| F-number | 2 | |
| Thermal sensitivity | ≤20mK | |
| Shot | On-demand customization | |
| Imaging Performance | Calibration function | Manual correction, background correction |
| Image enhancement | Equipped with automatic image filtering and digital detail enhancement functions | |
| Image flipping | Vertical flip, horizontal flip | |
| Frame rate | 25Hz | |
| Magnification factor | 2X, 4X | |
| Pseudo color | 6 types, including black heat/white heat | |
| Cross display | have | |
| Interface | Control | RS232/RS422 |
| Analog video output | PAL | |
| Digital video output | Network UDP | |
| Power Supply System | Working voltage | +12V~+24V (power protection) |
| Power dissipation | Stable: 5W Cooling: 11W | |
| Cooling time | ≤ 7 minutes (at room temperature) | |
| Environmental Parameters | Working temperature | -40℃~+60℃ |
| Storage temperature | -40℃~+70℃ | |
| Humidity | 5%~95% (non-condensing) | |
| Impact | Half sine, 30g, 11ms, 3 times per axis | |
| Vibration | 3-axis, 30min/axis,2.1g rms,10-500Hz | |
1. Simple development and easy integration
Cameralink interface outputs 16-bit RAW data, serial control.
Unibody design with the same dimensions as the detector.
2. Efficient, safe, wide-area gas leak detection solution
Remote, non-contact, visual gas detection.
Detects alkanes, alkenes, alcohols, benzenes, ketones, and many other gases.
3. Designed for user needs
Supports 12V power supply version, favoring explosion-proof certification.
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