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Thermal Camera Core
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Thermal Security Camera
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Plug-in Thermal Camera
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Cooled Infrared Detectors
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Cooled Camera Modules
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Optical Gas Imaging
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Radiometric Thermal Module
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High Resolution Thermal Camera Module
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Thermal Camera For Fever Detection
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Vehicle Mounted Thermal Camera
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Integrated Dewar Cooler Assembly
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Uncooled Infrared Detectors
640x512 Resolution 15μm Pixel Size MWIR Cooled Infrared Module for Fast Integration
| Resolution | 640x512 / 15μm | IR Detector NETD (23℃) | 20mK (F4) |
|---|---|---|---|
| Spectral Range | 3.7μm±0.2μm~4.8μm±0.2μm | Frame Rate | 50Hz (F4) / 30Hz (F5.5) |
| Cooling Time (23℃) | ≤3min30s | Steady Power Consumption (23℃) | ≤7W |
| Highlight | 15uM Cooled Camera Modules,Cooled Camera Modules 640x512,RS058 T2SL LWIR Camera Core |
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Unlock superior mid-wave infrared imaging performance with the GAVIN GC615HMG cooled camera core. Equipped with industry-leading 640×512/15μm large-format HOT detector and upgraded image processing technology, it captures every subtle thermal detail with stunning clarity and stability.
Breaking the trade-off between imaging quality and portability, its innovative HOT structure achieves fast cooling response, ultra-compact size and low power operation, greatly reducing system load and energy consumption. Versatile interface compatibility and flexible image output modes simplify secondary development and system integration dramatically.
Whether for portable handheld devices, airborne/vehicle mobile payloads or 24/7 long-duration monitoring projects, the GC615HMG consistently delivers reliable, high-precision infrared imaging performance in complex application environments.
- Developed based on a 640×512/15μm large-format HOT MWIR cooled infrared detector, offering excellent versatility
- Equipped with next-generation image processing algorithms, including DRC, 2D/3D noise reduction, and edge enhancement (EE), delivering clearer images
- Supports high-temperature operation up to 150K, with cooling time ≤ 3min30s
- Compact size: 71×55×84 mm, weight: 350g, power consumption: 7W
- Supports CameraLink/USB 3.0/GigE/HDMI/SDI/MIPI/Fiber optic interfaces
- Flexible RAW/YUV image output
| Model | GAVIN GC615HMG |
|---|---|
| Performance Indicators |
Resolution: 640×512 Pixel Size: 15μm Cryocooler: RS058 Spectral Response: 3.7μm±0.2μm~4.8μm±0.2μm IR Detector NETD (23℃): 20mK (F4) |
| Image Processing |
Frame Rate: 50Hz (F4) / 30Hz (F5.5) Digital Zoom: 1× to 8× continuous digital zoom Image Direction: Horizontally/Vertically/Diagonally Flip Image Algorithm: DRC, 2D/3D Image Noise Reduction, EE |
| Electrical |
Analog Video: PAL/NTSC Digital Video: Standard: DVP/LVDS/USB2.0 Option: Cameralink/USB3.0/GigE/SDI/HDMI/MIPI/Single-mode Optical Fiber/Multi-mode Optical Fiber External Sync: Standard: LV-TTL Option: RS422/LVDS Communication: Standard: USB2.0/LV-TTL Option: RS422/CAN/USB3.0/GigE Power Supply: 12V±1V Steady Power Consumption (23℃): ≤7W Cooling Time (23℃): ≤3min30s |
| Physical |
Size (mm): 71×55×84 Weight (g): ≤350 Operating Temperature: -40℃~+71℃ |
| Optical Lens |
Fixed focus: 25mm/F2 Continuous zoom: 18~275mm/F5.5 110~1100mm/F5.5 15~300mm/F4 23~450mm/F4 |
Product manuals, setup guides, and selection references. Get started without guesswork.
Sample Integrated Testing, performance evaluation, and parameter verification made easy.
SDKs, APIs, algorithms, and debugging tools for deep integration.
24/7 support--quick response and timely resolution for critical issues.
Original parts and strict process adherence to restore optimal performance.
In nature, all objects whose temperature is higher than absolute zero (-273℃) can radiate infrared rays. By using the infrared camera detector to measure the infrared radiation temperature difference between the target itself and the background, you can get different infrared images, which are also called thermal images.
Infrared radiation that emitted by target enters the sensing range of the thermal detector, then the infrared detector converts the radiation signal of different intensity into the corresponding electrical signal, and then through amplification and video processing, forms the infrared image that can be observed by the naked eyes.
The cooled infrared focal plane detector operates at a low temperature which is provided by a detector dewar cooler (ddc). It has high sensitivity and can distinguish more subtle temperature difference than uncooled infrared detector. It can detect, identify and recognize objects at a very long range which is more than ten kilometers away. The structure of cooled detector is very complex which results in a relatively high cost than uncooled detector.

