Uncooled 640x512 Resolution LWIR Thermal Camera Core with 12μm Pixel Pitch and 0.65W Low Power Consumption
Equipped with the high-sensitivity 640×512 12μm ApexCore wafer-scale infrared focal plane array (FPA) featuring typical NETD ≤25 millikelvin, the COIN612G2 infrared imaging core achieves superior performance with optimized cost. It offers full compatibility with widely adopted serial communication interfaces, diverse video signal outputs, and a comprehensive selection of objective lenses to accommodate multi-scenario deployment requirements.
The module achieves instantaneous hot-spot capture and high-fidelity thermal visualization, substantially cutting development overhead for system integrators. As a result, it functions as a complete thermal imaging integration unit with rich built-in functions and remarkable cost competitiveness.
- Developed with a high-performance, cost-efficient ApexCore wafer-level infrared detector with NETD ≤25mK
- Combines a mainstream FPA with advanced image processing algorithms to enhance image quality
- Dimensions: 25.4×25.4×15.7mm
- Weight: 15±1g, Power consumption ≤0.65W
- Multiple lens options available to meet various application requirements
- Supports USB 2.0/DVP/LVDS/BT.656 image output interfaces
- Outputs RAW/YUV image data with serial port control
| Model | COIN612G2 |
|---|---|
| IR Detectors Indicators | Sensitive Material: VOx |
| Resolution: 640×512 | |
| Pixel Size: 12μm | |
| Spectral Response: 8μm ~ 14μm | |
| Typical NETD: ≤25mK/F1.0/25℃ | |
| Image Processing | Digital Frame Rate: 25/30/50Hz |
| Start-up Time: 6s | |
| Analog Video: PAL/NTSC | |
| Digital Video: RAW/YUV422 | |
| Image Algorithm: Non-uniformity Correction (NUC), 3D Noise Reduction (3DNR), 2D Noise Suppression (DNS), Dynamic Range Compression (DRC), Edge Enhancement (EE) | |
| Image Display: 10 Types (White Hot/Lava/Iron Red/Hot Iron/Medical/Arctic/Rainbow 1/Rainbow 2/Tint/Black Hot) | |
| PC Software | ICC Software: Module Control & Video Display |
| Electrical | Standard External Interface: 50pin: DF40C-50DP-0.4V(51), (HRS,Male) |
| Extension Board: USB3.0/USB2.0/VPC/USB2.0&VPC | |
| Communication Interface: TTL-232/USB2.0 | |
| Digital Video Interface: DVP8/DVP16/USB2.0/BT.656/LVDS | |
| Supply Voltage: 4.5~5.5V | |
| Typical Power Consumption: 0.65W | |
| Mechanical | Bare Core Size(mm): 25.4×25.4×15.7 |
| Bare Core Weight(g): 15±1g | |
| Environmental Adaptability | Operating Temperature: -40℃~+70℃ |
| Storage Temperature: -45℃~+85℃ | |
| Humidity: 5%~95%, non-condensing | |
| Vibration: 5.35grms, Random Vibration, 3-axis | |
| Impact: Half Sine Wave, 40g/11ms, Impact Direction X Axis, 3 times | |
| Certification: ROHS2.0/REACH | |
| Optical Lens | Optical Lens: Fixed Focus Athermal: 4.8mm/7mm/9.1mm/13mm/19mm/25mm/35mm/50mm/70mm |
| Protection Level: IP67(Front Lens) |
The COIN612G2 thermal imaging module is applied in the field of Security Monitoring, Industrial Vision, Outdoor Observation, Firefighting & Rescue, ADAS, Machine Vision etc.
- High sensitivity and excellent performance
- World-leading technology in infrared industry
- Various infrared detectors available - Both uncooled and cooled IR detectors in different formats and pixel size
- Volume production to ensure fast delivery - Three production lines with annual production capability up to millions of detectors
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.
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