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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
Uncooled Thermal Camera Module with 640x512 Resolution 12μm Pixel Size and ≤30mK NETD for Security Monitoring
| Resolution | 640x512 / 12μm | NETD | ≤30mK/F1.0/25℃ |
|---|---|---|---|
| Camera Lens | Multiple Available | Frame Rate | 25Hz/30Hz/50Hz |
| Image Algorithm | NUC/DRC/DNS/DDE/SFFC | Spectral Range | 8~14μm LW |
| Highlight | Uncooled Thermal Security Camera,LWIR Thermal Security Camera 17uM,640x512 Thermal Imaging Security Camera |
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The MICO612 ultra-compact infrared camera core integrates a 640×512 mainstream resolution infrared detector, multiple optical lens options, image processing board, and robust structural frame. It transmits analog or digital video to backend platforms for seamless integration. With its larger array, the MICO612 meets diverse customer requirements across various applications.
The high-resolution 640x512 sensor and small pixel size of 12μm deliver exceptional image clarity and detail, enabling detection of even minor temperature differences in thermal images. This level of precision is essential for security monitoring applications, helping identify potential threats or anomalous behavior that might otherwise go undetected.
- Mainstream Compatibility, Cost-Effective
Equipped with self-developed mainstream 640×512/12μm wafer-level infrared detector for wide adoption. Integrated with dedicated ASIC chip for high energy efficiency. - Optimized SWaP Design
Sectional dimension: only 22.2×22.2×27.2mm (excluding lens). Weight: just 30.3±2g. Low power consumption: 680mW. - Easy Development & Quick Integration
Native analog video or digital video output supporting CVBS/USB/MIPI standards—no additional development required. Easy mounting with minimal structural design effort.
| Model | MICO612 |
|---|---|
| IR Detector | |
| Sensitive Material | VOx |
| Resolution | 640×512 |
| Pixel Size | 12µm |
| NETD | ≤30mK/F1.0/25℃ |
| Spectral Response | 8~14μm |
| Optical Lens | |
| Focus/F# | 4.8/F1.0 | 9.1mm/F1.0 | 13mm/F1.0 |
| FOV | 91°(H)×73°(V) | 47.7°(H)×38.2°(V) | 33°(H)×26°(V) |
| Detection Range (8 pixels) | |
| 99m (5'11" tall person) 360m (4m×3m vehicle) | |
| Type | Fixed Focus Athermal |
| First lens sealing/coating | IP67 |
| Image Processing | |
| Analog Video | PAL(default) / NTSC |
| Digital Video | USB / MIPI |
| Frame Rate | 25Hz/30Hz/50Hz |
| Start-up Time | ≤6s |
| Image Algorithm | NUC/DRC/DNS/DDE/SFFC |
| Pseudo Color | 11 types - customizable |
| Electrical Interface | |
| Standard External Interface | 3PIN interface (A1251-WV-S-3P) | 9PIN interface(A1251-WV-S-9P) | 26PIN interface(DF56C-26S-0.3V-51) |
| Video Interface | CVBS | USB | MIPI |
| Power Supply | |
| Supply Voltage | DC: 5V~24V |
| Steady Power Consumption | ≤680mW@5V, 23±3℃ |
| Mechanical | |
| Size | 22.2mm×22.2mm×27.2mm (L×W×H) |
| Weight | 30.3±2g |
| Environmental Adaptability | |
| Operating Temperature | -40℃~+70℃ |
| Storage Temperature | -45℃~+85℃ |
| Humidity | 5%~95%, non-condensing |
| Vibration | Random Vibration, 5.35grms, 3-axis |
| Impact | Half Sine Wave, 40g/11ms, 3 Axis, 6 Direction |
| Certification | RoHS2.0/Reach |
The MICO612 thermal camera module can be integrated into security cameras with temperature monitoring from short distance to ultra distance, such as PTZ Camera, Box Camera, and Speed Dome Camera.
- Complete Documentation: Product manuals, setup guides, and selection references for immediate implementation.
- Development & Testing Assistance: Sample integrated testing, performance evaluation, and parameter verification made easy.
- Advanced Developer Toolkit: SDKs, APIs, algorithms, and debugging tools for deep integration.
- Remote Technical Support: 24/7 support with quick response and timely resolution for critical issues.
- Warranty: Original parts and strict process adherence to restore optimal performance.
In nature, all objects with temperatures above absolute zero (-273℃) radiate infrared rays. Using an infrared camera detector to measure the infrared radiation temperature difference between targets and background produces different infrared images, known as thermal images.
Infrared radiation emitted by targets enters the thermal detector's sensing range. The infrared detector converts radiation signals of varying intensity into corresponding electrical signals, which are then amplified and processed to form infrared images visible to the naked eye.
Cooled infrared focal plane detectors operate at low temperatures provided by detector dewar coolers (DDC). They offer higher sensitivity and can distinguish more subtle temperature differences than uncooled detectors, enabling detection, identification, and recognition of objects over distances exceeding ten kilometers. However, their complex structure results in relatively higher costs compared to uncooled detectors.

