-
Thermal Camera Core
-
Thermal Security Camera
-
Plug-in Thermal Camera
-
Cooled Infrared Detectors
-
Cooled Camera Modules
-
Optical Gas Imaging
-
Radiometric Thermal Module
-
High Resolution Thermal Camera Module
-
Thermal Camera For Fever Detection
-
Vehicle Mounted Thermal Camera
-
Integrated Dewar Cooler Assembly
-
Uncooled Infrared Detectors
High Thermal Sensitivity 640x512 Resolution 15μm Pixel Pitch Cooled Thermal Camera Module
| Resolution | 640x512 | Pixel Pitch | 15μm |
|---|---|---|---|
| IR Detector NETD (23℃) | 20mK (F4) | Spectral Range | 3.7μm±0.2μm~4.8μm±0.2μm |
| Size | 71×55×84mm | Frame Rate | 50Hz (F4) / 30Hz (F5.5) |
| Highlight | High Resolution Oem Camera Module,Oem Camera Module 1280x1024,MWIR Camera Module |
||
Small in size, powerful in performance! The GAVIN GC615HMG infrared camera core brings professional-grade MWIR thermal imaging to compact devices. Featuring a 640×512/15μm high-spec cooled detector and smart image enhancement algorithms, it presents ultra-clear thermal imaging with minimal noise and higher detail definition. Thanks to advanced HOT technology, it supports high-temperature operation and super-fast cooling, while maintaining lightweight design, tiny footprint and low power consumption. Diverse mainstream interfaces and flexible output options make development and integration easier than ever. Ideal for handheld imagers, mobile device payloads and long-term monitoring applications.
- Mainstream FPA, Clear Imaging - Developed with 640×512/15μm large-format HOT MWIR cooled infrared detector for excellent versatility. Equipped with next-generation image processing algorithms including DRC, 2D/3D noise reduction, and edge enhancement (EE) for superior image clarity.
- HOT Technology Leading SWaP Optimization - Supports high-temperature operation up to 150K with cooling time ≤ 3min30s. Compact size: 71×55×84 mm, weight: 350g, power consumption: 7W.
- Rich Interfaces, Easy Integration - Supports CameraLink/USB 3.0/GigE/HDMI/SDI/MIPI/Fiber optic interfaces with flexible RAW/YUV image output options.
| 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 |
The GAVIN GC615HMG thermal imaging module is widely used in many areas including NDT (Non-Destructive Testing), Environmental Monitoring, Long-Range Surveillance, Scientific Research, and other industrial applications.
Our infrared detectors feature high sensitivity and excellent performance with world-leading technology in the infrared industry. We offer various infrared detectors including both uncooled and cooled IR detectors in different formats and pixel sizes. With three production lines and annual production capability up to millions of detectors, we ensure fast delivery and volume production.
There are currently two types of infrared thermal imaging sensors on the market: cooled and uncooled. Uncooled IR detectors operate at ambient temperature and are based on semiconductor technology, allowing for high-volume production with small size and low cost. They are widely used in portable/handheld/mobile devices. Cooled IR detectors are packaged in a unit that maintains extremely low temperatures supported by a cryo cooler. While they are larger, more expensive, and less reliable due to complex cooling systems, cooled systems offer incredible sensitivity and typically work with long focal length optics for long-range missions.
Cooled infrared focal plane detectors operate at low temperatures provided by a detector dewar cooler (DDC). They offer high sensitivity and can distinguish more subtle temperature differences than uncooled infrared detectors. This enables detection, identification, and recognition of objects at very long ranges exceeding ten kilometers. While the complex structure of cooled detectors results in relatively higher costs compared to uncooled detectors, their performance advantages make them essential for demanding applications.

