Cooled MWIR Infrared Camera Core with 640x512 Resolution and 15μm Pixel Size for High-temperature Operation 150K

Place of Origin China
Brand Name SensorMicro
Certification ISO9001:2015; RoHS; Reach
Model Number GAVIN GC615HMG
Minimum Order Quantity 1 Piece
Price Negotiable
Payment Terms T/T
Product Details
Resolution 640x512 / 15μm IR Detector NETD (23℃) 20mK (F4)
Spectral Range 3.7μm±0.2μm~4.8μm±0.2μm Size 71×55×84mm
Cooling Time (23℃) ≤3min30s Power Supply 12V±1V
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Product Description
Cooled MWIR 640x512/15μm Infrared Camera Core High-temperature Operation 150K
Product Overview

Powered by a 640×512/15μm HOT MWIR cooled detector and premium image processing algorithms, the GAVIN GC615HMG infrared camera core redefines compact high-performance thermal imaging. Boasting fast cooling, ultra-low power consumption, and miniaturized size, it delivers outstanding SWaP efficiency.

GC615HMG supports effortless secondary development and seamless system integration, perfectly catering to handheld imaging devices, mobile payload systems, and long-term continuous monitoring scenarios with strict size, power, and long-range detection requirements.

Main Features
  • Mainstream FPA, Clear Imaging: 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.
  • 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. Flexible RAW/YUV image output.
Product Specifications
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 Lens Options:
Fixed focus: 25mm/F2
Continuous zoom: 18~275mm/F5.5, 110~1100mm/F5.5, 15~300mm/F4, 23~450mm/F4
Industrial Applications

The GAVIN GC615HMG thermal imaging module is widely used in many areas such as NDT, Environmental Monitoring, Long-Range Surveillance, Scientific Research, etc.

Our Advantages
  • Deep Technical Expertise: With many years of experience in the research, development, and application of infrared sensor technology, we have built strong capabilities across chip design, wafer fabrication, packaging and testing, as well as system integration. Our solid foundation enables us to continuously deliver innovative and reliable products that meet evolving market demands.
  • Focused on Innovation and Practical Implementation in Infrared Sensing: We are committed to driving technological breakthroughs in thermal imaging, constantly pushing the boundaries in NETD, SWaP, and operating temperature. Our products consistently lead in applications across security, industrial monitoring, intelligent systems, and more.
  • Diversified Product Portfolio: Backed by independent R&D and multiple technical pathways, we offer a comprehensive range of infrared detection components—both cooled and uncooled—providing tailored solutions for a wide variety of industries.
  • Rigorous Reliability Validation Ensures Quality Assurance: Supported by a robust quality management system, our products undergo multiple testing procedures throughout production to ensure long-term stability and reliability.
  • Professional Technical Support and Joint Development Services: Our engineering team works closely with customers' R&D and product teams to accelerate system integration, improve efficiency, and shorten time-to-market. Your success is our shared mission.
Frequently Asked Questions
1. In which industries are focal plane array infrared detectors used?
Infrared focal plane detector is the core component of thermal imaging system, and is the key to detect, identify and analyze infrared information of objects. It has a wide range of applications in traffic, inspection, security monitoring, meteorology, medicine and other industries.
2. What are the characteristics of cooled & uncooled infrared focal plane detectors?
Infrared focal plane detectors can be divided into cooled infrared focal plane detector and uncooled infrared focal plane detector. Cooled infrared detector works at a low temperature vacuum environment with high sensitivity and can distinguish more subtle temperature differences, while uncooled infrared focal plane detector does not need a cryogenic environment and can work at room temperature.
3. What is infrared thermal imaging?
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.
4. How do infrared detectors work?
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.
5. What are the advantages of cooled infrared detectors?
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.