Cooled MWIR Thermal Camera Core 640x512 15μM For Long Range Surveillance

Place of Origin Wuhan, Hubei Province, China
Brand Name GST
Certification ISO9001:2015; RoHS; Reach
Model Number GAVIN615A
Minimum Order Quantity 1 Piece
Price Negotiable
Payment Terms L/C, T/T

Contact me for free samples and coupons.

Whatsapp:0086 18588475571

Wechat: 0086 18588475571


If you have any concern, we provide 24-hour online help.

Product Details
Type Cooled Camera Module Technology MCT/HgCdTe
Resolution 640x512/15μm High Sensitivity NETD≤15mK
Size 155x67x80mm Mid Wavelength 3.7~4.8μm
High Light

Cooled MWIR Thermal Camera Core


MWIR Thermal Camera Core 640x512


Thermal MWIR Camera Core

Leave a Message
Product Description

Cooled MWIR Thermal Camera Core 640x512 15μM For Long Range Surveillance

GAVIN615A Cooled Thermal Camera Core


High Frame Rate Cooled HgCdTe 640x512 / 15μm MWIR Thermal Imaging Module with RS058 Cryo Cooler


Product Description


GAVIN615A is a cooled mid wave thermal imaging module developed by Global Sensor Technology (GST). It consists of a 640x512@15µm HgCdTe MWIR IR detector with RS058 cryocooler, hardware electronics and various image processing algorithms are also embedded already to present sharp and clear thermal images.


When integrated with F2 640x512 / 15µm HgCdTe MWIR IR detector, the frame rate of GAVIN615A can be configured up to 100Hz, which is very suitable for applications that require observation on fast moving objects.


Until now, we have provided our customers with various mature and stable infrared thermal imaging solutions. It is easy for OEM customers to carry out fast acceptance test on GST thermal modules, start rapid secondary development and greatly reduce the cost of their development.


Main Features


- Meet the Needs of Long Range Detection

- High Sensitivity, NETD≤15mK

- High Frame Rate

- High Quality Thermal Imaging

- Easy Integration into the System


Product Specifications


Model GAVIN615A
IR Detector Performance
Resolution 640x512
Pixel Pitch 15μm
Cryocooler RS058
Spectral Range 3.7μm~4.8μm MW
Cooling Time (20°C) ≤7min
NETD (20°C) ≤15mK
Image Processing
Frame Rate 50Hz/100Hz
Dimming Mode Linear/Histogram/Mixed
Digital Zoom ×1/×2/×4
Image Direction Horizontally/Vertically/Diagonally Flip
Image Algorithm NUC/AGC/IDE
Electrical Specification
Standard External Interface J30JZ 25pin
Analog Video PAL
Digital Video 16bit RAW/YUV: 16bit DVP/Cameralink Output
External Sync Frame External Sync: RS422 Level
Communication RS422, 115200bps
Power Supply 20~28VDC
Stable Power Consumption 12W
Dimension (mm) 155×67×80
Weight ≤900g
Operation Temperature -40°C ~ +60°C
Vibration Magnitude Vibration: GJB Vehicle-mounted High Speed Transport
Shock: Half-sine Wave, 40g 11 ms, 3 Axis 6 Direction 3 Times Each
Optical Lens
Optional Lens Continuous Zoom


Industrial Applications


The GAVIN615A thermal infrared camera module is widely used many areas such as Remote Monitoring System, Flight Vision Enhancement System, Multi-sensor Payload etc.


Cooled MWIR Thermal Camera Core 640x512 15μM For Long Range Surveillance 0


About Global Sensor Technology (GST)


Cooled MWIR Thermal Camera Core 640x512 15μM For Long Range Surveillance 1




1. What is thermal sensiivity?

Thermal Sensitivity, also named NETD (Noise Equivalent Temperature Difference), is a key parameter for evaluating medium wave (MWIR) and long wave (LWIR) thermal imaging cameras. It is directly related to the clarity measured by the thermal imager. It is a numerical value representing the signal-to-noise ratio of the temperature difference and measured in milliKelvins (mK). The smaller the thermal sensitivity value, the higher the sensitivity and the clearer the image.


2. What are the applications of thermal imaging?

Temperature measurement and all-weather imaging are two basic functions of infrared thermal imaging technology. Products developed based on these two technologies are widely used in security & monitoring, UAV payloads, industrial inspection, firefighting, predictive maintenance, ADAS, epidemic prevention, AIoT etc.