LWIR Thermal Camera Module With Temperature Measurement Range Of -20℃~150℃/0~550℃

Place of Origin Wuhan, Hubei Province, China
Brand Name GST
Certification ISO9001:2015; RoHS; Reach
Model Number TWIN612/R
Minimum Order Quantity 1 Piece
Price Negotiable
Payment Terms L/C, T/T

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Product Details
Resolution 640x512 Power Consumption 0.8W
Spectral Range 8~14μm Pixel Pitch 12μm
NETD <40mK Frame Rate 25Hz/30Hz
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Product Description

LWIR Thermal Camera Module with Temperature Measurement Range of -20℃~150℃/0~550℃

Product Description


TWIN612 thermal module is a new arrival product developed by Global Sensor Technology. It integrates 640×512/12µm ceramic package uncooled infrared detector. With typical NETD<40mk, the TWIN612 thermal module could present clearer, sharper and more detailed image.

With temperature measurement range of -20℃~150℃/0~550℃, accuracy of ±2℃ or ±2% and frame rate up to 30Hz, the thermal module guarantees smooth thermal image and accurate temperature measurement.


The TWIN612 thermal module has the advantages of compact design, light weight structure and power consumption as low as 0.8w. With enhanced image algorithms and temperature measurement function, the TWIN612 thermal module presents more stable images and accurate temperature.


Ceramic packaging process is similar to metal packaging, which is a mature infrared detector packaging technology. Compared with metal packaging, the volume and weight of the packaged detector will be greatly reduced. Thus, the TWIN612 thermal module could be applied to industries that have strict requirements on size, weight and power consumption.


Main Features


- Mini Size: 25.4mm×25.4mm×35mm
- Light Weight: 25g
- Typical NETD<40mk
- Sharp, Clear Thermal Imaging
- Typical Power Consumption as Low as 0.8W


Product Specifications


Model TWIN612/R
IR Detector Performance
Resolution 640×512
Pixel Size 12μm
Spectral Range 8~14μm
Typical NETD <40mK
Image Processing
Frame Rate 25Hz/30Hz
Start-up Time 6s
Analog Video PAL/NTSC
Digital Video YUV/BT.656/LVDS/USB2.0
Image Display 11 in Total (White Hot/Lava/Ironbow/Aqua/Hot Iron/Medical/Arctic/Rainbow1/Rainbow2/Red Hot/Black Hot)
Image Algorithm NUC/3D/2D/DRC/EE
Electrical Specifications
Standard External Interface 50pin_HRS
Communication Interface RS232/USB2.0
Supply Voltage 4~5.5V
Typical Power Consumption 0.8W
Temperature Measurement
Operating Temperature Range -10℃~50℃
Temperature Measurement Range -20℃~150℃, 0℃~550℃
Temperature Measurement Accuracy Greater of ±2℃ or ±2%
SDK Windows/Linux; Achieve Video Stream Analysis and Conversion from Gray to Temperature
Physical Characteristics
Dimension (mm) 25.4×25.4×35 (Without Lens)
Weight 25g (Without Lens)
Environmental Adaptability
Operating Temperature -40℃~+70℃
Storage Temperature -45℃~+85℃
Humidity 5%~95%, non-condensing
Vibration 5.35grms, 3 Axis
Shock Half Sine Wave, 40g/11ms, 3 Axis, 6 Direction
Optional Lens Fixed Athermal: 13mm


Industrial Applications

The TWIN612/R thermal imaging module is applied to the field of Thermography, Security Monitoring, UAV Payloads, Robots, Intelligent Hardware, ADAS, Firefighting & Rescue

Our Advantages

LWIR Thermal Camera Module With Temperature Measurement Range Of -20℃~150℃/0~550℃ 0



1. Can thermal cameras see through walls or other solid objects?

No, thermal cameras cannot see through walls or solid objects. They detect and measure infrared radiation emitted or reflected by objects in their field of view. However, certain materials, such as glass, allow infrared radiation to pass through, so thermal cameras can “see” through these transparent materials.


2. What are cooled and uncooled thermal modules?

Cooled and uncooled thermal modules are types of infrared (IR) imaging systems used for capturing and analyzing thermal radiation. They are commonly used in applications such as surveillance, firefighting, industrial inspections


3. What is the difference between cooled and uncooled thermal modules?

The main difference lies in the type of sensor technology used. Cooled thermal modules incorporate a cryogenic cooling mechanism to maintain the sensor at extremely low temperatures, typically below -200 degrees Celsius. This cooling enhances the sensitivity and reduces the noise of the sensor, resulting in higher image quality and better performance in long-range and high-resolution applications. However, cooled thermal modules are more expensive, larger, and require periodic maintenance.

On the other hand, uncooled thermal modules use microbolometer sensors that operate at room temperature. These sensors detect the changes in temperature and convert them into electrical signals, which are then processed to create thermal images. Uncooled thermal modules are smaller, more compact, less expensive, and require no maintenance. However, they offer lower sensitivity and may not perform as well in demanding scenarios.