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Uncooled Infrared Detectors
LWIR Uncooled Thermal Imaging Module: 640x512 12µM Detector, NETD<40mk
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xResolution | 640x512 | Power Consumption | 0.8W |
---|---|---|---|
Spectral Range | 8~14μm | Pixel Pitch | 12μm |
NETD | <40mK | Frame Rate | 25Hz/30Hz |
High Light | LWIR Uncooled Thermal Module 640x512,12uM Detector Thermal Module,Detector LWIR Thermal Module |
LWIR Uncooled Thermal Imaging Module: 640x512 12µM Detector, NETD<40mk
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.
- 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
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 |
Optics | |
Optional Lens | Fixed Athermal: 13mm |
The TWIN612/R thermal imaging module is applied to the field of Thermography, Security Monitoring, UAV Payloads, Robots, Intelligent Hardware, ADAS, Firefighting & Rescue
1. What is the difference between infrared and thermal imaging?
Infrared refers to the range of electromagnetic radiation beyond visible light, while thermal imaging is a technology that utilizes infrared radiation to capture the temperature variations of objects and create visual representations of their heat patterns. In simple terms, thermal imaging is one application of infrared technology.
2. Can infrared detect hidden objects?
Infrared technology can sometimes detect hidden objects by detecting differences in temperature between the object and its surroundings. For example, infrared cameras can be used to locate hidden heat sources, such as living organisms or overheating electrical components, that may not be visible to the human eye.
3. How accurate is infrared temperature measurement?
Infrared temperature measurement can provide reasonably accurate results when used correctly. However, accuracy can be affected by factors such as distance, emissivity (surface properties of the object being measured), environmental conditions, and the quality of the infrared thermometer or camera being used.