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Thermal Camera Core
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Thermal Security Camera
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Drone Thermal Camera
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EO IR Systems
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Thermal Imaging Binoculars
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Infrared Thermal Camera Module
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High Resolution Thermal Camera Module
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Cooled Infrared Detectors
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Optical Gas Imaging
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Thermal Camera For Fever Detection
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Cooled Camera Modules
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Vehicle Mounted Thermal Camera
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Integrated Dewar Cooler Assembly
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Uncooled Infrared Detectors
LWIR Drone Thermal Camera Module Uncooled With Clear Thermal Imaging
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xResolution | 640x512 / 12μm | NETD | ≤50mK |
---|---|---|---|
Spectral Range | 8~14μm | Typical Power Consumption | <1W |
Temperature Range | -20℃~+550℃ (Customizable) | Temperature Accuracy | ±3℃ Or ±3% |
High Light | Mini LWIR Drone Thermal Camera,Drone Thermal Camera Module Uncooled |
Uncooled LWIR 640x512 / 12μm Drone Thermal Camera with Clear Thermal Imaging for UAV Payloads
COIN612R thermal camera is specially designed for the unmanned aerial vehicle payloads. It carries the 640x512 / 12μm uncooled VOx microbolometer infrared detector and has customizable temperature measurement between -20℃~550℃.
The COIN612R infrared camera equipped with drones can be used in many fields, such as industrial inspections that helps conduct nondestructive testing and protect the safety of inspectors, firefighting that helps firefighters see through smoke and put out damaging fires, in search and rescue operation that helps public safety members to find missing persons, night vision that help farmers monitor crop health from above etc.
- Mini Size
- Light Weight
- NETD≤50mk
- High Quality Image
- Low Power Consumption
- Rapid Development & Integration
Model | COIN612R |
IR Detector Performance | |
Resolution | 640x512 |
Pixel Pitch | 12μm |
Spectral Range | 8~14μm |
NETD | ≤50mk |
Image Processing | |
Frame Rate | 25Hz/30Hz |
Start-up Time | <5s |
Analog Video | PAL/NTSC |
Digital Video | RAW/YUV/BT656; USB2.0; Support Temperature Measurement Parameter Line |
Dimming Mode | Linear/Histogram/Mixed |
Digital Zoom | 1~8X Continual Zoom, Step Size 1/8 (YUV Output) |
Image Display | Black Hot/White Hot/Pseudo Color |
Image Direction | Horizontally |
Image Algorithm | NUC/3DNR/DNS/DRC/EE |
Electrical Specification | |
Standard External Interface | 30pin_HRS |
Communication Mode | RS232-TTL, USB2.0 |
Supply Voltage | 3.5~5.5V |
Typical Power Consumption | <1W |
Temperature Measurement | |
Operating Temperature Range | -10°C~50°C |
Temperature Measurement Range | -20°C~150°C, 100°C~550°C (Customizable) |
Temperature Accuracy | Greater of ±3°C or ±3% (Typical) |
SDK | Support Windows/Linux SDK; Realize Video Stream Analysis and Conversion from Grayscale to Temperature |
Physical Characteristics | |
Dimension (mm) | 25.4x25.4x25.8 (With 8.8mm Lens) 25.4X25.4X39.5 (With 13mm Lens) 25.4X25.4X38.3 (With 19mm Lens) |
Weight | 22g±1g (With 8.8mm Lens) 42g±1g (With 13mm Lens) 40g±1g (With 19mm Lens) |
Environmental Adaptation | |
Operation Temperature | -40°C ~ +70°C |
Storage Temperature | -45°C ~ +85°C |
Humidity | 5%~95%, Non-condensing |
Vibration | Random Vibration 5.35grms, 3 Axis |
Shock | Half-sine Wave, 40g/11ms, 3 Axis 6 Direction |
Optics | |
Optional Lens | Fixed Focus Athermal: 8.8mm/13mm/19mm |
The COIN612R thermal camera for UAV can be used for electric power inspection, photovoltaic inspection, environmental protection detection, scientific research, aerial photography, police investigation, disaster relief & rescue, forest fire prevention, urban safety etc.
1. What is infrared thermal imaging?
Infrared thermal imaging is a method of using infrared radiation and thermal energy to gather information about objects, in order to formulate images of them, or get temperature information of the objects, even in low visibility environments.
2. How does Infrared Thermal Imaging Work?
Infrared thermal imaging system is a passive non-contact detection and identification of infrared technology. It focuses the infrared radiation of the scene on the focal plane array infrared detector through the infrared optical system that can pass through infrared radiation. The thermal 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.