WUHAN GLOBAL SENSOR TECHNOLOGY CO., LTD. |
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The iTL612R infrared camera core integrates 640x512 / 12μm wafer
level package (WLP) infrared thermal detector. It is an uncooled
LWIR radiometric thermal imaging module for drones with spectral
range from 8 to 14μm.
iTL612 thermal camera module features in sharp and crisp image
presentation, compact size and low cost. Oriented for fully
optimized SWaP, iTL612R uncooled thermal module provides a reliable
solution for infrared system integration with limited space. Its
compact structure has reached top level of the same specification
module. It also has an optional thermographic function with
measurement range from -20℃~550 ℃ for industrial temperature
measurement.
The iTL612 thermal module is specially developed for the field of
Predictive Maintenance, Photovoltaic Inspection, Environmental
Protection, Scientific Research, Aerial Photography, Police
Investigation, Relief & Rescue, Forest Fire Prevention, Urban
Safety etc.
Compact & Lightweight Design
• Size: 21mm×22.3mm×27.3mm (with 9.1mm lens)
• Weight: 20.8g±1.5g (with 9.1mm lens)
• Low power consumption as low as 0.7W
Clear Image & Accurate Radiometry
• Brand new image process algorithm: NUC/3DNR/DNS/DRC/EE
• Support Windows/Linux/ARM SDK
• Support regional, point & isotherm temperature measurement
Various Interfaces for Easy Integration
• DVP/LVDS/USB2.0 interfaces, RAW/YUV image data output, serial
port control
Model | iTL612/R |
IR Detector Performance | |
Sensitive Material | Vanadium Oxide |
Resolution | 640×512 |
Pixel Size | 12μm |
Spectral Range | 8~14μm |
Typical NETD | ≤40mk |
Image Processing | |
Frame Rate | 30Hz |
Start-up Time | 5s |
Digital Video | RAW/YUV/BT656 |
Image Algorithm | Non-uniformity Correction (NUC) 3D Noise Reduction (3DNR) De-noise (DNS) Dynamic Range Compression (DRC) Edge Enhancement (EE) |
Image Display | Black Hot/White Hot/Pseudo Color |
PC Software | |
ICC Software | Module Control & Video Display |
Electrical Specifications | |
Standard External Interface | 30Pin_HRS: DF40C-30DP-0.4V(51), (HRS, Male) |
USB Expansion Board | Type-C |
Communication Interface | RS232-TTL/USB2.0 |
Digital Video Interface | CMOS8/USB2.0 |
Supply Voltage | 3.3V±0.1V VDC |
Typical Power Consumption | 0.7W |
Temperature Measurement | |
Operating Temperature Range | -10°C~+50°C |
Temperature Measurement Range | -20°C~+150°C, 0°C~550°C; Support Customization and Expansion |
Temperature Measurement Accuracy | Greater of ±3°C or ±3% (@23℃±3℃) |
Regional Temperature Measurement | Support Maximum, Minimum and Average Value of the Output Regional Temperature |
SDK | Support Windows/Linux/ARM; Achieve Video Stream Analysis and Conversion from Gray to Temperature |
Physical Characteristics | |
Size (mm) | 21×22.3×27.3 (With 9.1mm Lens) |
Weight | 20.8g±1.5g (With 9.1mm Lens) |
Environmental Adaptability | |
Operating Temperature | -40°C~+70°C |
Storage Temperature | -45°C~+85°C |
Humidity | 5%~95%, Non-condensing |
Vibration | 5.35grms, 3 Axis |
Shock | Half-sine Wave, 40g/11ms, 3 Axis 6 Direction |
Certificates | ROHS2.0/REACH |
Optics | |
Optional Lens | Fixed Focus Athermal: 9.1mm |
The iTL612/R thermal imaging module can be integrated into UAV
payloads and wearable devices so that is widely used in fields
of Predictive Maintenance, Photovoltaic Inspection, Environmental
Protection, Scientific Research, Aerial Photography, Police
Investigation, Relief & Rescue, Forest Fire Prevention, Urban
Safety etc.
1.What is the difference between low light, active IR and thermal imaging?
Low light needs natural light and transforms weak natural light image into enhanced electronic image through image intensifier;
Active IR actively emits infrared light and uses infrared beam reflected by the target. It has very poor concealment;
Thermal imaging doesn’t need any light and is a passive infrared night vision that detects infrared radiation difference between targets and scene or different parts of an object. not be affected by the changes of the surrounding lighting conditions, during night or even in fog, rain and other harsh environments.
2. Can you block thermal imaging?
In most cases, you cannot. But infrared rays can't penetrate walls, and also the glass can block IR. So, if you don’t want to be detected, you can conceal behind glass or walls to block the thermal imaging.