Uncooled LWIR Thermal Camera Module with 640x512 Resolution and 12μm Pixel Size for Clear Thermal Imaging

Place of Origin Wuhan, Hubei Province, China
Brand Name SensorMicro
Certification ISO9001:2015; RoHS; Reach
Model Number iTL612 PLUS
Minimum Order Quantity 1 Piece
Price Negotiable
Payment Terms T/T
Product Details
Resolution 640x512 / 12μm NETD ≤25mK
Spectral Range 8~14μm Typical Power Consumption 0.65W
Communication Interface TTL-232/USB2.0 Digital Frame Rate 25/30/50Hz
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Product Description
LWIR Thermal Camera Module Uncooled 640x512 / 12μm with Clear Thermal Imaging
Product Overview

The iTL612 PLUS ultra-miniature infrared camera core is a versatile, high-adaptability imaging core suitable for industrial, commercial and security fields. Powered by the advanced ApexCore 640×512/12μm detector, it delivers stable, clear and sensitive thermal imaging with ≤25mK thermal sensitivity.

Its ultra-compact 17.3×17.3×24.2mm size, 13.7g ultra-light weight and 0.65W low power consumption make it applicable for various miniaturized device upgrades. With customizable lens solutions and universal compatibility with multiple interfaces, plus flexible data output formats, it can be flexibly deployed in portable thermal imagers, intelligent monitoring equipment and industrial precision testing devices.

Main Features
  • Unmatched Lightness and Minimal Load: Ultra-miniature size (17.3×17.3×24.2 mm), ultra-lightweight (13.7±0.5g), and ultra-low power consumption (as low as 0.65W)
  • Powered by ApexCore Technology: Enhanced sensitivity with thermal sensitivity as low as ≤25 mK and next-generation image processing algorithms for clearer imaging
  • Easy Development & Seamless Integration: Multiple lens options, supports DVP8, LVDS, MIPI, USB 2.0, and BT.656 interfaces with RAW/YUV/Matrix-TEMP data output and serial port control
Product Specifications
Model iTL612PLUS
IR Detectors Indicators Sensitive Material: VOx
Resolution: 640×512
Pixel Size: 12μm
Spectral Response: 8μm ~ 14μm
Typical NETD: ≤25mK
Image Processing Digital Frame Rate: 25/30Hz/50Hz
Start-up Time: ≤6s
Digital Video: RAW/YUV/Matrix-TEMP
Image Algorithm: NUC/3DNR/DNS/DRC/EE
Image Display: 10 modes (Black Hot/White Hot/Pseudo Color)
Electrical Standard External Interface: 30Pin_HRS interface
MIPI External Interface: 34Pin_Panasonic Connector
Communication Interface: TTL-232/USB2.0
Digital Video Interface: DVP8/LVDS/MIPI/USB2.0/BT.656
Supply Voltage: 4.2-5.5V
Typical Power Consumption: 0.65W
Mechanical Size (including lens):
• 17.3×17.3×24.2mm (9.1mm lens)
• 17.3×17.3×30.2mm (13mm lens)
• 17.3×17.3×38mm (24mm lens)
• 17.3×17.3×54mm (45mm lens)
Weight (including lens):
• 13.7±0.5g (9.1mm lens)
• 17.9±0.5g (13mm lens)
• 27.3±0.5g (24mm lens)
• 51±0.5g (45mm lens)
Environmental Adaptability Operating Temperature: -40℃~+70℃
Storage Temperature: -45℃~+85℃
Humidity: 5%~95%, non-condensing
Vibration: 5.35g, Random Vibration, 3-axis
Impact: Half Sine Wave, 30g/11ms, X Axis, 3 times
Certification: ROHS2.0/REACH
Optical Lens: Fixed Focus Athermal: 9.1/13/24/45mm
Industrial Applications
Forest Firefighting
Power Maintenance
Photovoltaic Inspection
Security Monitoring
Wearable Devices
Portable Devices
Customized Services
  • Product Customization: Adjust configurations and adapt algorithms to meet industry-specific requirements
  • On-Site Technical Support & Training: Provide core customers with hands-on system setup and operational training
  • Joint Innovation for New Products & Markets: Collaborate with customers to co-develop innovative infrared application solutions
Frequently Asked Questions
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.
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.