0.5W Low Power Consumption Infrared Camera Core 640x512/12μm FLEXB612T For UAV Payloads

Product Description:

FLEXB612T infrared camera core uses 640×512/12μm self-developed wafer-level infrared detector. It features both imaging and temperature measurement capabilities, with multiple SDK solutions available for system integration and iterative development to meet the rigorous requirements of compact system loads, providing solutions for more applications.

FLEXB612T infrared camera core responds to space constraints with smaller size and lighter weight, achieves longer battery life with lower power consumption, overcomes integration problems in various applications, and provides more solutions for compact and portable products.

It is specially developed for the field of Predictive Maintenance, Photovoltaic Inspection, Environmental Protection, Scientific Research, Aerial Photography, Police Investigation, Disaster Relief & Rescue, Forest Fire Prevention, Urban Safety etc.

Main Features:

Compact & Lightweight Design
• Size: 21mm×22.3mm×27.3mm (with 9.1mm lens)
• Weight: 20.8g (with 9.1mm lens)
• Power consumption: 0.7W

Clear Thermal Image
• Brand new image process algorithm: NUC/3DNR/DNS/DRC/EE
• Support Android/Windows/Linux SDK and achieve video stream analysis

Various Interfaces for Easy Integration
• DVP/LVDS/USB2.0 image output interfaces, RAW/YUV image data output, serial port control

Technical Parameters:

Applications:

Technical Support:

We believe that technical support should not only resolve customer issues but also assist clients in building their own technical maintenance teams. Through effective technical support, we aim to empower our customers' maintenance personnel by sharing valuable experiences and knowledge. This collaborative approach ultimately helps us achieve our primary goal: ensuring customer satisfaction and fostering long-term partnerships.

Additionally, we provide technical training to help customers better utilize our products and improve their skills and knowledge. Through these measures, we aim to enhance the customer experience and establish long-term collaborative relationships.

By investing in comprehensive technical support, we strive to enhance our customers' operational efficiency and reliability, thereby solidifying our standing in the industry.

FAQs:

Q: What is infrared thermal imaging technology?

A: Infrared thermal imaging uses photoelectric technology to detect specific infrared band signals of thermal radiation from objects, converts these signals into images and graphics that can be visually distinguished by humans, and further calculates temperature values.

Q: What is the wavelength range for infrared thermal imaging?

A: Infrared ray, also known as infrared radiation, is an electromagnetic wave in the infrared wavelength range between visible light and microwave. Thermal infrared imaging typically refers to mid infrared imaging at 3-5μm and far-infrared imaging at 8-12μm. In these bands, the focus is on heat sources, not visible light. The human eye is sensitive to the wavelength range of about 0.4~0.7μm and cannot see longer wavelengths of thermal energy. 

Q: What is the classification of infrared thermal imaging wavebands?

A: Generally speaking, infrared thermal imaging is divided into three bands: short wave, medium wave, and long wave.
Shortwave: wavelength range within 3μm;
Medium wave: wavelength range from 3μm to 5μm;
Long wave: wavelength range from 8μm to 14μm;

Q: What are the applications of infrared detectors and thermal imaging modules?

A: The infrared detectors and thermal imaging modules can be used in a variety of applications such as thermography, security & surveillance, intelligent industry, outdoor night vision observation, machine vision, smart driving, UAVs, and consumer infrared products.

Q: Does infrared thermal imaging emit radiation?

A: Infrared thermal imaging passively receives infrared signals emitted by objects and does not have radiation. As long as an object exceeds absolute zero, an infrared signal will be emitted, which is received by an infrared detector and then converted into a thermal image.