Non Contact Thermography Uncooled Thermal Imaging Module 384x288 17μM

 
Non-Contact Thermography Uncooled 384x288/17μM Thermal Imaging Module

iHA417W thermal module is specially developed for medical diagnosis. Integrated with the self-developed wafer level packaging 384×288/17μm infrared detector by Global Sensor Technology, the iHA417W medical diagnosis thermal module has smaller size, which guarantees a lower integration cost. It helps to develop medical and health markets at all levels faster, and lets thermal imaging technology benefit the public.

With typical NETD<50mk/f1.0/25℃, and temperature uniformity ≤±0.3℃ (better than the industry average of ±0.5℃), the overall thermal imaging uniformity of iHA417W thermal imaging module is better, and its temperature measurement function is more stable.

By using thermal imaging technology, doctors can carry out 100% safe, no radiation, non-invasive, non-contact full body checkup to avoid further, unnecessary testing procedures. The heat distribution in various parts of human body can be quickly shown to early detect and diagnose physical abnormalities, so that any further treatment can be easier and more effective.

 
- Small Size: 25.4mm×25.4mm×30.3mm (with lens)
- Typical NETD<50mk
- Detect Distance: 0.5m/5m
- Light Weight as Low as 32.2g
- Superior Temperature Measurement Accuracy: ±0.5℃

 
The iHA417 thermal module is expected to be widely used in the fields of Disease Screening, Traditional Chinese Medicine Physiotherapy, Health Check-up, Rehabilitation etc. at present and in the future.

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.