Fast Integration Thermal Imaging Camera Module 384x288 17μM For Health Care

 
384x288/17μM Thermal Imaging Camera Module Fast Integration For Health Care

iHA417W thermal module is specially developed for medical diagnosis. It is integrated with self-developed wafer level packaging 384×288/17μm infrared detector, 9.1mm lens, 30pin standard interface (Optional Type-C expansion board) and a dedicated SDK for medical temperature measurement.

There are two modes of temperature measurement distance: 5 meters and 0.5 meters, which can be used in various scenarios. The iHA417 medical diagnosis thermal module has a better temperature measurement consistency and superior temperature measurement accuracy of ±0.5°C. No need for built-in black body ensures a compact design and easier temperature measurement.

The iHA417W thermal camera module can be quickly integrated into various medical thermal imaging devices, and it 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.

 
- 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 radiation?
When talking about infrared thermal imaging, the first thing to think about is infrared radiation (IR). The wavelength of infrared radiation energy starts at about 700nm and extends to about 1mm. All objects emit a certain amount of heat in the form of infrared radiation, which is invisible to us, because in the entire electromagnetic spectrum, the naked eye can only see "visible light".

2. How does infrared thermal imager work?
The core component of the infrared equipment is the infrared thermal detector, which can sensitively detect the tiny temperature difference of the surrounding objects. Then, it collects this radiation information from the object and outputs the temperature information for imaging, which is based on the temperature difference information. The hotter the object, the more infrared radiation it produces. If the intensity is too high, you can feel it like heat.