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An inexpensive infrared array sensor is provided, allowing for the positional specification and flow tracking of an object to be detected without the need for image processing.
An infrared array sensor with the following components: pixels arranged in a two-dimensional matrix with a thermal infrared detector whose electric properties change in response to infrared ray incidence. A row output take-out device that is set up to send an electric signal to the outside as an output.
The electric signal is based on the electric properties of the device as a whole, as shown by the thermal infrared detectors on each row;and a column output take-out device that is set up to send an electric signal to the outside as an output.
The physical properties of infrared rays are used by infrared sensors to measure. Reflection, refraction, scattering, interference, and absorption are all properties of infrared light.
Infrared rays can be emitted by any substance as long as its temperature is above absolute zero.The infrared sensor has the advantages of high sensitivity and quick response because it does not directly touch the measured object during the measurement.
Non-destructive testing, gas composition analysis, and non-contact temperature measurement are all common applications for infrared sensors, which are also widely used in environmental engineering, the military, space technology, and medicine.
For instance, you can quickly diagnose and treat a disease by using infrared sensors to measure the thermal image of the human body’s surface temperature from a distance.
By monitoring the earth’s clouds with infrared sensors on artificial satellites, a wide range of weather forecasts can be made.It can also be used to detect aircraft engines that are running hot.
Using infrared sensors to measure the surface temperature of the human body, infrared telescopes can be used in military operations, forest warfare to locate adversaries in dense forests, and urban warfare to locate adversaries behind walls.
The Global infrared array sensor market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
In the most recent issue of THE EDGE, Panasonic’s cutting-edge narrow angle Grid-EYE infrared array sensor is featured by Future Electronics, a global leader in electronic component distribution.
The addition of the brand-new Grid-EYE Narrow Angle Type to Panasonic’s Grid-EYE Infrared Array Sensor product line was recently announced.
This most recent Grid-EYE narrow angle sensor has a field of view of 35.6 degrees, making it possible for the Grid-EYE Sensor to focus on objects that are close enough to have enough pixels to identify and measure them.
With the addition of the Grid-EYE narrow angle type, the Grid-EYE infrared array sensor product line now includes a 35.6° field of view!The Grid-EYE sensor can focus on objects that are closer to it and have enough pixels to be able to identify and measure them because of this.
Features: A field of view that is narrower at 35.6 degrees, as opposed to the standard 60 degrees, which allows for better focus on objects that are closer to you.
It is mounted on a PCB board. Module type: Environmentally friendly. Smart building management systems. People tracking Air conditioners:to adjust according to the room’s temperature USE Cases Smarter building management systems People tracking
