(composed of an FPGA signal processing board and two semicircular hard boards), a compressor conversion board, a power supply hard board, and a heating module.
The detector converts infrared radiation into voltage signals.
The signal processing circuit component realizes detector signal reading, analog image signal conditioning, AD conversion,
image preprocessing, image output interface conversion, and other functions.
The compressor conversion board realizes compressor power supply stabilization and DB9 interface conversion.
The power supply hardware board realizes power isolation conversion, external interface conversion, and other functions.
gas leakage detection
Highly sensitive refrigeration mechanism is used, with a resolution of 1280x1024 to produce high-resolution clear images.
Fast cooling imaging:
After powering on, the cooling time completes within 7 mins.
Up to 99.95%, and other testing items such as vibration and impact, high and low temperatures meet relevant requirements.
Stable image processing:
Powerful image processing algorithms. Automatic gain control (AGC), Histogram equalization and other functions ensure that high-quality thermal imaging can be achieved during the day and at night.
Strong environmental adaptability:
Directly collect a large amount of basic data from different environments, continuously improve and optimize, and can be used well in harsh environments after extensive learning.
|MWIR IMAGING CORE ZMW1215|
15μm pixe l1280*1024
|programmable to change. Up to 12.95μs@20MHz,|
|One way Cameralink, one way PAL|
Data bit depth
|Communication||RS422(115200)||Power supply||DC 28V|
|Data bit depth||≤120x94x75||Vibration shock||20g、11ms|
|Working Temp||-40℃~+70℃||Storage temp||-50℃~+80℃|