640×512 HD Remarkable Infrared Sensor

Uncooled detectors typically rely on microbolometers or other thermally sensitive materials integrated into the focal plane array. When infrared radiation from the scene falls onto the detector array, the temperature of the individual detector elements changes, causing a corresponding change in electrical resistance or other properties. This change is then converted into a digital signal, which is processed to form an image representing the infrared radiation emitted by objects in the scene.

Superior Optics for Unmatched Image Quality

Users can adjust the lens to the most comfortable angle for observation according to their personal habits and specific scenarios, reducing physical fatigue when observing for long periods of time.

By rotating the focus, the focal length can be optimized, making the image clearer and improving the image quality, which helps to analyze and identify problems more accurately.

Capable of detecting short circuits, broken circuits, damage or poor performance on PCB.

User-defined color palettes

The colors in the palette typically vary from cool (e.g., blue or black) to warm (e.g., red, yellow, or white), representing a range from low to high temperatures.

Many modern thermal imagers allow the user to customize the color palette to suit different application scenarios and personal preferences.

The color palette enhances the contrast and detail of the image, allowing even small temperature differences to be clearly identified.

See Q165L Thermal Binocular in Action