The infrared radiation signal of micron-sized targets is often weak and easily affected by background radiation, detector noise and environmental interference.
The digital night vision riflescope, with its advanced optoelectronic sensing, intelligent image processing, and multi-functional integrated design, significantly expands the visual boundaries of the human eye.
In the dead of night, deep in a dense forest, or in an enclosed space, the human eye is almost completely ineffective, and traditional optical devices are helpless.
In low-temperature or humid environments, when operating equipment while wearing gloves, the longer exit pupil distance can also prevent hand tremors or blurred vision caused by contact between the gloves and the eyepiece.
The frame rate design of a thermal imager must be closely integrated with specific application requirements to avoid resource waste or insufficient performance.
Some models also support manually turning off the anti-glare function to adapt to scenarios that require a clear rear view, such as reversing or driving at low speeds.
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