High-precision telescope handheld laser rangefinder principle and features
High precision telescope handheld laser rangefinder product principle:
Laser rangefinders generally use two ways to measure the distance: pulse method and phase method. Pulse method distance measurement process is like this: the rangefinder launched; laser by the reflection of the measured object and then received by the rangefinder, the rangefinder at the same time to record the laser round-trip time. Half of the product of the speed of light and the round trip time is the distance between the rangefinder and the object being measured. The accuracy of the pulse method of distance measurement is generally around +/-1 meter. In addition, this type of rangefinder measurement; measurement of the blind spot is generally about 5-15 meters.
High-precision telescope handheld laser rangefinder product features:
The instrument works with semiconductor laser at 905 nm and 1540 nm. For 905 nm and 1540 nm laser rangefinder, we call it "safe". The working wavelength is 1064 nm YAG laser. 1064 nm wavelength is harmful to human skin and eyes, especially if the eyes accidentally come into contact with the 1064 nm wavelength laser, the damage to the eyes may be * sex. Therefore, in foreign countries, handheld laser rangefinders, completely outlawed 1064 nm laser. In China, some manufacturers still produce 1064 nm laser rangefinders. As for the 1064 nm laser rangefinder, because it is potentially harmful to the human body, so we call it "unsafe".
