This 100mW pro red dot laser alignment always makes excellent use of import 635nm red laser diode. It generates the purest red laser light from 635nm red laser diode, which is projecting at least 3 times brighter red laser light than same output power made 650nm red laser device. When it is trying to make continuous dot projecting work, inside its 26mm diameter tube, it gets quite larger space leaving for inner metal heat sink cooling system and import 635nm red laser diode. When it gets superior nice thermal conductivity, even though the real red dot projection is processing under wide range operating temperature of -10 degree to 45 degree Celsius, this laser diode module just maintains excellent laser light cycling use and extremely stable red dot projection continuously.
Whatever kind of working surface it is pointing, even though dot measuring work is processing at quite long work distance or quite long time, 100mW pro red dot laser alignment gets the best use of qualified glass coated lens. It keeps work with high transmittance red laser light emission. In addition, owing to its strict laser beam stability tests up to 24 hours, whatever kind of working surface it is pointing, it is able to work with excellent laser light cycling use and no decay light dot positioning results. On condition that 635nm red laser module gets perfect use of qualified glass window in front of laser beam aperture, it is not affecting by any moisture or dust, but always making sure of highly clear dot measurement in all occasions.
Under high attention to thermal energy hurt to human eyes, in process of continuous dot projection, users should operate 100mW pro red dot laser alignment with basic laser safety issue. It is necessary to wear proper laser safety goggles so as to achieve highly secured dot measurement continuously. In occasion that users are making quite easy screw of adjustable focus optics, after immediate laser light concentration, this alignment laser makes sure of safe and high precision dot measurement in all application fields effectively.