Compared to any other visible laser devices or manual dot projecting tool, none of them can be comparable with a long wavelength made device of a 980nm infrared laser diode module. It applies an import 980nm infrared laser diode and a qualified optic lens inside a durable metal housing tube, which enables highly focused infrared laser light emission, and allows for micron-level precision irradiation, accurately targeting the intended area and avoiding impact on surrounding healthy tissue, thus enhancing treatment safety. When it gets constant electric power source supply and proper integration with night version device or equipment, it helps medical works a lot for accurate and quick response IR dot generation effectively.
Basically 980nm infrared laser diode module applies an AC/DC adapter as its electric power source, which enables long term lasted infrared laser beam and IR dot generation from beam aperture. It applies an import 980nm infrared laser diode within 5mW to 400mW and high power up to 500mW to 1000mW, and cooperated with a metal heat sink cooling system inside a high duration housing tube with different dimension. Usually infrared dot laser alignment gets superior nice heat dissipation and ultra stable infrared reference dot projection within 10 hours per day, unaffected by overheating and over current impact as well. It enables high penetration infrared laser light emission, acting on deep tissues without causing internal organ damage due to excessive penetration, making it suitable for various surface and superficial tissue treatment needs.
Compared to visible light and other wavelengths of laser light, 980nm infrared light is less irritating to the skin and mucous membranes. Low-power use of 980nm infrared laser diode module is virtually non-invasive, resulting in higher patient tolerance. Cooperated with APC, ACC driving circuit board inside a different dimension anodized aluminum alloy housing tube, a correct output power made IR laser maintains constant infrared laser beam emission, and long term lasted infrared dot generation. The alignment laser’s output power is controllable, ensuring stable operation. The infrared light produces no visible light pollution, not affecting the surgeon’s field of vision. It also complies with medical device electromagnetic compatibility (EMC) standards, making it safer to use.
General applications in medical treatment fields:
Infrared therapy assistance: Low-power 980nm infrared laser diode modules emit infrared light dots that precisely irradiate acupoints or lesions, promoting local blood circulation and relieving muscle spasms through photothermal effects, thus assisting in the treatment of chronic pain (such as arthritis and lumbar muscle strain).
Surgical positioning and guidance: Low- to medium-power IR laser modules serve as surgical navigation markers, projecting light dots onto the surgical area to assist doctors in accurately locating lesions (such as tumors and blood vessels), improving the accuracy of surgical incisions and operational precision.
Tissue ablation assistance: High-power infrared alignment lasers, in conjunction with laser surgical equipment, use the thermal effect of infrared light to assist in the ablation of diseased tissue (such as dermatological pigmentation and mucosal polyps), reducing damage to surrounding healthy tissue.
Biodetection light source: As an excitation source for infrared spectroscopy detection, it irradiates biological samples (such as blood and tissue sections). By analyzing the reflectance/transmission spectral data, it assists in disease diagnosis (such as early tumor screening).
