Eralase 980nm/1470nm DIODE LASER MACHINE
15w 30w 60w Vein Spider / Nail Fungus Removal/ Lipolysis
Wavelengths: 980 nm + 1470 nm (dual-wavelength)
Power Output Options: 30W / 60W
Frequency Range: 1 – 5 Hz
Pulse Width: 1 – 200 ms
Delivery Mode: Fiber output (single-use sterile fibers available)
Dual-Wavelength Synergy (980nm + 1470nm)
980nm provides excellent hemostasis and coagulation for vascular targets; 1470nm offers high water absorption for controlled soft tissue interaction. Together, they enable precise, layered treatment across diverse indications.
Integrated Cooling Function
Dedicated ice cooling mode provides immediate post-treatment relief, reducing patient discomfort and enabling safe treatment of sensitive areas.
Fiber-Optic Delivery System
Sterile, single-use fibers enable precise energy delivery to superficial lesions, interstitial targets, and difficult-to-reach anatomical sites with minimal thermal spread.
Full ODM/OEM Customization
Complete system tailoring—software interface, treatment parameters, fiber configurations, and hardware branding for clinics seeking differentiated market positioning.
Overview
Available in 30W and 60W configurations with adjustable frequency (1–5 Hz) and pulse width (1–200 ms), the Eralase delivers precise energy through flexible optical fibers for both surface and interstitial applications. The dual-wavelength design combines 980nm’s superior hemostasis and coagulation with 1470nm’s selective water absorption for controlled tissue interaction. Full ODM/OEM customization enables complete brand integration.
Applications
Vascular Lesion Treatment
Onychomycosis (Nail Fungus) Management
Pain Therapy (Photobiomodulation)
Integrated Cooling Function
Laser-Assisted Lipolysis
Working Principle
The 1470nm wavelength exhibits approximately 40 times higher water absorption than 980nm, enabling precise tissue interaction with controlled thermal spread. This makes it optimal for laser-assisted lipolysis, where it selectively targets adipocytes while stimulating simultaneous skin tightening through dermal collagen contraction.
Clinical Support
For vascular lesions, clinical studies demonstrate high clearance rates for telangiectasia, spider nevi, and cherry angiomas with minimal adverse effects. The 980nm wavelength provides efficient hemoglobin absorption while protecting surrounding tissue.
In onychomycosis treatment, research confirms diode laser effectively penetrates the nail plate to reach fungal elements, achieving significant clinical improvement with a favorable safety profile.
For pain therapy, photobiomodulation has been shown to reduce inflammatory markers and accelerate recovery in musculoskeletal conditions, supported by systematic reviews of clinical outcomes.
Laser-assisted lipolysis with 1470nm is documented in histological studies to selectively target adipocytes while stimulating dermal collagen contraction, providing both fat reduction and skin tightening effects.
