Firelas Derma advanced Android OS smart system

  • This is a three-wavelength device that mainly exploits the 445nm one, which is combined with 660nm and 970nm ones since they support superficial and deep tissue biostimulation.
  • The 445nm wavelength interacts with the molecules at systemic level and is absorbed by both haemoglobin and better than with an infra-red laser. The blue wavelength is also effective on numerous bacterial strains, thus exploiting its antiseptic properties and achieving excellent results in tissues incision, both for surgical and vascular purposes. It is also useful in treating diabetic ulcers and bedsores.The 660nm wavelength can transfer an optimal dosage of energy to the tissue. This energy is thus stored at cellular level with subsequent increase in both bacterial proliferation and metabolism. Thus, it allows obtaining remarkable results in the healing of wounds, diabetic and vascular ulcers.
  • The 970nm wavelength is absorbed by the water contained in our body: most of such energy is turned into heat. The deep layers of tissues thus become localised heat points able to generate temperature gradients at cellular level and to stimulate the local microcirculation thanks to the oxygen supply provided by this wavelength.The 970nm wavelength is absorbed by the water contained in our body: most of such energy is turned into heat. The deep layers of tissues thus become localised heat points able to generate temperature gradients at cellular level and to stimulate the local microcirculation thanks to the oxygen supply provided by this wavelength.

Applications

Technical Specifications

Laser TypeGaAlAs Diode Laser
ModelFireLas
Wavelength635nm, 445nm and 970nm
Maximum Power300mW+6W+10W
Operation ModeCW, Repeat Pulse
Pulse Duration10μs-3s
Repetition Rate0.2Hz-20KHz
Pilot BeamRed Diode Laser Of 650nm, Power<5mW
Control ModeAndroid OS
Voltage/Current Rating110/220 VAC, 5A , 50/60 Hz
Dimensions240(H)*130(W)*225(L) mm
Weight4kg
Safety ComplianceCE0197
Specifications subject to change without notice.