QCW Fiber Laser-Everfoton Technologies Corporation Limited

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QCW Fiber Laser

Everfoton's QCW Fiber Laser features multiple control modes, enabling flexible switching between Cw/QCW modes and customer-defined pulse waveform output. Laser output energy is stable, making it suitable for applications requiring long pulse widths and high pulse energy. lt canbe a perfect substitute for traditional YAG lasers, offering simpler mainte-nance. lt is widely used in precision welding/cutting.

Internal control waveform editing
Multiple protection against high reflection
Uniform spot and smaller thermal deformation
Low noise, maintenance-free operation
Integrated remote monitoring

027-65271788
sales@everfoton.com

Download of Specifications

Applications Specifications

Applications

Substitute of YAG Laser
3C Spot Welding
Seam Welding

Specifications

Model	FFRQ-50/500-P	FFRQ-75/750-P
Optical Characteristics
Operating Mode	CW/QCW
Maximum Continuous Power（W）	80	120
Maximum Average Power（W）	50	75
Maximum Peak Power（W）	500	750
Maximum Pulse Energy（J）	5	7.5
Pulse Width（%）	0.05 ~ 50
Power Range (%)	10 ~ 100
Beam Quality BPP (mm × mrad)	＜ 5
Output Power Instability at 25°℃(%)	< 1.5 (2 Hours)
Central Wavelength (nm)	1080 ± 5
Spectrum Width FWHM (nm))	＜ 4
Modulation Frequency (kHz)	5
Red Laser Power (μW)	> 200
Output Cable Parameters
Output Mode	QBH
Cable Length(m)	5
Output Fiber Core Diameter(μm)	100
Minimum Bending Radius of Cable (mm)	200
Electrical Characteristics
Operating Voltage (VAC)	45 ~ 55 DC
Rated Power Consumption (kW)	1.2	3
Control Mode	RS232 / AD / Ethernet
Other Parameters
Operating Temperature (℃)	10 ~ 40
Relative Humidity (%)	10 ~ 80
Waveform Editing（Group）	8
Cooling Method	Air Cooled
Storage Temperature (℃)	-10 ~ 60
Dimensions (WDH)(mm)	325 x 348 x 133
Weight (kg)	10