|
IFL-323 20W MOPA Pulse Fibre Laser
FL-323-20W Series Laser based on MOPA technology architecture,compare to Q-switched fibre laser,the pulse frequency and pulse width of MOPA fibre laser can be controlled independently.0.6mJ pulse energy maximum,max peak power over 13KW,12 waveforms provided can be choose and random switch.
Application:plastic,poly compounds(PC,PE,ABS) marking,anodic removal,normal black marking on anodized Al,and Resistance processing technology |
|
|
|
IFL-333 20W MOPA Fibre Laser
IFL-333 333-20W Series Laser based on MOPA technology architecture,close to 1mJ pulse energy maximum,max peak power over 15KW. First pulse available, 16 waveforms provided can be choose, fast response, high efficiency at black marking on anodized Al
Application:plastic,poly compounds(PC,PE,ABS) marking,stainless steel color marking,metal deep carving,black marking on anodized Al,and Resistance processing technology |
|
|
|
IFL-525 30W MOPA Fibre Laser
IFL-525 is a Yb-doped fiber laser with MOPA structure. It provides a variety of preset waveforms with a pulse width of 1 ns to 400 ns. It has high beam quality, wide adjustable frequency range and can effectively improve the processing effect and efficiency.
|
|
|
|
IFL-726 60W MOPA Fiber Laser
IFL-726 is a Yb-doped fiber laser with MOPA structure. It provides a variety of preset waveforms with a pulse width of 50 ns to 400 ns. It has high beam quality, wide adjustable frequency range and can effectively improve the processing effect and efficiency.
|
|
|
|
IFL-727 70W MOPA Fibre Laser
IFL-727 is a Yb-doped fiber laser with MOPA structure. It provides a variety of preset waveforms with a pulse width of 10 ns to 400 ns. It has high beam quality, wide adjustable frequency range and can effectively improve the processing effect and efficiency |
|
|
|
IFL-925 120W MOPA Fibre Laser
IFL-925 is a Yb-doped fiber laser with MOPA structure. It provides a variety of preset waveforms with a pulse width of 10 ns to 400 ns. It has high beam quality, wide adjustable frequency range and can effectively improve the processing effect and efficiency.
|
|
|
