The laser generated by the fiber optic transmission lamp pump YAG laser welding machine is transmitted through the fiber optic to the laser welding head, and the laser energy is focused on the surface of the workpiece to form a molten pool, causing the material to melt and achieve welding. The fiber optic transmission lamp pump YAG laser welding machine has the world's leading laser welding machine energy negative feedback technology, which maintains a high degree of stability of laser energy from beginning to end, eliminates instability caused by factors such as water temperature fluctuations, voltage fluctuations, and aging of pump xenon lamps (krypton lamps), improves the consistency of welding products, and ensures welding yield.

YAG laser welding machine uses high-energy pulsed laser to weld workpieces. It uses a pulsed xenon lamp as the pump source and ND: YAG as the laser working substance. The laser power supply first pre ignites the pulse xenon lamp, and discharges the pulse xenon lamp through the laser power supply. The xenon lamp generates light waves with a certain frequency and pulse width. The light waves irradiate the laser crystal through the focusing cavity, thereby exciting the crystal to produce laser. After passing through the resonant cavity, a pulse laser with a wavelength of 1064nm is generated. The laser is transmitted through optical fibers, focused, and radiated to the surface of the workpiece, causing local melting and welding of the workpiece.
1. Spot welding, butt welding, overlay welding, and sealing welding can be performed on the workpiece.
2. Fast welding speed, high aspect ratio, small thermal impact range during welding process, and minimal deformation.
3. The weld seam is smooth, aesthetically pleasing, and does not require or only requires simple treatment after welding.
4. It can integrate multiple beam welding and achieve energy and time splitting.
5. Integrate energy negative feedback laser control technology to achieve consistent welding results.
6. Integrated arbitrary waveform control technology can accurately control the solder joints formed by each pulse energy, achieving the best welding effect.
Optical communication, mobile phone accessories, USB connectors, battery lugs, caps, connectors, etc.
| Model No |
TK-150WA |
| optics |
Maximum output power |
150W |
| Maximum peak power |
7KW |
| Maximum pulse energy |
55J |
| Single pulse width |
0.5-30ms |
| Continuous pulse width (1s) |
100ms |
| Laser Frequency |
1-100Hz |
| wall-plug efficiency |
≥3% |
| wavelength |
1064nm |
| Energy Stability |
≤±3% |
| pumping lamp |
Xenon lamp, single lamp |
| Feedback method |
Real time negative energy feedback |
| optical interface |
D80 adaptation |
| Fiber type |
ST |
| Fiber core diameter |
300, 400, 600 are optional |
| Fiber Length |
Standard 5-meter configuration |
| Spectral method |
Time splitting/energy splitting |
| Maximum number of optical paths |
4 |
| Aiming and positioning |
Red light indicator (welding head CCD positioning) |
| power supply |
power input |
AC380V±10%,50/60Hz |
| Overall Power Consumption |
<6KW |
| way of working |
pulse |
| cooling |
Internal circulation cooling |
Closed internal circulation water cooling |
| External circulation cooling |
water-cooling |
| Cooling capacity requirements |
5KW |