IPG Photonics ULPF and ULPP ultraviolet hybrid-fiber ultrafast lasers provide high peak power with scalable average output power of 30 W and customer selected pulse durations in the range of 600 fs to 5 ps at full operational repetition rate range of 50-5500 kHz. The fiber design allows for the adjustment of peak power and/or pulse repetition rate without affecting any of the output beam parameters. IPG’s novel fiber lasers are much more efficient, compact and easy to integrate into OEM equipment than conventional lasers now on the market. They are ideal for applications in precision micromachining.
| Wavelength 343 nm |
Pulse Duration Options 600 fs to 5 ps |
| Output Power up to 30 W | Repetition Rate up to 5.5 MHz |
| Pulse Energy up to 50 μJ | Low-maintenance and Rugged Design |
Customer can select models within specified maximum power, maximum pulse energy and pulse durations in 600 fs to 5 ps range. Shorter pulse durations and higher pulse energies are available upon request. Please discuss your wavelength requirements with IPG Representative.
| ULPF-30-750-30-R | ULPP-30-1-30-R | |
| Wavelength, nm | 343 | |
| Average Power, W | up to 30 |
|
| Pulse Energy, μJ | up to 50 | |
| Pulse Duration, ps | 0.6 - 0.9 | 1-5 |
| Repetition Rate, kHz | 50-5500 | |
| Beam Quality, M2 | Typ. <1.3 | |
| Control Unit Dimensions, mm | 448 × 580 × 133 | |
| Optical Head Dimensions, mm | 82 × 271 × 124 | |
| Cooling | Water | |
| Supply Voltage, VAC | 100-240, Single-phase 50-60 Hz | |
| Power Consumption, W | <1000 | |
| Precision Micromachining | LED Dicing |
| Microdrilling | Solar Cell Structuring |
| Thin Film Ablation | Fine Tube Cutting |
| Photomask Cutting | Specialty Marking |
| Glass, Silicon, Ceramics, Polymer and Composite Material Processing | |
The excellent beam quality, ultrashort pulse duration and high pulse energy combine to provide peak power densities suitable for micromachining virtually any material: metal, glass, ceramic, silicon, plastics. The ultrashort pulse duration and ultraviolet wavelength result in a very small heat affected zone.