MAXphotonics fiberlaser MFP-20

Comprehensive introduction of Maxphotonics MFP-20

I. Product Overview

MFP-20 is the first 20W pulsed fiber laser launched by Maxphotonics, designed for precision marking, engraving and micro-machining. It adopts MOPA (master oscillator amplifier) technology, with high flexibility, high precision and long life, suitable for fine processing of metal and non-metal materials.

2. Core Features

Features MFP-20 Technical Advantages Application Value

MOPA technology independently adjusts pulse width (2-500ns) and frequency (1-4000kHz) to meet different material requirements. One machine can be used for multiple purposes, reducing equipment switching costs

High beam quality M²<1.5, small focused spot (≤30μm), clear edges and fine marking (QR code, micron-level text)

High repetition frequency up to 4000kHz, supporting high-speed processing to improve production efficiency (such as large-scale marking)

Wide material compatibility Metal (stainless steel, aluminum), non-metal (plastic, ceramic, glass) post processing cross-industry versatility

Long life design Fiber structure maintenance-free, pump source life>100,000 hours to reduce long-term use costs

3. Technical parameters

Parameter specifications

Laser type MOPA pulse fiber laser

Wavelength 1064nm (near infrared)

Average power 20W

Maximum power 25kW (adjustable)

Pulse energy 0.5mJ (maximum)

Pulse width 2-500ns (adjustable)

Repetition frequency 1-4000kHz

Beam quality M²<1.5

Cooling method Air cooling (consumes external water cooling)

Control interface USB/RS232, supports mainstream marking software (such as EzCad)

IV. Typical applications

Precision marking

Metal: stainless steel serial number, medical device trademark.

Non-metal: plastic QR code, ceramic QR code.

Micro-machining

Micro-cutting and cutting tools for brittle materials (glass, sapphire).

Overfladebehandling

The division has reduced fading markings and inlays.

V. Sammenligning af konkurrencefordele

Features MFP-20 ordinary Q-switched laser

Pulse control Pulse width/frequency independently adjustable Fixed pulse width, flexible low

Processing speed High energy is still maintained at high frequency (4000kHz) Energy attenuation is significant at high frequency

Material shell Metal + non-metal full coverage is usually only suitable for metal

Maintenance cost No consumables, air-cooled design requires regular replacement of lamps or crystals

VI. Valgforslag

Recommended scenarios:

Multi-material marking is required in 3C electronics and medical device industries

Batch production lines that require higher processing efficiency.

Not recommended scenarios:

Ultra-thick metal cutting (requires continuous fiber laser).

Transparent material engraving (requires green light/Southern laser).

VII. Service Support

Provide free process testing and customized parameter optimization to ensure that the equipment matches the customer's material