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Adjustable Mode Beam Lasers

Dual-Beam Technology

Single-Mode-Icon

Up to 3 kW Single-Mode Core

Multi-Mode-Icon

Up to 50 kW Multi-Mode Power

Air-Cooled-Icon

Air-Cooled Options

Two Beams Are Better Than One

Adjustable Mode Beam (AMB) lasers introduce a secondary ring beam that supports a high intensity core beam. 

For welding, the core beam creates the weld while the ring beam stabilizes the weld pool, enabling high-speed, spatter-free welding which virtually eliminates defects like cracking and porosity.

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Single-Mode-Icon

Up to 3 kW Single-Mode Core

Multi-Mode-Icon

Up to 50 kW Multi-Mode Power

Air-Cooled-Icon

Air-Cooled Options

Two Beams Are Better Than One

Adjustable Mode Beam (AMB) lasers introduce a secondary ring beam that supports a high intensity core beam. 

For welding, the core beam creates the weld while the ring beam stabilizes the weld pool, enabling high-speed, spatter-free welding which virtually eliminates defects like cracking and porosity.

The Widest Selection of Dual-Beam Lasers

IPG fiber laser technology enables the independent control of simultaneously emitted core and ring beams with more flexibility than any other dual-beam technology. Greater control over individual beam parameters enables more process optimization to weld faster, better, and more reliably.


Multi-Mode

High-power multi-mode AMB lasers offer the highest dual-beam output power available and are often used for high-speed structural welding.

Single-Mode

Single-mode AMB lasers are ideal for e-mobility and battery welding applications that demand high throughput and consistent weld quality.

Quasi-Continuous Wave

Quasi-CW AMB lasers utilize bursts of extremely high peak power to offer excellent results in reflective metals and allow air-cooled operation.
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Dual-Beam Technology

Traditional laser welding uses a single focused beam to form the weld pool. Dual-beam technology adds a secondary ring beam that surrounds and supports this focused beam.

AMB lasers emit the central core beam and outer ring beam simultaneously and independently of one another. This enables users to control the parameters of each beam dynamically for greater control over process results.

AMB Fiber Lasers Eliminate Weld Defects

Traditional Single Beam Laser Welding

High-speed keyhole laser welding can create high levels of vapor pressure, propelling liquid metal spatter from the weld pool. Spatter deposition contaminates the work area and increases the risk of short circuits for electrical welding, increasing system downtime and part rework. The loss of material often causes porosity in the solidified joint that leads to reduced strength, cracking, and non-hermetic seams.

AMB Dual-Beam Laser Welding

The introduction of a ring beam stabilizes the weld pool to allow metal vapor to escape without spatter. The addition of this wider area of lower laser power allows the weld pool to solidify more gradually, preventing cracking. By stabilizing the keyhole, AMB enables welding speeds up to more than 10X faster than single beam welding while producing smoother joints with superior mechanical strength.

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The Definitive E-Mobility Welding Laser

For demanding E-Mobility applications, including Li-ion cell welding, busbar-to-cell welding, and welding of electric motor hairpins, high-speed and high-quality welding is critical to meet throughput requirements and ensure the quality and safety of the final product. AMB lasers enable the creation of high quality weld seams at the speeds necessary to make millions of individual welds a year.

AMB Lasers for E-Mobility applications

AMB lasers for cutting and drilling

AMB for Cutting & Drilling

The flexibility of AMB lasers enables more than just improved welding. AMB lasers enable high-speed, high-quality piercing and cutting across a wide range of materials and thicknesses, improving edge quality and surface finish while eliminating the need for multiple lasers or accessories.

The Strongest Structural Welds

Although aluminum has become an increasingly common solution for structural manufacturing, aluminum's high thermal conductivity creates challenges in welding quality and productivity. Rapid heat dissipation results in quick solidification of molten material, leading to cracking and porosity due to trapped plasma and shield gas bubbles that weaken joint strength. AMB lasers produce excellent welding results in structural welding applications, often eliminating the need for process gases.

Traditional High-Speed Aluminum Laser Welding

 

Traditional High-Speed Aluminum Laser Welding

Single beam laser welding of aluminum can cause underfill due to material loss from spatter ejection, leading to structural weakness and unacceptable surface roughness.

AMB Dual-Beam Laser Welding

 

AMB Dual-Beam Laser Welding

High-speed AMB welding of aluminum results in high-strength welds with no cracking, very low porosity, and an aesthetically pleasing finish.

Dual-Beam Laser Comparison

SINGLE-MODE Dual-Beam Fiber LasersMULTI-MODE Dual-Beam Fiber LasersHIGH PEAK POWER Dual-Beam Fiber Lasers
SINGLE-MODE Dual-Beam Fiber LasersMULTI-MODE Dual-Beam Fiber LasersHIGH PEAK POWER Dual-Beam Fiber Lasers
YLS-SM-AMB SeriesYLS-AMB SeriesYLS-QCW-AMB Series
SINGLE-MODE Dual-Beam Fiber LasersMULTI-MODE Dual-Beam Fiber LasersHIGH PEAK POWER Dual-Beam Fiber Lasers
YLS-SM-AMB SeriesYLS-AMB SeriesYLS-QCW-AMB Series
Wavelength
1070 nm1070 nm1070 nm
Cooling
WaterWaterAir
Central Core Beam
Core Power
SINGLE-MODE up to 3 kWMULTI-MODE up to 30 kWMULTI-MODE up to 800 W
PEAK POWER up to 8 kW
Core Fiber Diameter
14 μm50, 100, or 200 μm50, 100, or 200 μm
Outer Ring Beam
Multi-Mode Ring Power
up to 5 kWup to 20 kWAverage Power up to 800 W
PEAK POWER up to 8 kW
Multi-Mode Ring Fiber Diameter
100 or 250 μm150, 200, 300, 400, or 600 μm150, 200, 300, 400, or 600 μm
SINGLE-MODE Dual-Beam Fiber LasersMULTI-MODE Dual-Beam Fiber LasersHIGH PEAK POWER Dual-Beam Fiber Lasers
SINGLE-MODE Dual-Beam Fiber LasersMULTI-MODE Dual-Beam Fiber LasersHIGH PEAK POWER Dual-Beam Fiber Lasers
YLS-SM-AMB SeriesYLS-AMB SeriesYLS-QCW-AMB Series
SINGLE-MODE Dual-Beam Fiber LasersMULTI-MODE Dual-Beam Fiber LasersHIGH PEAK POWER Dual-Beam Fiber Lasers
SINGLE-MODE Dual-Beam Fiber LasersMULTI-MODE Dual-Beam Fiber LasersHIGH PEAK POWER Dual-Beam Fiber Lasers
YLS-SM-AMB SeriesYLS-AMB SeriesYLS-QCW-AMB Series
Wavelength 1070 nm1070 nm1070 nm
Cooling WaterWaterAir
Central Core Beam
Core Power SINGLE-MODE up to 3 kWMULTI-MODE up to 30 kWMULTI-MODE up to 800 W
PEAK POWER up to 8 kW
Core Fiber Diameter 14 μm50, 100, or 200 μm50, 100, or 200 μm
Outer Ring Beam
Multi-Mode Ring Power up to 5 kWup to 20 kWAverage Power up to 800 W
PEAK POWER up to 8 kW
Multi-Mode Ring Fiber Diameter 100 or 250 μm150, 200, 300, 400, or 600 μm150, 200, 300, 400, or 600 μm

The specifications above represent standard products. IPG can offer lasers with customized specifications upon request.

Product availability may vary by region.

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Discover Your Laser Solution

IPG is more than just the inventor and premier supplier of high-power fiber lasers. Whether you need components or custom laser systems, IPG offers comprehensive solutions for virtually every industry and application.

Team up with IPG for every stage of your laser processing journey, from initial application development to ongoing service and support.

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Whether you need a laser with custom specifications or simply want to learn more about laser processing, an IPG multi-beam laser expert is ready to help you find your fiber laser solution.

 
 
 

Resources

Single-Mode Dual-Beam Fiber Lasers

Multi-Mode Dual-Beam Fiber Lasers

High Peak Power Dual-Beam Fiber Lasers