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ABL Laser - Adjustable Beam Lasers

Equipped with "ABL" technology, it is now very easy to weld metals together with superior control and deep penetration capabilities. The advanced tunable beam laser allows you to create seamless sources by dynamically shaping multiple lights.

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3D Photonics ABL
3D ABL ADJUSTABLE BEAM LASERS
SPECIFICATIONS
Nominal Power (W)
Power Range (%)
Laser Beam Quality
Power Stability (%)
Pulse Frequency Range (kHz)
Wavelength (nm)
Voltage (VAC)
Cooling Capacity (kW)
Flow Rate Laser (l/min)
Temperature Laser (°C)
Fiber Interface
Diameter (μm)
Length (m)
ABL 1500/1500
1500W/1500W
1-100
Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
6
50
0-45°C
QBH, QD, Q+
50/150 / 50/300 / 100/300
10-20
ABL 2000/2000
2000W/2000W
1-100
Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
6
50
0-45°C
QBH, QD, Q+
50/150 / 50/300 / 100/300
10-20
ABL 4000/2000
4000W/2000W
1-100
Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
9
75
0-45°C
QBH, QD, Q+
50/150 / 50/300 / 100/300
10-20
ABL 2000/4000
2000W/4000W
1-100
Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
9
75
0-45°C
QBH, QD, Q+
50/150 / 50/300 / 100/300
10-20
ABL 4000/4000
4000W/4000W
1-100
Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
12
100
0-45°C
QBH, QD, Q+
50/150 / 50/300 / 100/300
10-20
3D ABL-SM ADJUSTABLE BEAM LASERS
SPECIFICATIONS
Nominal Power (W)
Power Range (%)
Laser Beam Quality
Power Stability (%)
Pulse Frequency Range (kHz)
Wavelength (nm)
Voltage (VAC)
Cooling Capacity (kW)
Flow Rate Laser (l/min)
Temperature Laser (°C)
Fiber Interface
Diameter (μm)
Length (m)
ABL-SM 1000/1000
1000W/1000W
1-100
Single/Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
6
50
0-45°C
QBH, QD, Q+
14/110 / 20/110 / 14/150
10-20
ABL-SM 1500/1500
1500W/1500W
1-100
Single/Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
6
50
0-45°C
QBH, QD, Q+
14/110 / 20/110 / 14/150
10-20
ABL-SM 1500/3000
1500W/3000W
1-100
Single/Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
6
50
0-45°C
QBH, QD, Q+
14/110 / 20/110 / 14/150
10-20
ABL-SM 1500/4500
1500W/4500W
1-100
Single/Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
6
50
0-45°C
QBH, QD, Q+
14/110 / 20/110 / 14/150
10-20
ABL-SM 2000/4000
2000W/4000W
1-100
Single/Multimode
∓2%
50
1070∓5nm
380VAC/ 50Hz/60Hz
6
50
0-45°C
QBH, QD, Q+
14/110 / 20/110 / 14/150
10-20
Usage fields of ABL Lasers
Battery Production
Battery Production
3D Photonics ABL can be used to cut and weld various components that make up an EV battery, such as lithium-ion cells and battery pack casings. The laser beam allows for precise and efficient cutting and welding by focusing on a small spot with high energy density. This can help improve the performance and lifespan of the battery by enabling precise and efficient production.
Engine and Transmission Components
Engine and Transmission Components
3D Photonics ABL can be used to cut and weld the metal components of EV engines and transmissions. The high precision and efficiency of laser cutting and welding can help improve the performance and durability of these components.
Body Manufacturing
Body Manufacturing
3D Photonics ABL can be used for welding the body of an EV. This process, known as laser welding, can enhance the overall quality of the body and also reduce costs. Laser welding is highly precise and efficient process that allows for the welding of complex geometries and tight tolerances.
Maintenance and Repair
Maintenance and Repair
3D Photonics ABL can be used for maintenance and repair of EV components such as the battery and power electronics, as well as the body of the EV. The high precision and efficiency of laser cutting and welding can help improve the lifespan and performance of the EV through precise and efficient repair work.
Industry 4.0
Industry 4.0
3D Photonics ABL can be quickly integrated into factories’ MES systems through industrial integration 4.0. They can be easily added to industry 4.0 data collection systems and provide access to data through OPC-UA. They can also be seamlessly integrated with ABB, FANUC, and KUKA robots. In the dynamic realm of the automotive industry, Adjustable Beam Lasers (ABL) emerge as a transformative force, offe- ring a host of advantages that redefine the way welding processes enhance quality, efficiency, and cost-effectiveness.
Enhanced Welding Quality
Enhanced Welding Quality
ABL lasers ensure high-quality, precise welds, reducing the risk of structural weak-nesses in automotive components.
Faster Production
Faster Production
The ability to weld at high speeds accelerates the manufacturing process, leading to increased productivity.
Reduced Rework
Reduced Rework
Virtually spatter-free welding minimizes the need for rework, saving time and resources.
Cost Savings
Cost Savings
Improved efficiency and reduced rework translate into cost savings in automotive production.
Frequently Asked Questions
What is ABL Laser and in what applications is it used?
What are the advantages of ABL Laser?
In which sectors is its use common?
In what situations is an adjustable beam profile advantageous?
What materials can ABL Laser be used on?
What are the energy consumption and environmental impacts?
What are the software features of ABL Lazer?
What are the recommended processes for regular maintenance?
How long is the warranty for ABL Laser?
What is the difference between dual beam and conventional laser welding in ABL?
What does the adjustable beam feature of ABL mean?