World Premiere at Shanghai LASER World of PHOTONICS: Xinghong Optoelectronics Launches XH-ABMPR Smart Laser Head with "Ring-Core 3D Dynamic Tuning"

25 Mar,2026

World Premiere at Shanghai LASER World of PHOTONICS: Xinghong Optoelectronics Launches XH-ABMPR Smart Laser Head with "Ring-Core 3D Dynamic Tuning"

Redefining the Boundaries of High-End Welding Technology

March 18, 2026, Shanghai – At LASER World of PHOTONICS CHINA, Xinghong Optoelectronics officially unveiled the world’s first Ring-Core 3D Dynamic Tuning Smart Laser Head. Featuring four core technological advantages – free combination of ring and core fibers, adjustable ring-core spacing, Z-axis focal length tuning, fixed-point ring oscillation, and multi-channel superposition – this breakthrough innovation overcomes multiple bottlenecks of conventional laser welding in material adaptability, process flexibility, and quality control.

Tackling Industry Pain Points: From "Single Light Source" to "Full-Scene Adaptation"

In high-power laser processing, traditional welding has long been constrained by a critical challenge: different materials, thicknesses, and weld profiles demand vastly divergent energy distribution profiles. Conventional laser heads only output fixed-mode light spots, leading to frequent defects such as spatter, porosity, cracks, and thermal distortion when welding high-reflectivity materials (copper, aluminum) and heat-sensitive thin sheets. Narrow process windows and low yields have become persistent industry headaches.

Designed to resolve these issues, Xinghong Optoelectronics’ new ring-core 3D dynamic tuning laser head adopts an innovative ring-core optical architecture and precision control system, delivering four transformative values:

1. 3D Tunable Spot-Core Light Spot

The core breakthrough lies in independent adjustment of ring-core power and spot size, combined with movable center spot, tunable focus, and freely combinable fiber cores. Users can customize the optimal spot profile in real time based on material properties and weld requirements, enabling seamless welding across diverse materials.

2. Customizable Weld Penetration and Width

Energy attenuation during deep-penetration thick-plate welding often causes incomplete fusion and inconsistent penetration. Leveraging precision beam control, this laser head maintains stable and uniform energy distribution throughout the penetration depth, supporting accurate customization of weld width and penetration for reliable high-end welding.

3. Porosity-Free & Spatter-Free Welding

Porosity severely weakens aluminum alloy, pure copper, and similar materials. Precise oscillation of the central spot guides orderly flow of the molten pool, allowing bubbles to escape timely from the keyhole. The result is dense, smooth welds with zero residual porosity.

4. Zero Thermal Distortion

For high-reflectivity copper/aluminum and heat-sensitive thin sheets, precise control of the heat-affected zone and heat input eliminates deformation and damage typical of conventional welding, fully preserving the base material’s mechanical properties.

Technological Leap: From Catching Up to Leading

Spot-ring technology has become mainstream in high-power laser welding. Existing solutions only support independent adjustment of central and ring-core power. Xinghong Optoelectronics’ new smart laser head goes far beyond: it enables dynamic tuning of spot profile, oscillation mode, focal position, and fiber core combination, elevating beam shaping from 2D control to 3D dynamic control.

Empowering High-End Manufacturing, Ushering in an Era of Custom Welding

This innovation empowers industries including new energy battery welding, automotive thick-plate welding, 3C precision manufacturing, shipbuilding thick plates, aerospace, and AI thermal management.

Driven by market demand, Xinghong Optoelectronics will continue to innovate and create value for the laser processing industry.

Wuhan Xinghong Optoelectronic Technology Co., Ltd.Laser Intelligence, Building the Future.