Project Overview
This customer project involved the development of a high-power collimation module designed for long-distance energy transmission applications requiring stable beam quality and thermal reliability.
The system is intended for use in high-power optical paths such as:
Vehicle-mounted laser platforms
Long-range debris removal systems
Industrial heating applications
Directed energy transmission setups
The primary objective was to achieve stable large-aperture collimation under sustained high-power operation.
Technical Requirements
The customer required:
High-power handling capability
Large aperture optical design
Stable beam diameter output
Minimal thermal lensing effect
Efficient water cooling
QD fiber interface compatibility
Beam stability and long-duration operation were critical design priorities.
Installed in anti-drone vehicle scenario
Optical & Thermal Performance
The collimator was engineered to:
Deliver stable large-diameter collimated output
Minimize thermal deformation and focal drift
Reduce thermal lensing effects
Maintain beam quality under sustained high-power operation
The integrated water-cooling channel design ensures sufficient heat dissipation, supporting continuous operation in demanding environments.
Engineering Highlights
Large clear aperture for high-power transmission
Robust mechanical structure for mobile platforms
Stable output beam diameter (~25 mm)
High optical precision and alignment stability
Modular integration capability
This solution demonstrates Nipex’s capability in high-power optical module development beyond conventional cutting and cladding systems.
Application Impact
By combining large-aperture optics with optimized thermal management, this collimator enables reliable energy delivery in long-distance applications where beam stability is essential.
It expands the Nipex modular optical platform into high-power collimation systems for advanced industrial and mobile applications.
Conclusion
High-power beam control is not only about energy output — it is about stability, thermal balance, and optical precision.
This project reflects Nipex’s expertise in developing scalable, high-power optical modules for demanding energy delivery applications.
Precision Optical Engineering for High-Power Systems