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Product Parameters
Specifications and Models | Irradiation Angle | Light loss | Facula | Focusing mode | Driving mode | Transport vibration | Mount |
Laser lenses | Optional Range:0.01°~70° | <3% | circle | Electric adjustment | Stepper motor+DC motor+potentiometer | Meets GB/T35744-2017 Frequency range: 50~2000Hz Power Spectral Density (PSD): 0.02G ²/Hz. Axial: 3 Axial Time: 1.5 hours per axis | ①1/4-36-UNS-2A ② Customized interface |
Product Introduction
Laser lenses achieve precise control of laser beams through precise optical design.
High precision: Laser lenses provide high-precision laser focusing and diffusion effects to meet various precision processing and measurement needs.
High efficiency: With advanced optical technology, laser lenses can significantly improve laser efficiency, making laser applications more efficient.
High durability: Laser lenses are usually made of high-quality materials, have high durability, and can work stably in various environmental conditions.
Product Parameters
Specifications and Models | Irradiation Angle | Light loss | Facula | Focusing mode | Driving mode | Transport vibration | Mount |
Laser lenses | Optional Range:0.01°~70° | <3% | circle | Electric adjustment | Stepper motor+DC motor+potentiometer | Meets GB/T35744-2017 Frequency range: 50~2000Hz Power Spectral Density (PSD): 0.02G ²/Hz. Axial: 3 Axial Time: 1.5 hours per axis | ①1/4-36-UNS-2A ② Customized interface |
Product Introduction
Laser lenses achieve precise control of laser beams through precise optical design.
High precision: Laser lenses provide high-precision laser focusing and diffusion effects to meet various precision processing and measurement needs.
High efficiency: With advanced optical technology, laser lenses can significantly improve laser efficiency, making laser applications more efficient.
High durability: Laser lenses are usually made of high-quality materials, have high durability, and can work stably in various environmental conditions.