How To Choose Suitable Galvo Mirror - Other - News

Choosing suitable galvo mirrors depends on several factors, including your application requirements, technical specifications and budget. Here's a guide to help you choose suitable galvo mirrors.

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1. Galvo mirror Application Requirements

 

Scanning Speed: Determine the speed at which you need to scan or deflect the laser beam or light source.

Accuracy: Consider the level of precision required for your application.

Resolution: Determine the smallest incremental movement you need from the galvo mirrors.

Operating Environment: Consider factors like temperature, humidity, and vibration levels where the galvo mirrors will operate.

 

2. Galvo mirror Technical Specifications

 

Mirror Size: Choose the appropriate mirror size based on the beam diameter and scanning area requirements.

Reflectivity: Select mirrors with high reflectivity to minimize energy loss and maximize efficiency.

Coating: Ensure that the mirrors have coatings suitable for your wavelength range (e.g., UV, visible, IR).

Frequency Response: Consider the frequency response of the galvo mirrors, which determines how fast they can move.

 

3. Galvo Mirror Budget Considerations

 

Galvanometer mirrors come in a wide range of prices based on their specifications and quality. Determine your budget and look for mirrors that offer the best value within your budget constraints.

 

4. galvo mirror Supplier and Support

 

Choose a supplier known for providing high-quality galvo mirrors and reliable customer support. Sino-Galvo provide 2D / 3D laser marking, laser cleaning, laser welding, laser medical beauty galvo scanner, and provide 18 months warranty for most model. Below are some important parameters of our galvo mirrors.

 

 

(1) Coating wavelength: 355nm, 405nm, 532nm, 840nm, 915nm, nm, nm, nm, nm, nm, nm

(2) Spot size: 3mm, 5mm, 7mm, 10mm, 12mm, 14mm, 16mm, 20mm, 30mm

(3) Base material: K9, Silicon, Quartz

(4) Incident angle: X:45°±15°/ Y:37.5°±15°

(5) Surface accuracy: affects lens reflectivity and field lens focal length

(6) Reflectivity: The higher the reflectivity, the stronger the laser energy and the lower the lens temperature.

(7) Power: Generally nanosecond laser; power is determined by lens material, coating, and laser

 

Commonly used Galvo mirror Parameters comparison table

Wavelength Spot Size Material Incident Angle Surface Quality Surface Accuracy Reflectivity Power nm mirrors 7 Glass X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 50W nm mirrors 7 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 50W nm mirrors 7 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 100W nm mirrors 10 Glass X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 50W nm mirrors 10 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 150W nm mirrors 10 quartz X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 350W

Continuous W

nm mirrors 10 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99.5%@nm,

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R&#;80%@650nm

Pulse 200W 355nm mirrors (UV) 10 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99%@355nm,

R&#;80%@650nm

Pulse 30W 405nm mirrors (blue light) 10 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99%@405nm,

R&#;80%@650nm

Pulse 100W 532nm mirrors (green light) 10 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm

R&#;99%@532nm,

R&#;80%@650nm

Pulse 100W 450~nm silver-coated mirrors 10 silicon X:45°±15°/ Y:37.5°±15° 20-10 λ/4@633nm R&#;96%@450~nm

Pulse 20W

Continuous 100W

nm mirrors 20 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 500W

Continuous W

nm mirrors 20 quartz X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse W

Continuous W

nm mirrors 20 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse 500W 355nm mirrors (UV) 20 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99%@355nm,

R&#;80%@650nm

Pulse 40W 405nm mirrors (blue light) 20 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99%@405nm,

R&#;80%@650nm

Pulse 150W 532nm mirrors (green light) 20 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99%@532nm,

R&#;80%@650nm

Pulse 150W 450~nm mirrors 20 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm R&#;96%@450~nm

Pulse 50W

Continuous 200W

nm mirrors 30 quartz X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse W

Continuous W

nm mirrors 30 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse W

Continuous W

nm mirrors 30 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm

R&#;99.5%@nm,

R&#;80%@650nm

Pulse W 450~nm silver-coated mirrors 30 silicon X:45°±15°/ Y:37.5°±15° 40-20 λ/2@633nm R&#;96%@450~nm

Pulse 100W

Continuous 500W

 

Related Article

 

Article: How to replace the galvanometer mirror

 

 

By considering these factors and consulting with suppliers or experts in the field, you can select galvo mirrors that best suit your specific application needs.

Sino-Galvo is a high-tech company specializing in R&D and sales of optical galvanometers. We have 23 years of industry experience and have provided laser solutions to thousands of customers. If you encounter any questions about galvo mirrors selection, please contact us through the "Send Inquiry" below and we will be happy to answer your questions.

 

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