Ball Bearing Polygon Scanner
Description
Novanta's Ball Bearing Polygon Scanners, engineered by Cambridge Technology, represent a pinnacle of precision and reliability in raster scanning technology. Designed to meet the demands of low- and mid-speed applications, these scanners offer exceptional repeatability and high load capacity at a reasonable cost point, making them indispensable tools for a wide range of laser-based processes.
Powered by advanced DC brushless motors, Novanta's Ball Bearing Polygon Scanners deliver consistent and precise performance across a broad spectrum of operating conditions. With speeds ranging from 300 to 20,000 RPM, depending on the specific model and application requirements, these scanners provide the flexibility to adapt to diverse processing needs with ease.
One of the key features of Novanta's Polygon Scanners is their ability to maintain high speed stability and positional accuracy, even at slower speeds, thanks to optional encoder feedback. This ensures that the scanning process remains precise and reliable, particularly in applications where intricate details and fine adjustments are crucial.
Furthermore, the polygon facets of these scanners boast exceptional flatness and surface quality, down to 1/8 wave flatness and 60/40 surface quality, ensuring uniform and consistent laser beam delivery for optimal processing results. Enhanced aluminum and protected gold coatings covering a wide range of wavelengths from 350 nm to 10,600 nm further enhance the versatility and performance of these scanners, making them suitable for a variety of laser-based diagnostic, analytical, micromachining, and fine material processing applications.
Constructed with robust ball bearing technology, Novanta's Polygon Scanners are built to withstand rigorous operation while maintaining long-term reliability and durability. The cantilevered or captured housing designs offer ease of integration into existing systems, allowing for seamless integration and efficient operation in diverse industrial environments.
In summary, Novanta's Ball Bearing Polygon Scanners combine cutting-edge technology with robust engineering to deliver high precision, flexibility, and operational performance, making them the preferred choice for demanding laser processing applications across various industries.
Ball Bearing Polygon Scanner
Specifications |
|
|---|---|
| Input Aperture: | 10.16 - 76.2 mm |
| Wavelength: | Other (see Data Sheet) |
| Max Scan Rate: | -- m/s |
| Focal Length: | -- mm |
| Work Area X: | -- mm |
| Work Area Y: | -- mm |
| Z Tolerance: | -- mm |
| Max Laser Power: | -- W |
| Weight: | -- kg |
| Options: | Large Aperture |
| Intended Application: | Laser Marking, Laser Engraving, Laser Cutting, Laser Welding, Laser Micromachining, 3D Printing |
| Min Speed: | 300 RPM |
| Max Speed: | 10000 RPM |
| Dynamic Track (Arc Sec.): | ≤40 |
| Speed Stability, Typ. (speed And Load Dependent): | < 0.04 % |
| Housing Design: | Cantilevered |
Features
- Speeds ranging from 300 to 20,000 RPM, depending on polygon size, facet count, and scanner type
- Enhanced aluminum and protected gold coatings covering wavelengths from 350 nm to 10,600 nm
- DC brushless motor designs for superior operating characteristics, including high efficiency, torque output, and positional accuracy
- Ability to operate at any attitude or angle as needed
- Optional encoder for improved positional feedback and speed stability at slower speeds
- Polygon facets down to 1/8 wave flatness and 60/40 surface quality
- Excellent power handling due to high rotation speeds and aluminum polygon substrates
Applications
- Laser-based diagnostic systems
- Analytical equipment
- Micromachining
- Fine material processing
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
Contact Supplier
How to order?
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Ships from:
United States
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Sold by:
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On FindLight:
since 2016
Frequently Asked Questions
Novanta's Polygon Scanners are engineered for low- and mid-speed applications, offering exceptional repeatability and high load capacity at a reasonable cost point, making them essential tools for a wide range of laser-based processes.
These scanners are powered by advanced DC brushless motors, ensuring consistent and precise performance across various operating conditions.
Optional encoder feedback enables these scanners to maintain high speed stability and positional accuracy, ensuring precise and reliable scanning, particularly in applications requiring intricate details and fine adjustments.
The polygon facets boast exceptional flatness and surface quality, down to 1/8 wave flatness and 60/40 surface quality, ensuring uniform and consistent laser beam delivery for optimal processing results.
Constructed with robust ball bearing technology, these scanners are built to withstand rigorous operation while maintaining long-term reliability and durability. The cantilevered or captured housing designs facilitate easy integration into existing systems, ensuring seamless operation in diverse industrial environments.