Non-Contact 3D Optical Profilometers
Introducing LUPHOScan from Taylor Hobson.
Non-Contact 3D Optical Profilers. Get a Quote.
Why Taylor Hobson for non-contact measurement?
The Taylor Hobson LUPHOScan system is the ultimate measurement system for non-contact measurement of optical surfaces such as mirrors and lenses.
With four models to choose from, there is a LUPHOScan system for virtually any non-contact form measurement application.
LUPHOScan Non-Contact 3D Optical Profilers Range
LUPHOScan 50 SL
The LUPHOScan 50 non-contact 3D optical profilers are ideal for the high-volume production of small lenses.
LUPHOScan 260/420 HD
The LUPHOScan HD non-contact 3D optical profilers are the highest accuracy for radius and irregularity for challenging surfaces.
LUPHOScan 850 HD
The LUPHOScan 850 HD is the world’s most versatile non-contact 3D form measurement system for large complex optical surfaces of up to 850 mm in diameter.
We’ve Been Building For Over 10 Years
Call For a Quote:
1300 363 409
Buying a Non-Contact Measuring System?
There are a range of considerations to make when looking at non-contact measurements. Here are some of these considerations.
Contact or Non-Contact?
Choose between contact and non-contact technology for reasons of accuracy, repeatability and resolution.
LUPHOScan systems are the best and most efficient way of measuring geometric features on complex rotationally symmetrical lenses and optical flats.
Whilst other systems may be lower cost the LUPHOScan is in a clas of its own for speed and accuracy of measurement.
What Are the Best Applications for LUPHOScan system?
- Measurement of lenses big and small. For example cell phone lenses.
- Analysis of any rotationally symmetric surface – Aspheres, spheres, flats and freeforms
Global LUPHOScan Customers
For more information on any of our products or services or a quote, please fill in the online inquiry form below for a fast response – within 24 hours.
84 Hotham Street Preston VIC. 3072 Australia
Open Office Hours
M-F: 8am – 6pm
Get in Touch
1300 363 409