Overview
The LuphoScan 260/420 HD platform ushers in a new era of high precision metrology of optical surfaces. The new generation devices provide for the first time an absolute measurement accuracy of better than ±50 nm (3σ) up to 90° object slope. This comes along with ultra-high reproducibility of measurement results and a low noise floor.The new instrument is ideal for applications where the highest accuracy is required and essential to the manufacturing process. This is most beneficial for surfaces with steep slopes, with varying pitch directions, and small surfaces, such as moulds for smartphone lenses.
Unparalleled measurement capability
- HD = High Definition
- Fast, reliable non-contact real 3D form measurement of aspheres
- Highest accuracy - up to 90° object slopes
- Ideal for measuring strong, steep, and small aspheres incl. cell phone lens moulds
- Extremely good reproducibility of measurement results
- Best shot-to-shot stability of Power and PV determination
- Very low system noise
- Robust against environmental variations
Designed to suit your application
Meeting the ever increasing demands of next generation technologies
4K camera and projector lenses
Measure high precision aspheres at the highest accuracy and best reliability with minimal operator influence. The LuphoScan HD enables manufacturers to accurately measure their optics.
Steep, complex, segmented aspherical surfaces
Gain from the LuphoScan HD measurement flexibility and reliability in order to fulfil highest demands in optics production. The aims for weight reduction and aberration free optical systems require metrology tools such as the LuphoScan HD that can easily measure increasingly complex lenses including steep aspheres and heavy gullwing shapes.
Cell phone and camera lens moulds
Improve the optical and mechanical repeatability of injection mouldings by taking into account the positioning of the optical surface to the mould barrel and mountings.
Positioning of optical surfaces
Advance the imaging performance of systems that comprise many lenses.The Interlignment module enables determination of tilt and decentre of an optical surface with regard to user-defined reference surfaces, such as the lens perimeter. Employing these results during assembly helps to significantly improve the performance of optical systems and can drastically reduce aberrations.
Meeting the ever increasing demands of next generation technologies
4K camera and projector lenses
Measure high precision aspheres at the highest accuracy and best reliability with minimal operator influence. The LuphoScan HD enables manufacturers to accurately measure their optics.
Steep, complex, segmented aspherical surfaces
Gain from the LuphoScan HD measurement flexibility and reliability in order to fulfil highest demands in optics production. The aims for weight reduction and aberration free optical systems require metrology tools such as the LuphoScan HD that can easily measure increasingly complex lenses including steep aspheres and heavy gullwing shapes.
Cell phone and camera lens moulds
Improve the optical and mechanical repeatability of injection mouldings by taking into account the positioning of the optical surface to the mould barrel and mountings.
Positioning of optical surfaces
Advance the imaging performance of systems that comprise many lenses.The Interlignment module enables determination of tilt and decentre of an optical surface with regard to user-defined reference surfaces, such as the lens perimeter. Employing these results during assembly helps to significantly improve the performance of optical systems and can drastically reduce aberrations.
Applications
Designed to suit your application
Meeting the ever increasing demands of next generation technologies
4K camera and projector lenses
Measure high precision aspheres at the highest accuracy and best reliability with minimal operator influence. The LuphoScan HD enables manufacturers to accurately measure their optics.
Steep, complex, segmented aspherical surfaces
Gain from the LuphoScan HD measurement flexibility and reliability in order to fulfil highest demands in optics production. The aims for weight reduction and aberration free optical systems require metrology tools such as the LuphoScan HD that can easily measure increasingly complex lenses including steep aspheres and heavy gullwing shapes.
Cell phone and camera lens moulds
Improve the optical and mechanical repeatability of injection mouldings by taking into account the positioning of the optical surface to the mould barrel and mountings.
Positioning of optical surfaces
Advance the imaging performance of systems that comprise many lenses.The Interlignment module enables determination of tilt and decentre of an optical surface with regard to user-defined reference surfaces, such as the lens perimeter. Employing these results during assembly helps to significantly improve the performance of optical systems and can drastically reduce aberrations.
Meeting the ever increasing demands of next generation technologies
4K camera and projector lenses
Measure high precision aspheres at the highest accuracy and best reliability with minimal operator influence. The LuphoScan HD enables manufacturers to accurately measure their optics.
Steep, complex, segmented aspherical surfaces
Gain from the LuphoScan HD measurement flexibility and reliability in order to fulfil highest demands in optics production. The aims for weight reduction and aberration free optical systems require metrology tools such as the LuphoScan HD that can easily measure increasingly complex lenses including steep aspheres and heavy gullwing shapes.
Cell phone and camera lens moulds
Improve the optical and mechanical repeatability of injection mouldings by taking into account the positioning of the optical surface to the mould barrel and mountings.
Positioning of optical surfaces
Advance the imaging performance of systems that comprise many lenses.The Interlignment module enables determination of tilt and decentre of an optical surface with regard to user-defined reference surfaces, such as the lens perimeter. Employing these results during assembly helps to significantly improve the performance of optical systems and can drastically reduce aberrations.