Design

Synopsys' CODE V Enhances Aspheric Lens System Design

15th March 2011
ES Admin
0
Synopsys, Inc. today announced the availability of enhancements to its CODE V optical design and analysis software.
CODE V 10.3 delivers new design and analysis capabilities that enable optical designers to more easily take advantage of the unique image quality and cost benefits that aspheres offer.



Aspheric surface shapes are used to help reduce or eliminate imperfect or blurred images in optical systems. While surfaces with spherical shapes are easier to make, many more spherical surfaces are generally needed to reduce image blurring compared to aspheric surfaces. This means that an aspheric lens can be used to replace multiple spherical lenses, thereby creating a device that is smaller, lighter and potentially less expensive.



Developments in optical fabrication and metrology are making the use of aspheres in optical design more cost effective, said George Bayz, vice president and general manager of the Optical Solutions Group at Synopsys. A key to achieving these cost savings is ensuring during initial design phases that the aspheres can be manufactured as designed. CODE V 10.3 delivers capabilities that help designers add aspheres to a system with the confidence that their designs will be both manufacturable and within budget.



The new aspheric design tools in CODE V helped me simplify an existing design while maintaining the required image quality, said Jim Cornell, senior optical designer, Corning Advanced Optics. In particular, the program's fast, efficient surface conversion and optimization capabilities resulted in an improved system with fewer aspheric elements.



Support for Q-type Aspheric Surfaces



CODE V 10.3 adds support for new native aspheric surfaces based on mathematical formulations recently published by Dr. G.W. Forbes of QED Technologies. These Q-type aspheric surfaces offer many advantages over traditional polynomial-based aspheres for lens design optimization and tolerancing. For example, the Q-type surfaces can be more easily constrained during optimization to improve manufacturability and reduce cost. In addition, CODE V's fast wavefront differential tolerancing feature supports tolerancing on Q-type polynomial coefficients, which is useful for evaluating system performance and manufacturability.



Enhanced Surface Conversion Capabilities



CODE V's enhanced surface conversion capabilities make it easy to switch back and forth between the Q-type formulations and traditional aspheric surface representations. This allows designers to harness the power of the new formulations while maintaining compatibility with established fabrication processes.



Asphere Expert Tool



CODE V's Asphere Expert tool saves users time and effort by automatically finding optimal asphere locations in the lens system. The tool uses a unique, highly efficient algorithm that takes into account both aspheric slope departure limits and weighted constraints when computing recommended aspheric surface locations. Users have the option to convert selected surfaces to aspheres and optimize the resulting system for best final performance.



Built-in Aspheric Constraints for Design Optimization



New built-in optimization constraints in CODE V allow users to directly control the sag or slope variations of Q-type aspheres to maintain manufacturability of the lens system. For example, these constraints give users the ability to prevent the production of designs where the sag of the aspheric parts is too large for interferometric testing, and to ensure that designs do not require removal of an excessive amount of material during polishing phases. In addition, a new macro function allows aspheric surfaces to be evaluated and optimized for testability using ZYGO's VeriFire Asphere interferometer metrology system.

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