Users do not need OpticStudio on their computers to run OpticsBuilder.
OpticsBuilder also allows CAD users to share ISO compliant optical drawings with a push of a button using an automatic design export tool. ZBD file when there is a change in the optical system, making it easier to identify how the mechanical design needs to change with changes to the optical design.
This empowers CAD users to detect errors early, reduce back-and-forth communication with optical engineers and avoid expensive physical prototyping by delivering analysis tools that show the impact on optical performance.ĬAD users can also update the. ZBD files of their complete optomechanical systems to optical engineers for final validation in OpticStudio. It makes it possible for optical and CAD users to work in their preferred environments and to share data without file format conversions. OpticsBuilder increases efficiency by saving time and increasing productivity by enabling fast and flawless conversion of lens design data into native CAD platform. Knowledge Articles Knowledge Articles Search. Home Zemax Knowledgebase Zemax Knowledgebase.
If you are still unable to complete your license transfer after doing this, contact support zemax. The first step to fixing this error is to repair the ZLM using the instructions outlined here. You must ensure that the version of the ZLM installed on both computers either predates or postdates August There was a change made to the transfer process at this time, and softkey licenses cannot be transferred to or from ZLMs which use different transfer methods. The first thing to check which version of the ZLM is installed on both the source and destination computers. When softkey licenses fail to transfer from one computer to another, they often do so for one of two reasons: the Zemax License Manager ZLM on one computer is outdated or one or more components of the Zemax License Manager are installed improperly. Check out this webinar for a detailed discussion on how and when and when not to use POP to model Gaussian beams in OpticStudio. These three factors can all contribute to difference between a POP results and ray-based analysis results. Near the Rayleigh range, however, the beam size will change nonlinearly with propagation distance. This is not the case for a Gaussian beam, as it will diffract as propagates. That is, a collimated beam will never change size and a diverging beam will retain the same divergence everywhere. Namely, POP models a different type of propagation from traditional ray propagation in that it is most commonly used to model Gaussian beams. The results reported by Physical Optics Propagation POP may differ from those reported by ray-based analyses, such as the Spot Diagram, for several reasons. TrueFreeForm in OpticStudio enables a unique non-parameterized optimization methodology for optical design. Using the TrueFreeForm surface for grid based freeform optimization.