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? ?? ??? ?? ???? ???? ? ??? ?? CODE V ?? ?? TIP 10??!
CODE V? 2021? 8? 1?? 46??? ?????. ??? ???? ??? ?? ??? ?? ? ??? ?? CODE V? 10?? TIP???.
Tip No. 1: Get clarity on requirements as early as possible in the design process.
Tip #1: ?? ?????? ??? ? ?? ?? ??? ???? ??????.
??? ?? ??? ??? ?? ?? ??, ??? ??? ??? ????? ??? ??? ???? ?? ????? ? ??? ???? ?? ???? ??? ? ????. ?? ???? ???? ??? ??? ??? ? ? ????! ?? ? ??? ??, ???? ?? ?? ?? ?? ?? ??? ?? ??? ?? ??? ?? ??? ?? ??? ??? ? ????. ???? ?? ?? ???? ??? ? ? ?? ?? ? ??? ? ????! ??? ?? ??? ??? CODE V ?? ?? ?????? SpecBuilder? ???? ?? ???? ?? ????:
Tip No. 2: Select a valid starting point based on system needs.
Tip #2: ??? ?? ??? ?? ??? ???? ??????.
CODE V? ??? ??? ?? ??? ?? ? ?? ?? ?????? ?????(??? ???? ??? 2,400? ??? ?? ??? ??? ???):
?? ?? ??????? ??????(?: ??? ????, ??? ?? ??? ????), ???? ?? ?? ?? ???? ??? ? ????. ???? ???? ?? ?? ??? ??? ???? ?? ??(?: f/number, zoom ??, ??, ?? ? ?? ?? ?? ?)? ?????.
Tip No. 3: For best optimization success (in general), choose object side pupil definitions and allow an adequate number of degrees of freedom to meet the constraints you have for your optical system.
Tip #3: ??? ??? ??(?????)? ?? ?? ? ?? ??? ???? ?? ???? ?? ?? ??? ??? ? ?? ??? ???? ??????.
Tip No. 4: Make good use of CODE V’s excellent implementation of Lagrange (exact) constraints.
Tip #4: CODE V? Lagrange(???) ?? ?? ??? ??????.
Lagrange ?? ??? ??? ?? ??? ?? ???? ??? ?? ??? ???? ??? ?? ?????? ??? ??? ???? ?? ??? ??? ???? ??? ??? ???. COOD V? ??? ?? ??? ??? ???? ?? ??? ???? ??? ?? ?? ?? ??? ??? ? ????.
Tip No. 5: Use ray grid spacing, or the DEL command, to adjust optimization ray grid settings for system specific design needs.
Tip #5: ???? ?? ??? ?? ??? ?? ??? ??? ????? ?? ??? ?? ?? DEL ??? ??????.
?? ??? ??? ???? ? ??? ??? ?? ??? ?? ?? ?? ???? ?? ?? ?? ??? ?? CODE V ?? ??? autogrid.seq ?? autogridgq.seq???.
?? ?? ??? ? ?? ?? ??? ???? ??
Tip No. 6: Another best practice is to add some constraints early in the design process to desensitize your system design against fabrication and assembly errors (tolerance desensitization).
Tip #6: ? ?? ?? ??? ?? ???? ??? ?? ?? ??? ???? ?? ? ?? ??? ?? ??? ??? ???? ??? ????(?? ???).
?? ?? CODE V? ??? ??? ?? ??? ??? ?? ?? ?? ??? ?? ? ????. ?? ?? ???? ??? SAB(Sensitivity As-Building) ?? ?? ?? SN2 ?? ?? ?? ??? ???? ????. SAB ?? ??? ?? ?? ??? ?? ??? ???, as-built? ?? ??? ???? ?????. SN2 ?? ??? ??? ? ?? ??? ???? ?? ?? ???? ?? ? ????.
Tip No. 7: When using the sensitivity as-built error function (SAB), reuse the ray grid along with wavefront optimization to speed the optimization run.
Tip #7: Sensitivity as-Built Error Function(SAB)? ???? ?? ?????? ???? ?? ?? ???? ????? ??? ?? ??? ????.
Tip No. 8: For highly aspheric surfaces, work to make sure your field coverage is sufficient to allow fully filling the optimizable portion of the aspheres.
Tip #8: ???? ??? ?? ???? ??? ??? ??? ??? ?? ? ??? ?? ??? ???? ??????.
??? ?? ???? ??? ??? ?? ???? ? ???? FOV? "??" ???? ??? ???? ????.
Tip No. 9: Try to incorporate constraints for the packaging early in the design process.
Tip #9: ?? ???? ??? ???? ?? ?? ??? ??????.
???? ?? ??? CAD? ???? ?? ??? ? ??? ? ? ????:
Tip No. 10: Last but absolutely not least, communicate with your vendor – early and often in the design process!
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