主要是看人家的操作步骤,想学命令的人请看,十分有用 T+�R�I8.#o
File > Open (locate saved Workshop 1 lens if it is not open already, digcam20_start.len) ��,h�LSRj{
Display > View Lens (accept defaults, click OK, keep window open) ���?�4e6w�
In LDM spreadsheet, select surfaces 1 to Image W"(`n4�hi3
Choose Edit > Default Variables, then click in any cell to unselect the range z�\>X[yNpA
Right click in each cell and choose Vary for �$?A�A"�Nz
Thickness of surfaces 1, 4, 6 �NxO^�VUD�
Glass of surfaces 1, 4, 6 ^G�&D�4uZ�
File > Save Lens *)1Vs�'�!-
Using Quick Analysis tool bar, click… 0WE�1}.J<�
Quick Spot Diagram (note scale) ��W'�h0Zg
Quick Ray Aberration Plot (note scale) ^��85n9a?8
Quick Field Plot (note scales and maximum distortion value) F��J8�@�b
Analysis > Diffraction > MTF �m\M+p��jz
Freq/Calc Tab: Maximum 68, Increment 17 �e=sJMzm�~
Graphics tab: Max plot freq 68 �%@�n8
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Click OK (keep window open, tear off starting MTF graph for later comparison) (��[b!$o<v
Optimization > Automatic Design �|��qcFm�y
Output controls: Click Draw System button P<��!$A��
General constraints: Min center thickness 0.8, Min edge thickness 0.5 (others default) /�I'�u/{KB
Specific constraints: c�vE.r330|
Click Insert Specific Constraint > �'
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Default display is Optical Definitions, Effective Focal Length (correct choice) )kK��mgtj�
Enter 8.25 for Constraint Target P3tG��#�cJ
Click OK. B36�puz 0{
File > Save Lens As (new name, digcam20_opt.len) ds;c�fj�[�
Re-run View Lens window to see new lens picture. �~+� s*\~
Re-run each of the Quick Analysis windows and note scales. =yX&�p:�-&
Re-run the MTF window, compare to tear-off of starting point �)S};�k=kG
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以下直接复制到命令行即可出最终结果 #z!Hb�&Qi\
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! Command inputs for Workshop 2-2 (for reference) dIpW!�P�j^
!Restore 20 Degree Digital Camera Lens Setup `1�bX.7K43
!FILE > OPEN z<%g�
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RES digcam20_start.len br;H�8-
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!Vary all radii curvature by right clicking in LDM and selecting VARY Nv?-*&��L�
!HINT: for curvatures highlight all and select vary. Then go back and '��&:1�?i)
!freeze stop surface radius. {�{�*]bGko
CCY S1 0 ; CCY S2 0 ; CCY S4 0 ; CCY S5 0 ; CCY S6 0 ; CCY S7 0 XL��
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!Vary all thicknesses by same method. Do not select surface with solve since �hMeq�s�+
!varying this surface will delete solve. If mistake, use UNDO or go to �F�iu�!!M6
!LENS > SYSTEM DATA > SYSTEM SOLVES and reselect Paraxial Image Solve p^igscPF6
THC S1 0 ; THC S2 0 ; THC S3 0 ; THC S4 0 ; THC S5 0 ; THC S6 0 )R8%'X�;�U
THC S8 0 !Don't forget to vary the image distance which calculates best +6h�l@Fm(
!best real-ray focus from paraxial image plane \D�U^id�p#
!Vary glass by highlighting, right clicking, and selecting Vary ��p&s�K\��
GC1 S1 0 ; GC1 S4 0 ; GC1 S6 0 r}0C8�(o�q
!Optimize OPTIMIZATION > AUTOMATIC DESIGN ��Va@6=U7c
AUT ur<eew@8@i
EFL Z1 = 8.25 !Effective Focal Length Constraint 7e�c0X�h1�
MNT 0.8 !Minimum Center Thickness General Constraint AwXt� @�!(
MNE 0.5 !Minimum Edge Thickness General Constraint �Bug}�^t{M
DRA S1..I YES !Draw a picture of lens system at each cycle z�{pC�7e5�
GO l^� 0_>��R
!Reanalyze the system. Make sure to "Tear Off" original analysis before }�\f��(�qw
!re-executing to compare optimized system ^�{*f3�m/�
!Re-execute Drawing xshAr�J&A
VIE @�>G&7r�:U
GO 6b�]1d04hT
!Re-execute MTF y=9Dxst"�V
MTF ��inPE/U�x
MFR 68 9��rT�z N�
IFR 17 n^AP"1l8?0
GO Z.:�<��TrN
!Re-execute Field (Distortion) Analysis
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FIE _}zo
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GO �s[3
