主要是看人家的操作步骤,想学命令的人请看,十分有用 9�7n,^t2F\
File > Open (locate saved Workshop 1 lens if it is not open already, digcam20_start.len) �.#�_g.0<�
Display > View Lens (accept defaults, click OK, keep window open) u�iq;{!dop
In LDM spreadsheet, select surfaces 1 to Image rW[�7�
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Choose Edit > Default Variables, then click in any cell to unselect the range �I@�uin|�X
Right click in each cell and choose Vary for ��Qy\K�o�o
Thickness of surfaces 1, 4, 6 i)[~]D.EH8
Glass of surfaces 1, 4, 6 Z9UNp[���0
File > Save Lens �n:[LsbTk
Using Quick Analysis tool bar, click… @O�| l��A
Quick Spot Diagram (note scale) x?2y^3�<5
Quick Ray Aberration Plot (note scale) �4~e�6�z(
Quick Field Plot (note scales and maximum distortion value) }b�/��G{92
Analysis > Diffraction > MTF pu�K /;nns
Freq/Calc Tab: Maximum 68, Increment 17 k���-8$�43
Graphics tab: Max plot freq 68 �| (: �PX
Click OK (keep window open, tear off starting MTF graph for later comparison) [p9�6H)8YU
Optimization > Automatic Design =%0r_�#F%=
Output controls: Click Draw System button �Om�bvp�;�
General constraints: Min center thickness 0.8, Min edge thickness 0.5 (others default) p2j�=73�$�
Specific constraints: �TN.&FDqC9
Click Insert Specific Constraint ^w~�U�tx4�
Default display is Optical Definitions, Effective Focal Length (correct choice) qdwjg8fo4Z
Enter 8.25 for Constraint Target $j�N,�]�N~
Click OK. 5u��D'Kd$H
File > Save Lens As (new name, digcam20_opt.len) \�q�:PU6�q
Re-run View Lens window to see new lens picture. ;op���8r u
Re-run each of the Quick Analysis windows and note scales. 3�t�$)saQR
Re-run the MTF window, compare to tear-off of starting point $qk�(��yzY
---------------------------------------------------------------------------------------------- 8p.O� rd�p
以下直接复制到命令行即可出最终结果 J}s)#va9R
---------------------------------------------------------------------------------------------- ?Q/9�aqHe;
! Command inputs for Workshop 2-2 (for reference) �QE�~#e��o
!Restore 20 Degree Digital Camera Lens Setup [(�/�IV�+�
!FILE > OPEN <�m+$@:cO�
RES digcam20_start.len av}pT)]\
!Vary all radii curvature by right clicking in LDM and selecting VARY $jNp-5+�Q;
!HINT: for curvatures highlight all and select vary. Then go back and �v1~`7��6^
!freeze stop surface radius. �;T?4=15c�
CCY S1 0 ; CCY S2 0 ; CCY S4 0 ; CCY S5 0 ; CCY S6 0 ; CCY S7 0 aDE)Nf�}��
!Vary all thicknesses by same method. Do not select surface with solve since < �c[dpK5c
!varying this surface will delete solve. If mistake, use UNDO or go to H��v<�jf38
!LENS > SYSTEM DATA > SYSTEM SOLVES and reselect Paraxial Image Solve 5E}~�iC��&
THC S1 0 ; THC S2 0 ; THC S3 0 ; THC S4 0 ; THC S5 0 ; THC S6 0 m'yk�DK�\B
THC S8 0 !Don't forget to vary the image distance which calculates best om�pkDl\E�
!best real-ray focus from paraxial image plane �.�Rx�AYf|
!Vary glass by highlighting, right clicking, and selecting Vary �VD-�2{e�m
GC1 S1 0 ; GC1 S4 0 ; GC1 S6 0 NRZ>03�w�
!Optimize OPTIMIZATION > AUTOMATIC DESIGN \F8*HPM�=*
AUT /WE1af�e_R
EFL Z1 = 8.25 !Effective Focal Length Constraint P]|�|Xbb�p
MNT 0.8 !Minimum Center Thickness General Constraint �Pdw[#X<[`
MNE 0.5 !Minimum Edge Thickness General Constraint <��e7���
DRA S1..I YES !Draw a picture of lens system at each cycle 4�O'X+dv^I
GO pTk1iG�f�B
!Reanalyze the system. Make sure to "Tear Off" original analysis before M}BqS�z�d*
!re-executing to compare optimized system #�F!�'B|n
!Re-execute Drawing Z}4
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VIE y}!}*Qj�+/
GO '��}$$�o1R
!Re-execute MTF ���9?#�L�/
MTF $r87]��y!�
MFR 68 H}B%OFI�\+
IFR 17 "R�v],O��"
GO �isR|K9qf^
!Re-execute Field (Distortion) Analysis tN:PW�j5
FIE �b{�wj�4
GO �o$-!E�(p�
!Save Lens FILE > SAVE LENS AS... #Jqa_�$�\.
SAV digcam20_opt
