| songshaoman |
2020-05-25 15:25 |
在框架结构确定的情况下,基于matlab的消四种像差的三反系统初始结构的求解
%无中间像,焦距输入为负数 ;7�Okyj6EP
function sjr=nfdre(~) �� ?Vc0)�
M��Q`�%`�`
%系统焦距及各镜间距输入,间距取负正负 ]-�:6T0JuS
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f=input('f:'); VR�bQ�diZ{
d1=input('d1:'); {x���{H$�f
d2=input('d2:'); &9�4W-�z�h
d3=input('d3:'); &R�O7{,`
�
�gn�)�R�^
A=f^2/(d3*d2)-f/d1; p�OA�!#Aj)
B=f/d1-f/d2+f/d1+f/d3-d3*f/(d3*d2); �()\jCNLT
C=d3/d2-f/d1; .'T�40=�7
Kkv<�"^H��
a1=(-B+sqrt(B^2-4*A*C))/(2*A);%α1 -�V5w]F'��
a2=d3/(a1*f);%α2 OJ1t��V% E
b2=a1*(1-a2)*f/d2;%β2 P!�e=�b-T�
b1=(1-a1)*f/(d1*b2);%β1 1nI^-�aQ3�
1e}8�L�H�7
�IQ�nIaZ��
%曲率半径 `}fw�1X�5L
C:�i|�-t�e
R1=2*f/(b1*b2) U>F{?PReA?
R2=2*a1*f/(b2*(1+b1)) ��~<)vKk�
R3=2*a1*a2*f/(1+b2) HB�i�Bv-=,
-�>gZ)?Fqy
A1=b2^3*(a1-1)*(1+b1)^3; g��U;&��$
B1=-(a2*(a1-1)+b1*(1-a2))*(1+b2)^3; |�=K�_F3aJ
C1=(a1-1)*b2^3*(1+b1)*(1-b1)^2-(a2*(a1-1)+b1*(1-a2))*(1+b2)*(1-b2)^2-2*b1*b2; �hXB|g[�zT
2K{�6iw"h�
A2=b2*(a1-1)^2*(1+b1)^3/(4*a1*b1^2); q�P1FJ89�H
B2=-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)^3/(4*a1*a2*b1^2*b2^2); 41�V�e�}%
C2=b2*(a1-1)^2*(1+b1)*(1-b1)^2/(4*a1*b1^2)-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)*(1-b2)^2/(4*a1*a2*b1^2*b2^2)-b2*(a1-1)*(1-b1)*(1+b1)/(a1*b1)-(a2*(a1-1)+b1*(1-a2))*(1-b2)*(1+b2)/(a1*a2*b1*b2)-b1*b2+b2*(1+b1)/a1-(1+b2)/(a1*a2); �&<]<a_�pw
�R_N:#K.M�
CB=[C1 B1;C2 B2]; �QDTNx!W�L
AB=[A1 B1;A2 B2]; gl7|�H&&xV
AC=[A1 C1;A2 C2]; �Y)��|N"f;
�2�7A!�\pn
%非球面系数 %d;e�zY�'2
k2=-(det(CB)/det(AB)); �-VT+O+9_A
k3=-(det(AC)/det(AB)); �u:�dx;*��
k1=(k2*a1*b2^3*(1+b1)^3-k3*a1*a2*(1+b2)^3+a1*b2^3*(1+b1)*(1-b1)^2-a1*a2*(1+b2)*(1-b2)^2)/(b1^3*b2^3)-1 9 �OT,�TpA
k2=k2 GP� a�`e�
k3=k3 /*rht��rS)
k�'�3Wt�*i
end t ^��S�zqB
Z(GfK0vU��
%有中间像,焦距输入为正数 (�zcLx;N�
](j��Fwx�U
function sjr=yfdre(~) y�j_�4gxJ\
tTa��nW2C
f=input('f:'); !L2��4+��$
d1=input('d1:'); W+���=o�&V
d2=input('d2:'); �A1i!�F?X�
d3=input('d3:');
V
�9;[M�;
*r�h,"Z�o�
A=f^2/(d3*d2)-f/d1; $8~e}8dt�|
B=f/d1-f/d2+f/d1+f/d3-d3*f/(d3*d2); jZ*WN|FK�?
C=d3/d2-f/d1; k�G�0Yh2;#
�$E!J:Y�=�
a1=(-B-sqrt(B^2-4*A*C))/(2*A); v�V�xD!E�L
a2=d3/(a1*f); |`/TBQz:r
b2=a1*(1-a2)*f/d2; �cr;`Tl~}s
b1=(1-a1)*f/(d1*b2); gm�"#:< �)
�f� �2YLk�
%曲率半径 �R.9V��,R5
SPkn�3D6��
R1=2*f/(b1*b2) >Q�kP7�K�b
R2=2*a1*f/(b2*(1+b1)) 98X�Va\|tl
R3=2*a1*a2*f/(1+b2) ��f�S&�6�
??�&<�k� �
A1=b2^3*(a1-1)*(1+b1)^3; 3G}AH E4��
B1=-(a2*(a1-1)+b1*(1-a2))*(1+b2)^3; #�]Y>KX2HG
C1=(a1-1)*b2^3*(1+b1)*(1-b1)^2-(a2*(a1-1)+b1*(1-a2))*(1+b2)*(1-b2)^2-2*b1*b2; K }$�&:nao
E%N2k|%8d_
A2=b2*(a1-1)^2*(1+b1)^3/(4*a1*b1^2); 4Y�\wn�wI�
B2=-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)^3/(4*a1*a2*b1^2*b2^2); �RP4Ku9�hk
C2=b2*(a1-1)^2*(1+b1)*(1-b1)^2/(4*a1*b1^2)-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)*(1-b2)^2/(4*a1*a2*b1^2*b2^2)-b2*(a1-1)*(1-b1)*(1+b1)/(a1*b1)-(a2*(a1-1)+b1*(1-a2))*(1-b2)*(1+b2)/(a1*a2*b1*b2)-b1*b2+b2*(1+b1)/a1-(1+b2)/(a1*a2); LW)��H"6v
Vr.Y/�3N&'
CB=[C1 B1;C2 B2]; *#
�{z�3{+
AB=[A1 B1;A2 B2]; �V�^s0f�Wa
AC=[A1 C1;A2 C2]; ��qQ]]~�F
}f}�}�A��=
%二次系数 PJ�4�(}a��
i5�}��4(sV
k2=-(det(CB)/det(AB)); 9LJZ-/Wq��
k3=-(det(AC)/det(AB)); ;]2s,za)qs
k1=(k2*a1*b2^3*(1+b1)^3-k3*a1*a2*(1+b2)^3+a1*b2^3*(1+b1)*(1-b1)^2-a1*a2*(1+b2)*(1-b2)^2)/(b1^3*b2^3)-1 O�l_q��{^
k2=k2 �� AnBJ�(h
k3=k3 �8�� .>/6M
���Z���~��
end
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