| 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 �a�L8Z|��*
function sjr=nfdre(~) ��i�\� )�$
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%系统焦距及各镜间距输入,间距取负正负 }~v0o#
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T7�(�U6y�N
f=input('f:'); Z�..s /K�{
d1=input('d1:'); V$� �"�]f6
d2=input('d2:'); MX�|@�x~9W
d3=input('d3:'); OXV9D:b�Ia
;jmT5Xz�L
A=f^2/(d3*d2)-f/d1; u�)�Vn7zh
B=f/d1-f/d2+f/d1+f/d3-d3*f/(d3*d2); �k��!g%vx�
C=d3/d2-f/d1; 2:1
kSR^Ky
6 �_#C�v�Q
a1=(-B+sqrt(B^2-4*A*C))/(2*A);%α1 [-nPHmZV[
a2=d3/(a1*f);%α2 0�)9n${P7d
b2=a1*(1-a2)*f/d2;%β2 4C�xU�
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b1=(1-a1)*f/(d1*b2);%β1 �[qxDCu�xq
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%曲率半径 6^z)�:d�#u
r��<$�"T��
R1=2*f/(b1*b2) T�����?{F7
R2=2*a1*f/(b2*(1+b1)) �@:��P:`Zk
R3=2*a1*a2*f/(1+b2) ��A/~^4D�R
+ ;B K|([#
A1=b2^3*(a1-1)*(1+b1)^3; %)y-BdSp�.
B1=-(a2*(a1-1)+b1*(1-a2))*(1+b2)^3; ]�q|�U0(q9
C1=(a1-1)*b2^3*(1+b1)*(1-b1)^2-(a2*(a1-1)+b1*(1-a2))*(1+b2)*(1-b2)^2-2*b1*b2; 3o_@�3-Y%�
*>j��J<8�!
A2=b2*(a1-1)^2*(1+b1)^3/(4*a1*b1^2); "]yf�x@)�_
B2=-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)^3/(4*a1*a2*b1^2*b2^2); 3Io7!:�+��
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); p$$0**p!`
(�{��h��W�
CB=[C1 B1;C2 B2]; ��^:�ehG9�
AB=[A1 B1;A2 B2]; %p^`,b�}��
AC=[A1 C1;A2 C2];
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5Qxm\?0J��
%非球面系数 ��1sXVuto
k2=-(det(CB)/det(AB)); P2
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k3=-(det(AC)/det(AB)); �`m�-7L�
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 W;.L�N<bx�
k2=k2 3/CKy##r%]
k3=k3 �]fU0;jzX�
v@qVT'q�lU
end �>8g�b�/?z
}J_#�N.y
%有中间像,焦距输入为正数 �=u.�hHkx�
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function sjr=yfdre(~) P?�<G:]�W
`q�7X(x���
f=input('f:'); �Dx�G8`}�+
d1=input('d1:'); ;sY n=r���
d2=input('d2:'); �[f`7+RHrd
d3=input('d3:'); r��f
=W�q_
q)�y<\cE�O
A=f^2/(d3*d2)-f/d1; Uq(�fk9`6
B=f/d1-f/d2+f/d1+f/d3-d3*f/(d3*d2); }i9VV+�L#1
C=d3/d2-f/d1; 17!<8vIV$C
+�w�(B�9rH
a1=(-B-sqrt(B^2-4*A*C))/(2*A); w!�52DBOe+
a2=d3/(a1*f); G4J)o?:�m@
b2=a1*(1-a2)*f/d2; +{�s -F�g�
b1=(1-a1)*f/(d1*b2); 2h`Tn{�&1/
eJ60@N\A�
%曲率半径 jJe?pT]�o�
\mNN ) �K@
R1=2*f/(b1*b2) ����1"�RC!
R2=2*a1*f/(b2*(1+b1)) �:E2�� ww`
R3=2*a1*a2*f/(1+b2) @�gjA8�mL
T!�t9`I0Zz
A1=b2^3*(a1-1)*(1+b1)^3; otdm� r�w|
B1=-(a2*(a1-1)+b1*(1-a2))*(1+b2)^3; S�H6T�\}X:
C1=(a1-1)*b2^3*(1+b1)*(1-b1)^2-(a2*(a1-1)+b1*(1-a2))*(1+b2)*(1-b2)^2-2*b1*b2; r��W�ip[>^
NoT%�z$�1n
A2=b2*(a1-1)^2*(1+b1)^3/(4*a1*b1^2); |6b&k��hAM
B2=-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)^3/(4*a1*a2*b1^2*b2^2); %G'P�!xQhy
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); M[7$�F&&n
=8Gpov1!V~
CB=[C1 B1;C2 B2]; _''9�-t;n,
AB=[A1 B1;A2 B2]; /2:�s g1��
AC=[A1 C1;A2 C2]; =v�=u+�n�O
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%二次系数 sQLjb�8!7�
sQMfU{�S /
k2=-(det(CB)/det(AB)); �C�\}M_MD�
k3=-(det(AC)/det(AB)); F?�?gVa aj
k1=(k2*a1*b2^3*(1+b1)^3-k3*a1*a2*(1+b2)^3+a1*b2^3*(1+b1)*(1-b1)^2-a1*a2*(1+b2)*(1-b2)^2)/(b1^3*b2^3)-1 @�$�5=�4HA
k2=k2 [s~6,w��z�
k3=k3 E�[��c6*I�
�E>bpq�^;r
end
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