| 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 O�Qh�36BM
function sjr=nfdre(~) AOaf�,ZF
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uXNf�)?MpA
%系统焦距及各镜间距输入,间距取负正负 Hvq< �_&�2
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f=input('f:'); (;T;��?v`-
d1=input('d1:'); I���fZaK([
d2=input('d2:'); ;����6��1m
d3=input('d3:'); �
1Nk}W!v�
Ffm Q�$>�S
A=f^2/(d3*d2)-f/d1; o+�O�\VN�W
B=f/d1-f/d2+f/d1+f/d3-d3*f/(d3*d2); vAJfM�Ul�P
C=d3/d2-f/d1; [21�t�T/��
A_%}kt
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a1=(-B+sqrt(B^2-4*A*C))/(2*A);%α1 �b['TRYc=:
a2=d3/(a1*f);%α2 �*��0R=(Gy
b2=a1*(1-a2)*f/d2;%β2 {Pg7�I�YjH
b1=(1-a1)*f/(d1*b2);%β1 i
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_pNUI�{�De
Dr�lt��xI)
%曲率半径 Y#6@�0Nn[G
��xL>�0�&R
R1=2*f/(b1*b2) U�&Ay3/��
R2=2*a1*f/(b2*(1+b1)) 7H�p�smfm�
R3=2*a1*a2*f/(1+b2) va;�d[D,�
wr�n[q{dX�
A1=b2^3*(a1-1)*(1+b1)^3; _jZDSz|Y�b
B1=-(a2*(a1-1)+b1*(1-a2))*(1+b2)^3; X5U!�25d�]
C1=(a1-1)*b2^3*(1+b1)*(1-b1)^2-(a2*(a1-1)+b1*(1-a2))*(1+b2)*(1-b2)^2-2*b1*b2; �2.&v�{gq
�jVRd[����
A2=b2*(a1-1)^2*(1+b1)^3/(4*a1*b1^2); ���^B&� Z
B2=-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)^3/(4*a1*a2*b1^2*b2^2); �`bT{E.(�T
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); YQ�N=�.Wtc
�.(S,dG0�P
CB=[C1 B1;C2 B2]; 6XQ��)�Q)
AB=[A1 B1;A2 B2]; 3��17Buk��
AC=[A1 C1;A2 C2]; n�fDPM\FFD
:M3��l#`4Q
%非球面系数 �8�d)�F�#�
k2=-(det(CB)/det(AB)); rP`\��<}a.
k3=-(det(AC)/det(AB)); Y+?bo9CES!
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 $z�mES tcm
k2=k2 K�y nZzR�
k3=k3
5Ll[vBW��
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~b&Oz)
end =,@SZsM*B�
��+Kq>�r|;
%有中间像,焦距输入为正数 7�FDraEr#f
1C$^S]v%a�
function sjr=yfdre(~) �Z^fF^3x�
}(tG�j�x]�
f=input('f:'); Tz*5�;y%4�
d1=input('d1:'); �!��)9zH��
d2=input('d2:'); ',!�#�?aGV
d3=input('d3:'); ao-C9|2>NU
�#Y�18z5vo
A=f^2/(d3*d2)-f/d1; �6�:��EO��
B=f/d1-f/d2+f/d1+f/d3-d3*f/(d3*d2); I$�mOy{/�#
C=d3/d2-f/d1; p[o2�F5 T2
[
objdQ�U`
a1=(-B-sqrt(B^2-4*A*C))/(2*A); <!�[��T~<.
a2=d3/(a1*f); ��r>)�\"U#
b2=a1*(1-a2)*f/d2; [U� jbo��x
b1=(1-a1)*f/(d1*b2); MJ�g^
�QVM
Q49�|,ou[H
%曲率半径 "Z{^i3��gN
g{�J�3Ba�
R1=2*f/(b1*b2) FD@�! z
�:
R2=2*a1*f/(b2*(1+b1)) }d�XL=� ul
R3=2*a1*a2*f/(1+b2) ttw@nv%�
@
�|;_
y�A�L
A1=b2^3*(a1-1)*(1+b1)^3; S�o8P�8TCK
B1=-(a2*(a1-1)+b1*(1-a2))*(1+b2)^3; u\E.�H5u27
C1=(a1-1)*b2^3*(1+b1)*(1-b1)^2-(a2*(a1-1)+b1*(1-a2))*(1+b2)*(1-b2)^2-2*b1*b2; Xl ��aNR+�
O�.$<B�f9
A2=b2*(a1-1)^2*(1+b1)^3/(4*a1*b1^2); df:,5@CJ8�
B2=-(a2*(a1-1)+b1*(1-a2))^2*(1+b2)^3/(4*a1*a2*b1^2*b2^2); m|�7g{vHVV
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); '���qM�3.U
q/3}8�B�J�
CB=[C1 B1;C2 B2]; ^Ue.9#9T&g
AB=[A1 B1;A2 B2]; FCe503qND$
AC=[A1 C1;A2 C2]; SUVr&S6N�k
iK#{#ebAoW
%二次系数 ry<
P� LRN
;%� !?dH�6
k2=-(det(CB)/det(AB)); =_1�" d$S&
k3=-(det(AC)/det(AB)); ~xJ�D�3Qf�
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 B#DV�<%GPl
k2=k2 �4Ek<
5s[�
k3=k3 -12v/an]L7
d}=p-s.G�A
end
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