| liunian |
2016-07-13 15:19 |
程序如下: �'���� ^L�
% By Ruibin 08-9-25 �;NV�Tn<Uj
% Instruction:This program help design LED collimating lens , feedback aspheric parameters and several chief dimensions. xp;8p94 ��
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clear all;clc 6g��,3s?aT
Gq��z�)=�'
% The Frist Step: Define independent parameters &�\D<n;�3
r=3.25; %选择开孔半径 zS�v�Hv�s�
R=4.25; %定义曲面底部半径 uXW.
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d=1; %设置透镜前方平板高度 o6y��Z@��R
n=1.4935; %定义材料折射率 �hD.wKX?oO
dividing_angle=24; %定义Core与TIR的分界角 !rmo*�-=^=
min_angle=1; %设置计算精度 (IQ� L`3f%
N=4; %设定拟合非球面系数阶数 H.G^!��0j;
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% The Second Step:Caculate induced variable P#�#(�V!YR
angles_Core=(dividing_angle:-min_angle:0);angles_TIR=(90:-min_angle:dividing_angle); ��k)t8J��\
num_Core=length(angles_Core);num_TIR=length(angles_TIR); FHPZQ���C8
for i=1:(num_Core) {.8)gVBmA�
a_Core(i)=(angles_Core(i)*pi/180); XlcDF|?{.�
k1(i)=cot(a_Core(i)); �Jt^JE{m9%
k2(i)=(-k1(i)+(n^2*k1(i)^2+n^2)^(1/2))/(n^2*k1(i)^2-k1(i)^2+n^2); r�\- k/�0
end f�6A['<%o�
k1(num_Core)=999;k2(num_Core)=0; -hV �K�PIb
for i=1:num_TIR ^9��~%�=k=
a_TIR(i)=(angles_TIR(i)*pi/180); gK_[3Fi�Kt
k3(i)=tan((pi/2+asin(cos(a_TIR(i))/n))/2); G�kvd{G?�F
k4(i)=tan(asin(cos(a_TIR(i))/n)); _�[W�rd?Z�
end %lW:8��ckL
X0_TIR=R;X0_Core=r;Y0_TIR=0;Y0_Core=r*cot(a_Core(1)); ��
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% The Third Step:Solve functions �HSFf&|qqx
for i=1:num_Core %Solve the curve of Core Z�� 2jMBe�
syms x; gM[
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f1=k1(i)*x; �1O��Ri]`
f2=k2(i)*(x-X0_Core)+Y0_Core; 8pt<)Rs}�
f=f1-f2; ~g|0�u�O}.
x=double(solve(f));y=k1(i)*x; #E��K8�Qe_
X0_Core=x;Y0_Core=y; d(t�f:��@�
Px_Core(i)=X0_Core;Py_Core(i)=Y0_Core; ~4�gKA��D
end �3sIM7WD�?
for i=1:num_TIR %Solve the curve of TIR ��$�6%;mep
syms x; m|gd9m�$,?
f1=k3(i)*(x-X0_TIR)+Y0_TIR; 4^9_E��&Fa
f2=k4(i)*(x-r)+r*cot(a_TIR(i)); Gf.o��{���
f=f1-f2; @�a3v[�}c*
x=double(solve(f));y=k3(i)*(x-X0_TIR)+Y0_TIR; <T�[u��i�
X0_TIR=x;Y0_TIR=y; �p�� �a�rG
Px_TIR(i)=X0_TIR;Py_TIR(i)=Y0_TIR; 8ngf(#_{_n
end f=Y9a$.�:M
P�t;A�hmi�
% The furth Step:Fitting the curve BkqW>[\5xm
P_Core=polyfit(Px_Core,Py_Core,4); Upen�/1�bA
P_TIR=polyfit(Px_TIR,Py_TIR,4); -�{mq\GvGn
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% The fifth Step:Feedback chief dimensions of the lens and Create it ��%�E�_{L�
%Feedback dimensions of the whole lens 4'|�:SyO�m
result='透镜尺寸如下:' 84�cH|j�`w
Diameter_of_lens=2*Px_TIR(num_TIR) �(ZsR�=:9(
Thickness_of_lens=Py_TIR(num_TIR)+d ZJM^P'r.1c
Diameter_of_Core=2*r eR;0p�WV�l
Thickness_of_front_pannel=d ?L�M'���5
Bottom_thickness=R-r �/�a)=B)NH
Lowest_Core=P_Core(5) 8 z7,W��3b
Vtk|WV?>P+
%Feedback dimensions of Lens part TIR �i�zo�
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result='TIR系数如下:' _3>zi.��J/
Thickness=Py_TIR(num_TIR)-P_TIR(5)+d ]i�X$p~riH
Aperture=Px_TIR(num_TIR) #E)�]7!_XG
Obstruction=r �z�*1�K<w8
Position=P_TIR(5) ��)uWNN��"
format short e; RjHpC7b*�%
Aspheric=[P_TIR(4) P_TIR(3) P_TIR(2) P_TIR(1)] F'*4:�W�D7
format short; KK�|Jac�h�
T�6#GlO)8)
%DDE Connection _.L��Wc^Sg
TP_COMMAND = ddeinit('TracePro','Scheme'); Okc*)cr��w
%Create TIR [GM<�W��t0
cmd =['(define TIR (insert:lens-element "PLASTIC" "pmma" (list 0 0 7.0306e-002 1.2580e-001 -2.5732e-003 -2.5281e-006) 18.6774 (list 0 0)(list "cir" 13.6051 0 0 0)(list "cir" 3.25 0 0 0)))']; mr.DP~O:9p
ddeexec(TP_COMMAND,cmd); $Bb/GXn{\�
cmd =['(entity:move TIR 0 0 -2.3712)']; Gj�r2]t;E�
ddeexec(TP_COMMAND,cmd); yK3�z3"1M?
cmd =['(property:apply-name TIR "TIR")']; @kymL8"�2w
ddeexec(TP_COMMAND,cmd); s5�0�ln&2�
n�et9K�X4\
%Feedback dimensions of Lens part TIR gvYs<,�:�
result='Core系数如下:' g��p2)��35
Thickness=Py_TIR(num_TIR)-P_Core(5)+d �(0f^Hh wF
Aperture=r �s��~G{-)*
Obstruction='None' �3J<,2���
Position=P_Core(5) g.s oN�qt=
format short e; (7,Aw�f5D~
Aspheric=[P_Core(4) P_Core(3) P_Core(2) P_Core(1)] bu�x-t3g7+
format short; V;(L�euDH|
%Create Core c�
@R��6p+
cmd =['(define Core (insert:lens-element "PLASTIC" "pmma" (list 0 0 -2.6211e-002 1.9124e-001 -1.7949e-002 2.8016e-004) 10.3569 (list 0 0)(list "cir" 3.2500 0 0 0)))']; v^'~��-^s
ddeexec(TP_COMMAND,cmd); RGmpkQEp�
cmd =['(entity:move Core 0 0 5.9493)']; [%kucG��C7
ddeexec(TP_COMMAND,cmd); 37Y�]sJrs$
cmd =['(property:apply-name Core "Core")']; *6tN o-)^�
ddeexec(TP_COMMAND,cmd); *E�'K{?-K�
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%Create Lens (=9�&�"�UH
cmd =['(define Unite (bool:unite TIR Core))']; XT"��c7]X
ddeexec(TP_COMMAND,cmd); >Z%�`&�D~u
cmd =['(define block (insert:block 100 100 100))']; 6�7?��5�Cv
ddeexec(TP_COMMAND,cmd); _!z�Y��(9%
cmd =['(entity:move block 0 0 -50)']; �qZe"'"3M�
ddeexec(TP_COMMAND,cmd); $EF@x}�h:A
cmd =['(define Lens (bool:subtract Unite block))']; �_(fo�JRr�
ddeexec(TP_COMMAND,cmd); $}fA��;�BP
cmd =['(property:apply-name Lens "Lens")']; �$(U|�J�R@
ddeexec(TP_COMMAND,cmd); 3I�+p�e;
.��>n|#XK�
%Close the DDE connection A�$��cbH.�
ddeterm(TP_COMMAND); KJ_�R@�,v\
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