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简介:本文是以十字元件为背景光源,经过一个透镜元件成像在探测器上,并显示其热成像图。 Ef.4.iDJrR $4
Uy3C+6 成像示意图 l #Q`f. 首先我们建立十字元件命名为Target P~e$iBH' 9#ft;c 创建方法: \aIy68rH, }eM<A$J 面1 : $0T"YC% 面型:plane &F_rg,q&_ 材料:Air G:`Jrh 孔径:X=1.5, Y=6,Z=0.075,形状选择Box M%xL K7 8F` G4' U; 辅助数据: 1i:g
/H 首先在第一行输入temperature :300K, +o]BjgG emissivity:0.1; 'hO;sL 9^ p{/Io 1 ],,
Ar5 面2 : .To:tN# 面型:plane yPYJc 材料:Air mndl~/ 孔径:X=1.5, Y=6,Z=0.075,形状选择Box |SKG4_wGe AijTT% "H<#91^| 位置坐标:绕Z轴旋转90度, j#t8Krd] " xY2_*#{. ?i2Wst 辅助数据: bs EpET g)qnjeSs] 首先在第一行输入temperature :300K,emissivity: 0.1; +<9
eN Ir"Q%>K0f ih |Ky+ ! Target 元件距离坐标原点-161mm; Uy5 !H1u ~h0BT(p/ lk1Gs{(qhH 单透镜参数设定:F=100, bend=0, 位置位于坐标原点 ;+34g6 _/~ ,a 9,f<Nb(\ 探测器参数设定: `(/saq* qlITQKGG 在菜单栏中选择Create/Element Primitive /plane AAq=,=:R< rw[ {@|)'z V<ApHb :dIQV(iW nVn|$ "r l@rwf$- 元件半径为20mm*20,mm,距离坐标原点200mm。 r>~d[,^$m4 dP7Vsa+ 光源创建: 92]ZiL?k m+2`"1IE[ 光源类型选择为任意平面,光源半角设定为15度。 ct4 [b| |W*@}D |F@xwfgb 我们将光源设定在探测器位置上,具体的原理解释请见本章第二部分。 <o!&Kk 9 UlNfI}#X 我们在位置选项又设定一行的目的是通过脚本自动控制光源在探测器平面不同划分区域内不同位置处追迹光线。 M'zS7=F!: ^M"z1B] |4S?>e 功率数值设定为:P=sin2(theta) theta为光源半角15度。我们为什么要这么设定,在第二部分会给出详细的公式推导。 N&^xq_ 9& wK'! xH^ 创建分析面: n<<=sj$\! T<+ht8&M8 \!JS7!+ 到这里元件参数设定完成,现在我们设定元件的光学属性,在前面我们分别对第一和第二面设定的温度和发射系数,散射属性我们设定为黑朗伯,4%的散射。并分别赋予到面一和面二。 \DU^idp# p&sK\ r}0C8(oq 到此,所有的光学结构和属性设定完成,通过光线追迹我们可以查看光线是否可以穿过元件。 .6ngo0<g mvq7G FRED在探测器上穿过多个像素点迭代来创建热图 4[#6<Ixf !Wixs]od
FRED具有一个内置的可编译的Basic脚本语言。从Visual Basic脚本语言里,几乎所有用户图形界面(GUI)命令是可用这里的。FRED同样具有自动的客户端和服务器能力,它可以被调用和并调用其他可启动程序,如Excel。因此可以在探测器像素点上定义多个离轴光源,及在FRED Basic脚本语言里的For Next loops语句沿着探测器像素点向上和向下扫描来反向追迹光线,这样可以使用三维图表查看器(Tools/Open plot files in 3D chart)调用和查看数据。 qwF*(pTHq 将如下的代码放置在树形文件夹 Embedded Scripts, a WeBav}_ S6T!qH{6 3p3WDL7 打开后清空里面的内容,此脚本为通用脚本适用于一切可热成像的应用。 O5qW*r' @>G&7r:U 绿色字体为说明文字, 6b]1d04hT y=9Dxst"V '#Language "WWB-COM" inPE/Ux 'script for calculating thermal image map ,9Z2cgXwJ 'edited rnp 4 november 2005 q11QAx4p yS)-&t!; 'declarations slge+xq\J Dim op As T_OPERATION vS$oT]-hKE Dim trm As T_TRIMVOLUME B)rr7B Dim irrad(32,32) As Double 'make consistent with sampling Wm)-zvNY; Dim temp As Double p,w|=@= Dim emiss As Double n{64g+ Dim fname As String, fullfilepath As String au~] 9^PRX 'Option Explicit B:?#l=FL )WVItqQKV Sub Main \5Vp6^ 'USER INPUTS BbrT f"` nx = 31 fW.GNX8 ny = 31 7|QGY7Tf numRays = 1000 \5'O.*pr minWave = 7 'microns /&]-I$G@ maxWave = 11 'microns @ /UOSU sigma = 5.67e-14 'watts/mm^2/deg k^4
w%3Fg~Up fname = "teapotimage.dat" S<eZ d./p6 @7@e`b? Print "" 8: HSPDU. Print "THERMAL IMAGE CALCULATION" R:w%2Y -G],H)M detnode = FindFullName( "Geometry.Detector.Surface" ) '找到探测器平面节点 6z#lN>Y-` B2~f;zy` Print "found detector array at node " & detnode xH<'GB) wJ+U[a srcnode = FindFullName( "Optical Sources.Source 1" ) '找到光源节点 vpm ]9>1[ aKv[ Print "found differential detector area at node " & srcnode F!7f_m0= Opv1B2 GetTrimVolume detnode, trm CAUijMI@ detx = trm.xSemiApe 7qP4B9S
dety = trm.ySemiApe rI0)F area = 4 * detx * dety VQ`,#`wV Print "detector array semiaperture dimensions are " & detx & " by " & dety uAu( +zV2 Print "sampling is " & nx & " by " & ny (8CCesy& [_WI8~gY 'reset differential detector area dimensions to be consistent with sampling hZAG (Z pixelx = 2 * detx / nx ^^G-kg pixely = 2 * dety / ny i2$*}Cu SetSourcePosGridRandom srcnode, pixelx / 2, pixely / 2, numRays, False HEBqv+bG Print "resetting source dimensions to " & pixelx / 2 & " by " & pixely / 2 @Q;i.u{V f.||PH 'reset the source power pC*BA<?Rg SetSourcePower( srcnode, Sin(DegToRad(15))^2 ) CI,lkO|C Print "resetting the source power to " & GetSourcePower( srcnode ) & " units" g<fDY6jt 1"}B]5! 'zero out irradiance array |d
$1wr For i = 0 To ny - 1 /61by$E For j = 0 To nx - 1 Hqvc7 -c6 irrad(i,j) = 0.0 Yeqvv
Next j 2;:lK" : Next i [%)@|^hw91 ~xS@]3n= 'main loop RCI4~q EnableTextPrinting( False ) |~SE" R6`*4zS ypos = dety + pixely / 2 np\st7&f6 For i = 0 To ny - 1 ?*[\UC xpos = -detx - pixelx / 2 DU;[btK> ypos = ypos - pixely %c]nWR+/ oEJaH EnableTextPrinting( True ) Bi e?M Print i *4t-e0]j@w EnableTextPrinting( False ) &vCeLh:s dFQo - %|P For j = 0 To nx - 1 aD2*.ln>< qxfLfgu^ xpos = xpos + pixelx CWs: l3_yn 7i8eg*Gl 'shift source 5C/2b.-[ LockOperationUpdates srcnode, True BRb\V42i; GetOperation srcnode, 1, op mj@31YW op.val1 = xpos 9`B0fv Q& op.val2 = ypos 5G#$c'A{4 SetOperation srcnode, 1, op AYcgi LockOperationUpdates srcnode, False id^|\hDR &y70 raytrace .d~\Ysve DeleteRays 8lwFAiC8 CreateSource srcnode 2{-!E ^g TraceExisting 'draw -0$:|p?@^ @lS==O-`f 'radiometry i'HPRY For k = 0 To GetEntityCount()-1 1 tPVP If IsSurface( k ) Then i^*M^P3m temp = AuxDataGetData( k, "temperature" ) 7:>sc]Z emiss = AuxDataGetData( k, "emissivity" ) ca(U!T68 If ( temp <> 0 And emiss <> 0 ) Then 1"?]= j: ProjSolidAngleByPi = GetSurfIncidentPower( k ) w$j{Hp6m frac = BlackBodyFractionalEnergy ( minWave, maxWave, temp ) x?
N.WABr; irrad(i,j) = irrad(i,j) + frac * emiss * sigma * temp^4 * ProjSolidAngleByPi /Pvk),ca End If @RGDhwS47 9_ZBV{
End If U&P{?>{u 8Atq,GcG Next k sw$2d }_}KVI Next j i@5)`<? ]tB@kBi " Next i hv>KX EnableTextPrinting( True ) X&a:g o@W_ai_ 'write out file q8>t!rh<R fullfilepath = CurDir() & "\" & fname N}b^fTq Open fullfilepath For Output As #1 *KJB>W%@uM Print #1, "GRID " & nx & " " & ny 7?J3ci\ Print #1, "1e+308" >;4!O%F Print #1, pixelx & " " & pixely XA<ozq' Print #1, -detx+pixelx/2 & " " & -dety+pixely/2 H(|AH;?ou F2;:vTA> maxRow = nx - 1 ET:T7 maxCol = ny - 1 +-BwQ{92[: For rowNum = 0 To maxRow ' begin loop over rows (constant X) R,t$"bOd row = "" V}"
g~= For colNum = maxCol To 0 Step -1 ' begin loop over columns (constant Y) 83 I-X95 row = row & irrad(colNum,rowNum) & " " ' append column data to row string c~imE% Next colNum ' end loop over columns /=)L_ +
P7o4]:/ Print #1, row JoZ(_Jh%m $dQIs: Next rowNum ' end loop over rows gEwd &J Close #1 VUtXxvH 0[xpEiDx Print "File written: " & fullfilepath &|9.}Z8U Print "All done!!" #.._c?%4/ End Sub 'T,c.Vj) %S@L|t 在输出报告中,我们会看到脚本对光源的孔径和功率做了修改,并最终经过31次迭代,将所有的热成像数据以dat的格式放置于: 8(f:U@BS 6na^]t~ncm dJ
~Zr)> 找到Tools工具,点击Open plot files in 3D chart并找到该文件 0;<)\Wt=i9 8'#/LA[uPe "Sridh? 打开后,选择二维平面图: $f$|6jM ~"K,7sw!Y
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