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RPC Photonics公司有高品质的的工程漫射体BSDF测试数据,但它对于FRED帮助甚少,下面这个步骤描述了如何利用FRED脚本转换RPC Photonics提供的TXT文件,并将数据直接应用到FRED的Tabulated scatter 散射模型。 -0a�3eg)Z* 7V�f�X��E/ 背景: �>#dLT~[\a Thorlabs和RPC Photonics联手共同推出的新型漫射体及光束整形技术,可以解决其他技术的不足,大大改善了诸如光刻系统、有效固态照明,显示,背光,显示亮度增强和投影屏等大多数应用的性能。这项我们称之为工程漫射体(Engineered DiffusersTM)的新概念,与其他技术有许多不同。与诸如磨砂玻璃、乳色玻璃和全息元件等随机漫射体截然不同,工程漫射体要求对于每个散射中心,通常为微透镜单元,都进行控制。例如全息漫射体可以视为一组随机排列的透镜,但是通过全息曝光形成的类透镜效果只能通过静态方式进行控制:而无法单独操控每个微透镜单元,这也帮助解释了全息漫射体无法控制光的分布和轮廓。另一方面,在工程漫射体中,每个微透镜单元形成漫射体,由其凹形纵断面和在阵列中的位置所确定。同时,为了确保漫射体不受输入光束变化的影响,并且不产生衍射效果,微透镜单元的分布是随机的,根据产生相应的光束形状函数所选取的概率分布函数来确定。因此,工程漫射体同时保留了随机与确定性漫射体的优点,从而实现高性能的光束整形功能。 ~~C�d�9Hzi FRED是美国Photon Engineering 公司开发的光学工程仿真软件,其在杂散光分析中独特的算法、高效的准确性,使其与其它同类产品相比更具优势。本案例我们重点讲述如何由RPC Photonics的BSDF数据转为FRED可识别的散射数据。 1f3g�5y'z5 图1. RPC Photonics工程漫射体结构及光束投射形状
.\�H�-?6R^ 8r}tf3xMCM ��&pl)E�$Y 步骤 �]l �}�v�
L]���=mQo� 1、 在http://www.rpcphotonics.com/bsdf-data-optical-diffusers/下载并解压BSDF数据到某一文件夹下,选择“Raw data”文件。 >l}v
_k*~B �YeJTB���} 图2. RPC Photonics工程漫射体不同类型的散射数据
�FXk*zX�n6 2、 将 http://fred-kb.photonengr.com/wp-content/uploads/sites/2/2015/06/constructRpcScatterFile.frs脚本文件放在步骤1中的文件下。(脚本代码放在了本文的最后) }#Up:o�]A! 3、 打开FRED并运行脚本文件,会输出如下“<SAMPLE>_FRED.txt”格式,<SAMPLE>即为RPC Photonics散射片数据集 E5gt�_,j�> 例如下所示: B$c'^���
) Sample name: EDF-C1-56 L?N:�4/0;! Merging data from file EDF-C1-56 0-0.txt b��P�V}T` Finished merging RPC data for sample EDF-C1-56 Dg��^s��$2 FRED formatted data file: D:\FRED\散射片数据\EDF-C1-56_FRED.txt z�Kk=R6�w 4、 生成了FRED可识别的文件后,将散射模型导入到FRED里面 x15&U\���U a. 创建一个新的散射库 Nb�a1!5�:M b. 散射模型命名 0dx%b�677d c. 改变散射模型为“Tabulated BSDF”. � pb�<eg�, d. 在File框出右键选择“Replace With Data From a File”, 选择步骤三生成的数据文件(如EDF-C1-56_FRED.txt ) ��Ku6n�dc e. 切换为“Varies w/angle” 选项(假定所有的RPC Photonics datasets 数据有多个测试角度。 O� 8��l`�1 f. 在底部的对话框中,选择透射散射、反射停并且你需要终止入射光线, y2g�)*T�!m g. 点击OK �o7tlk�SZ� 5、 数据输入后,可点击“Plot”按钮验证BSDF模型及总的散射值 _ y'g11 \
*W=1�yPP� Lz9|�"F�"V 脚本代码: �=H-BsX?�P r
'ioH�"=� '#Language "WWB-COM" ?/3{gOgI$` 1�"A"AM�Zf Option Explicit 9~ V�(w�G� t`6~�ud��> Sub Main =f��=>�buD ��v*y,PY1* 'Cleanup `�)=sQ�2P ClearOutputWindow() QeQw����mI z\k�6."e_& Print "Merging RPC Photonics BSDF Data Files" ��cor!S�a> SetTextColor(255,0,0) � (=%0�x"' Print "Note: Script should be located in the same folder as the BSDF TXT files." ��G #$r)S� Print "Note: Do not run this script multiple times without deleting the output file between executions." 4fL>Ou[YuX SetTextColor(0,0,0) ckd��Cd�
J �'�eQ*?a43 'Current directory of this script (should be the same as the text files being merged) @ uL4'@Ej� Dim cDir As String w�V��v@�
� cDir = MacroDir$ & "\" fn�//�j7 j x;�&iLQ�Zh 'Array which will be populated with the list of files to be merged ;k1VY
I�e} Dim fList() As String, curFile As String \!�)�1n[N� GetFileList( cDir, fList ) ��W1}d6Sbg 0d�,&���)� Print "" 0V�gsV;��� Print "Files found for merging:" od/Q"5t[p� For Each curFile In fList )"bP]�t^_ Print Chr(9) & curFile 9Kc�;]�2�m Next �D��Ru#vC� �C�oe%R(x5 'Split the first text file name found to get the sample name. First file should be 0-0 measurement. r�[n�vgzv@ Dim nameArray() As String, sampName As String ];{CNDAL2� nameArray = Split(fList(0)," 0-0.txt") "���V4ru&a sampName = nameArray(0) y $�>U[^G[ Print "" UDgUbi^v|D Print "Sample name: " & Chr(9) & sampName @�����ojV8 O1�z���3(� 'Open an output file and write the FRED header data <QRRD*���\ Dim outFile As String �Z&Z=�24q_ outFile = cDir & sampName & "_FRED.txt" WD'�[�|s�\ Open outFile For Output As #1 Cbr>\;sc2Z Print #1, "type bsdf_data" ��U�NescZ� Print #1, "format angles=deg bsdf=value scale=1" $s�9���YU" ^14�a[ta/' 'Loop the file list, skip the two header lines and write the remaining data to file ��idP2�G|Z Dim lineArray() As String, curLine As Long oA�q<ag\qV For Each curFile In fList G���+W0�X� Print "Merging data from file " & curFile y[~w�2�a&+ ReadFile( cDir & curFile, lineArray ) _*d����UH5 For curLine = 2 To UBound(lineArray) �r�=^��?�� Print #1, lineArray(curLine) h�T$/���B| Next �N:e5=;�6s Next 6n�H�yd�<o gK�>aR ^*� 'Close the output file NR�0fx��h� Close #1 �]w9�\q*S] i|�OG#PsY- Print "Finished merging RPC data for sample " & sampName M@7�8.lP�S Print "FRED formatted data file: " & Chr(9) & outFile Q�MWDII&�t End Sub 0�%�GQX�iy �u��+���,� 'Utility function to read the contents of a file into an array of strings. &�0%�x6vea Function ReadFile(ByVal fileName As String, _ �4�^Ad�SuV ByRef lineArray() As String) As Long 2:Q�2w3�Xe �zQyt��1&! ReadFile = -1 +OX:T) 4h6 Dim oFSO As Object ;UDd4@3`S" Set oFSO = CreateObject("Scripting.FileSystemObject") ���u(g0Ob� Erase lineArray Zdll}n�O"E �qK1���2�: Dim fid As Long Qw�gP+� M+ If oFSO.fileexists( fileName ) Then n0�%]dKC�B fid = FreeFile() gOKF%Ej31T Open fileName For Input As fid )l"py9�STF lineArray = Split(Input(LOF(fid), fid), vbCrLf) X��) x�eq
Close fid NE2P
�"m�Y End If 7��xy[;��� Set oFSO = Nothing �h}c��R�>
Return UBound( lineArray ) ]Geg;[�t�� FJ(}�@U}57 End Function k_hs g6Ur. z)U/�bjf�� Sub GetFileList( ByVal in_dir As String, _ ��U%E364;F ByRef in_flist() As String ) YVS~|4hu?i Ym5ji$�!2� 'Redimension the file list array QO(P_az3mg Erase in_flist ��}D\�i1/Y Bi$nYV�)-l 'Tracks how many files are found y ZR\(\?<� Dim fCount As Long d\A�!5�/LG fCount = 0 n�H7i)!cI~ hqVxvS���" 'Recurse directory and search for text files s�2i�xiv�= Dim f As String Cqc5jx�0�) f = Dir$(in_dir & "*.txt") \�z�GmZ�Z� While f <> "" �i���"J`$u ReDim Preserve in_flist(fCount) H��k�lg��f in_flist(fCount) = f b�'$fr6"O1 fCount += 1 8|Vm6*TY&p f = Dir$() ~�D�dlr9Ej Wend #Z>E�X?VS: ReDim Preserve in_flist(fCount-1) o/5loV3��h yEB1g�YJ�B End Sub �c��#Y�W>(
