%% $Id: pst-circ.tex 928 2014-06-19 13:56:25Z herbert $ %% This is file `pst-circ.tex' %% %% IMPORTANT NOTICE: %% %% Package `pst-circ.tex' %% %% Herbert Voss %% %% This program can be redistributed and/or modified under the terms %% of the LaTeX Project Public License Distributed from CTAN archives %% in directory CTAN:/macros/latex/base/lppl.txt. %% %% DESCRIPTION: %% `pst-circ' is a PSTricks package to draw electric circuits %% %% For a ChangeLog go the the end %% \csname PSTcircLoaded\endcsname \let\PSTcircLoaded\endinput % % Require PSTricks and pst-node packages % \ifx\PSTricksLoaded\endinput \else\input pstricks.tex\fi \ifx\PSTnodeLoaded\endinput \else\input pst-node.tex\fi \ifx\PSTXKeyLoaded\endinput \else\input pst-xkey \fi \ifx\PSTMultidoLoaded\endinput\else\input multido.tex\fi % \def\fileversion{2.14} \def\filedate{2016/08/21} \message{`pst-circ' v\fileversion (hv)} % \edef\PstAtCode{\the\catcode`\@} \catcode`\@=11\relax \pst@addfams{pst-circ} % \pstheader{pst-circ.pro} \SpecialCoor % \newdimen\Pst@position % \newcount\pst@count@i \newcount\pst@count@ii \newcount\pst@count@iii % \newif\ifPst@Dconvention \newif\ifPst@parallel \newif\ifPst@parallel@node \newif\ifPst@T@changeLR \newif\ifPst@Ttype \newif\ifPst@FETchanneltype% Ted \newif\ifPst@Trafo@iprimary \newif\ifPst@Trafo@isecondary % \def\pst@Dconvention@receptor{receptor} \def\pst@Dconvention@generator{generator} \def\pst@Ttype@PNP{PNP} \def\pst@Ttype@NPN{NPN} \def\pst@Ttype@FET{FET} \def\pst@Ttype@NMOS{NMOS} \def\pst@Ttype@PMOS{PMOS} % \def\pst@FETchanneltype@P{P}% Ted \def\pst@FETchanneltype@N{N}% Ted \def\pst@Dstyle@twoCircles{twoCircles} \def\pst@Dstyle@varistor{varistor} \def\pst@Dstyle@thyristor{thyristor} \def\pst@Dstyle@GTO{GTO} \def\pst@Dstyle@photo{photo} \def\pst@Dstyle@triac{triac} \def\pst@Dstyle@Z{Z} \def\pst@Dstyle@schottky{schottky} \def\pst@Dstyle@normal{normal} \def\pst@Dstyle@chemical{chemical} \def\pst@Dstyle@elektor{elektor} \def\pst@Dstyle@crystal{crystal} \def\pst@Dstyle@elektorchemical{elektorchemical} \def\pst@Dstyle@elektorcurved{elektorcurved} \def\pst@Dstyle@curved{curved} \def\pst@Dstyle@rectangle{rectangle} \def\pst@Dstyle@open{open} \def\pst@Dstyle@close{close} \def\pst@Dstyle@zigzag{zigzag} \def\pst@Dstyle@diamond{diamond} \def\pst@Dstyle@normalCei{normalCei} \def\pst@Dstyle@diamondCei{diamondCei} \def\pst@tripole@style@left{left} \def\pst@tripole@style@right{right} \def\pst@tripole@style@center{center} \def\pst@tripole@style@french{french} % \define@boolkey[psset]{pst-circ}[Pst@]{intensity}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{mathlabel}[true]{} \define@key[psset]{}{circ}{\psset[pst-circ]{#1}} \define@key[psset]{pst-circ}{labelstyle}[]{\def\pst@labelstyle{#1}} \define@key[psset]{pst-circ}{intensitylabel}[]{\def\psk@I@label{#1}} \define@key[psset]{pst-circ}{intensitylabelcolor}[black]{\def\psk@I@labelcolor{#1}} \define@key[psset]{pst-circ}{intensitylabeloffset}[0.5]{\def\psk@I@label@offset{#1}} \define@key[psset]{pst-circ}{intensitycolor}[black]{\def\psk@I@color{#1}} \define@key[psset]{pst-circ}{intensitywidth}[\pslinewidth]{\def\psk@I@width{#1}} \define@boolkey[psset]{pst-circ}[Pst@]{tension}[true]{} \define@key[psset]{pst-circ}{tensionstyle}[line]{\expandafter\psk@tension@style@@#1\@nil} \def\psk@tension@style@@#1#2\@nil{\ifx#1p \def\psk@tension@style{1}\else\def\psk@tension@style{0}\fi} \define@key[psset]{pst-circ}{tensionlabel}[]{\def\psk@tension@label{#1}} \define@key[psset]{pst-circ}{tensionlabelcolor}[black]{\def\psk@tension@labelcolor{#1}} \define@key[psset]{pst-circ}{tensionoffset}[1]{\def\psk@tension@offset{#1}} \define@key[psset]{pst-circ}{tensionlabeloffset}[1.2]{\def\psk@tension@label@offset{#1}} \define@key[psset]{pst-circ}{tensioncolor}[black]{\def\psk@tension@color{#1}} \define@key[psset]{pst-circ}{tensionwidth}[\pslinewidth]{\def\psk@tension@width{#1}} \define@key[psset]{pst-circ}{labeloffset}[0.7]{\def\psk@label@offset{#1}} \define@key[psset]{pst-circ}{labelangle}[0]{\def\psk@label@angle{#1}} \define@key[psset]{pst-circ}{labelInside}[0]{\def\psk@labelInside{#1}} \define@key[psset]{pst-circ}{dipoleconvention}[receptor]{\def\psk@Dconvention{#1}} \define@boolkey[psset]{pst-circ}[Pst@]{directconvention}[true]{} \define@key[psset]{pst-circ}{dipolestyle}[normal]{\def\psk@Dstyle{#1}} \define@key[psset]{pst-circ}{parallel}[true]{\@nameuse{Pst@parallel#1}} \define@key[psset]{pst-circ}{parallelarm}[1.5]{\def\psk@parallel@arm{#1}} \define@key[psset]{pst-circ}{parallelsep}[0]{\def\psk@parallel@sep{#1}} \define@key[psset]{pst-circ}{parallelnode}[true]{\@nameuse{Pst@parallel@node#1}} \define@boolkey[psset]{pst-circ}[Pst@wire@]{intersect}[true]{} \define@key[psset]{pst-circ}{intersectA}{\def\psk@wire@intersectA{#1}} \define@key[psset]{pst-circ}{intersectB}{\def\psk@wire@intersectB{#1}} \define@boolkey[psset]{pst-circ}[Pst@]{OAperfect}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{OApower}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{OAinvert}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{OAiplus}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{OAiminus}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{OAiout}[true]{} \define@key[psset]{pst-circ}{OAipluslabel}[]{\def\psk@label@OAiplus{#1}} \define@key[psset]{pst-circ}{OAiminuslabel}[]{\def\psk@label@OAiminus{#1}} \define@key[psset]{pst-circ}{OAioutlabel}[]{\def\psk@label@OAiout{#1}} \define@boolkey[psset]{pst-circ}[Pst@]{GMperfect}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{GMpower}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{GMinvert}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{GMiplus}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{GMiminus}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{GMiout}[true]{} \define@key[psset]{pst-circ}{GMipluslabel}[]{\def\psk@label@GMiplus{#1}} \define@key[psset]{pst-circ}{GMiminuslabel}[]{\def\psk@label@GMiminus{#1}} \define@key[psset]{pst-circ}{GMioutlabel}[]{\def\psk@label@GMiout{#1}} \define@boolkey[psset]{pst-circ}[Pst@]{IGBTinvert}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{transistorcircle}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{transistorinvert}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{transistoribase}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{transistoricollector}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{transistoriemitter}[true]{} \define@key[psset]{pst-circ}{transistoribaselabel}[]{\def\psk@labeltransistoribase{#1}} \define@key[psset]{pst-circ}{transistoricollectorlabel}[]{\def\psk@labeltransistoricollector{#1}} \define@key[psset]{pst-circ}{transistoriemitterlabel}[]{\def\psk@labeltransistoriemitter{#1}} \define@key[psset]{pst-circ}{FETchanneltype}{\def\psk@FETchanneltype{#1}}% Ted 2007-10-15 \define@boolkey[psset]{pst-circ}[Pst@]{FETmemory}[true]{} \define@key[psset]{pst-circ}{transistortype}[NPN]{% \def\psk@Ttype{#1}% \ifx\psk@Ttype\pst@Ttype@FET \Pst@transistorcirclefalse\fi} \newdimen\Pst@basesep \define@key[psset]{pst-circ}{basesep}[0]{\pst@getlength{#1}\Pst@basesep} \define@key[psset]{pst-circ}{TRot}[0]{\pst@checknum{#1}\Pst@TRot} \define@key[psset]{pst-circ}{circedge}[\pcangle]{% \let\pscirc@edge#1% \ifx\pscirc@edge\@none\def\pscirc@edge(##1)(##2){}\fi% \ifx\pscirc@edge\pcangles\def\pscirc@edge@sector{2.5}\else\def\pscirc@edge@sector{1.5}\fi% } % \define@key[psset]{pst-circ}{primarylabel}[]{\def\psk@Trafo@primary@label{#1}} \define@key[psset]{pst-circ}{secondarylabel}[]{\def\psk@Trafo@secondary@label{#1}} \define@key[psset]{pst-circ}{transformeriprimary}[true]{\@nameuse{Pst@Trafo@iprimary#1}} \define@key[psset]{pst-circ}{transformerisecondary}[true]{\@nameuse{Pst@Trafo@isecondary#1}} \define@key[psset]{pst-circ}{transformeriprimarylabel}[]{\def\psk@Trafo@iprimary@label{#1}} \define@key[psset]{pst-circ}{transformerisecondarylabel}[]{\def\psk@Trafo@isecondary@label{#1}} \define@key[psset]{pst-circ}{tripolestyle}[normal]{\def\psk@tripole@style{#1}} \define@boolkey[psset]{pst-circ}[Pst@]{variable}[true]{} % \define@boolkey[psset]{pst-circ}[Pst@]{logicChangeLR}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{logicShowDot}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{logicShowNode}[true]{} \define@key[psset]{pst-circ}{logicWidth}[1.5]{\def\psk@logic@width{#1}}% hv \define@key[psset]{pst-circ}{logicHeight}[2.5]{\def\psk@logic@height{#1}}% hv \define@key[psset]{pst-circ}{logicType}[and]{\def\psk@logic@type{#1}}% hv \define@key[psset]{pst-circ}{logicNInput}[2]{\def\psk@logic@nInput{#1}}% hv \define@key[psset]{pst-circ}{logicJInput}[2]{\def\psk@logic@JInput{#1}}% hv \define@key[psset]{pst-circ}{logicKInput}[2]{\def\psk@logic@KInput{#1}}% hv \define@key[psset]{pst-circ}{logicWireLength}[0.5]{\def\psk@logic@wireLength{#1}}% hv \define@key[psset]{pst-circ}{logicLabelstyle}[\small]{\def\psk@logic@labelstyle{#1}}% hv \define@key[psset]{pst-circ}{logicSymbolstyle}[\large]{\def\psk@logic@symbolstyle{#1}}% hv \define@key[psset]{pst-circ}{logicSymbolpos}[0.5]{\def\psk@logic@symbolpos{#1}}% hv \define@key[psset]{pst-circ}{logicNodestyle}[\footnotesize]{\def\psk@logic@nodestyle{#1}}% hv % \def\pst@logic@type@and{and} \def\pst@logic@type@or{or} \def\pst@logic@type@nand{nand} \def\pst@logic@type@nor{nor} \def\pst@logic@type@not{not} \def\pst@logic@type@exor{exor} \def\pst@logic@type@exnor{exnor} % \def\pst@logic@type@RS{RS} \def\pst@logic@type@D{D} \def\pst@logic@type@JK{JK} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Logic If Statements \newif\ifPst@iec \newif\ifPst@iecinvert \newif\ifPst@input \newif\ifPst@invertinput \newif\ifPst@inputa \newif\ifPst@invertinputa \newif\ifPst@inputb \newif\ifPst@invertinputb \newif\ifPst@inputc \newif\ifPst@invertinputc \newif\ifPst@inputd \newif\ifPst@invertinputd \newif\ifPst@enable \newif\ifPst@invertenable \newif\ifPst@clock \newif\ifPst@invertclock \newif\ifPst@set \newif\ifPst@invertset \newif\ifPst@reset \newif\ifPst@invertreset \newif\ifPst@output \newif\ifPst@invertoutput \newif\ifPst@outputa \newif\ifPst@invertoutputa \newif\ifPst@outputb \newif\ifPst@invertoutputb \newif\ifPst@segmentlabels % IC If Statements \newif\ifPst@pina \newif\ifPst@invertpina \newif\ifPst@pinb \newif\ifPst@invertpinb \newif\ifPst@pinc \newif\ifPst@invertpinc \newif\ifPst@pind \newif\ifPst@invertpind \newif\ifPst@pine \newif\ifPst@invertpine \newif\ifPst@pinf \newif\ifPst@invertpinf \newif\ifPst@ping \newif\ifPst@invertping \newif\ifPst@pinh \newif\ifPst@invertpinh \newif\ifPst@pini \newif\ifPst@invertpini \newif\ifPst@pinj \newif\ifPst@invertpinj \newif\ifPst@pink \newif\ifPst@invertpink \newif\ifPst@pinl \newif\ifPst@invertpinl \newif\ifPst@pinm \newif\ifPst@invertpinm \newif\ifPst@pinn \newif\ifPst@invertpinn \newif\ifPst@pino \newif\ifPst@invertpino \newif\ifPst@pinp \newif\ifPst@invertpinp \newif\ifPst@pinq \newif\ifPst@invertpinq \newif\ifPst@pinr \newif\ifPst@invertpinr \newif\ifPst@pins \newif\ifPst@invertpins \newif\ifPst@pint \newif\ifPst@invertpint \newif\ifPst@pinu \newif\ifPst@invertpinu \newif\ifPst@pinv \newif\ifPst@invertpinv \newif\ifPst@pinw \newif\ifPst@invertpinw \newif\ifPst@pinx \newif\ifPst@invertpinx \newif\ifPst@piny \newif\ifPst@invertpiny \newif\ifPst@pinz \newif\ifPst@invertpinz \newif\ifPst@pinaa \newif\ifPst@invertpinaa \newif\ifPst@pinab \newif\ifPst@invertpinab \newif\ifPst@pinac \newif\ifPst@invertpinac \newif\ifPst@pinad \newif\ifPst@invertpinad \newif\ifPst@pinae \newif\ifPst@invertpinae \newif\ifPst@pinaf \newif\ifPst@invertpinaf \newif\ifPst@pinla \newif\ifPst@invertpinla \newif\ifPst@pinlb \newif\ifPst@invertpinlb \newif\ifPst@pinlc \newif\ifPst@invertpinlc \newif\ifPst@pinld \newif\ifPst@invertpinld \newif\ifPst@pinle \newif\ifPst@invertpinle \newif\ifPst@pinlf \newif\ifPst@invertpinlf \newif\ifPst@pinlg \newif\ifPst@invertpinlg \newif\ifPst@pinlh \newif\ifPst@invertpinlh \newif\ifPst@pinli \newif\ifPst@invertpinli \newif\ifPst@pinlj \newif\ifPst@invertpinlj \newif\ifPst@pinlk \newif\ifPst@invertpinlk \newif\ifPst@pinll \newif\ifPst@invertpinll \newif\ifPst@pinlm \newif\ifPst@invertpinlm \newif\ifPst@pinln \newif\ifPst@invertpinln \newif\ifPst@pinlo \newif\ifPst@invertpinlo \newif\ifPst@pinlp \newif\ifPst@invertpinlp \newif\ifPst@pinra \newif\ifPst@invertpinra \newif\ifPst@pinrb \newif\ifPst@invertpinrb \newif\ifPst@pinrc \newif\ifPst@invertpinrc \newif\ifPst@pinrd \newif\ifPst@invertpinrd \newif\ifPst@pinre \newif\ifPst@invertpinre \newif\ifPst@pinrf \newif\ifPst@invertpinrf \newif\ifPst@pinrg \newif\ifPst@invertpinrg \newif\ifPst@pinrh \newif\ifPst@invertpinrh \newif\ifPst@pinri \newif\ifPst@invertpinri \newif\ifPst@pinrj \newif\ifPst@invertpinrj \newif\ifPst@pinrk \newif\ifPst@invertpinrl \newif\ifPst@pinrl \newif\ifPst@invertpinrl \newif\ifPst@pinrm \newif\ifPst@invertpinrm \newif\ifPst@pinrn \newif\ifPst@invertpinrn \newif\ifPst@pinro \newif\ifPst@invertpinro \newif\ifPst@pinrp \newif\ifPst@invertpinrp \newif\ifPst@pintl \newif\ifPst@invertpintl \newif\ifPst@pintc \newif\ifPst@invertpintc \newif\ifPst@pintr \newif\ifPst@invertpintr \newif\ifPst@pinbl \newif\ifPst@invertpinbl \newif\ifPst@pinbc \newif\ifPst@invertpinbc \newif\ifPst@pinbr \newif\ifPst@invertpinbr \newif\ifPst@pinta \newif\ifPst@invertpinta \newif\ifPst@pintb \newif\ifPst@invertpintb \newif\ifPst@pintc \newif\ifPst@invertpintc \newif\ifPst@pintd \newif\ifPst@invertpintd \newif\ifPst@pinte \newif\ifPst@invertpinte \newif\ifPst@pinba \newif\ifPst@invertpinba \newif\ifPst@pinbb \newif\ifPst@invertpinbb \newif\ifPst@pinbc \newif\ifPst@invertpinbc \newif\ifPst@pinbd \newif\ifPst@invertpinbd \newif\ifPst@pinbe \newif\ifPst@invertpinbe \newif\ifPst@dpright \newif\ifPst@dpleft % Ladder Logic If Statements \newif\ifPst@latch \newif\ifPst@unlatch \newif\ifPst@contactclosed % Bipole If Statements \newif\ifPst@polarized % Diodes \newif\ifPst@ison % Define Integer Keys \define@choicekey[psset]{pst-circ}{ninputs}{0,1,2,3,4}[2]{\def\psk@ninputs{#1}} \define@choicekey[psset]{pst-circ}{segmentdisplay}{0,1,2,3,4,5,6,7,8,9,10}[10]{\def\psk@segmentdisplay{#1}} \define@choicekey[psset]{pst-circ}{nicpins}[\val\nr]{8,14,16,20,32}[8]{ \ifcase\nr\relax \def\psk@nicpins{0} \or \def\psk@nicpins{1} \or \def\psk@nicpins{2} \or \def\psk@nicpins{3} \or \def\psk@nicpins{4} \fi } \define@choicekey[psset]{pst-circ}{bubblesize}{0.05,0.1,0.15,0.2}[0.15]{\def\psk@bubblesize{#1}} % \define@key[psset]{pst-circ}{segmentcolor}[black]{\def\psk@segmentcolor{#1}} % Define Logic String Keys \define@key[psset]{pst-circ}{inputalabel}[]{\def\psk@inputalabel{#1}} \define@key[psset]{pst-circ}{inputblabel}[]{\def\psk@inputblabel{#1}} \define@key[psset]{pst-circ}{inputclabel}[]{\def\psk@inputclabel{#1}} \define@key[psset]{pst-circ}{inputenlabel}[]{\def\psk@inputenlabel{#1}} \define@key[psset]{pst-circ}{inputcllabel}[]{\def\psk@inputcllabel{#1}} \define@key[psset]{pst-circ}{outputalabel}[]{\def\psk@outputalabel{#1}} \define@key[psset]{pst-circ}{outputblabel}[]{\def\psk@outputblabel{#1}} \define@key[psset]{pst-circ}{outputclabel}[]{\def\psk@outputclabel{#1}} % Define IC String Keys \define@key[psset]{pst-circ}{pinalabel}[]{\def\psk@pinalabel{#1}} \define@key[psset]{pst-circ}{pinanumber}[]{\def\psk@pinanumber{#1}} \define@key[psset]{pst-circ}{pinblabel}[]{\def\psk@pinblabel{#1}} \define@key[psset]{pst-circ}{pinbnumber}[]{\def\psk@pinbnumber{#1}} \define@key[psset]{pst-circ}{pinclabel}[]{\def\psk@pinclabel{#1}} \define@key[psset]{pst-circ}{pincnumber}[]{\def\psk@pincnumber{#1}} \define@key[psset]{pst-circ}{pindlabel}[]{\def\psk@pindlabel{#1}} \define@key[psset]{pst-circ}{pindnumber}[]{\def\psk@pindnumber{#1}} \define@key[psset]{pst-circ}{pinelabel}[]{\def\psk@pinelabel{#1}} \define@key[psset]{pst-circ}{pinenumber}[]{\def\psk@pinenumber{#1}} \define@key[psset]{pst-circ}{pinflabel}[]{\def\psk@pinflabel{#1}} \define@key[psset]{pst-circ}{pinfnumber}[]{\def\psk@pinfnumber{#1}} \define@key[psset]{pst-circ}{pinglabel}[]{\def\psk@pinglabel{#1}} \define@key[psset]{pst-circ}{pingnumber}[]{\def\psk@pingnumber{#1}} \define@key[psset]{pst-circ}{pinhlabel}[]{\def\psk@pinhlabel{#1}} \define@key[psset]{pst-circ}{pinhnumber}[]{\def\psk@pinhnumber{#1}} \define@key[psset]{pst-circ}{pinilabel}[]{\def\psk@pinilabel{#1}} \define@key[psset]{pst-circ}{pininumber}[]{\def\psk@pininumber{#1}} \define@key[psset]{pst-circ}{pinjlabel}[]{\def\psk@pinjlabel{#1}} \define@key[psset]{pst-circ}{pinjnumber}[]{\def\psk@pinjnumber{#1}} \define@key[psset]{pst-circ}{pinklabel}[]{\def\psk@pinklabel{#1}} \define@key[psset]{pst-circ}{pinknumber}[]{\def\psk@pinknumber{#1}} \define@key[psset]{pst-circ}{pinllabel}[]{\def\psk@pinllabel{#1}} \define@key[psset]{pst-circ}{pinlnumber}[]{\def\psk@pinlnumber{#1}} \define@key[psset]{pst-circ}{pinmlabel}[]{\def\psk@pinmlabel{#1}} \define@key[psset]{pst-circ}{pinmnumber}[]{\def\psk@pinmnumber{#1}} \define@key[psset]{pst-circ}{pinnlabel}[]{\def\psk@pinnlabel{#1}} \define@key[psset]{pst-circ}{pinnnumber}[]{\def\psk@pinnnumber{#1}} \define@key[psset]{pst-circ}{pinolabel}[]{\def\psk@pinolabel{#1}} \define@key[psset]{pst-circ}{pinonumber}[]{\def\psk@pinonumber{#1}} \define@key[psset]{pst-circ}{pinplabel}[]{\def\psk@pinplabel{#1}} \define@key[psset]{pst-circ}{pinpnumber}[]{\def\psk@pinpnumber{#1}} \define@key[psset]{pst-circ}{pinqlabel}[]{\def\psk@pinqlabel{#1}} \define@key[psset]{pst-circ}{pinqnumber}[]{\def\psk@pinqnumber{#1}} \define@key[psset]{pst-circ}{pinrlabel}[]{\def\psk@pinrlabel{#1}} \define@key[psset]{pst-circ}{pinrnumber}[]{\def\psk@pinrnumber{#1}} \define@key[psset]{pst-circ}{pinslabel}[]{\def\psk@pinslabel{#1}} \define@key[psset]{pst-circ}{pinsnumber}[]{\def\psk@pinsnumber{#1}} \define@key[psset]{pst-circ}{pintlabel}[]{\def\psk@pintlabel{#1}} \define@key[psset]{pst-circ}{pintnumber}[]{\def\psk@pintnumber{#1}} \define@key[psset]{pst-circ}{pinulabel}[]{\def\psk@pinulabel{#1}} \define@key[psset]{pst-circ}{pinunumber}[]{\def\psk@pinunumber{#1}} \define@key[psset]{pst-circ}{pinvlabel}[]{\def\psk@pinvlabel{#1}} \define@key[psset]{pst-circ}{pinvnumber}[]{\def\psk@pinvnumber{#1}} \define@key[psset]{pst-circ}{pinwlabel}[]{\def\psk@pinwlabel{#1}} \define@key[psset]{pst-circ}{pinwnumber}[]{\def\psk@pinwnumber{#1}} \define@key[psset]{pst-circ}{pinxlabel}[]{\def\psk@pinxlabel{#1}} \define@key[psset]{pst-circ}{pinxnumber}[]{\def\psk@pinxnumber{#1}} \define@key[psset]{pst-circ}{pinylabel}[]{\def\psk@pinylabel{#1}} \define@key[psset]{pst-circ}{pinynumber}[]{\def\psk@pinynumber{#1}} \define@key[psset]{pst-circ}{pinzlabel}[]{\def\psk@pinzlabel{#1}} \define@key[psset]{pst-circ}{pinznumber}[]{\def\psk@pinznumber{#1}} \define@key[psset]{pst-circ}{pinaalabel}[]{\def\psk@pinaalabel{#1}} \define@key[psset]{pst-circ}{pinaanumber}[]{\def\psk@pinaanumber{#1}} \define@key[psset]{pst-circ}{pinablabel}[]{\def\psk@pinablabel{#1}} \define@key[psset]{pst-circ}{pinabnumber}[]{\def\psk@pinabnumber{#1}} \define@key[psset]{pst-circ}{pinaclabel}[]{\def\psk@pinaclabel{#1}} \define@key[psset]{pst-circ}{pinacnumber}[]{\def\psk@pinacnumber{#1}} \define@key[psset]{pst-circ}{pinadlabel}[]{\def\psk@pinadlabel{#1}} \define@key[psset]{pst-circ}{pinadnumber}[]{\def\psk@pinadnumber{#1}} \define@key[psset]{pst-circ}{pinaelabel}[]{\def\psk@pinaelabel{#1}} \define@key[psset]{pst-circ}{pinaenumber}[]{\def\psk@pinaenumber{#1}} \define@key[psset]{pst-circ}{pinaflabel}[]{\def\psk@pinaflabel{#1}} \define@key[psset]{pst-circ}{pinafnumber}[]{\def\psk@pinafnumber{#1}} \define@key[psset]{pst-circ}{pinralabel}[]{\def\psk@pinralabel{#1}} \define@key[psset]{pst-circ}{pinranumber}[]{\def\psk@pinranumber{#1}} \define@key[psset]{pst-circ}{pinrblabel}[]{\def\psk@pinrblabel{#1}} \define@key[psset]{pst-circ}{pinrbnumber}[]{\def\psk@pinrbnumber{#1}} \define@key[psset]{pst-circ}{pinrclabel}[]{\def\psk@pinrclabel{#1}} \define@key[psset]{pst-circ}{pinrcnumber}[]{\def\psk@pinrcnumber{#1}} \define@key[psset]{pst-circ}{pinrdlabel}[]{\def\psk@pinrdlabel{#1}} \define@key[psset]{pst-circ}{pinrdnumber}[]{\def\psk@pinrdnumber{#1}} \define@key[psset]{pst-circ}{pinrelabel}[]{\def\psk@pinrelabel{#1}} \define@key[psset]{pst-circ}{pinrenumber}[]{\def\psk@pinrenumber{#1}} \define@key[psset]{pst-circ}{pinrflabel}[]{\def\psk@pinrflabel{#1}} \define@key[psset]{pst-circ}{pinrfnumber}[]{\def\psk@pinrfnumber{#1}} \define@key[psset]{pst-circ}{pinrglabel}[]{\def\psk@pinrglabel{#1}} \define@key[psset]{pst-circ}{pinrgnumber}[]{\def\psk@pinrgnumber{#1}} \define@key[psset]{pst-circ}{pinrhlabel}[]{\def\psk@pinrhlabel{#1}} \define@key[psset]{pst-circ}{pinrhnumber}[]{\def\psk@pinrhnumber{#1}} \define@key[psset]{pst-circ}{pinrilabel}[]{\def\psk@pinrilabel{#1}} \define@key[psset]{pst-circ}{pinrinumber}[]{\def\psk@pinrinumber{#1}} \define@key[psset]{pst-circ}{pinrjlabel}[]{\def\psk@pinrjlabel{#1}} \define@key[psset]{pst-circ}{pinrjnumber}[]{\def\psk@pinrjnumber{#1}} \define@key[psset]{pst-circ}{pinrklabel}[]{\def\psk@pinrklabel{#1}} \define@key[psset]{pst-circ}{pinrknumber}[]{\def\psk@pinrknumber{#1}} \define@key[psset]{pst-circ}{pinrllabel}[]{\def\psk@pinrllabel{#1}} \define@key[psset]{pst-circ}{pinrlnumber}[]{\def\psk@pinrlnumber{#1}} \define@key[psset]{pst-circ}{pinrmlabel}[]{\def\psk@pinrmlabel{#1}} \define@key[psset]{pst-circ}{pinrmnumber}[]{\def\psk@pinrmnumber{#1}} \define@key[psset]{pst-circ}{pinrnlabel}[]{\def\psk@pinrnlabel{#1}} \define@key[psset]{pst-circ}{pinrnnumber}[]{\def\psk@pinrnnumber{#1}} \define@key[psset]{pst-circ}{pinrolabel}[]{\def\psk@pinrolabel{#1}} \define@key[psset]{pst-circ}{pinronumber}[]{\def\psk@pinronumber{#1}} \define@key[psset]{pst-circ}{pinrplabel}[]{\def\psk@pinrplabel{#1}} \define@key[psset]{pst-circ}{pinrpnumber}[]{\def\psk@pinrpnumber{#1}} \define@key[psset]{pst-circ}{pinlalabel}[]{\def\psk@pinlalabel{#1}} \define@key[psset]{pst-circ}{pinlanumber}[]{\def\psk@pinlanumber{#1}} \define@key[psset]{pst-circ}{pinlblabel}[]{\def\psk@pinlblabel{#1}} \define@key[psset]{pst-circ}{pinlbnumber}[]{\def\psk@pinlbnumber{#1}} \define@key[psset]{pst-circ}{pinlclabel}[]{\def\psk@pinlclabel{#1}} \define@key[psset]{pst-circ}{pinlcnumber}[]{\def\psk@pinlcnumber{#1}} \define@key[psset]{pst-circ}{pinldlabel}[]{\def\psk@pinldlabel{#1}} \define@key[psset]{pst-circ}{pinldnumber}[]{\def\psk@pinldnumber{#1}} \define@key[psset]{pst-circ}{pinlelabel}[]{\def\psk@pinlelabel{#1}} \define@key[psset]{pst-circ}{pinlenumber}[]{\def\psk@pinlenumber{#1}} \define@key[psset]{pst-circ}{pinlflabel}[]{\def\psk@pinlflabel{#1}} \define@key[psset]{pst-circ}{pinlfnumber}[]{\def\psk@pinlfnumber{#1}} \define@key[psset]{pst-circ}{pinlglabel}[]{\def\psk@pinlglabel{#1}} \define@key[psset]{pst-circ}{pinlgnumber}[]{\def\psk@pinlgnumber{#1}} \define@key[psset]{pst-circ}{pinlhlabel}[]{\def\psk@pinlhlabel{#1}} \define@key[psset]{pst-circ}{pinlhnumber}[]{\def\psk@pinlhnumber{#1}} \define@key[psset]{pst-circ}{pinlilabel}[]{\def\psk@pinlilabel{#1}} \define@key[psset]{pst-circ}{pinlinumber}[]{\def\psk@pinlinumber{#1}} \define@key[psset]{pst-circ}{pinljlabel}[]{\def\psk@pinljlabel{#1}} \define@key[psset]{pst-circ}{pinljnumber}[]{\def\psk@pinljnumber{#1}} \define@key[psset]{pst-circ}{pinlklabel}[]{\def\psk@pinlklabel{#1}} \define@key[psset]{pst-circ}{pinlknumber}[]{\def\psk@pinlknumber{#1}} \define@key[psset]{pst-circ}{pinlllabel}[]{\def\psk@pinlllabel{#1}} \define@key[psset]{pst-circ}{pinllnumber}[]{\def\psk@pinllnumber{#1}} \define@key[psset]{pst-circ}{pinlmlabel}[]{\def\psk@pinlmlabel{#1}} \define@key[psset]{pst-circ}{pinlmnumber}[]{\def\psk@pinlmnumber{#1}} \define@key[psset]{pst-circ}{pinlnlabel}[]{\def\psk@pinlnlabel{#1}} \define@key[psset]{pst-circ}{pinlnnumber}[]{\def\psk@pinlnnumber{#1}} \define@key[psset]{pst-circ}{pinlolabel}[]{\def\psk@pinlolabel{#1}} \define@key[psset]{pst-circ}{pinlonumber}[]{\def\psk@pinlonumber{#1}} \define@key[psset]{pst-circ}{pinlplabel}[]{\def\psk@pinlplabel{#1}} \define@key[psset]{pst-circ}{pinlpnumber}[]{\def\psk@pinlpnumber{#1}} \define@key[psset]{pst-circ}{pintllabel}[]{\def\psk@pintllabel{#1}} \define@key[psset]{pst-circ}{pintlnumber}[]{\def\psk@pintlnumber{#1}} \define@key[psset]{pst-circ}{pintclabel}[]{\def\psk@pintclabel{#1}} \define@key[psset]{pst-circ}{pintcnumber}[]{\def\psk@pintcnumber{#1}} \define@key[psset]{pst-circ}{pintrlabel}[]{\def\psk@pintrlabel{#1}} \define@key[psset]{pst-circ}{pintrnumber}[]{\def\psk@pintrnumber{#1}} \define@key[psset]{pst-circ}{pinbllabel}[]{\def\psk@pinbllabel{#1}} \define@key[psset]{pst-circ}{pinblnumber}[]{\def\psk@pinblnumber{#1}} \define@key[psset]{pst-circ}{pinbclabel}[]{\def\psk@pinbclabel{#1}} \define@key[psset]{pst-circ}{pinbcnumber}[]{\def\psk@pinbcnumber{#1}} \define@key[psset]{pst-circ}{pinbrlabel}[]{\def\psk@pinbrlabel{#1}} \define@key[psset]{pst-circ}{pinbrnumber}[]{\def\psk@pinbrnumber{#1}} \define@key[psset]{pst-circ}{pintalabel}[]{\def\psk@pintalabel{#1}} \define@key[psset]{pst-circ}{pintanumber}[]{\def\psk@pintanumber{#1}} \define@key[psset]{pst-circ}{pintblabel}[]{\def\psk@pintblabel{#1}} \define@key[psset]{pst-circ}{pintbnumber}[]{\def\psk@pintbnumber{#1}} \define@key[psset]{pst-circ}{pintclabel}[]{\def\psk@pintclabel{#1}} \define@key[psset]{pst-circ}{pintcnumber}[]{\def\psk@pintcnumber{#1}} \define@key[psset]{pst-circ}{pintdlabel}[]{\def\psk@pintdlabel{#1}} \define@key[psset]{pst-circ}{pintdnumber}[]{\def\psk@pintdnumber{#1}} \define@key[psset]{pst-circ}{pintelabel}[]{\def\psk@pintelabel{#1}} \define@key[psset]{pst-circ}{pintenumber}[]{\def\psk@pintenumber{#1}} \define@key[psset]{pst-circ}{pinbalabel}[]{\def\psk@pinbalabel{#1}} \define@key[psset]{pst-circ}{pinbanumber}[]{\def\psk@pinbanumber{#1}} \define@key[psset]{pst-circ}{pinbblabel}[]{\def\psk@pinbblabel{#1}} \define@key[psset]{pst-circ}{pinbbnumber}[]{\def\psk@pinbbnumber{#1}} \define@key[psset]{pst-circ}{pinbclabel}[]{\def\psk@pinbclabel{#1}} \define@key[psset]{pst-circ}{pinbcnumber}[]{\def\psk@pinbcnumber{#1}} \define@key[psset]{pst-circ}{pinbdlabel}[]{\def\psk@pinbdlabel{#1}} \define@key[psset]{pst-circ}{pinbdnumber}[]{\def\psk@pinbdnumber{#1}} \define@key[psset]{pst-circ}{pinbelabel}[]{\def\psk@pinbelabel{#1}} \define@key[psset]{pst-circ}{pinbenumber}[]{\def\psk@pinbenumber{#1}} % Define Ladder logic String Keys \define@key[psset]{pst-circ}{plcaddress}[]{\def\psk@plcaddress{#1}} \define@key[psset]{pst-circ}{plcsymbol}[]{\def\psk@plcsymbol{#1}} % Define Logic Boolean Keys \define@key[psset]{pst-circ}{iec}[false]{\@nameuse{Pst@iec#1}} \define@key[psset]{pst-circ}{iecinvert}[false]{\@nameuse{Pst@iecinvert#1}} \define@key[psset]{pst-circ}{input}[true]{\@nameuse{Pst@input#1}} \define@key[psset]{pst-circ}{invertinput}[false]{\@nameuse{Pst@invertinput#1}} \define@key[psset]{pst-circ}{inputa}[true]{\@nameuse{Pst@inputa#1}} \define@key[psset]{pst-circ}{invertinputa}[false]{\@nameuse{Pst@invertinputa#1}} \define@key[psset]{pst-circ}{inputb}[true]{\@nameuse{Pst@inputb#1}} \define@key[psset]{pst-circ}{invertinputb}[false]{\@nameuse{Pst@invertinputb#1}} \define@key[psset]{pst-circ}{inputc}[true]{\@nameuse{Pst@inputc#1}} \define@key[psset]{pst-circ}{invertinputc}[false]{\@nameuse{Pst@invertinputc#1}} \define@key[psset]{pst-circ}{inputd}[true]{\@nameuse{Pst@inputd#1}} \define@key[psset]{pst-circ}{invertinputd}[false]{\@nameuse{Pst@invertinputd#1}} \define@key[psset]{pst-circ}{enable}[false]{\@nameuse{Pst@enable#1}} \define@key[psset]{pst-circ}{invertenable}[false]{\@nameuse{Pst@invertenable#1}} \define@key[psset]{pst-circ}{clock}[false]{\@nameuse{Pst@clock#1}} \define@key[psset]{pst-circ}{invertclock}[false]{\@nameuse{Pst@invertclock#1}} \define@key[psset]{pst-circ}{set}[false]{\@nameuse{Pst@set#1}} \define@key[psset]{pst-circ}{invertset}[false]{\@nameuse{Pst@invertset#1}} \define@key[psset]{pst-circ}{reset}[false]{\@nameuse{Pst@reset#1}} \define@key[psset]{pst-circ}{invertreset}[false]{\@nameuse{Pst@invertreset#1}} \define@key[psset]{pst-circ}{output}[true]{\@nameuse{Pst@output#1}} \define@key[psset]{pst-circ}{invertoutput}[false]{\@nameuse{Pst@invertoutput#1}} \define@key[psset]{pst-circ}{outputa}[true]{\@nameuse{Pst@outputa#1}} \define@key[psset]{pst-circ}{invertoutputa}[false]{\@nameuse{Pst@invertoutputa#1}} \define@key[psset]{pst-circ}{outputb}[true]{\@nameuse{Pst@outputb#1}} \define@key[psset]{pst-circ}{invertoutputb}[true]{\@nameuse{Pst@invertoutputb#1}} %\define@key[psset]{pst-circ}{outputc}[true]{\@nameuse{Pst@outputc#1}} %\define@key[psset]{pst-circ}{invertoutputc}[false]{\@nameuse{Pst@invertoutputc#1}} \define@key[psset]{pst-circ}{segmentlabels}[true]{\@nameuse{Pst@segmentlabels#1}} % Define IC Boolean Keys \define@key[psset]{pst-circ}{pina}[true]{\@nameuse{Pst@pina#1}} \define@key[psset]{pst-circ}{invertpina}[false]{\@nameuse{Pst@invertpina#1}} \define@key[psset]{pst-circ}{pinb}[true]{\@nameuse{Pst@pinb#1}} \define@key[psset]{pst-circ}{invertpinb}[false]{\@nameuse{Pst@invertpinb#1}} \define@key[psset]{pst-circ}{pinc}[true]{\@nameuse{Pst@pinc#1}} \define@key[psset]{pst-circ}{invertpinc}[false]{\@nameuse{Pst@invertpinc#1}} \define@key[psset]{pst-circ}{pind}[true]{\@nameuse{Pst@pind#1}} \define@key[psset]{pst-circ}{invertpind}[false]{\@nameuse{Pst@invertpind#1}} \define@key[psset]{pst-circ}{pine}[true]{\@nameuse{Pst@pine#1}} \define@key[psset]{pst-circ}{invertpine}[false]{\@nameuse{Pst@invertpine#1}} \define@key[psset]{pst-circ}{pinf}[true]{\@nameuse{Pst@pinf#1}} \define@key[psset]{pst-circ}{invertpinf}[false]{\@nameuse{Pst@invertpinf#1}} \define@key[psset]{pst-circ}{ping}[true]{\@nameuse{Pst@ping#1}} \define@key[psset]{pst-circ}{invertping}[false]{\@nameuse{Pst@invertping#1}} \define@key[psset]{pst-circ}{pinh}[true]{\@nameuse{Pst@pinh#1}} \define@key[psset]{pst-circ}{invertpinh}[false]{\@nameuse{Pst@invertpinh#1}} \define@key[psset]{pst-circ}{pini}[true]{\@nameuse{Pst@pini#1}} \define@key[psset]{pst-circ}{invertpini}[false]{\@nameuse{Pst@invertpini#1}} \define@key[psset]{pst-circ}{pinj}[true]{\@nameuse{Pst@pinj#1}} \define@key[psset]{pst-circ}{invertpinj}[false]{\@nameuse{Pst@invertpinj#1}} \define@key[psset]{pst-circ}{pink}[true]{\@nameuse{Pst@pink#1}} \define@key[psset]{pst-circ}{invertpink}[false]{\@nameuse{Pst@invertpink#1}} \define@key[psset]{pst-circ}{pinl}[true]{\@nameuse{Pst@pinl#1}} \define@key[psset]{pst-circ}{invertpinl}[false]{\@nameuse{Pst@invertpinl#1}} \define@key[psset]{pst-circ}{pinm}[true]{\@nameuse{Pst@pinm#1}} \define@key[psset]{pst-circ}{invertpinm}[false]{\@nameuse{Pst@invertpinm#1}} \define@key[psset]{pst-circ}{pinn}[true]{\@nameuse{Pst@pinn#1}} \define@key[psset]{pst-circ}{invertpinn}[false]{\@nameuse{Pst@invertpinn#1}} \define@key[psset]{pst-circ}{pino}[true]{\@nameuse{Pst@pino#1}} \define@key[psset]{pst-circ}{invertpino}[false]{\@nameuse{Pst@invertpino#1}} \define@key[psset]{pst-circ}{pinp}[true]{\@nameuse{Pst@pinp#1}} \define@key[psset]{pst-circ}{invertpinp}[false]{\@nameuse{Pst@invertpinp#1}} \define@key[psset]{pst-circ}{pinq}[true]{\@nameuse{Pst@pinq#1}} \define@key[psset]{pst-circ}{invertpinq}[false]{\@nameuse{Pst@invertpinq#1}} \define@key[psset]{pst-circ}{pinr}[true]{\@nameuse{Pst@pinr#1}} \define@key[psset]{pst-circ}{invertpinr}[false]{\@nameuse{Pst@invertpinr#1}} \define@key[psset]{pst-circ}{pins}[true]{\@nameuse{Pst@pins#1}} \define@key[psset]{pst-circ}{invertpins}[false]{\@nameuse{Pst@invertpins#1}} \define@key[psset]{pst-circ}{pint}[true]{\@nameuse{Pst@pint#1}} \define@key[psset]{pst-circ}{invertpint}[false]{\@nameuse{Pst@invertpint#1}} \define@key[psset]{pst-circ}{pinu}[true]{\@nameuse{Pst@pinu#1}} \define@key[psset]{pst-circ}{invertpinu}[false]{\@nameuse{Pst@invertpinu#1}} \define@key[psset]{pst-circ}{pinv}[true]{\@nameuse{Pst@pinv#1}} \define@key[psset]{pst-circ}{invertpinv}[false]{\@nameuse{Pst@invertpinv#1}} \define@key[psset]{pst-circ}{pinw}[true]{\@nameuse{Pst@pinw#1}} \define@key[psset]{pst-circ}{invertpinw}[false]{\@nameuse{Pst@invertpinw#1}} \define@key[psset]{pst-circ}{pinx}[true]{\@nameuse{Pst@pinx#1}} \define@key[psset]{pst-circ}{invertpinx}[false]{\@nameuse{Pst@invertpinx#1}} \define@key[psset]{pst-circ}{piny}[true]{\@nameuse{Pst@piny#1}} \define@key[psset]{pst-circ}{invertpiny}[false]{\@nameuse{Pst@invertpiny#1}} \define@key[psset]{pst-circ}{pinz}[true]{\@nameuse{Pst@pinz#1}} \define@key[psset]{pst-circ}{invertpinz}[false]{\@nameuse{Pst@invertpinz#1}} \define@key[psset]{pst-circ}{pinaa}[true]{\@nameuse{Pst@pinaa#1}} \define@key[psset]{pst-circ}{invertpinaa}[false]{\@nameuse{Pst@invertpinaa#1}} \define@key[psset]{pst-circ}{pinab}[true]{\@nameuse{Pst@pinab#1}} \define@key[psset]{pst-circ}{invertpinab}[false]{\@nameuse{Pst@invertpinab#1}} \define@key[psset]{pst-circ}{pinac}[true]{\@nameuse{Pst@pinac#1}} \define@key[psset]{pst-circ}{invertpinac}[false]{\@nameuse{Pst@invertpinac#1}} \define@key[psset]{pst-circ}{pinad}[true]{\@nameuse{Pst@pinad#1}} \define@key[psset]{pst-circ}{invertpinad}[false]{\@nameuse{Pst@invertpinad#1}} \define@key[psset]{pst-circ}{pinae}[true]{\@nameuse{Pst@pinae#1}} \define@key[psset]{pst-circ}{invertpinae}[false]{\@nameuse{Pst@invertpinae#1}} \define@key[psset]{pst-circ}{pinaf}[true]{\@nameuse{Pst@pinaf#1}} \define@key[psset]{pst-circ}{invertpinaf}[false]{\@nameuse{Pst@invertpinaf#1}} \define@key[psset]{pst-circ}{pinla}[true]{\@nameuse{Pst@pinla#1}} \define@key[psset]{pst-circ}{invertpinla}[false]{\@nameuse{Pst@invertpinla#1}} \define@key[psset]{pst-circ}{pinlb}[true]{\@nameuse{Pst@pinlb#1}} \define@key[psset]{pst-circ}{invertpinlb}[false]{\@nameuse{Pst@invertpinlb#1}} \define@key[psset]{pst-circ}{pinlc}[true]{\@nameuse{Pst@pinlc#1}} \define@key[psset]{pst-circ}{invertpinlc}[false]{\@nameuse{Pst@invertpinlc#1}} \define@key[psset]{pst-circ}{pinld}[true]{\@nameuse{Pst@pinld#1}} \define@key[psset]{pst-circ}{invertpinld}[false]{\@nameuse{Pst@invertpinld#1}} \define@key[psset]{pst-circ}{pinle}[true]{\@nameuse{Pst@pinle#1}} \define@key[psset]{pst-circ}{invertpinle}[false]{\@nameuse{Pst@invertpinle#1}} \define@key[psset]{pst-circ}{pinlf}[true]{\@nameuse{Pst@pinlf#1}} \define@key[psset]{pst-circ}{invertpinlf}[false]{\@nameuse{Pst@invertpinlf#1}} \define@key[psset]{pst-circ}{pinlg}[true]{\@nameuse{Pst@pinlg#1}} \define@key[psset]{pst-circ}{invertpinlg}[false]{\@nameuse{Pst@invertpinlg#1}} \define@key[psset]{pst-circ}{pinlh}[true]{\@nameuse{Pst@pinlh#1}} \define@key[psset]{pst-circ}{invertpinlh}[false]{\@nameuse{Pst@invertpinlh#1}} \define@key[psset]{pst-circ}{pinli}[true]{\@nameuse{Pst@pinli#1}} \define@key[psset]{pst-circ}{invertpinli}[false]{\@nameuse{Pst@invertpinli#1}} \define@key[psset]{pst-circ}{pinlj}[true]{\@nameuse{Pst@pinlj#1}} \define@key[psset]{pst-circ}{invertpinlj}[false]{\@nameuse{Pst@invertpinlj#1}} \define@key[psset]{pst-circ}{pinlk}[true]{\@nameuse{Pst@pinlk#1}} \define@key[psset]{pst-circ}{invertpinlk}[false]{\@nameuse{Pst@invertpinlk#1}} \define@key[psset]{pst-circ}{pinll}[true]{\@nameuse{Pst@pinll#1}} \define@key[psset]{pst-circ}{invertpinll}[false]{\@nameuse{Pst@invertpinll#1}} \define@key[psset]{pst-circ}{pinlm}[true]{\@nameuse{Pst@pinlm#1}} \define@key[psset]{pst-circ}{invertpinlm}[false]{\@nameuse{Pst@invertpinlm#1}} \define@key[psset]{pst-circ}{pinln}[true]{\@nameuse{Pst@pinln#1}} \define@key[psset]{pst-circ}{invertpinln}[false]{\@nameuse{Pst@invertpinln#1}} \define@key[psset]{pst-circ}{pinlo}[true]{\@nameuse{Pst@pinlo#1}} \define@key[psset]{pst-circ}{invertpinlo}[false]{\@nameuse{Pst@invertpinlo#1}} \define@key[psset]{pst-circ}{pinlp}[true]{\@nameuse{Pst@pinlp#1}} \define@key[psset]{pst-circ}{invertpinlp}[false]{\@nameuse{Pst@invertpinlp#1}} \define@key[psset]{pst-circ}{pinra}[true]{\@nameuse{Pst@pinra#1}} \define@key[psset]{pst-circ}{invertpinra}[false]{\@nameuse{Pst@invertpinra#1}} \define@key[psset]{pst-circ}{pinrb}[true]{\@nameuse{Pst@pinrb#1}} \define@key[psset]{pst-circ}{invertpinrb}[false]{\@nameuse{Pst@invertpinrb#1}} \define@key[psset]{pst-circ}{pinrc}[true]{\@nameuse{Pst@pinrc#1}} \define@key[psset]{pst-circ}{invertpinrc}[false]{\@nameuse{Pst@invertpinrc#1}} \define@key[psset]{pst-circ}{pinrd}[true]{\@nameuse{Pst@pinrd#1}} \define@key[psset]{pst-circ}{invertpinrd}[false]{\@nameuse{Pst@invertpinrd#1}} \define@key[psset]{pst-circ}{pinre}[true]{\@nameuse{Pst@pinre#1}} \define@key[psset]{pst-circ}{invertpinre}[false]{\@nameuse{Pst@invertpinre#1}} \define@key[psset]{pst-circ}{pinrf}[true]{\@nameuse{Pst@pinrf#1}} \define@key[psset]{pst-circ}{invertpinrf}[false]{\@nameuse{Pst@invertpinrf#1}} \define@key[psset]{pst-circ}{pinrg}[true]{\@nameuse{Pst@pinrg#1}} \define@key[psset]{pst-circ}{invertpinrg}[false]{\@nameuse{Pst@invertpinrg#1}} \define@key[psset]{pst-circ}{pinrh}[true]{\@nameuse{Pst@pinrh#1}} \define@key[psset]{pst-circ}{invertpinrh}[false]{\@nameuse{Pst@invertpinrh#1}} \define@key[psset]{pst-circ}{pinri}[true]{\@nameuse{Pst@pinri#1}} \define@key[psset]{pst-circ}{invertpinri}[false]{\@nameuse{Pst@invertpinri#1}} \define@key[psset]{pst-circ}{pinrj}[true]{\@nameuse{Pst@pinrj#1}} \define@key[psset]{pst-circ}{invertpinrj}[false]{\@nameuse{Pst@invertpinrj#1}} \define@key[psset]{pst-circ}{pinrk}[true]{\@nameuse{Pst@pinrk#1}} \define@key[psset]{pst-circ}{invertpinrk}[false]{\@nameuse{Pst@invertpinrk#1}} \define@key[psset]{pst-circ}{pinrl}[true]{\@nameuse{Pst@pinrl#1}} \define@key[psset]{pst-circ}{invertpinrl}[false]{\@nameuse{Pst@invertpinrl#1}} \define@key[psset]{pst-circ}{pinrm}[true]{\@nameuse{Pst@pinrm#1}} \define@key[psset]{pst-circ}{invertpinrm}[false]{\@nameuse{Pst@invertpinrm#1}} \define@key[psset]{pst-circ}{pinrn}[true]{\@nameuse{Pst@pinrn#1}} \define@key[psset]{pst-circ}{invertpinrn}[false]{\@nameuse{Pst@invertpinrn#1}} \define@key[psset]{pst-circ}{pinro}[true]{\@nameuse{Pst@pinro#1}} \define@key[psset]{pst-circ}{invertpinro}[false]{\@nameuse{Pst@invertpinro#1}} \define@key[psset]{pst-circ}{pinrp}[true]{\@nameuse{Pst@pinrp#1}} \define@key[psset]{pst-circ}{invertpinrp}[false]{\@nameuse{Pst@invertpinrp#1}} \define@key[psset]{pst-circ}{pintl}[false]{\@nameuse{Pst@pintl#1}} \define@key[psset]{pst-circ}{invertpintl}[false]{\@nameuse{Pst@invertpintl#1}} \define@key[psset]{pst-circ}{pintc}[false]{\@nameuse{Pst@pintc#1}} \define@key[psset]{pst-circ}{invertpintc}[false]{\@nameuse{Pst@invertpintc#1}} \define@key[psset]{pst-circ}{pintr}[false]{\@nameuse{Pst@pintr#1}} \define@key[psset]{pst-circ}{invertpintr}[false]{\@nameuse{Pst@invertpintr#1}} \define@key[psset]{pst-circ}{pinbl}[false]{\@nameuse{Pst@pinbl#1}} \define@key[psset]{pst-circ}{invertpinbl}[false]{\@nameuse{Pst@invertpinbl#1}} \define@key[psset]{pst-circ}{pinbc}[false]{\@nameuse{Pst@pinbc#1}} \define@key[psset]{pst-circ}{invertpinbc}[false]{\@nameuse{Pst@invertpinbc#1}} \define@key[psset]{pst-circ}{pinbr}[false]{\@nameuse{Pst@pinbr#1}} \define@key[psset]{pst-circ}{invertpinbr}[false]{\@nameuse{Pst@invertpinbr#1}} \define@key[psset]{pst-circ}{pinta}[false]{\@nameuse{Pst@pinta#1}} \define@key[psset]{pst-circ}{invertpinta}[false]{\@nameuse{Pst@invertpinta#1}} \define@key[psset]{pst-circ}{pintb}[false]{\@nameuse{Pst@pintb#1}} \define@key[psset]{pst-circ}{invertpintb}[false]{\@nameuse{Pst@invertpintb#1}} \define@key[psset]{pst-circ}{pintc}[false]{\@nameuse{Pst@pintc#1}} \define@key[psset]{pst-circ}{invertpintc}[false]{\@nameuse{Pst@invertpintc#1}} \define@key[psset]{pst-circ}{pintd}[false]{\@nameuse{Pst@pintd#1}} \define@key[psset]{pst-circ}{invertpintd}[false]{\@nameuse{Pst@invertpintd#1}} \define@key[psset]{pst-circ}{pinte}[false]{\@nameuse{Pst@pinte#1}} \define@key[psset]{pst-circ}{invertpinte}[false]{\@nameuse{Pst@invertpinte#1}} \define@key[psset]{pst-circ}{pinba}[false]{\@nameuse{Pst@pinba#1}} \define@key[psset]{pst-circ}{invertpinba}[false]{\@nameuse{Pst@invertpinba#1}} \define@key[psset]{pst-circ}{pinbb}[false]{\@nameuse{Pst@pinbb#1}} \define@key[psset]{pst-circ}{invertpinbb}[false]{\@nameuse{Pst@invertpinbb#1}} \define@key[psset]{pst-circ}{pinbc}[false]{\@nameuse{Pst@pinbc#1}} \define@key[psset]{pst-circ}{invertpinbc}[false]{\@nameuse{Pst@invertpinbc#1}} \define@key[psset]{pst-circ}{pinbd}[false]{\@nameuse{Pst@pinbd#1}} \define@key[psset]{pst-circ}{invertpinbd}[false]{\@nameuse{Pst@invertpinbd#1}} \define@key[psset]{pst-circ}{pinbe}[false]{\@nameuse{Pst@pinbe#1}} \define@key[psset]{pst-circ}{invertpinbe}[false]{\@nameuse{Pst@invertpinbe#1}} \define@key[psset]{pst-circ}{dpleft}[false]{\@nameuse{Pst@dpleft#1}} \define@key[psset]{pst-circ}{dpright}[true]{\@nameuse{Pst@dpright#1}} % Define Ladder Boolean Keys \define@key[psset]{pst-circ}{latch}[false]{\@nameuse{Pst@latch#1}} \define@key[psset]{pst-circ}{unlatch}[false]{\@nameuse{Pst@unlatch#1}} \define@key[psset]{pst-circ}{contactclosed}[false]{\@nameuse{Pst@contactclosed#1}} % Define Ladder Bipole Keys \define@key[psset]{pst-circ}{polarized}[false]{\@nameuse{Pst@polarized#1}} % Define Diodes \define@key[psset]{pst-circ}{ison}[true]{\@nameuse{Pst@ison#1}} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % \psset[pst-circ]{% labelstyle=,mathlabel=false,labelInside=0,circedge=\pcangle, intensity=false,intensitylabel={}, intensitylabeloffset=0.5, intensitycolor=black,intensitylabelcolor=black,intensitywidth=\pslinewidth, tensionstyle=line, tension=false,tensionlabel={},tensionoffset=1,tensionlabeloffset=1.2, tensioncolor=black,tensionlabelcolor=black,tensionwidth=\pslinewidth, labeloffset=0.7,labelangle=0,dipoleconvention=receptor,directconvention=true,dipolestyle=normal parallel=false,parallelarm=1.5,parallelsep=0,parallelnode=false, intersect=false,OAperfect=true,OAinvert=true, OAiplus=false,OAiminus=false,OAiout=false,OAipluslabel={}, OAiminuslabel={},OAioutlabel={},OApower=false, GMperfect=false,GMinvert=true, % pv 2014-12-14 GMiplus=false,GMiminus=false,GMiout=false,GMipluslabel={}, % GMiminuslabel={},GMioutlabel={},GMpower=false,% % END of ADD transistorcircle=true, transistorinvert=false, % hv 2003-07-23 transistoribase=false,transistoricollector=false,transistoriemitter=false,% transistoribaselabel={},basesep=0pt, transistoricollectorlabel={},transistoriemitterlabel={}, transistortype=NPN,TRot=0,% FETmemory=false, % atosch primarylabel={},secondarylabel={},transformeriprimary=false,transformerisecondary=false, transformeriprimarylabel={},transformerisecondarylabel={}, tripolestyle=normal,variable=false, logicShowDot=false, logicShowNode=false, logicChangeLR=false, % hv logicWireLength=0.5, logicWidth=1.5, logicHeight=2.5, % hv logicNInput=2, logicJInput=2, logicKInput=2, logicType=and, % hv logicLabelstyle=\small, logicSymbolstyle=\large, logicSymbolpos=0.5,logicNodestyle=\footnotesize, segmentcolor=black,ninputs=2,segmentdisplay=10,nicpins=8,bubblesize=0.15, plcaddress={},plcsymbol={},inputalabel={},inputblabel={},inputclabel={}, inputenlabel={$EN$},inputcllabel={$CL$},outputalabel={$Q$},outputblabel={$\bar{Q}$}, pinalabel={},pinanumber={},pinblabel={},pinbnumber={},pinclabel={},pincnumber={}, pindlabel={},pindnumber={},pinelabel={},pinenumber={},pinflabel={},pinfnumber={}, pinglabel={},pingnumber={},pinhlabel={},pinhnumber={},pinilabel={},pininumber={}, pinjlabel={},pinjnumber={},pinklabel={},pinknumber={},pinllabel={},pinlnumber={}, pinmlabel={},pinmnumber={},pinnlabel={},pinnnumber={},pinolabel={},pinonumber={}, pinplabel={},pinpnumber={},pinqlabel={},pinqnumber={},pinrlabel={},pinrnumber={}, pinslabel={},pinsnumber={},pintlabel={},pintnumber={},pinulabel={},pinunumber={}, pinvlabel={},pinvnumber={},pinwlabel={},pinwnumber={},pinxlabel={},pinxnumber={}, pinylabel={},pinynumber={},pinzlabel={},pinznumber={},pinaalabel={},pinaanumber={}, pinablabel={},pinabnumber={},pinaclabel={},pinacnumber={},pinadlabel={},pinadnumber={}, pinaelabel={},pinaenumber={},pinaflabel={},pinafnumber={},pinlalabel={},pinlanumber={}, pinlblabel={},pinlbnumber={},pinlclabel={},pinlcnumber={},pinldlabel={},pinldnumber={}, pinlelabel={},pinlenumber={},pinlflabel={},pinlfnumber={},pinlglabel={},pinlgnumber={}, pinlhlabel={},pinlhnumber={},pinlilabel={},pinlinumber={},pinljlabel={},pinljnumber={}, pinlklabel={},pinlknumber={},pinlllabel={},pinllnumber={},pinlmlabel={},pinlmnumber={}, pinlnlabel={},pinlnnumber={},pinlolabel={},pinlonumber={},pinlplabel={},pinlpnumber={}, pinralabel={},pinranumber={},pinrblabel={},pinrbnumber={},pinrclabel={},pinrcnumber={}, pinrdlabel={},pinrdnumber={},pinrelabel={},pinrenumber={},pinrflabel={},pinrfnumber={}, pinrglabel={},pinrgnumber={},pinrhlabel={},pinrhnumber={},pinrilabel={},pinrinumber={}, pinrjlabel={},pinrjnumber={},pinrklabel={},pinrknumber={},pinrllabel={},pinrlnumber={}, pinrmlabel={},pinrmnumber={},pinrnlabel={},pinrnnumber={},pinrolabel={},pinronumber={}, pinrplabel={},pinrpnumber={},pintllabel={},pintlnumber={},pintclabel={},pintcnumber={}, pintrlabel={},pintrnumber={},pinbllabel={},pinblnumber={},pinbclabel={},pinbcnumber={}, pinbrlabel={},pinbrnumber={},pintalabel={},pintanumber={},pintblabel={},pintbnumber={}, pintclabel={},pintcnumber={},pintdlabel={},pintdnumber={},pintelabel={},pintenumber={}, pinbalabel={},pinbanumber={},pinbblabel={},pinbbnumber={},pinbclabel={},pinbcnumber={}, pinbdlabel={},pinbdnumber={},pinbelabel={},pinbenumber={}, iec=false,iecinvert=false,input=true,invertinput=false,inputa=true,invertinputa=false, inputb=true,invertinputb=false,inputc=true,invertinputc=false,inputd=true,invertinputd=false, enable=false,invertenable=false,clock=false,invertclock=false,set=false,invertset=false, reset=false,invertreset=false,invertoutput=false,outputa=true,invertoutputa=false,outputb=true, invertoutputb=true,segmentlabels=true,pina=true,invertpina=false,pinb=true,invertpinb=false, pinc=true,invertpinc=false,pind=true,invertpind=false,pine=true,invertpine=false, pinf=true,invertpinf=false,ping=true,invertping=false,pinh=true,invertpinh=false, pini=true,invertpini=false,pinj=true,invertpinj=false,pink=true,invertpink=false, pinl=true,invertpinl=false,pinm=true,invertpinm=false,pinn=true,invertpinn=false, pino=true,invertpino=false,pinp=true,invertpinp=false,pinq=true,invertpinq=false, pinr=true,invertpinr=false,pins=true,invertpins=false,pint=true,invertpint=false, pinu=true,invertpinu=false,pinv=true,invertpinv=false,pinw=true,invertpinw=false, pinx=true,invertpinx=false,piny=true,invertpiny=false,pinz=true,invertpinz=false, pinaa=true,invertpinaa=false,pinab=true,invertpinab=false,pinac=true,invertpinac=false, pinad=true,invertpinad=false,pinae=true,invertpinae=false,pinaf=true,invertpinaf=false, pinla=true,invertpinla=false,pinlb=true,invertpinlb=false,pinlc=true,invertpinlc=false, pinld=true,invertpinld=false,pinle=true,invertpinle=false,pinlf=true,invertpinlf=false, pinlg=true,invertpinlg=false,pinlh=true,invertpinlh=false,pinli=true,invertpinli=false, pinlj=true,invertpinlj=false,pinlk=true,invertpinlk=false,pinll=true,invertpinll=false, pinlm=true,invertpinlm=false,pinln=true,invertpinln=false,pinlo=true,invertpinlo=false, pinlp=true,invertpinlp=false,pinra=true,invertpinra=false,pinrb=true,invertpinrb=false, pinrc=true,invertpinrc=false,pinrd=true,invertpinrd=false,pinre=true,invertpinre=false, pinrf=true,invertpinrf=false,pinrg=true,invertpinrg=false,pinrh=true,invertpinrh=false, pinri=true,invertpinri=false,pinrj=true,invertpinrj=false,pinrk=true,invertpinrk=false, pinrl=true,invertpinrl=false,pinrm=true,invertpinrm=false,pinrn=true,invertpinrn=false, pinro=true,invertpinro=false,pinrp=true,invertpinrp=false,pintl=false,invertpintl=false, pintc=false,invertpintc=false,pintr=false,invertpintr=false,pinbl=false,invertpinbl=false, pinbc=false,invertpinbc=false,pinbr=false,invertpinbr=false,pinta=false,invertpinta=false, pintb=false,invertpintb=false,pintc=false,invertpintc=false,pintd=false,invertpintd=false, pinte=false,invertpinte=false,pinba=false,invertpinba=false,pinbb=false,invertpinbb=false, pinbc=false,invertpinbc=false,pinbd=false,invertpinbd=false,pinbe=false,invertpinbe=false, dpleft=false,dpright=true,latch=false,unlatch=false,contactclosed=false,polarized=false, ison=true, IGBTinvert=false % pv 2014-12-14 }% hv %\psset[pstricks]{radius=0.5} % \newpsstyle{baseOpt}{circedge=\pcline,arrows=-,arm=.5,angleA=0,angleB=180} \newpsstyle{emitterOpt}{arrows=-,arm=.5,angleA=180,angleB=-90}% \newpsstyle{collectorOpt}{arrows=-,arm=.5,angleA=180,angleB=90} % \def\wire{\@ifnextchar[{\pst@draw@wire}{\pst@draw@wire[]}} \def\tension{\@ifnextchar[{\pst@draw@tension@}{\pst@draw@tension@[]}} % % cb 2010-08-12, new macro for defining generic dipole macros \def\newCircDipole{\@ifnextchar[{\newCircDipole@i}{\newCircDipole@i[]}} % the optional argument can be used to preset options (like 'radius=2pt' in OpenDipol \def\newCircDipole@i[#1]#2{% \@ifundefined{pst@#2}{% \@namedef{#2}{\@ifnextchar[{\@nameuse{pst@#2}}{\@nameuse{pst@#2}[]}}% \expandafter\def\csname pst@#2\endcsname[##1](##2)(##3)##4{{% \pst@draw@dipole{#1,##1}{##2}{##3}{##4}{\@nameuse{pst@draw@#2}}}\ignorespaces}% % \@namedef{pst@multidipole@#2}{\@ifnextchar[{\@nameuse{pst@multidipole@#2@}}{\@nameuse{pst@multidipole@#2@}[]}} \expandafter\def\csname pst@multidipole@#2@\endcsname[##1]##2{% \expandafter\def\csname pst@tmp@\number\pst@count@iii\endcsname{##2}% {\psset{##1}% \ifPst@parallel\aftergroup\advance\aftergroup\pst@count@i\aftergroup\m@ne\fi}% \pst@count@ii=\pst@count@i \advance\pst@count@ii\@ne \toks0\expandafter{\pst@multidipole@output}% \edef\pst@multidipole@output{% \the\toks0 \pst@multidipole@def@coor \noexpand\@nameuse{#2}[##1]% (! X@\the\pst@count@i\space Y@\the\pst@count@i)% (! X@\the\pst@count@ii\space Y@\the\pst@count@ii)% {\noexpand\csname pst@tmp@\number\pst@count@iii\endcsname} }% \pst@multidipole@% }}\ignorespaces}% % \newCircDipole{RFLine} \newCircDipole{resistor} \newCircDipole{capacitor} \newCircDipole{battery} \newCircDipole{coil} \newCircDipole{Ucc} \newCircDipole{Icc} \newCircDipole{switch} \newCircDipole{diode} \newCircDipole{Zener} \newCircDipole{lamp} \newCircDipole[radius=0.5]{circledipole} \newCircDipole{LED} \newCircDipole[radius=2pt]{OpenDipol} \newCircDipole[radius=2pt]{OpenTripol} \newCircDipole{Suppressor} \newCircDipole{Arrestor} \newCircDipole{RelayNOP} \newCircDipole{dashpot} % % \def\OA{\pst@object{OA}} \def\OA@i(#1)(#2)(#3){% \addbefore@par{dimen=middle}% \begin@ClosedObj% \if\psk@label@OAiplus\@empty\else\psset{OAiplus=true}\fi% \if\psk@label@OAiminus\@empty\else\psset{OAiminus=true}\fi% \if\psk@label@OAiout\@empty\else\psset{OAiout=true}\fi% \ifPst@intensity\psset{OAiplus=true,OAiminus=true,OAiout=true}\fi% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 lt {X3 X2} {X3 X1} ifelse add 2 div def /YC Y1 Y2 add 2 div def XC YC){C@} \rput(C@){\pst@draw@OA} \ncangle[arrows=-,arm=.5,angleA=0,angleB=180]{#1}{\ifPst@OAinvert Minus@\else Plus@\fi} \ncput[npos=2]{\pnode{\ifPst@OAinvert Minus@@\else Plus@@\fi}} \ifPst@OAiplus \ifPst@OAinvert\else \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \naput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@OAiplus} \fi \fi \ifPst@OAiminus \ifPst@OAinvert \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \naput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@OAiminus} \fi \fi \ncangle[arrows=-,arm=.5,angleA=0,angleB=180]{#2}{\ifPst@OAinvert Plus@\else Minus@\fi} \ncput[npos=2]{\pnode{\ifPst@OAinvert Plus@@\else Minus@@\fi}} \ifPst@OAiplus \ifPst@OAinvert \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \nbput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@OAiplus} \fi \fi \ifPst@OAiminus \ifPst@OAinvert\else \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \nbput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@OAiminus} \fi \fi \ncangle[arrows=-,arm=.5,angleA=180,angleB=0]{#3}{S@} \ncput[npos=2]{\pnode{S@@}} \ifPst@OAiout \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \naput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@OAiout} \fi \psline[linestyle=none](#1)(#2)% for the end arrows \psline[linestyle=none](#1)(#3)% for the end arrows \end@ClosedObj \ignorespaces% } % % \def\GM{\pst@object{GM}} \def\GM@i(#1)(#2)(#3){% \addbefore@par{dimen=middle}% \begin@ClosedObj% \if\psk@label@GMiplus\@empty\else\psset{GMiplus=true}\fi% \if\psk@label@GMiminus\@empty\else\psset{GMiminus=true}\fi% \if\psk@label@GMiout\@empty\else\psset{GMiout=true}\fi% \ifPst@intensity\psset{GMiplus=true,GMiminus=true,GMiout=true}\fi% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 lt {X3 X2} {X3 X1} ifelse add 2 div def /YC Y1 Y2 add 2 div def XC YC){C@} \rput(C@){\pst@draw@GM} \ncangle[arrows=-,arm=.5,angleA=0,angleB=180]{#1}{\ifPst@GMinvert Minus@\else Plus@\fi} \ncput[npos=2]{\pnode{\ifPst@GMinvert Minus@@\else Plus@@\fi}} \ifPst@GMiplus \ifPst@GMinvert\else \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \naput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@GMiplus} \fi \fi \ifPst@GMiminus \ifPst@GMinvert \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \naput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@GMiminus} \fi \fi \ncangle[arrows=-,arm=.5,angleA=0,angleB=180]{#2}{\ifPst@GMinvert Plus@\else Minus@\fi} \ncput[npos=2]{\pnode{\ifPst@GMinvert Plus@@\else Minus@@\fi}} \ifPst@GMiplus \ifPst@GMinvert \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \nbput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@GMiplus} \fi \fi \ifPst@GMiminus \ifPst@GMinvert\else \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \nbput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@GMiminus} \fi \fi \ncangle[arrows=-,arm=.5,angleA=180,angleB=0]{#3}{S@} \ncput[npos=2]{\pnode{S@@}} \ifPst@GMiout \ncput[npos=2.5]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \naput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@label@GMiout} \fi \psline[linestyle=none](#1)(#2)% for the end arrows \psline[linestyle=none](#1)(#3)% for the end arrows \end@ClosedObj \ignorespaces% } % % pv 2014-12-14 % \def\pst@draw@battery{% \psline[arrows=-,linewidth=1.5\pslinewidth](-0.10,-0.5)(-0.10,0.5) \psline[arrows=-,linewidth=3\pslinewidth](0.10,-0.25)(0.10,0.25) \pnode(-0.1,0){dipole@1} \pnode(0.1,0){dipole@2} \ifPst@variable% \psline{->}(-0.75,-0.5)(0.75,0.5)% \fi } % % \newif\ifPst@temp \def\transistor{\def\pst@par{}\pst@object{transistor}} \def\transistor@i(#1){% % \addbefore@par{circedge=\pcangle} \pst@killglue \begingroup \use@par \@ifnextchar(% do we have more coordinates? {\transistor@iii(#1)}{\Pst@tempfalse\transistor@ii(#1)}% } % \def\transistor@ii(#1)#2#3{% with one node, the base \pst@killglue% \ifPst@temp\pnode(#1){TBaseNode}% \else% \pst@getcoor{#1}\pst@tempA% \pnode(! \pst@tempA /YB exch \pst@number\psyunit div def /XB exch \pst@number\psxunit div def /basesep \Pst@basesep\space \pst@number\psxunit div def XB basesep \Pst@TRot\space cos mul add YB basesep \Pst@TRot\space sin mul add){TBaseNode}% base node \fi% % \psdot(#1)% \rput[c]{\Pst@TRot}(! \pst@tempA /YB exch \pst@number\psyunit div def /XB exch \pst@number\psxunit div def /basesep \Pst@basesep\space \pst@number\psxunit div def XB basesep \Pst@TRot\space cos mul add YB basesep \Pst@TRot\space sin mul add){%(#1){% %%%%%%%%%% \ifnum180=\Pst@TRot\relax% \ifPst@transistorcircle\pscircle(0.3,0){0.7}\fi \ifx\psk@Ttype\pst@Ttype@NPN\relax% \ifPst@transistorinvert\pnode(0.5,-0.5){#2}\else\pnode(0.5,-0.5){#3}\fi% \ifPst@transistorinvert\pnode(0.5,0.5){#3}\else\pnode(0.5,0.5){#2}\fi% \psline[arrows=-](0.5,0.5)(TBaseNode)(0.5,-0.5)% \psline[arrows=-,linewidth=4\pslinewidth](TBaseNode|0,0.4)(TBaseNode|0,-0.4)% \else% \ifx\psk@Ttype\pst@Ttype@PNP\relax% \ifPst@transistorinvert\pnode(0.5,-0.5){#2}\else\pnode(0.5,-0.5){#3}\fi% \ifPst@transistorinvert\pnode(0.5,0.5){#3}\else\pnode(0.5,0.5){#2}\fi% \psline[arrows=-](0.5,0.5)(TBaseNode)(0.5,-0.5)% \else% FET \ifx\psk@Ttype\pst@Ttype@FET\relax% \ifPst@transistorinvert\pnode(0.75,-0.5){#2}\else\pnode(0.75,-0.5){#3}\fi% \ifPst@transistorinvert\pnode(0.75,0.5){#3}\else\pnode(0.75,0.5){#2}\fi% % Main drawings \psline[arrows=-](0.75,0.5)(0.2,0.5) \psline[linestyle=dashed,dash=8pt 3pt,arrows=-](0.2,0.6)(0.2,-0.6) \psline[arrows=-](0.2,-0.5)(0.75,-0.5)% \ifPst@FETmemory% atosch \psline[arrows=-,linewidth=\psk@I@width](-0.15,0.5)(-0.15,-0.5)% \fi% \psline[arrows=-,linewidth=\psk@I@width](TBaseNode|0,0.5)(TBaseNode|0,-0.5)% \ifx\psk@FETchanneltype\pst@FETchanneltype@P\relax% Ted 2007-10-15 \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(0.2,0)(0.75,0)% \ifPst@transistorinvert \qdisk(#3){1.5pt}\psline[origin={#3}]{-}(0,-0.5)% \else \qdisk(#3){1.5pt}\psline[origin={#3}]{-}(0,0.5)% \fi \else% \psline[arrowinset=0,arrowsize=8\pslinewidth]{<-}(0.2,0)(0.75,0)% \ifPst@transistorinvert \qdisk(#2){1.5pt}\psline[origin={#2}]{-}(0,0.5)% \else \qdisk(#2){1.5pt}\psline[origin={#2}]{-}(0,-0.5)% \fi \fi% \else % NMOS or PMOS \ifPst@transistorinvert\pnode(0.75,-0.4){#2}\else\pnode(0.75,-0.4){#3}\fi% \ifPst@transistorinvert\pnode(0.75,0.4){#3}\else\pnode(0.75,0.4){#2}\fi% % Main drawings \psline[arrows=-](0.75,0.4)(0.15,0.4) \psline[linewidth=3\psk@I@width,arrows=-](0.15,0.6)(0.15,-0.6) \psline[arrows=-](0.75,-0.4)(0.15,-0.4)% \ifx\psk@Ttype\pst@Ttype@NMOS\relax% \ifPst@transistorinvert \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(0.15,0.4)(0.75,0.4)% \else \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(0.15,-0.4)(0.75,-0.4)% \fi \psline[arrows=-,linewidth=1.5\psk@I@width](TBaseNode|0,0.4)(TBaseNode|0,-0.4)% \else \ifPst@transistorinvert \psline[arrowinset=0,arrowsize=8\pslinewidth]{<-}(0.15,0.4)(0.75,0.4)% \else \psline[arrowinset=0,arrowsize=8\pslinewidth]{<-}(0.15,-0.4)(0.75,-0.4)% \fi \psline[arrows=-,linewidth=1.5\psk@I@width](TBaseNode|0,0.4)(TBaseNode|0,-0.4)% \fi \fi \fi % \fi% \else% \ifPst@transistorcircle\pscircle(0.3,0){0.7}\fi \ifx\psk@Ttype\pst@Ttype@FET\relax% \ifPst@transistorinvert\pnode(0.65,0.5){#2}\else\pnode(0.65,0.5){#3}\fi% \ifPst@transistorinvert\pnode(0.65,-0.5){#3}\else\pnode(0.65,-0.5){#2}\fi% % FET Main drawings \psline[arrows=-](0.65,0.5)(0.15,0.5) % upper line \psline[linestyle=dashed,dash=8pt 3pt,arrows=-](0.15,0.6)(0.15,-0.6) % gate \psline[arrows=-](0.15,-0.5)(0.65,-0.5)% lower line \ifPst@FETmemory% atosch \psline[arrows=-,linewidth=\psk@I@width](-0.15,0.5)(-0.15,-0.5)% \fi% \psline[arrows=-,linewidth=\psk@I@width](TBaseNode|0,0.5)(TBaseNode|0,-0.5)% \ifx\psk@FETchanneltype\pst@FETchanneltype@P\relax% Ted 2007-10-15 \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(0.15,0)(0.65,0)% \qdisk(#3){1.5pt}\psline[origin={#3}]{-}(0,-0.5)% \else% \psline[arrowinset=0,arrowsize=8\pslinewidth]{<-}(0.15,0)(0.65,0)% \qdisk(#2){1.5pt}\psline[origin={#2}]{-}(0,0.5)% \fi% \else \ifx\psk@Ttype\pst@Ttype@NMOS\relax% % NMOS Main drawings \psline[arrows=-](0.65,0.4)(0.15,0.4) % upper line \psline[linewidth=3\psk@I@width,arrows=-](0.15,0.6)(0.15,-0.6) % gate \psline[arrows=-](0.65,-0.4)(0.15,-0.4)% lower line \psline[arrows=-,linewidth=1.5\psk@I@width](TBaseNode|0,0.4)(TBaseNode|0,-0.4)% \ifPst@transistorinvert\pnode(0.65,0.4){#2}\else\pnode(0.65,0.4){#3}\fi% \ifPst@transistorinvert\pnode(0.65,-0.4){#3}\else\pnode(0.65,-0.4){#2}\fi% \ifPst@transistorinvert \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(0.15,0.4)(0.65,0.4)% \else \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(0.15,-0.4)(0.65,-0.4)% \fi \else \ifx\psk@Ttype\pst@Ttype@PMOS\relax% % PMOS Main drawings \psline[arrows=-](0.65,0.4)(0.15,0.4) % upper line \psline[linewidth=3\psk@I@width,arrows=-](0.15,0.6)(0.15,-0.6) % gate \psline[arrows=-](0.65,-0.4)(0.15,-0.4)% lower line \psline[arrows=-,linewidth=1.5\psk@I@width](TBaseNode|0,0.4)(TBaseNode|0,-0.4)% \ifPst@transistorinvert\pnode(0.65,0.4){#2}\else\pnode(0.65,0.4){#3}\fi% \ifPst@transistorinvert\pnode(0.65,-0.4){#3}\else\pnode(0.65,-0.4){#2}\fi% \ifPst@transistorinvert \psline[arrowinset=0,arrowsize=8\pslinewidth]{<-}(0.15,0.4)(0.65,0.4)% \else \psline[arrowinset=0,arrowsize=8\pslinewidth]{<-}(0.15,-0.4)(0.65,-0.4)% \fi \else % PNP or NPN \ifPst@transistorinvert\pnode(0.5,0.5){#2}\pnode(0.5,-0.5){#3}% \else \pnode(0.5,0.5){#3}\pnode(0.5,-0.5){#2}% \fi \ifx\psk@Ttype\pst@Ttype@NPN\relax% % NPN \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(TBaseNode)(#2)% \psline[arrows=-,linewidth=4\pslinewidth](TBaseNode|0,0.4)(TBaseNode|0,-0.4)% \psline[arrows=-](0.5,0.5)(TBaseNode)(0.5,-0.5)% \else% % PNP \psline[arrowinset=0,arrowsize=8\pslinewidth]{->}(#3)(TBaseNode)% \psline[arrows=-,linewidth=4\pslinewidth](TBaseNode|0,0.4)(TBaseNode|0,-0.4)% \psline[arrows=-](0.5,0.5)(TBaseNode)(0.5,-0.5)% \fi \fi% \fi% \fi% \fi% }% \ifPst@temp\else\endgroup\fi% \ignorespaces% } % \def\transistor@iii(#1)(#2)(#3){% with three nodes \pst@getcoor{#1}\pst@tempA% \pst@getcoor{#2}\pst@tempB% \pst@getcoor{#3}\pst@tempC% \pnode(!% \pst@tempA /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempB /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempC /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /LR X1 X2 lt { false }{ true } ifelse def % change left-right /basesep \Pst@basesep\space \pst@number\psxunit div def /XBase X1 basesep \Pst@TRot\space cos mul add def /YBase Y1 basesep \Pst@TRot\space sin mul add def XBase YBase ){@@base}% base node % \global\Pst@temptrue% \transistor@ii(@@base){@@emitter}{@@collector}% % \if\psk@labeltransistoribase\@empty\else\psset{transistoribase=true}\fi% \if\psk@labeltransistoriemitter\@empty\else\psset{transistoriemitter=true}\fi% \if\psk@labeltransistoricollector\@empty\else\psset{transistoricollector=true}\fi% \ifPst@intensity\psset{transistoribase=true,transistoriemitter=true,transistoricollector=true}\fi% % \bgroup\psset{style=baseOpt}\pscirc@edge(#1)(TBaseNode)\egroup% \ifPst@transistoribase% base current? \ncput[npos=0.5,nrot=\Pst@TRot]{% \psline[linecolor=\psk@I@color,linewidth=\psk@I@width,% arrowsize=6\pslinewidth,arrowinset=0]{->}(-.1,0)(.1,0)}% \naput[npos=0.5]{\csname\psk@I@labelcolor\endcsname\psk@labeltransistoribase}% \fi% \bgroup% \psset{style=collectorOpt}% \ifPst@transistorinvert \pscirc@edge(#3)(@@emitter) \else \pscirc@edge(#3)(@@collector) \fi% \egroup% \ncput[npos=2]{\pnode{\ifPst@transistorinvert @@emitter\else @@collector\fi}}% \ifPst@transistoriemitter% emitter current? \ifPst@transistorinvert% emitter/collector changed? \ncput[npos=\pscirc@edge@sector,nrot=:U]{% \psline[linecolor=\psk@I@color,linewidth=\psk@I@width,% arrowsize=6\pslinewidth,arrowinset=0]{->}(-0.1,0)(0.1,0)} \nbput[npos=\pscirc@edge@sector]{\csname\psk@I@labelcolor\endcsname\psk@labeltransistoriemitter} \fi\fi% \ifPst@transistoricollector% collector current? \ifPst@transistorinvert\else% emitter/collector changed? \ncput[npos=\pscirc@edge@sector,nrot=:U]{% \psline[linecolor=\psk@I@color,linewidth=\psk@I@width,% arrowsize=6\pslinewidth,arrowinset=0]{->}(-.1,0)(.1,0)} \nbput[npos=\pscirc@edge@sector]{\csname\psk@I@labelcolor\endcsname\psk@labeltransistoricollector} \fi\fi% \bgroup \psset{style=emitterOpt} \ifPst@transistorinvert\pscirc@edge(#2)(@@collector)\else\pscirc@edge(#2)(@@emitter)\fi \egroup \ncput[npos=2]{\pnode{\ifPst@transistorinvert @@collector\else @@emitter\fi}} \ifPst@transistoriemitter \ifPst@transistorinvert\else \ncput[npos=\pscirc@edge@sector,nrot=:U]{% \psline[linecolor=\psk@I@color,linewidth=\psk@I@width, arrowsize=6\pslinewidth,arrowinset=0]{<-}(-.1,0)(.1,0)} \naput[npos=\pscirc@edge@sector]{\csname\psk@I@labelcolor\endcsname\psk@labeltransistoriemitter} \fi\fi% \ifPst@transistoricollector% collector current? \ifPst@transistorinvert% emitter/collector changed? \ncput[npos=\pscirc@edge@sector,nrot=:U]{% \psline[linecolor=\psk@I@color,linewidth=\psk@I@width, arrowsize=6\pslinewidth,arrowinset=0]{<-}(-.1,0)(.1,0)} \naput[npos=\pscirc@edge@sector]{\csname\psk@I@labelcolor\endcsname\psk@labeltransistoricollector} \fi\fi \psline[linestyle=none](#1)(#2)% for the end arrows \psline[linestyle=none](#1)(#3)% for the end arrows \endgroup \ignorespaces% } % \def\Tswitch{\pst@object{Tswitch}} \def\Tswitch@i(#1)(#2)(#3)#4{% \addbefore@par{dimen=middle}% \begin@ClosedObj \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 add 2 div def /YC Y2 def XC YC){C@} \rput(C@){\pst@draw@Tswitch} \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{Tswi@left} \ncangle[arrows=-,arm=0.5,angleB=0]{#2}{Tswi@right} \ncangle[arrows=-,arm=0.5,angleB=-90]{#3}{Tswi@center} \ncline[arrows=-,linestyle=none,fillstyle=none]{Tswi@left}{Tswi@right} \naput{#4} \pcline[linestyle=none](#1)(#2)% for the endarrows \pcline[linestyle=none](#2)(#3)% for the endarrows \end@ClosedObj \ignorespaces% } % % 20030830 hv % \def\potentiometer{\pst@object{potentiometer}} \def\potentiometer@i(#1)(#2)(#3)#4{% \begin@ClosedObj \resistor(#1)(#2){#4} \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /dx X2 X1 sub def /dy Y2 Y1 sub def dx 2 div X1 add dy 2 div Y1 add ){Center@} \pst@getcoor{Center@}\pst@tempd \pnode(!% \pst@tempd /Y4 exch \pst@number\psyunit div def /X4 exch \pst@number\psxunit div def dx abs 0.01 lt{ X3 Y4 }{dy abs 0.01 lt { X4 Y3 }{/m dy dx div def /x Y4 Y3 sub m X3 mul add X4 m div add m 1 m div add div def x dup X3 sub m mul Y3 add } ifelse }ifelse){@tempNodeB} \pnode(!% /Alpha dy dx atan def /dx Alpha sin 0.25 mul def /dy Alpha cos 0.25 mul def Y3 Y2 gt {X4 dx sub Y4 dy add}{X4 dx add Y4 dy sub}ifelse ){@tempNodeC} \psline[arrows=->,arrowsize=0.2](#3)(@tempNodeB)(@tempNodeC) \pcline[linestyle=none](#1)(#3)% for the endarrows \end@ClosedObj% \ignorespaces% } % % quadrupoles % \def\transformer{\pst@object{transformer}} \def\transformer@i(#1)(#2)(#3)(#4)#5{% \addbefore@par{dimen=middle,arm=0}% \begin@ClosedObj% \if\psk@Trafo@iprimary@label\@empty\else \psset{transformeriprimary=true}% \fi \if\psk@Trafo@isecondary@label\@empty\else \psset{transformerisecondary=true}% \fi \ifPst@intensity \psset{transformeriprimary=true,transformerisecondary=true}% \fi \pst@getcoor{#1}\pst@tempA \pst@getcoor{#2}\pst@tempB \pst@getcoor{#3}\pst@tempC \pst@getcoor{#4}\pst@tempD \pnode(!% \pst@tempA /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempB /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempC /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def \pst@tempD /Y4 exch \pst@number\psyunit div def /X4 exch \pst@number\psxunit div def /XC X1 X2 lt {X2} {X1} ifelse X3 X4 lt {X3} {X4} ifelse add 2 div def /YC Y1 Y3 lt {Y1} {Y3} ifelse Y2 Y4 lt {Y2} {Y4} ifelse add 2 div def XC YC){C@} \rput(C@){\pst@draw@transformer} \pnode(#1){@endA}\pnode(#2){@endB}\pnode(#3){@endC}\pnode(#4){@endD}% \ncangle[arrows=-,arm=0.5,angleB=90]{@endA}{inup@} \ifPst@Trafo@iprimary \ncput[npos=2.5,nrot=:U]{\psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \nbput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@Trafo@iprimary@label} \fi \ncangle[arrows=-,arm=0.5,angleB=-90]{@endB}{indown@} \ncangle[arrows=-,arm=0.5,angleB=90]{@endC}{outup@} \ifPst@Trafo@isecondary \ncput[npos=2.5,nrot=:U]{\psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \naput[npos=2.5]{\csname\psk@I@labelcolor\endcsname\psk@Trafo@isecondary@label} \fi \ncangle[arrows=-,arm=0.5,angleB=-90]{@endD}{outdown@} \ncline[arrows=-,linestyle=none,fillstyle=none]{indown@}{inup@} \naput{\psk@Trafo@primary@label} \ncline[arrows=-,linestyle=none,fillstyle=none]{outdown@}{outup@} \nbput{\psk@Trafo@secondary@label} \ncline[arrows=-,linestyle=none,fillstyle=none]{indown@}{outdown@} \nbput{#5} \pcline[linestyle=none](#1)(#3)% for the end arrows \pcline[linestyle=none](#2)(#4)% for the end arrows \end@ClosedObj% \ignorespaces% } % % Start hv 2003-07-23 \def\optoCoupler{\pst@object{optoCoupler}} \def\optoCoupler@i(#1)(#2)(#3)(#4)#5{% \addbefore@par{dimen=middle,arm=0}% \begin@ClosedObj% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pst@getcoor{#4}\pst@tempd \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def \pst@tempd /Y4 exch \pst@number\psyunit div def /X4 exch \pst@number\psxunit div def /XC X1 X2 lt {X2} {X1} ifelse X3 X4 lt {X3} {X4} ifelse add 2 div def /YC Y1 Y3 lt {Y1} {Y3} ifelse Y2 Y4 lt {Y2} {Y4} ifelse add 2 div def XC YC){C@} \rput(C@){\pst@draw@optoCoupler} \ncangle[arrows=-,arm=0.5,angleB=90]{#1}{inup@} \ncangle[arrows=-,arm=0.5,angleB=-90]{#2}{indown@} \ncangle[arrows=-,arm=0.5,angleB=90]{#3}{outup@} \ncangle[arrows=-,arm=0.5,angleB=-90]{#4}{outdown@} \ncline[arrows=-,linestyle=none,fillstyle=none]{indown@}{outdown@} \nbput{#5} \pcline[linestyle=none](#1)(#3)% for the end arrows \pcline[linestyle=none](#2)(#4)% for the end arrows \end@ClosedObj% \ignorespaces% } % \def\quadripole{\pst@object{quadripole}}% Markus Graube \def\quadripole@i(#1)(#2)(#3)(#4)#5{% \addbefore@par{dimen=middle,arm=0}% \begin@ClosedObj% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pst@getcoor{#4}\pst@tempd \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def \pst@tempd /Y4 exch \pst@number\psyunit div def /X4 exch \pst@number\psxunit div def /XC X1 X2 lt {X2} {X1} ifelse X3 X4 lt {X3} {X4} ifelse add 2 div def /YC Y1 Y3 lt {Y1} {Y3} ifelse Y2 Y4 lt {Y2} {Y4} ifelse add 2 div def XC YC){C@} \rput(C@){#5} \rput(C@){\psframe[linewidth=1.5\pslinewidth](-1.5,-1.2)(1.5,1.2) \pnode(-1.5,1){inup@} \pnode(-1.5,-1){indown@} \pnode(1.5,-1){outdown@} \pnode(1.5,1){outup@}} \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{inup@} \ncangle[arrows=-,arm=0.5,angleB=180]{#2}{indown@} \ncangle[arrows=-,arm=0.5,angleB=0]{#3}{outup@} \ncangle[arrows=-,arm=0.5,angleB=0]{#4}{outdown@} \ncline[arrows=-,linestyle=none,fillstyle=none]{indown@}{outdown@} \pcline[linestyle=none](#1)(#3)% for the end arrows \pcline[linestyle=none](#2)(#4)% for the end arrows \end@ClosedObj% \ignorespaces% } % % The logical circuits part % \def\logic{\@ifnextchar[{\pst@draw@logic}{\pst@draw@logic[]}} \def\ground{\@ifnextchar[{\pst@ground}{\pst@ground[]}} \def\pst@ground[#1]{% \@ifnextchar({\pst@groundi[#1]{0}}{\pst@groundi[#1]}% } \def\pst@groundi[#1]#2(#3){{% \psset{#1}% \rput{#2}(#3){% \psframe[fillstyle=vlines,% linestyle=none,% fillstyle=none,% hatchwidth=0.5\pslinewidth](-0.5,-0.7)(0.5,-0.5) \psline[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,-0.5) \psline(0,0)(0,-0.5) \ifPst@connectingdot \pscircle*(0,0){2\pslinewidth} \fi } \ignorespaces% }} % % end hv 2003-08-29 % %% SQUID def added 2009-02-18 Amit Finkler \newCircDipole{SQUID} % \def\pst@draw@SQUID{% \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} \psline(0.1,-0.6)(-0.1,-0.4) \psline(0.1,-0.4)(-0.1,-0.6) \psline(0.1,0.6)(-0.1,0.4) \psline(0.1,0.4)(-0.1,0.6) \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2}% } %% End of SQUID def % %%%%%%%%%%%%% \def\multidipole{\@ifnextchar[{\pst@multidipole}{\pst@multidipole[]}} \def\pst@multidipole[#1](#2)(#3)#4{% \psset{#1}% \pst@getcoor{#2}\pst@tempA \pst@getcoor{#3}\pst@tempB \pst@Verb{% gsave STV CP T \pst@tempA /Ybegin@ exch \pst@number\psyunit div def /Xbegin@ exch \pst@number\psxunit div def \pst@tempB /Yend@ exch \pst@number\psyunit div def /Xend@ exch \pst@number\psxunit div def /Xbegin Xbegin@ Xend@ lt {Xbegin@} {Xend@} ifelse def /Xend Xbegin@ Xend@ lt {Xend@} {Xbegin@} ifelse def /Ybegin Ybegin@ Yend@ lt {Ybegin@} {Yend@} ifelse def /Yend Ybegin@ Yend@ lt {Yend@} {Ybegin@} ifelse def /@angle Yend Ybegin sub Xend Xbegin sub Atan def /X@length Xend Xbegin sub Yend Ybegin sub Pyth @angle cos mul Xend@ Xbegin@ lt {neg} if def /Y@length Xend Xbegin sub Yend Ybegin sub Pyth @angle sin mul Yend@ Ybegin@ lt {neg} if def grestore}% \pst@count@i=\z@ \let\pst@multidipole@output\@empty \ifx\resistor #4\let\pscirc@next\pst@multidipole@resistor% 1 \else\ifx\RFLine #4\let\pscirc@next\pst@multidipole@RFLine \else\ifx\capacitor #4\let\pscirc@next\pst@multidipole@capacitor \else\ifx\battery #4\let\pscirc@next\pst@multidipole@battery \else\ifx\coil #4\let\pscirc@next\pst@multidipole@coil \else\ifx\Ucc #4\let\pscirc@next\pst@multidipole@Ucc \else\ifx\Icc #4\let\pscirc@next\pst@multidipole@Icc \else\ifx\switch #4\let\pscirc@next\pst@multidipole@switch \else\ifx\diode #4\let\pscirc@next\pst@multidipole@diode \else\ifx\Zener #4\let\pscirc@next\pst@multidipole@Zener% 10 \else\ifx\wire #4\let\pscirc@next\pst@multidipole@wire \else\ifx\lamp #4\let\pscirc@next\pst@multidipole@lamp \else\ifx\circledipole#4\let\pscirc@next\pst@multidipole@circledipole \else\ifx\LED #4\let\pscirc@next\pst@multidipole@LED \else\ifx\dashpot #4\let\pscirc@next\pst@multidipole@dashpot %15 \else\ifx\filter #4\let\pscirc@next\pst@multidipole@filter \else\ifx\isolator #4\let\pscirc@next\pst@multidipole@isolator% \else\ifx\freqmult #4\let\pscirc@next\pst@multidipole@freqmult% \else\ifx\phaseshifter#4\let\pscirc@next\pst@multidipole@phaseshifter% \else\ifx\vco #4\let\pscirc@next\pst@multidipole@vco % 20 \else\ifx\amplifier #4\let\pscirc@next\pst@multidipole@amplifier% \else\ifx\detector #4\let\pscirc@next\pst@multidipole@detector% 22 \else\ifx\SQUID #4\let\pscirc@next\pst@multidipole@SQUID% 23 \else\ifx\Suppressor #4\let\pscirc@next\pst@multidipole@Suppressor %%% mla change \else\ifx\Arrestor #4\let\pscirc@next\pst@multidipole@Arrestor %%% mla change 25 \else\ifx\RelayNOP #4\let\pscirc@next\pst@multidipole@RelayNOP %%% mla 26 \else\ifx\OpenDipol #4\let\pscirc@next\pst@multidipole@OpenDipol% 27 \else\ifx\OpenTripol #4\let\pscirc@next\pst@multidipole@OpenTripol% 28 \else\ifx\arrowswitch #4\let\pscirc@next\pst@multidipole@arrowswitch% 29 \else\let\pscirc@next\ignorespaces \fi\fi\fi\fi\fi\fi\fi\fi\fi\fi% 1..10 \fi\fi\fi\fi\fi\fi\fi\fi\fi\fi%11..20 \fi\fi\fi\fi\fi\fi\fi\fi\fi% 21..29 \advance\pst@count@i\@ne \advance\pst@count@iii\@ne \pscirc@next} % \def\pst@multidipole@#1{% \ifx\resistor#1\let\pscirc@next\pst@multidipole@resistor %1 \else\ifx\RFLine#1\let\pscirc@next\pst@multidipole@RFLine \else\ifx\capacitor#1\let\pscirc@next\pst@multidipole@capacitor \else\ifx\battery#1\let\pscirc@next\pst@multidipole@battery \else\ifx\coil#1\let\pscirc@next\pst@multidipole@coil %5 \else\ifx\Ucc #1\let\pscirc@next\pst@multidipole@Ucc \else\ifx\Icc #1\let\pscirc@next\pst@multidipole@Icc \else\ifx\switch #1\let\pscirc@next\pst@multidipole@switch %off \else\ifx\diode#1\let\pscirc@next\pst@multidipole@diode \else\ifx\Zener #1\let\pscirc@next\pst@multidipole@Zener %10 \else\ifx\wire #1\let\pscirc@next\pst@multidipole@wire \else\ifx\lamp #1\let\pscirc@next\pst@multidipole@lamp \else\ifx\circledipole#1\let\pscirc@next\pst@multidipole@circledipole \else\ifx\LED #1\let\pscirc@next\pst@multidipole@LED \else\ifx\dashpot #1\let\pscirc@next\pst@multidipole@dashpot %15 \else\ifx\filter #1\let\pscirc@next\pst@multidipole@filter \else\ifx\isolator #1\let\pscirc@next\pst@multidipole@isolator \else\ifx\freqmult #1\let\pscirc@next\pst@multidipole@freqmult% \else\ifx\phaseshifter#1\let\pscirc@next\pst@multidipole@phaseshifter% \else\ifx\vco #1\let\pscirc@next\pst@multidipole@vco % 20 \else\ifx\amplifier#1\let\pscirc@next\pst@multidipole@amplifier% \else\ifx\detector #1\let\pscirc@next\pst@multidipole@detector% 22 \else\ifx\SQUID #1\let\pscirc@next\pst@multidipole@SQUID% 23 \else\ifx\Suppressor #1\let\pscirc@next\pst@multidipole@Suppressor%% mla change \else\ifx\Arrestor #1\let\pscirc@next\pst@multidipole@Arrestor%% mla change 25 \else\ifx\RelayNOP #1\let\pscirc@next\pst@multidipole@RelayNOP%% mla change 26 \else\ifx\OpenDipol#1\let\pscirc@next\pst@multidipole@OpenDipol% 27 \else\ifx\OpenTripol#1\let\pscirc@next\pst@multidipole@OpenTripol% 28 \else\ifx\arrowswitch#1\let\pscirc@next\pst@multidipole@arrowswitch% 29 \else\let\pscirc@next\ignorespaces\pst@multidipole@output \fi\fi\fi\fi\fi\fi\fi\fi\fi\fi \fi\fi\fi\fi\fi\fi\fi\fi\fi\fi \fi\fi\fi\fi\fi\fi\fi\fi\fi \advance\pst@count@i\@ne \advance\pst@count@iii\@ne \pscirc@next } % % \def\pst@multidipole@wire{\@ifnextchar[{\pst@multidipole@wire@}{\pst@multidipole@wire@[]}} \def\pst@multidipole@wire@[#1]{% {\psset{#1}% \ifPst@parallel\aftergroup\advance\aftergroup\pst@count@i\aftergroup\m@ne\fi}% \pst@count@ii=\pst@count@i \advance\pst@count@ii\@ne \toks0\expandafter{\pst@multidipole@output}% \edef\pst@multidipole@output{% \the\toks0 \pst@multidipole@def@coor \noexpand\wire[#1]% (! X@\the\pst@count@i\space Y@\the\pst@count@i)(! X@\the\pst@count@ii\space Y@\the\pst@count@ii) }% \pst@multidipole@ } % \def\pst@multidipole@def@coor{% \noexpand\pst@Verb{% /X@\the\pst@count@i\space \the\pst@count@i\space 1 sub X@length \noexpand\the\pst@count@i\space div mul Xbegin@ add def /Y@\the\pst@count@i\space \the\pst@count@i\space 1 sub Y@length \noexpand\the\pst@count@i\space div mul Ybegin@ add def /X@\the\pst@count@ii\space \the\pst@count@i\space X@length \noexpand\the\pst@count@i\space div mul Xbegin@ add def /Y@\the\pst@count@ii\space \the\pst@count@i\space Y@length \noexpand\the\pst@count@i\space div mul Ybegin@ add def }% \ignorespaces} % %%%%%%%%%%%%%%%%%%%%%%%% % \def\pst@draw@dipole#1#2#3#4#5{% suggestion by Alain Ristow \psset{dimen=middle,#1}% \if\psk@I@label\@empty\else\psset[pst-circ]{intensity=true}\fi \if\psk@tension@label\@empty\else\psset[pst-circ]{tension=true}\fi \ifx\psk@Dconvention\pst@Dconvention@generator \Pst@Dconventiontrue \else \ifx\psk@Dconvention\pst@Dconvention@receptor\Pst@Dconventionfalse\fi \fi \pcline[arrowscale=1,arrows=-,linestyle=none,fillstyle=none](#2)(#3) \ncput[nrot=:U]{\pnode{dipole@M}} \ifPst@parallel \pcline[arrows=-,linestyle=none,fillstyle=none](#2)(dipole@M) \ncput[npos=\psk@parallel@sep]{\pnode{dipole@@1}} \pcline[arrows=-,linestyle=none,fillstyle=none](#3)(dipole@M) \ncput[npos=\psk@parallel@sep]{\pnode{dipole@@2}} \pcline[arrows=-,linestyle=none,fillstyle=none,offset=\psk@parallel@arm](dipole@@1)(dipole@@2) \ncput[npos=0]{\pnode{dipole@@@1}} \ncput[npos=1]{\pnode{dipole@@@2}} \ncput[nrot=:U]{\ifPst@mathlabel$\pst@labelstyle#5$\else\pst@labelstyle#5\fi} \pcline[arrows=-](dipole@@1)(dipole@@@1) \pcline[arrows=-](dipole@@@1)(dipole@1) \pcline[arrows=-](dipole@2)(dipole@@@2) \pcline[arrows=-](dipole@@@2)(dipole@@2) \ifPst@parallel@node \pscircle*(dipole@@1){2\pslinewidth} \pscircle*(dipole@@2){2\pslinewidth} \fi \pcline[arrows=-,linestyle=none,fillstyle=none,offset=\psk@label@offset](dipole@@@1)(dipole@@@2) \ncput[nrot=\psk@label@angle]{\ifPst@mathlabel$\pst@labelstyle#4$\else\pst@labelstyle#4\fi} \pst@intensity{dipole@@@1}{dipole@@@2} \pst@tension{dipole@@@1}{dipole@@@2} \else \ncput[nrot=:U]{\ifPst@mathlabel$\pst@labelstyle#5$\else\pst@labelstyle#5\fi} \pcline[arrowscale=1,arrows=-,linestyle=none,fillstyle=none,offset=\psk@label@offset](#2)(#3) \ncput[nrot=\psk@label@angle]{\ifPst@mathlabel$\pst@labelstyle#4$\else\pst@labelstyle#4\fi} %%%%% \ifPst@inputarrow \ifx\psk@Dinput\pst@Dinput@right \pcline[fillstyle=none,arrows=-C](#2)(dipole@1) \pcline[fillstyle=none,arrows=->,arrowinset=0](#3)(dipole@2) \else \pcline[fillstyle=none,arrows=->,arrowinset=0](#2)(dipole@1) \pcline[fillstyle=none,arrows=C-](dipole@2)(#3) \fi \else \pcline[arrowscale=1,fillstyle=none,arrows=-C](#2)(dipole@1) \pcline[arrowscale=1,fillstyle=none,arrows=C-](dipole@2)(#3) \fi \pcline[fillstyle=none,linestyle=none](#2)(#3) %%%%% \pst@intensity{#2}{#3} \pst@tension{#2}{#3} \fi% }% % \def\pst@intensity#1#2{% \ifPst@intensity \ifPst@directconvention \pcline[arrows=-,linestyle=none,fillstyle=none](#1)(dipole@1) \ncput[nrot=:U]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \pcline[arrows=-,linestyle=none,fillstyle=none,offset=\psk@I@label@offset](#1)(dipole@1) \ncput[nrot=\psk@label@angle]{\csname\psk@I@labelcolor\endcsname\psk@I@label} \else \pcline[arrows=-,linestyle=none,fillstyle=none](dipole@2)(#2) \ncput[nrot=:U]{% \psline[linecolor=\psk@I@color,linewidth=\psk@I@width,arrowinset=0]{<-}(-.1,0)(.1,0)} \pcline[arrows=-,linestyle=none,fillstyle=none,offset=\psk@I@label@offset](dipole@2)(#2) \ncput[nrot=\psk@label@angle]{\csname\psk@I@labelcolor\endcsname\psk@I@label} \fi \fi } % \def\pst@tension#1#2{% \ifPst@tension \pcline[arrows=-,linestyle=none,fillstyle=none,offset=\psk@tension@offset](#1)(dipole@1) \ncput[npos=.5]{\pnode{tension@1}} \pcline[arrows=-,linestyle=none,fillstyle=none,offset=-\psk@tension@offset](#2)(dipole@2) \ncput[npos=.5]{\pnode{tension@2}} \ifPst@directconvention \ifPst@Dconvention \ifnum\psk@tension@style=1 \pcline[linestyle=none](tension@1)(tension@2) \ncput[npos=0.25]{$-$}\ncput[npos=0.75]{$+$}% \else \pcline[linecolor=\psk@tension@color,linewidth=\psk@tension@width,arrowinset=0]{<-}(tension@1)(tension@2) \fi \else \ifnum\psk@tension@style=1 \pcline[linestyle=none](tension@1)(tension@2) \ncput[npos=0.25]{$+$}\ncput[npos=0.75]{$-$}% \else \pcline[linecolor=\psk@tension@color,linewidth=\psk@tension@width,arrowinset=0]{->}(tension@1)(tension@2) \fi \fi \else \ifPst@Dconvention \ifnum\psk@tension@style=1 \pcline[linestyle=none](tension@1)(tension@2) \ncput[npos=0.25]{$-$}\ncput[npos=0.75]{$+$}% \else \pcline[linecolor=\psk@tension@color,linewidth=\psk@tension@width,arrowinset=0]{->}(tension@1)(tension@2) \fi \else \ifnum\psk@tension@style=1 \pcline[linestyle=none](tension@1)(tension@2) \ncput[npos=0.25]{$+$}\ncput[npos=0.75]{$-$}% \else \pcline[linecolor=\psk@tension@color,linewidth=\psk@tension@width,arrowinset=0]{<-}(tension@1)(tension@2) \fi \fi \fi \pcline[arrows=-,linestyle=none,fillstyle=none,offset=\psk@tension@label@offset](dipole@1)(dipole@2) \ncput[nrot=\psk@label@angle]{\csname\psk@tension@labelcolor\endcsname\psk@tension@label} \fi } % \def\pst@draw@resistor{% \ifx\psk@Dstyle\pst@Dstyle@zigzag \pnode(-0.75,0){dipole@1} \pnode(0.75,0){dipole@2} \multips(-0.75,0)(0.5,0){3}{% \psline[arrows=-,linewidth=1.5\pslinewidth]% (0,0)(0.125,0.25)(0.375,-0.25)(0.5,0)}% \else \pnode(-0.5,0){dipole@1}\pnode(0.5,0){dipole@2} \psframe[linewidth=1.5\pslinewidth](-0.5,-0.25)(0.5,0.25) \fi \ifPst@variable\psline{->}(-0.5,-0.55)(0.5,0.55)\fi \ifx\psk@Dstyle\pst@Dstyle@varistor \psline[linewidth=0.8pt](-0.75,-0.55)(-0.5,-0.55)(0.5,0.55)% \fi } % \def\pst@draw@RFLine{% \pnode(-1.5,0){dipole@1} \pnode(1.5,0){dipole@2} \pscustom[arrows=-]{% \psellipticarcn(-0.8,0)(0.2,0.3){90}{-90} \psline(-0.8,-.3)(0.8,-.3) \psellipticarc(0.8,0)(0.2,0.3){-90}{90} \psline(-0.8,.3)(0.8,.3)} \psellipse(-0.8,0)(0.2,0.3) \pcline[arrows=-](dipole@1)(-0.8,0)\pcline[arrows=-](dipole@2)(1,0)} % % pd start ==================================================== \def\pst@draw@dashpot{% \pnode(0,0){dipole@1}% \pnode(0.5,0){dipole@2}% \psline[linewidth=1.5\pslinewidth]% (-0.5,-0.5)(0.5,-0.5)(0.5,0.5)(-0.5,0.5)% \psline[linewidth=1.5\pslinewidth](0,-0.4)(0,0.4)% } % pd end ====================================================== \def\pst@draw@capacitor{% \bgroup \psset{linewidth=1.5\pslinewidth}% \ifx\psk@Dstyle\pst@Dstyle@chemical \psline[arrows=-](-0.2,-0.5)(-0.2,0.5) \psarc[arrows=-](1.1875,0){1.0625}{154.8}{205.2} \pnode(-0.2,0){dipole@1} \pnode(0.125,0){dipole@2} \else \ifx\psk@Dstyle\pst@Dstyle@elektorchemical \psframe[framearc=0.01,dimen=outer](-0.2284123,0.2743733)(-0.0557103,-0.2743733) \psframe[framearc=0.01,dimen=outer,fillstyle=solid,fillcolor=black](0.0557103,0.2743733)(0.2284123,-0.2743733) \pnode(-0.2284123,0){dipole@1} \pnode(0.2284123,0){dipole@2} \else \ifx\psk@Dstyle\pst@Dstyle@elektor \psframe[framearc=0.01,dimen=outer,fillstyle=solid,fillcolor=black](-0.2284123,0.2743733)(-0.0557103,-0.2743733) \psframe[framearc=0.01,dimen=outer,fillstyle=solid,fillcolor=black](0.0557103,0.2743733)(0.2284123,-0.2743733) \pnode(-0.2284123,0){dipole@1} \pnode(0.2284123,0){dipole@2} \else \ifx\psk@Dstyle\pst@Dstyle@crystal \psline[arrows=-](-0.3,-0.4)(-0.3,0.4) \psline[arrows=-](0.3,-0.4)(0.3,0.4) \psframe(-0.2,-0.5)(0.2,0.5) \pnode(-0.3,0){dipole@1} \pnode(0.3,0){dipole@2} \else \psline[arrows=-](-0.2,-0.5)(-0.2,0.5) \psline[arrows=-](0.2,-0.5)(0.2,0.5) \pnode(-0.2,0){dipole@1} \pnode(0.2,0){dipole@2} \fi \fi \fi \fi \ifPst@variable% \psline[arrows=->](-0.5,-0.55)(0.5,0.55)% \fi \egroup } % \def\pst@draw@OA{% \ifx\psk@tripole@style\pst@tripole@style@french \psframe[linewidth=1.5\pslinewidth](-1,-0.75)(1,0.75) \pspolygon(-0.4,-0.2)(-0.4,0.2)(-0.05,0) \else % USUAL AOP \pspolygon[arrows=-,linewidth=1.5\pslinewidth](-1,-1)(-1,1)(1,0)(-1,-1) %\pspolygon[arrows=-](-1,-0.75)(-1,0.75)(1,0)(-1,-0.75) % Supply pins Position \ifPst@OApower \psline{-}(0,0.5)(0,0.75)%\uput[90](0,1){$+$} %\psline{-o}(0,0.375)(0,0.75)\uput[90](0,0.75){$+$} \psline{-}(0,-0.5)(0,-0.75)%\uput[-90](0,-1){$-$} %\psline{-o}(0,-0.375)(0,-0.75)\uput[-90](0,-0.75){$-$} \fi \fi % Input Pins Position \pnode(-1,0.5){\ifPst@OAinvert Minus@\else Plus@\fi} \pnode(-1,-0.5){\ifPst@OAinvert Plus@\else Minus@\fi} \pnode(1,0){S@} % + and - Position \uput{0.1}[0](-1,0.5){\ifPst@OAinvert$-$\else$+$\fi} %\uput{0.1}[0](-1,0.25){\ifPst@OAinvert$-$\else$+$\fi} \uput{0.1}[0](-1,-0.5){\ifPst@OAinvert$+$\else$-$\fi} %\uput{0.1}[0](-1,-0.25){\ifPst@OAinvert$+$\else$-$\fi} \ifPst@OAperfect\rput(0.25,0){$\infty$}\fi% } % \def\pst@draw@coil{% \ifx\psk@Dstyle\pst@Dstyle@curved \pscurve[arrows=-](-0.7,0)(-0.6,0.3)(-0.35,0)(-0.4,-0.2) (-0.5,0)(-0.4,0.3)(-0.15,0)(-0.2,-0.2)(-0.3,0) (-0.2,0.3)(0.05,0)(0,-0.2)(-0.1,0) (0,0.3)(0.25,0)(0.2,-0.2)(0.1,0) (0.2,0.3)(0.45,0)(0.4,-0.2)(0.3,0) (0.4,0.3)(0.65,0)(0.6,-0.2)(0.5,0) \pnode(-0.7,0){dipole@1} \pnode(0.5,0){dipole@2} \else \ifx\psk@Dstyle\pst@Dstyle@elektor \psarcn[arrows=c-](-0.3885794,0){0.1295265}{-180}{0} \psarcn(-0.1295265,0){0.1295265}{-180}{0} \psarcn(0.1295265,0){0.1295265}{-180}{0} \psarcn[arrows=-c](0.3885794,0){0.1295265}{-180}{0} \pnode(-0.5181058,0){dipole@1} \pnode(0.5181058,0){dipole@2} \else \ifx\psk@Dstyle\pst@Dstyle@elektorcurved \psarcn[arrows=c-c](-0.408167,0.089453){0.211665}{-155}{-410} \psarcn[arrows=-c](-0.136056,0.089453){0.211665}{-130}{-410} \psarcn[arrows=-c](0.136055,0.089453){0.211665}{-130}{-410} \psarcn[arrows=-c](0.408167,0.089453){0.211665}{-130}{-385} \pnode(-0.6,0){dipole@1} \pnode(0.6,0){dipole@2} \else \ifx\psk@Dstyle\pst@Dstyle@rectangle \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \psframe[linewidth=1.5\pslinewidth,fillstyle=solid,fillcolor=black](-0.5,-0.25)(0.5,0.25) \else \pscurve[arrows=-,linewidth=1.5\pslinewidth](-1,0)(-0.75,0.5)(-0.5,0) \pscurve[arrows=-,linewidth=1.5\pslinewidth](-0.5,0)(-0.25,0.5)(0,0) \pscurve[arrows=-,linewidth=1.5\pslinewidth](0,0)(0.25,0.5)(0.5,0) \pscurve[arrows=-,linewidth=1.5\pslinewidth](0.5,0)(0.75,0.5)(1,0) \pnode(-1,0){dipole@1} \pnode(1,0){dipole@2} \fi\fi\fi\fi% \ifPst@variable\psline{->}(-0.75,-0.5)(0.75,0.5)\fi% } % \def\pst@draw@Ucc{% \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \ifx\psk@Dstyle\pst@Dstyle@diamond \pspolygon[linewidth=1.5\pslinewidth](-0.5,0)(0,0.5)(0.5,0)(0,-0.5) \else \ifx\psk@Dstyle\pst@Dstyle@diamondCei \pspolygon[linewidth=1.5\pslinewidth](-0.5,0)(0,0.5)(0.5,0)(0,-0.5) \psline[linewidth=1.5\pslinewidth](-0.5,0)(0.5,0) \else \ifx\psk@Dstyle\pst@Dstyle@normalCei \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} \psline[linewidth=1.5\pslinewidth](-0.5,0)(0.5,0) \else \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} \fi \fi \fi \ifcase\psk@labelInside\or% do nothing \psline[arrows=-,linewidth=2\pslinewidth]{->}(-0.35,0)(0.35,0)\or% case 1 \uput{0.1}[0]{90}(-0.5,0){$-$}% case 2 \uput{0.1}[0]{90}(0,0){$+$}\or% case 3 \rput(0,0){\large\bf =} \fi } % \def\pst@draw@Icc{% \ifx\psk@Dstyle\pst@Dstyle@twoCircles \pnode(-0.7,0){dipole@1} \pnode(0.7,0){dipole@2} \pscircle[linewidth=1.5\pslinewidth](-0.175,0){0.5} \pscircle[linewidth=1.5\pslinewidth](0.175,0){0.5} \else \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \ifx\psk@Dstyle\pst@Dstyle@diamond \pspolygon[linewidth=1.5\pslinewidth](-0.5,0)(0,0.5)(0.5,0)(0,-0.5) \else \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} \fi \psline[arrows=-,linewidth=1.5\pslinewidth](0,-0.5)(0,0.5) \fi% } % \def\pst@draw@switch{% \ifx\psk@Dstyle\pst@Dstyle@close \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \qdisk(-0.5,0){1.5pt} \qdisk(0.5,0){1.5pt} \psline[arrows=-,linewidth=2\pslinewidth](-0.5,0.05)(0.5,0.05) \else \pnode(-0.55,0){dipole@1} \pnode(0.5,0){dipole@2} \psline[arrows=-,linewidth=2\pslinewidth](-0.5,0)(0.5,0.5) \psarcn[arrowinset=0]{->}(-0.5,0){0.75}{45}{-45} \pscircle[fillstyle=solid](-0.5,0){0.07} \qdisk(0.5,0){1.5pt} \fi } % \def\pst@draw@diode{% \ifx\psk@Dstyle\pst@Dstyle@triac \pspolygon[linewidth=1.5\pslinewidth](-0.25,-0.4)(-0.25,0)(0.25,-0.2) \pspolygon[linewidth=1.5\pslinewidth](0.25,0)(-0.25,0.2)(0.25,0.4) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.25,-0.4)(-0.25,0.4) \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,-0.4)(0.25,0.4) \psline[arrows=-,linewidth=\pslinewidth](0.25,-0.2)(0.5,-0.3)(0.5,-0.6) \else% \pspolygon[arrows=-,linewidth=1.5\pslinewidth](-0.25,-0.2)(-0.25,0.2)(0.25,0) \ifx\psk@Dstyle\pst@Dstyle@schottky \psline[linewidth=1.1\pslinewidth](0.4,0.2)(0.4,0.3)(0.3,0.3)(0.3,-0.3)(0.2,-0.3)(0.2,-0.2) \else \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.2)(0.25,-0.2)% for all following \fi \ifx\psk@Dstyle\pst@Dstyle@thyristor \psline[arrows=-,linewidth=1.5\pslinewidth](0,-0.1)(0,-0.35) \fi% \ifx\psk@Dstyle\pst@Dstyle@GTO \psline[arrows=-,linewidth=1.5\pslinewidth](-0.1,-0.12)(-0.1,-0.35) \psline[arrows=-,linewidth=1.5\pslinewidth](0,-0.1)(0,-0.35) \else \ifx\psk@Dstyle\pst@Dstyle@photo \multips(-0.15,0.3)(0.25,0){2}{\psline[arrows=<-](0.25,0.22)}% \fi% \fi% \fi% \pnode(-0.25,0){dipole@1}% \pnode(0.25,0){dipole@2}% } % \def\pst@draw@Zener{% \pspolygon[linewidth=1.5\pslinewidth](-0.25,-0.2)(-0.25,0.2)(0.25,0) \ifx\psk@Dstyle\pst@Dstyle@Z \psline[arrows=-,linewidth=1.5\pslinewidth](0.1,0.35)(0.25,0.25)(0.25,-0.25)(0.4,-0.35) \else \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.25)(0.25,-0.25)(0,-0.25) \fi \pnode(-0.25,0){dipole@1} \pnode(0.25,0){dipole@2} } % %-------------------mla change \def\pst@draw@Suppressor{% \pspolygon[linewidth=1.5\pslinewidth](-0.5,-0.2)(-0.5,0.2)(0.0,0.0) \pspolygon[linewidth=1.5\pslinewidth](0.5,-0.2)(0.5,0.2)(0.0,0.0) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.5,0.0)(0.5,0.0) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.15,0.35)(0.0,0.25)(0.0,-0.25)(0.15,-0.35) % \ifx\psk@Dstyle\pst@Dstyle@Z % \psline[arrows=-,linewidth=1.5\pslinewidth](0.1,0.35)(0.25,0.25)(0.25,-0.25)(0.4,-0.35) % \else % \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.25)(0.25,-0.25)(0,-0.25) % \fi \pnode(-0.5,0.0){dipole@1} \pnode(0.50,0.0){dipole@2} } \def\pst@draw@Arrestor{% \pscircle[linewidth=1.5\pslinewidth](0.0,0.0){0.3} \psline[arrows=-,linewidth=1.5\pslinewidth](-0.1,-0.12)(-0.1,0.12) \psline[arrows=-,linewidth=1.5\pslinewidth](0.1,-0.12)(0.1,0.12) \psline[arrows=-,linewidth=1.5\pslinewidth](0,-0.12)(0.0,0.3) % \ifx\psk@Dstyle\pst@Dstyle@Z % \psline[arrows=-,linewidth=1.5\pslinewidth](0.1,0.35)(0.25,0.25)(0.25,-0.25)(0.4,-0.35) % \else % \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.25)(0.25,-0.25)(0,-0.25) % \fi \pnode(-0.3,0.0){dipole@1} \pnode(0.3,0.0){dipole@2} } % \def\pst@draw@RelayNOP{% % \pscircle[linewidth=1.5\pslinewidth](0.0,0.0){0.3} \psframe[arrows=-,linewidth=1.5\pslinewidth](-0.2,0.5)(0.2,1.3) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.2,1.3)(0.2,0.5) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.2,0.9)(-0.5,0.9) \psline[arrows=-,linewidth=1.5\pslinewidth](0.2,0.9)(0.5,0.9) % \psline[arrows=-,linewidth=1.5\pslinewidth](-0.5,0.0)(-0.2,0.0) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.2,0.0)(0.2,0.1) \psline[arrows=-,linewidth=1.5\pslinewidth](0.2,0.0)(0.5,0.0) \psline[linestyle=dashed,arrows=-,linewidth=1.5\pslinewidth](0.0,0.5)(0.0,0.1) % \ifx\psk@Dstyle\pst@Dstyle@Z % \psline[arrows=-,linewidth=1.5\pslinewidth](0.1,0.35)(0.25,0.25)(0.25,-0.25)(0.4,-0.35) % \else % \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.25)(0.25,-0.25)(0,-0.25) % \fi \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} } %%%----------------------mla change end \def\pst@draw@lamp{% \pscircle[linewidth=1.5\pslinewidth]{0.5} \psline[arrows=-,linewidth=1.5\pslinewidth](0.5;45)(0.5;225) \psline[arrows=-,linewidth=1.5\pslinewidth](0.5;135)(0.5;315) \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} } % \def\pst@draw@circledipole{% \pscircle[linewidth=1.5\pslinewidth]{\psk@radius} \pnode(-\psk@radius,0){dipole@1} \pnode(\psk@radius,0){dipole@2} } % \def\pst@draw@LED{% \pspolygon[arrows=-,linewidth=1.5\pslinewidth](-0.25,-0.2)(-0.25,0.2)(0.25,0) \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.2)(0.25,-0.2) \pnode(-0.25,0){dipole@1} \pnode(0.25,0){dipole@2} \multips(-0.25,0.3)(0.25,0){3}{\psline[arrows=->](0.25,0.22)}% } % \def\pst@draw@OpenDipol{% \pscircle(-0.5,0){\psk@radius} \pscircle(0.5,0){\psk@radius} \pst@getlength{\psk@radius}\pst@tempA \pnode(!-0.5 \pst@tempA\space \pst@number\psxunit div sub 0){dipole@1} \pnode(! 0.5 \pst@tempA\space \pst@number\psxunit div add 0){dipole@2} } % \def\pst@draw@OpenTripol{% \pst@getlength{\psk@radius}\pst@tempA \pscircle(0.65,0){\psk@radius} \pscircle(-0.65,0){\psk@radius} \pscircle(0,0){\psk@radius} \psline(!0 \pst@tempA\space \pst@number\psxunit div neg)(0,-5mm) \psline(-2mm,-5mm)(2mm,-5mm) \pnode(!-0.65 \pst@tempA\space \pst@number\psxunit div sub 0){dipole@1} \pnode(! 0.65 \pst@tempA\space \pst@number\psxunit div add 0){dipole@2} } % \def\pst@draw@Tswitch{% \ifx\psk@tripole@style\pst@tripole@style@right \psline[arrows=-,linewidth=2\pslinewidth](0.5,0)(0,-1) \psarcn[arrowinset=0]{<-}(0,-1){0.75}{135}{45} \else \ifx\psk@tripole@style\pst@tripole@style@left \psline[arrows=-,linewidth=2\pslinewidth](-0.5,0)(0,-1) \psarcn[arrowinset=0]{->}(0,-1){0.75}{135}{45} \else \psline[arrows=-,linewidth=2\pslinewidth](0,0.1)(0,-1) \psarcn[linewidth=1pt,arrowinset=0]{<->}(0,-1){0.75}{135}{45} \fi \fi \qdisk(-0.5,0){1.5pt} \qdisk(0.5,0){1.5pt} \pscircle[fillstyle=solid](0,-1){0.07} \pnode(-0.5,0){Tswi@left} \pnode(0.5,0){Tswi@right} \pnode(0,-1.05){Tswi@center} } % \def\pst@draw@transformer{ \ifx\psk@Dstyle\pst@Dstyle@rectangle \psframe[fillstyle=solid,fillcolor=black](-0.7,-0.75)(-0.2,0.75) \psframe[fillstyle=solid,fillcolor=black](0.7,-0.75)(0.2,0.75) \psline[arrows=-,linewidth=0.1cm](0,-0.75)(0,0.75) \pnode(-0.5,0.75){inup@} \pnode(-0.5,-0.75){indown@} \else \pscurve[arrows=-](-0.5,0.9)(-0.2,0.8)(-0.5,0.7)(-0.7,0.8)(-0.5,0.82)(-0.2,0.6) (-0.5,0.5)(-0.7,0.6)(-0.5,0.62)(-0.2,0.4) (-0.5,0.3)(-0.7,0.4)(-0.5,0.42)(-0.2,0.2) (-0.5,0.1)(-0.7,0.2)(-0.5,0.22)(-0.2,0) (-0.5,-0.1)(-0.7,0)(-0.5,0.02)(-0.2,-0.2) (-0.5,-0.3)(-0.7,-0.2)(-0.5,-0.18)(-0.2,-0.4) (-0.5,-0.5)(-0.7,-0.4)(-0.5,-0.38)(-0.2,-0.6) (-0.5,-0.7)(-0.7,-0.6)(-0.5,-0.58)(-.2,-0.8)(-0.5,-0.9) \pscurve[arrows=-](0.5,0.7)(0.2,0.6)(0.5,0.5)(0.7,0.6)(0.5,0.62) (0.2,0.4)(0.5,0.3)(0.7,0.4)(0.5,0.42) (0.2,0.2)(0.5,0.1)(0.7,0.2)(0.5,0.22) (0.2,0.)(0.5,-0.1)(0.7,0)(0.5,0.02) (0.2,-0.2)(0.5,-0.3)(0.7,-0.2)(0.5,-0.18) (0.2,-0.4)(0.5,-0.5)(0.7,-0.4)(0.5,-0.38) (0.2,-0.6)(0.5,-0.7) \psline[arrows=-](-0.1,0.7)(-0.1,-0.7) \psline[arrows=-](0,0.7)(0,-0.7) \psline[arrows=-](0.1,0.7)(0.1,-0.7) \pnode(-0.5,0.9){inup@} \pnode(-0.5,-0.9){indown@} \fi \pnode(0.5,-0.7){outdown@} \pnode(0.5,0.7){outup@} } % start hv 2003-07-23 \def\pst@draw@optoCoupler{% % diode \pspolygon[linewidth=1.5\pslinewidth](-0.5,-0.25)(-0.7,0.25)(-0.3,0.25) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.7,-0.25)(-0.3,-0.25) \psline{->}(-0.2,0.2)(0,0.1) \psline{->}(-0.2,0)(0,-0.1) % transistor \psline[arrows=-,linewidth=4\pslinewidth](0.25,-0.3)(0.25,0.3) \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0)(0.75,0.5) \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0)(0.75,-0.5) \pnode(0.75,-0.5){d@1} \pnode(0.25,0){d@2} \ifx\psk@Ttype\pst@Ttype@PNP \ncline[arrows=-,linestyle=none,fillstyle=none]{d@1}{d@2} \else \ncline[arrows=-,linestyle=none,fillstyle=none]{d@2}{d@1} \fi \ncput[nrot=:U]{\psline[arrowinset=0,arrowscale=2]{->}(0,0)(.2,0)} \pnode(-0.5,0.25){inup@} \pnode(-0.5,-0.25){indown@} \pnode(0.75,-0.5){outdown@} \pnode(0.75,0.5){outup@} } % \def\pst@draw@logic[#1]{\@ifnextchar({\pst@draw@logici[#1]}{\pst@draw@logici[#1](0,0)}} % \def\pst@draw@logici[#1](#2)#3{{% \psset{#1}% \rput[lb](#2){% \psframe[linewidth=2\pslinewidth](0,0)(\psk@logic@width,\psk@logic@height)% } \pst@getcoor{#2}\pst@tempa \ifPst@logicChangeLR\def\logic@LR{true}\else\def\logic@LR{false}\fi \pstVerb{ /YA \pst@tempa exch pop \pst@number\psyunit div def /YB YA \psk@logic@height\space add def \logic@LR {% /XB \pst@tempa pop \pst@number\psxunit div def /XA XB \psk@logic@width\space add def }{% /XA \pst@tempa pop \pst@number\psxunit div def /XB XA \psk@logic@width\space add def } ifelse /dy YB YA sub def } \ifx\psk@logic@type\pst@logic@type@RS%---------------- RS ----------------- \pnode(! XA YA dy 4 div add){#3S} \pnode(! XA YA dy 4 div 3 mul add){#3R} \psline(#3R)(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 4 div 3 mul add) \psline(#3S)(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 4 div add) \uput[\ifPst@logicChangeLR 180\else 0\fi](#3R){\psk@logic@nodestyle R} \uput[\ifPst@logicChangeLR 180\else 0\fi](#3S){\psk@logic@nodestyle S} \pnode(! XB 0.2 \logic@LR {sub}{add} ifelse YA dy 4 div add){#3Qneg} \pscircle[linewidth=0.5pt](! XB 0.1 \logic@LR {sub}{add} ifelse YA dy 4 div add){0.1} \pnode(! XB YA dy 4 div 3 mul add){#3Q} \psline(#3Q)(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 4 div 3 mul add) \psline(#3Qneg)(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 4 div add) \uput[\ifPst@logicChangeLR 0\else 180\fi](#3Q){\psk@logic@nodestyle Q} \uput{0.4}[\ifPst@logicChangeLR 0\else 180\fi](#3Qneg){\psk@logic@nodestyle $\mathrm{\overline{Q}}$} \ifPst@logicShowDot \qdisk(! XA \psk@logic@wireLength\space \logic@LR {add}{sub} ifelse YA dy 4 div 3 mul add){3pt} \qdisk(! XA \psk@logic@wireLength\space \logic@LR {add}{sub} ifelse YA dy 4 div add){3pt} \qdisk(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 4 div 3 mul add){3pt} \qdisk(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 4 div add){3pt} \fi \rput[b](!% /dx XB XA sub 2 div def XA dx add YA 0.1 add){\if$\psk@logic@labelstyle$\else\psk@logic@labelstyle#3\fi} \else \ifx\psk@logic@type\pst@logic@type@D%---------------- D ----------------- \pnode(! XA YA dy 2 div add){#3C} \pnode(! XA YA dy 4 div 3 mul add){#3D} \psline(#3D)(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 4 div 3 mul add) \psline(#3C)(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 2 div add) \psline[linewidth=0.5pt](! XA YA dy 2 div add 0.15 add) (! XA 0.4 \logic@LR {sub}{add} ifelse YA dy 2 div add)(! XA YA dy 2 div add 0.15 sub) \uput[\ifPst@logicChangeLR 180\else 0\fi](#3D){\psk@logic@nodestyle D} \uput{0.5}[\ifPst@logicChangeLR 180\else 0\fi](#3C){\psk@logic@nodestyle C} \pnode(! XB 0.2 \logic@LR {sub}{add} ifelse YA dy 4 div add){#3Qneg} \pscircle[linewidth=0.5pt](! XB 0.1 \logic@LR {sub}{add} ifelse YA dy 4 div add){0.1} \pnode(! XB YA dy 4 div 3 mul add){#3Q} \psline(#3Q)(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div 3 mul add) \psline(#3Qneg)(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div add) \uput[\ifPst@logicChangeLR 0\else 180\fi](#3Q){\psk@logic@nodestyle Q} \uput{0.4}[\ifPst@logicChangeLR 0\else 180\fi](#3Qneg){\psk@logic@nodestyle $\mathrm{\overline{Q}}$} \ifPst@logicShowDot \qdisk(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 4 div 3 mul add){3pt} \qdisk(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 2 div add){3pt} \qdisk(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div 3 mul add){3pt} \qdisk(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div add){3pt} \fi \rput[b](!% /dx XB XA sub 2 div def XA dx add YA 0.1 add){\if$\psk@logic@labelstyle$\else\psk@logic@labelstyle#3\fi} \else \ifx\psk@logic@type\pst@logic@type@JK%---------------- JK ----------------- \multido{\n=1+1}{\psk@logic@JInput}{% \pnode(!% /Step dy 2 div \psk@logic@JInput\space div def /yNew Step \n\space mul def XA YA yNew add Step 2 div sub){#3J\n} \pst@getcoor{#3J\n}\pst@tempc \uput[\ifPst@logicChangeLR 180\else 0\fi](#3J\n){\psk@logic@nodestyle J\n} \pnode(! /YC \pst@tempc exch pop \pst@number\psyunit div def /XC \pst@tempc pop \pst@number\psxunit div def XC 0.5 \logic@LR {add}{sub} ifelse YC){tempJ\n} \psline(#3J\n)(tempJ\n)% input \ifPst@logicShowDot \qdisk(tempJ\n){3pt} \fi } \multido{\n=1+1}{\psk@logic@KInput}{% \pnode(!% /Step dy 2 div \psk@logic@KInput\space div def /yNew Step \n\space mul def XA YB yNew sub Step 2 div add){#3K\n} \pst@getcoor{#3K\n}\pst@tempc \uput[\ifPst@logicChangeLR 180\else 0\fi](#3K\n){\psk@logic@nodestyle K\n} \pnode(! /YC \pst@tempc exch pop \pst@number\psyunit div def /XC \pst@tempc pop \pst@number\psxunit div def XC 0.5 \logic@LR {add}{sub} ifelse YC){tempK\n} \psline(#3K\n)(tempK\n)% input \ifPst@logicShowDot \qdisk(tempK\n){3pt} \fi } \psline[linewidth=0.5pt](! XA YA dy 2 div add 0.15 add) (! XA 0.4 \logic@LR {sub}{add} ifelse YA dy 2 div add)(! XA YA dy 2 div add 0.15 sub) \pnode(! XA YA dy 2 div add){#3C} \psline(#3C)(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 2 div add) \uput{0.5}[\ifPst@logicChangeLR 180\else 0\fi](#3C){\psk@logic@nodestyle C} \pnode(! XB 0.2 \logic@LR {sub}{add} ifelse YA dy 4 div add){#3Qneg} \pscircle[linewidth=0.5pt](! XB 0.1 \logic@LR {sub}{add} ifelse YA dy 4 div add){0.1} \pnode(! XB YA dy 4 div 3 mul add){#3Q} \psline(#3Q)(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div 3 mul add) \psline(#3Qneg)(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div add) \uput[\ifPst@logicChangeLR 0\else 180\fi](#3Q){\psk@logic@nodestyle Q} \uput{0.4}[\ifPst@logicChangeLR 0\else 180\fi](#3Qneg){\psk@logic@nodestyle $\mathrm{\overline{Q}}$} \ifPst@logicShowDot \qdisk(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div 3 mul add){3pt} \qdisk(! XB 0.5 \logic@LR {sub}{add} ifelse YA dy 4 div add){3pt} \qdisk(! XA 0.5 \logic@LR {add}{sub} ifelse YA dy 2 div add){3pt} \fi \rput[b](!% /dx XB XA sub 2 div def XA dx add YA 0.1 add){\if$\psk@logic@labelstyle$\else\psk@logic@labelstyle#3\fi} \else%---------------- default AND/NAND/OR/NOR/NOT/EXOR/ENOR ----------------- \ifx\psk@logic@type\pst@logic@type@not \def\@nMax{1}\else \def\@nMax{\psk@logic@nInput}\fi \multido{\n=1+1}{\@nMax}{% \pnode(!% /Step dy \psk@logic@nInput\space div def /yNew Step \n\space mul def XA YA yNew add \@nMax\space 1 gt {Step 2 div sub} if){#3\n} \pst@getcoor{#3\n}\pst@tempc \pnode(! /YC \pst@tempc exch pop \pst@number\psyunit div def /XC \pst@tempc pop \pst@number\psxunit div def XC \psk@logic@wireLength\space \logic@LR {add}{sub} ifelse YC){temp#3\n} \expandafter\psline\expandafter(#3\n)(temp#3\n)% input \ifPst@logicShowDot \qdisk(temp#3\n){3pt}\fi \ifPst@logicShowNode \uput[\ifPst@logicChangeLR 180\else 0\fi](#3\n){\psk@logic@nodestyle\n} \fi } \ifx\psk@logic@type\pst@logic@type@not\else \ifx\psk@logic@type\pst@logic@type@nand\else \ifx\psk@logic@type\pst@logic@type@nor\else \ifx\psk@logic@type\pst@logic@type@exnor\else \pnode(! XB YA dy 2 div add){#3Q} \psline(#3Q)(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 2 div add)% output \ifPst@logicShowDot \qdisk(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 2 div add){3pt} \fi \ifPst@logicShowNode \uput[\ifPst@logicChangeLR 0\else 180\fi](#3Q){\psk@logic@nodestyle Q} \fi \fi \fi \fi \fi \ifx\psk@logic@type\pst@logic@type@and\else% NotX output \ifx\psk@logic@type\pst@logic@type@or\else \ifx\psk@logic@type\pst@logic@type@exor\else \pnode(! XB 0.2 \logic@LR {sub}{add} ifelse YA dy 2 div add){#3Q} \pscircle[linewidth=0.5pt](! XB 0.1 \logic@LR {sub}{add} ifelse YA dy 2 div add){0.1} \psline(#3Q)(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 2 div add)% output \ifPst@logicShowDot \qdisk(! XB \psk@logic@wireLength\space \logic@LR {sub}{add} ifelse YA dy 2 div add){3pt} \fi \ifPst@logicShowNode \uput{0.4}[\ifPst@logicChangeLR 0\else 180\fi](#3Q){\psk@logic@nodestyle Q} \fi \fi \fi \fi \ifx\psk@logic@type\pst@logic@type@or \def\logic@type{$\ge\kern-5pt 1$} \else \ifx\psk@logic@type\pst@logic@type@not \def\logic@type{1} \else \ifx\psk@logic@type\pst@logic@type@nand \def\logic@type{\&} \else \ifx\psk@logic@type\pst@logic@type@nor \def\logic@type{$\ge\kern-5pt 1$} \else \ifx\psk@logic@type\pst@logic@type@exor \def\logic@type{=1} \else \ifx\psk@logic@type\pst@logic@type@exnor \def\logic@type{=} \else \def\logic@type{\&} \fi \fi \fi \fi \fi \fi \rput(!% /dx XB XA sub \psk@logic@symbolpos\space mul def XA dx add YB 0.3 sub){\if$\psk@logic@symbolstyle$\else\psk@logic@symbolstyle\textbf{\logic@type}\fi} \rput[b](!% /dx XB XA sub 2 div def XA dx add YA 0.1 add){\if$\psk@logic@labelstyle$\else\psk@logic@labelstyle#3\fi} \fi \fi \fi% end of no special RS/JK/D }\ignorespaces} % % end hv 2003-07-28 % \def\pst@draw@wire[#1](#2)(#3){{% \psset{#1} \ifx\psk@I@label\@empty\else\psset{intensity=true}\fi \ifx\psk@Dconvention\pst@Dconvention@generator \Pst@Dconventiontrue \else\ifx\psk@Dconvention\pst@Dconvention@receptor\Pst@Dconventionfalse\fi \fi \bgroup \pnode(#2){Inter@1} \pnode(#3){Inter@2} \psset{arrows=-} \ifPst@wire@intersect \rput(! /N@Inter@1 GetNode /N@Inter@2 GetNode /N@\psk@wire@intersectA\space GetNode /N@\psk@wire@intersectB\space GetNode InterLines \pst@number\psyunit div exch \pst@number\psxunit div exch){\pnode{@M}}% \ncline[linestyle=none,fillstyle=none]{Inter@1}{@M} \ncput[nrot=:U,npos=.85]{\pnode{@M1}} \ncline[linestyle=none,fillstyle=none]{@M}{Inter@2} \ncput[nrot=:U,npos=.15]{\pnode{@M2}} \psline(Inter@1)(@M1) \psline(@M2)(Inter@2) \ncarc[arcangle=90]{@M1}{@M2} \else \pcline(#2)(#3) \ifPst@intensity \ifPst@directconvention \ncput[nrot=:U]{% \psline[linecolor=\psk@I@color, linewidth=\psk@I@width,arrowinset=0]{->}(-.1,0)(.1,0)} \pcline[linestyle=none,fillstyle=none,offset=\psk@I@label@offset](#2)(#3) \ncput[nrot=\psk@label@angle]{\csname\psk@I@labelcolor\endcsname\psk@I@label} \else \ncput[nrot=:U]{% \psline[linecolor=\psk@I@color,linewidth=\psk@I@width]{<-}(-.1,0)(.1,0)} \pcline[linestyle=none,fillstyle=none,offset=\psk@I@label@offset](#2)(#3) \ncput[nrot=\psk@label@angle]{\csname\psk@I@labelcolor\endcsname\psk@I@label} \fi \fi \fi \egroup \ncline[linestyle=none]{Inter@1}{Inter@2} }\ignorespaces} % % \def\pst@draw@tension@[#1](#2)(#3)#4{{% \psset{#1}% \pnode(#2){pst@tempa} % hv \pnode(#3){pst@tempb} % hv \ncline[linestyle=none,fillstyle=none]{pst@tempa}{pst@tempb} \ncput[nrot=:U,npos=0.05]{\pnode{@M1}} \ncput[nrot=:U,npos=0.95]{\pnode{@M2}} \ncline[arrowinset=0,linecolor=\psk@tension@color]{->}{@M1}{@M2} \pcline[arrows=-,linestyle=none,fillstyle=none,offset=\psk@label@offset](@M1)(@M2) \ncput[nrot=\psk@label@angle]{\csname\psk@tension@labelcolor\endcsname #4} }\ignorespaces} % \def\node(#1){\pscircle*(#1){2\pslinewidth}} % % % \define@boolkey[psset]{pst-circ}[Pst@]{inputarrow}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{programmable}[true]{} \define@boolkey[psset]{pst-circ}[Pst@]{connectingdot}[true]{} % \def\pst@Gstyle@old{old} \def\pst@Gstyle@ads{ads} \def\pst@Gstyle@triangle{triangle} \def\pst@Astyle@two{two} \def\pst@Astyle@three{three} \def\pst@Astyle@triangle{triangle} \def\pst@LOoutput@left{left} \def\pst@LOoutput@top{top} \def\pst@LOoutput@right{right} \def\pst@LOoutput@bottom{bottom} \def\pst@LOstyle@crystal{crystal}\def\pst@Dstyle@lowpass{lowpass} \def\pst@Dstyle@highpass{highpass}\def\pst@Dinput@right{right} \def\pst@Dinput@left{left} \def\pst@Dstyle@multiplier{multiplier}\def\pst@Dstyle@divider{divider}\def\pst@FMvalue@value{0} \def\pst@tripole@style@bottom{bottom}\def\pst@tripole@style@top{top}\def\pst@Tinput@left{left} \def\pst@Tinput@right{right} \def\pst@tripole@style@circulator{circulator} \def\pst@tripole@style@isolator{isolator}\def\pst@Tconfig@left{left}\def\pst@Tconfig@right{right} \def\pst@Qstyle@directional{directional}\def\pst@Qstyle@hybrid{hybrid}\def\pst@Qinput@left{left} \def\pst@Qinput@right{right} \define@key[psset]{pst-circ}{groundstyle}[ads]{\def\psk@Gstyle{#1}} \define@key[psset]{pst-circ}{antennastyle}[two]{\def\psk@Astyle{#1}} \define@key[psset]{pst-circ}{output}[top]{\def\psk@LOoutput{#1}} \define@key[psset]{pst-circ}{LOstyle}[]{\def\psk@LOstyle{#1}} \define@key[psset]{pst-circ}{dipoleinput}[left]{\def\psk@Dinput{#1}} \define@key[psset]{pst-circ}{value}[0]{\def\psk@FMvalue{#1}} \define@key[psset]{pst-circ}{tripoleinput}[left]{\def\psk@Tinput{#1}} \define@key[psset]{pst-circ}{tripoleconfig}[left]{\def\psk@Tconfig{#1}} \define@key[psset]{pst-circ}{couplerstyle}[hxbrid]{\def\psk@Qstyle{#1}} \define@key[psset]{pst-circ}{quadripoleinput}[left]{\def\psk@Qinput{#1}} % % \psset{groundstyle=ads, antennastyle=two, output=top,% dipoleinput=left, dipolestyle=multiplier, value=0,% dipoleinput=left, inputarrow=false, tripoleinput=left,% tripolestyle=bottom,tripoleconfig=left, quadripoleinput=left,% couplerstyle=hybrid, connectingdot=true, LOstyle={} } % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% monopole %%% newground: groundstyle: (ads), old, triangle %%% Antenna: antennastyle: (two), three, triangle %%% Oscillator: oscioutput: (top), right, bottom, left, %%% inputarrow: (false), true %%% connectingdot: (true), false %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% newground %%% \def\newground{\@ifnextchar[{\pst@newground}{\pst@newground[]}} \def\pst@newground[#1]{% \@ifnextchar({\pst@newgroundi[#1]{0}}{\pst@newgroundi[#1]}% } \def\pst@newgroundi[#1]#2(#3){{% \psset{#1}% \rput{#2}(#3){% \ifx\psk@Gstyle\pst@Gstyle@ads \psline[linewidth=1.5\pslinewidth]{c-c}(-0.3,-0.5)(0.3,-0.5) \psline[linewidth=1.5\pslinewidth]{c-c}(-0.2,-0.6)(0.2,-0.6) \psline[linewidth=1.5\pslinewidth]{c-c}(-0.1,-0.7)(0.1,-0.7) \fi \ifx\psk@Gstyle\pst@Gstyle@old \psline[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,-0.5) \fi \ifx\psk@Gstyle\pst@Gstyle@triangle \pstriangle[linewidth=1.5\pslinewidth](0,-0.5)(0.4,-0.4) \fi \psline(0,0)(0,-0.5) \ifPst@connectingdot \pscircle*(0,0){2\pslinewidth} \fi }}% \ignorespaces% } % %%% antenna %%% % \def\antenna{\@ifnextchar[{\pst@antenna}{\pst@antenna[]}} \def\pst@antenna[#1]{% \@ifnextchar({\pst@antennai[#1]{0}}{\pst@antennai[#1]}% } \def\pst@antennai[#1]#2(#3){{% \psset{#1}% \rput{#2}(#3){% \ifx\psk@Astyle\pst@Astyle@two \psline[linewidth=1.5\pslinewidth](0,.75)(-0.2,1.25) \psline[linewidth=1.5\pslinewidth](0,.75)(0.2,1.25) \fi \ifx\psk@Astyle\pst@Astyle@three \psline[linewidth=1.5\pslinewidth](0,.75)(-0.2,1.25) \psline[linewidth=1.5\pslinewidth](0,.75)(0,1.25) \psline[linewidth=1.5\pslinewidth](0,.75)(0.2,1.25) \fi \ifx\psk@Astyle\pst@Astyle@triangle \pstriangle[linewidth=1.5\pslinewidth](0,1.25)(0.4,-0.5) \fi \psline(0,0)(0,.75) }}% \ignorespaces% } % %%% oscillator %%% % \def\oscillator{\@ifnextchar[{\pst@oscillator}{\pst@oscillator[]}} \def\pst@oscillator[#1]{% \@ifnextchar({\pst@oscillatori[#1]{0}}{\pst@oscillatori[#1]}% } \def\pst@oscillatori[#1]#2(#3)#4#5{{% \psset{#1}% \rput{#2}(#3){% \pscircle[#5,linewidth=1.5\pslinewidth](0,0){0.5} \ifx\psk@LOstyle\pst@LOstyle@crystal \psline(-0.2,-0.35)(-0.2,0.35) \psframe(-0.15,-0.3)(0.15,0.3) \psline(0.2,-0.35)(0.2,0.35) \else \pscurve[linewidth=1.5\pslinewidth]{c-c}(-0.3,0.000)(-0.225,0.088375)(-0.15,0.1250)(-0.075,0.088375)% (0,0.000)(0.075,-0.088375)(0.15,-0.125)(0.225,-0.088375)(0.3,0.000) \fi \ifx\psk@LOoutput\pst@LOoutput@left \pst@getcoor{#3}\pst@tempa \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def /XC X1 def /YC Y1 -0.6 add def XC YC){C@} \rput[t]{#2}(C@){#4} \ifPst@inputarrow \psline[arrows=->,arrowinset=0](-0.5,0)(-1,0) \else \psline(-0.5,0)(-1,0) \fi \fi \ifx\psk@LOoutput\pst@LOoutput@top \pst@getcoor{#3}\pst@tempa \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def /XC X1 def /YC Y1 -0.6 add def XC YC){C@} \rput[t]{#2}(C@){#4} \ifPst@inputarrow \psline[arrows=->,arrowinset=0](0,0.5)(0,1) \else \psline(0,0.5)(0,1) \fi \fi \ifx\psk@LOoutput\pst@LOoutput@right \pst@getcoor{#3}\pst@tempa \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def /XC X1 def /YC Y1 -0.6 add def XC YC){C@} \rput[t]{#2}(C@){#4} \ifPst@inputarrow \psline[arrows=->,arrowinset=0](0.5,0)(1,0) \else \psline(0.5,0)(1,0) \fi \fi \ifx\psk@LOoutput\pst@LOoutput@bottom \pst@getcoor{#3}\pst@tempa \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def /XC X1 def /YC Y1 0.6 add def XC YC){C@} \rput[b]{#2}(C@){#4} \ifPst@inputarrow \psline[arrows=->,arrowinset=0](0,-0.5)(0,-1) \else \psline(0,-0.5)(0,-1) \fi \fi }}% \ignorespaces% } % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Dipole %%% filtre: dipolestyle: (bandpass), lowpass, highpass %%% inputarrow: (false), true %%% dipoleinput: (left), right %%% isolator: dipoleinput: (left), right %%% inputarrow: (false), true %%% freqmult: dipolestyle: (multiplier), divider, %%% value: (N), integer %%% programmable: (false) true %%% inputarrow: (false), true %%% dipoleinput: (left), right %%% phaseshifter: %%% inputarrow: (false), true %%% dipoleinput: (left), right %%% vco: %%% inputarrow: (false), true %%% dipoleinput: (left), right %%% amplifier: %%% inputarrow: (false), true %%% dipoleinput: (left), right %%% detector: %%% inputarrow: (false), true %%% dipoleinput: (left), right %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% FILTER %%% % \newCircDipole{filter}% \def\pst@draw@filter{% \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \psframe[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \pscurve[linewidth=1.5\pslinewidth]{c-c}(-0.4,0.250)(-0.2,0.3750)(0,0.250)(0.2,0.1250)(0.4,0.250) \pscurve[linewidth=1.5\pslinewidth]{c-c}(-0.4,0.000)(-0.2,0.1250)(0,0.000)(0.2,-0.125)(0.4,0.000) \pscurve[linewidth=1.5\pslinewidth]{c-c}(-0.4,-0.25)(-0.2,-0.125)(0,-0.25)(0.2,-0.375)(0.4,-0.25) % \psline{c-c}(-0.1,0.2)(0.1,0.3) \ifx\psk@Dstyle\pst@Dstyle@lowpass \psline[fillstyle=none]{c-c}(-0.1,0.2)(0.1,0.3) \psline[fillstyle=none]{c-c}(-0.1,-0.05)(0.1,0.05) \else \ifx\psk@Dstyle\pst@Dstyle@highpass \psline[fillstyle=none]{c-c}(-0.1,-0.3)(0.1,-0.2) \psline[fillstyle=none]{c-c}(-0.1,-0.05)(0.1,0.05) \else \psline[fillstyle=none]{c-c}(-0.1,0.2)(0.1,0.3) \psline[fillstyle=none]{c-c}(-0.1,-0.3)(0.1,-0.2) \fi \fi } %%% ISOLATOR %%% % \newCircDipole{isolator} \def\pst@draw@isolator{% \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \psframe[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \ifx\psk@Dinput\pst@Dinput@right \psline[fillstyle=none,linewidth=1.5\pslinewidth,arrowinset=0]{<-}(-0.4,0)(0.4,0) \else \psline[fillstyle=none,linewidth=1.5\pslinewidth,arrowinset=0]{->}(-0.4,0)(0.4,0) \fi } % %%% Frequency Multiplier or Divider %%% \newCircDipole{freqmult} \def\pst@draw@freqmult{% \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \psframe[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \ifPst@programmable% \psline[fillstyle=none](-0.4,-0.75)(-0.4,-0.5) \psline[fillstyle=none](-0.2,-0.75)(-0.2,-0.5) \psline(0,-0.75)(0,-0.5) \psline[fillstyle=none](0.2,-0.75)(0.2,-0.5) \psline[fillstyle=none](0.4,-0.75)(0.4,-0.5) \ifx\psk@Dstyle\pst@Dstyle@divider \rput(0,0){$\div\textrm{N}$} \else \rput(0,0){$\times\textrm{N}$} \fi \else \ifx\psk@FMvalue\pst@FMvalue@value \ifx\psk@Dstyle\pst@Dstyle@divider \rput(0,0){$\div\textrm{N}$} \else \rput(0,0){$\times\textrm{N}$} \fi \else \ifx\psk@Dstyle\pst@Dstyle@divider \rput(0,0){$\div\textrm{\psk@FMvalue}$} \else \rput(0,0){$\times\textrm{\psk@FMvalue}$} \fi \fi \fi% } % %%% phaseshifter \newCircDipole{phaseshifter} \def\pst@draw@phaseshifter{% \pnode(-0.4,0){dipole@1} \pnode(0.4,0){dipole@2} \pscircle[linewidth=1.5\pslinewidth](0,0){0.4} \psline[fillstyle=none,linewidth=1.5\pslinewidth,arrowinset=0]{->}(-0.5,-0.5)(0.5,0.5) } % %%% VCO \newCircDipole{vco} \def\pst@draw@vco{% \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} \pscurve[linewidth=1.5\pslinewidth]{c-c}(-0.3,0.000)(-0.225,0.088375)(-0.15,0.1250)(-0.075,0.088375)% (0,0.000)(0.075,-0.088375)(0.15,-0.125)(0.225,-0.088375)(0.3,0.000) } % %%% amplifier %%% % \newCircDipole{amplifier} \def\pst@draw@amplifier{% \pnode(-0.433,0){dipole@1} \pnode(0.433,0){dipole@2} \ifx\psk@Dinput\pst@Dinput@right \pstriangle[gangle=90,linewidth=1.5\pslinewidth](0.433,0)(1,0.866) \else \pstriangle[gangle=-90,linewidth=1.5\pslinewidth](-0.433,0)(1,0.866) \fi } % %%% detector %%% % \newCircDipole{detector} \def\pst@draw@detector{% \pnode(-0.5,0){dipole@1} \psline[fillstyle=none](-0.5,0)(-0.2165,0) \pnode(0.5,0){dipole@2} \psline[fillstyle=none](0.5,0)(0.2165,0) \psframe[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \ifx\psk@Dinput\pst@Dinput@right \pstriangle[gangle=90,linewidth=1.5\pslinewidth,fillstyle=none](0.2165,0)(0.5,0.433) \psline[fillstyle=none,linewidth=1.5\pslinewidth](-0.2165,-0.25)(-0.2165,0.25) \else \pstriangle[gangle=-90,linewidth=1.5\pslinewidth,fillstyle=none](-0.2165,0)(0.5,0.433) \psline[fillstyle=none,linewidth=1.5\pslinewidth](0.2165,-0.25)(0.2165,0.25) \fi } % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Tripole %%% mixer: tripolestyle:(bottom), top %%% inputarrow: (false) | true %%% tripoleinput: (left) | right %%% Circulator: tripolestyle=(circulator), isolator %%% tripoleconfig: (left) | right %%% inputarrow: (false) | true %%% tripoleinput: (left) | right %%% AGC: tripoleinput=(left)|right %%% inputarrow: (false) | true %%% tripoleinput: (left) | right %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % \def\mixer{\pst@object{mixer}} \def\mixer@i(#1)(#2)(#3)#4#5{% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 add 2 div def /YC Y2 def XC YC){C@} \begingroup \use@keep@par \ifx\psk@tripole@style\pst@tripole@style@top \addbefore@par{labeloffset=-0.9,dimen=middle}% \else \addbefore@par{labeloffset=0.9,dimen=middle}% \fi \use@par \rput(C@){\pst@draw@mixer{#3}{#4}{#5}} \endgroup \ifx\psk@Tinput\pst@Tinput@left% \ifPst@inputarrow \ncangle[arrows=->,arrowinset=0,arm=0.5,angleB=180]{#1}{Tport@left} \else \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{Tport@left} \fi \ncangle[arrows=-,arm=0.5,angleB=0]{#2}{Tport@right} \else \ifPst@inputarrow \ncangle[arrows=<-,arrowinset=0,arm=0.5,angleB=180]{Tport@right}{#2} \else \ncangle[arrows=-,arm=0.5,angleB=180]{Tport@right}{#2} \fi \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{Tport@left} \fi \pcline[linestyle=none](#1)(#2)% for the endarrows \pcline[linestyle=none](#2)(#3)% for the endarrows \ignorespaces% } \def\pst@draw@mixer#1#2#3{% \pscircle[#3,linewidth=1.5\pslinewidth](0,0){0.5} \let\psk@fillstyle\psfs@none \psline[linewidth=1.5\pslinewidth](-0.3535,-0.3535)(0.3535,0.3535) \psline[linewidth=1.5\pslinewidth](-0.3535,0.3535)(0.3535,-0.3535) \pnodes(-0.5,0){Tport@left}(0.5,0){Tport@right} \pcline[linestyle=none,offset=\psk@label@offset](Tport@left)(Tport@right)\ncput{#2} \ifx\psk@tripole@style\pst@tripole@style@top% \pnode(0,0.5){Tport@center} \ifPst@inputarrow \ncangle[arrows=->,arrowinset=0,arm=0.5,angleB=90]{#1}{Tport@center} \else \ncangle[arrows=-,arm=0.5,angleB=90]{#1}{Tport@center} \fi \else \pnode(0,-0.5){Tport@center} \ifPst@inputarrow \ncangle[arrows=->,arrowinset=0,arm=0.5,angleB=-90]{#1}{Tport@center} \else \ncangle[arrows=-,arm=0.5,angleB=-90]{#1}{Tport@center} \fi% \fi% } % %%% Circulator % \def\circulator{\pst@object{circulator}} \def\circulator@i#1(#2)(#3)(#4)#5#6{% \addbefore@par{dimen=middle}% \begin@ClosedObj \pst@getcoor{#2}\pst@tempa \pst@getcoor{#3}\pst@tempb \pst@getcoor{#4}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 add 2 div def /YC Y1 Y2 add 2 div def XC YC){C@} \rput{#1}(C@){\pst@draw@circulator{#4}{#5}{#6}} \nput{! 90 #1 add}{Tport@label}{#5} \ifPst@inputarrow \ncline[arrows=->,arrowinset=0]{#2}{Tport@input} %,arm=0.5,angleB=180 \else \ncline[arrows=-]{#2}{Tport@input} \fi \ncline[arrows=-]{#3}{Tport@output} %,arm=0.5,angleB=0 \pcline[linestyle=none](#2)(#3)% for the endarrows \pcline[linestyle=none](#3)(#4)% for the endarrows \end@ClosedObj \ignorespaces% } \def\pst@draw@circulator#1#2#3{% \pscircle[#3,linewidth=1.5\pslinewidth](0,0){0.5}% \pnode(0,0.6){Tport@label}% \ifx\psk@Tconfig\pst@Tconfig@left% \psarc[linewidth=1.5\pslinewidth,arrowinset=0]{<-}{0.35}{15}{155} \pnode(-0.5,0){Tport@input} \pnode(0.5,0){Tport@output} \else \psarc[linewidth=1.5\pslinewidth,arrowinset=0]{->}{0.35}{25}{165} \pnode(-0.5,0){Tport@output} \pnode(0.5,0){Tport@input} \fi% \ifx\psk@tripole@style\pst@tripole@style@isolator% \psline(0,-0.5)(0,-0.95)% \multips{0}(-0.225,-1)(0.1,0){5}% {\psline[arrows=-,linewidth=1.5\pslinewidth](0,0)(0.025,0.05)(0.075,-0.05)(0.1,0)}% \else \pnode(0,-0.5){Tport@center}% \ncline[arrows=-]{#1}{Tport@center} \fi% } % %%% AGC \def\agc{\pst@object{agc}} \def\agc@i(#1)(#2)(#3)#4#5{% \addbefore@par{dimen=middle}% \begin@ClosedObj \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 add 2 div def /YC Y2 def XC YC){C@} \rput(C@){\pst@draw@agc{#1}{#2}{#4}{#5}} \ncangle[arrows=-,arm=0.5,angleB=-90]{#3}{Tport@center} \pcline[linestyle=none](#1)(#2)% for the endarrows \pcline[linestyle=none](#2)(#3)% for the endarrows \end@ClosedObj \ignorespaces% } \def\pst@draw@agc#1#2#3#4{% \pnode(-0.433,0){Tport@left} \pnode(0.433,0){Tport@right} \pnode(0,-0.5){Tport@center} \rput[b](0,0.6){#3} \psline[arrows=->,arrowinset=0](0,-0.5)(0,-0.25) \ifx\psk@Tinput\pst@Tinput@left% \pstriangle[#4,gangle=-90,linewidth=1.5\pslinewidth](-0.433,0)(1,0.866) \psline[linewidth=1.5\pslinewidth,arrows=->,arrowinset=0](-0.55,-0.5)(0.25,0.5) \ifPst@inputarrow \ncangle[arrows=->,arrowinset=0,arm=0.5,angleB=180]{#1}{Tport@left} \else \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{Tport@left} \fi \ncangle[arrows=-,arm=0.5,angleB=0]{#2}{Tport@right} \else \pstriangle[#4,gangle=90,linewidth=1.5\pslinewidth](0.433,0)(1,0.866) \psline[linewidth=1.5\pslinewidth,arrows=->,arrowinset=0](0.55,-0.5)(-0.25,0.5) \ifPst@inputarrow \ncangle[arrows=<-,arrowinset=0,arm=0.5,angleB=180]{Tport@right}{#2} \else \ncangle[arrows=-,arm=0.5,angleB=180]{Tport@right}{#2} \fi \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{Tport@left}% \fi% } %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Quadripole %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Coupler %%% \def\coupler{\pst@object{coupler}} \def\coupler@i(#1)(#2)(#3)(#4)#5#6{% \addbefore@par{dimen=middle,arm=0}% \begin@ClosedObj% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pst@getcoor{#4}\pst@tempd \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def \pst@tempd /Y4 exch \pst@number\psyunit div def /X4 exch \pst@number\psxunit div def /XC X1 X2 lt {X2} {X1} ifelse X3 X4 lt {X3} {X4} ifelse add 2 div def /YC Y1 -0.4 add def XC YC){C@} \rput(C@){\pst@draw@coupler{#6}} \ncangle[arrows=-,angleA=0,angleB=-180]{#1}{inup@} \ncangle[arrows=-,angleA=180,angleB=0]{#3}{outup@} \ifx\psk@Qinput\pst@Qinput@left% \ifx\psk@Qstyle\pst@Qstyle@hybrid \ncangle[arrows=-,angleA=0,angleB=-180]{#2}{indown@} \fi \ncangle[arrows=-,angleA=180,angleB=0]{#4}{outdown@} \else \ncangle[arrows=-,angleA=0,angleB=-180]{#2}{indown@} \ifx\psk@Qstyle\pst@Qstyle@hybrid \ncangle[arrows=-,angleA=180,angleB=0]{#4}{outdown@} \fi \fi % \ncangle[arrows=-,angleA=180,angleB=0]{#4}{outdown@} \ncline[arrows=-,linestyle=none,fillstyle=none]{inup@}{outup@} \naput{#5} \pcline[linestyle=none](#1)(#3)% for the end arrows \pcline[linestyle=none](#2)(#4)% for the end arrows \end@ClosedObj% \ignorespaces% } % \def\pst@draw@coupler#1{% \pnode(-0.75,0.4){inup@} \pnode(0.75,0.4){outup@} \psframe[#1,linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \psline(-0.5,0.4)(0.5,0.4) \psline(-0.5,-0.4)(0.5,-0.4) \psline(-0.4,0.35)(0.4,-0.35) \psline(-0.4,-0.35)(0.4,0.35) % \ifx\psk@Qinput\pst@Qinput@left% \pnode(0.75,-0.4){outdown@} \ifPst@inputarrow% \psline[arrows=->,arrowinset=0](-0.75,0.4)(-0.5,0.4) \else \psline(-0.75,0.4)(-0.5,0.4) \fi \psline(0.5,0.4)(0.75,0.4) \psline(0.5,-0.4)(0.75,-0.4) \ifx\psk@Qstyle\pst@Qstyle@hybrid \pnode(-0.75,-0.4){indown@} \ifPst@inputarrow% \psline[arrows=->,arrowinset=0](-0.75,-0.4)(-0.5,-0.4) \else \psline(-0.75,-0.4)(-0.5,-0.4) \fi \else \ifx\psk@Qstyle\pst@Qstyle@directional \psline[arrows=-,linewidth=1.5\pslinewidth](-0.8,-0.75)(-0.8,-0.675) \multips{90}(-0.8,-0.675)(0,0.1){4}% {\psline[arrows=-,linewidth=1.5\pslinewidth](0,0)(0.025,0.05)(0.075,-0.05)(0.1,0)}% \psline[arrows=-,linewidth=1.5\pslinewidth](-0.8,-0.275)(-0.8,-0.2) \psline(-0.75,-0.4)(-0.5,-0.4) \fi \fi \else \pnode(-0.75,-0.4){indown@} \ifPst@inputarrow \psline[arrows=->,arrowinset=0](0.75,0.4)(0.5,0.4) \else \psline(0.75,0.4)(0.5,0.4) \fi \psline(-0.5,0.4)(-0.75,0.4) \psline(-0.5,-0.4)(-0.75,-0.4) \ifx\psk@Qstyle\pst@Qstyle@hybrid \pnode(0.75,-0.4){outdown@} \ifPst@inputarrow% \psline[arrows=->,arrowinset=0](0.75,-0.4)(0.5,-0.4) \else \psline(0.75,-0.4)(0.5,-0.4) \fi \else \ifx\psk@Qstyle\pst@Qstyle@directional \psline[arrows=-,linewidth=1.5\pslinewidth](0.8,-0.75)(0.8,-0.675) \multips{90}(0.8,-0.675)(0,0.1){4}% {\psline[arrows=-,linewidth=1.5\pslinewidth](0,0)(0.025,0.05)(0.075,-0.05)(0.1,0)}% \psline[arrows=-,linewidth=1.5\pslinewidth](0.8,-0.275)(0.8,-0.2) \psline(0.75,-0.4)(0.5,-0.4) \fi% \fi% \fi% } % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \def\logicic{\@ifnextchar[{\pst@intcirc}{\pst@intcirc[]}} \def\pst@intcirc[#1]{\@ifnextchar({\pst@intcirci[#1]{0}}{\pst@intcirci[#1]}} \def\pst@intcirci[#1]#2(#3)#4{{% \psset{#1}% \rput{#2}(#3){ % IC Styles \ifcase\psk@nicpins % % 8-Pin DIP IC % \def\icheight{2.5} \def\icwidth{3.5} \def\icleft{1.75} \def\icmid{2.25} \def\icright{2.75} % a \ifPst@pina \psline(0,2)(1,2) % Input a \uput[r](1,2){\small{\psk@pinalabel}} % Name a \uput[u](0.5,1.9){\small{\psk@pinanumber}} % Number a \ifPst@invertpina \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2){{\psk@bubblesize}} % Invert Input a \fi \fi % b \ifPst@pinb \psline(0,1.5)(1,1.5) % Input b \uput[r](1,1.5){{\psk@pinblabel}} % Name b \uput[u](0.5,1.4){{\psk@pinbnumber}} % Number b \ifPst@invertpinb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input b \fi \fi % c \ifPst@pinc \psline(0,1)(1,1) % Input c \uput[r](1,1){{\psk@pinclabel}} % Name c \uput[u](0.5,0.9){{\psk@pincnumber}} % Number c \ifPst@invertpinc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input c \fi \fi % d \ifPst@pind \psline(0,0.5)(1,0.5) % Input d \uput[r](1,0.5){{\psk@pindlabel}} % Name d \uput[u](0.5,0.4){{\psk@pindnumber}} % Number d \ifPst@invertpind \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input d \fi \fi % e \ifPst@pine \psline(3.5,0.5)(4.5,0.5) % Input e \uput[l](3.5,0.5){{\psk@pinelabel}} % Name e \uput[u](4,0.4){{\psk@pinenumber}} % Number e \ifPst@invertpine \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 0.5){{\psk@bubblesize}} % Invert Input e \fi \fi % f \ifPst@pinf \psline(3.5,1)(4.5,1) % Input f \uput[l](3.5,1){{\psk@pinflabel}} % Name f \uput[u](4,0.9){{\psk@pinfnumber}} % Number f \ifPst@invertpinf \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Input f \fi \fi % g \ifPst@ping \psline(3.5,1.5)(4.5,1.5) % Input g \uput[l](3.5,1.5){{\psk@pinglabel}} % Name g \uput[u](4,1.4){{\psk@pingnumber}} % Number g \ifPst@invertping \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1.5){{\psk@bubblesize}} % Invert Input g \fi \fi % h \ifPst@pinh \psline(3.5,2)(4.5,2) % Input h \uput[l](3.5,2){{\psk@pinhlabel}} % Name h \uput[u](4,1.9){{\psk@pinhnumber}} % Number h \ifPst@invertpinh \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 2){{\psk@bubblesize}} % Invert Input h \fi \fi % Body \psline[linewidth=1.5\pslinewidth](1,0)(1,2.5)(3.5,2.5)(3.5,0)(1,0) \or % % 14-Pin DIP IC % \def\icheight{4} \def\icwidth{3.5} \def\icleft{1.75} \def\icmid{2.25} \def\icright{2.75} % a \ifPst@pina \psline(0,3.5)(1,3.5) % Input a \uput[r](1,3.5){{\psk@pinalabel}} % Name a \uput[u](0.5,3.4){{\psk@pinanumber}} % Number a \ifPst@invertpina \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3.5){{\psk@bubblesize}} % Invert Input a \fi \fi % b \ifPst@pinb \psline(0,3)(1,3) % Input b \uput[r](1,3){{\psk@pinblabel}} % Name b \uput[u](0.5,2.9){{\psk@pinbnumber}} % Number b \ifPst@invertpinb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3){{\psk@bubblesize}} % Invert Input b \fi \fi % c \ifPst@pinc \psline(0,2.5)(1,2.5) % Input c \uput[r](1,2.5){{\psk@pinclabel}} % Name c \uput[u](0.5,2.4){{\psk@pincnumber}} % Number c \ifPst@invertpinc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2.5){{\psk@bubblesize}} % Invert Input c \fi \fi % d \ifPst@pind \psline(0,2)(1,2) % Input d \uput[r](1,2){{\psk@pindlabel}} % Name d \uput[u](0.5,1.9){{\psk@pindnumber}} % Number d \ifPst@invertpind \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2){{\psk@bubblesize}} % Invert Input d \fi \fi % e \ifPst@pine \psline(0,1.5)(1,1.5) % Input e \uput[r](1,1.5){{\psk@pinelabel}} % Name e \uput[u](0.5,1.4){{\psk@pinenumber}} % Number e \ifPst@invertpine \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input e \fi \fi % f \ifPst@pinf \psline(0,1)(1,1) % Input f \uput[r](1,1){{\psk@pinflabel}} % Name f \uput[u](0.5,0.9){{\psk@pinfnumber}} % Number f \ifPst@invertpinf \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input f \fi \fi % g \ifPst@ping \psline(0,0.5)(1,0.5) % Input g \uput[r](1,0.5){{\psk@pinglabel}} % Name g \uput[u](0.5,0.4){{\psk@pingnumber}} % Number g \ifPst@invertping \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input g \fi \fi % h \ifPst@pinh \psline(3.5,0.5)(4.5,0.5) % Input h \uput[l](3.5,0.5){{\psk@pinhlabel}} % Name h \uput[u](4,0.4){{\psk@pinhnumber}} % Number h \ifPst@invertpinh \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 0.5){{\psk@bubblesize}} % Invert Input h \fi \fi % i \ifPst@pini \psline(3.5,1)(4.5,1) % Input i \uput[l](3.5,1){{\psk@pinilabel}} % Name i \uput[u](4,0.9){{\psk@pininumber}} % Number i \ifPst@invertpini \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Input i \fi \fi % j \ifPst@pinj \psline(3.5,1.5)(4.5,1.5) % Input j \uput[l](3.5,1.5){{\psk@pinjlabel}} % Name j \uput[u](4,1.4){{\psk@pinjnumber}} % Number j \ifPst@invertpinj \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1.5){{\psk@bubblesize}} % Invert Input j \fi \fi % k \ifPst@pink \psline(3.5,2)(4.5,2) % Input k \uput[l](3.5,2){{\psk@pinklabel}} % Name k \uput[u](4,1.9){{\psk@pinknumber}} % Number k \ifPst@invertpink \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 2){{\psk@bubblesize}} % Invert Input k \fi \fi % l \ifPst@pinl \psline(3.5,2.5)(4.5,2.5) % Input l \uput[l](3.5,2.5){{\psk@pinllabel}} % Name l \uput[u](4,2.4){{\psk@pinlnumber}} % Number l \ifPst@invertpinl \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 2.5){{\psk@bubblesize}} % Invert Input l \fi \fi % m \ifPst@pinm \psline(3.5,3)(4.5,3) % Input m \uput[l](3.5,3){{\psk@pinmlabel}} % Name m \uput[u](4,2.9){{\psk@pinmnumber}} % Number m \ifPst@invertpinm \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 3){{\psk@bubblesize}} % Invert Input m \fi \fi % n \ifPst@pinn \psline(3.5,3.5)(4.5,3.5) % Input n \uput[l](3.5,3.5){{\psk@pinnlabel}} % Name n \uput[u](4,3.4){{\psk@pinnnumber}} % Number n \ifPst@invertpinn \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 3.5){{\psk@bubblesize}} % Invert Input n \fi \fi % Body \psline[linewidth=1.5\pslinewidth](1,0)(1,4)(3.5,4)(3.5,0)(1,0) \or % % 16-Pin DIP IC % \def\icheight{4.5} \def\icwidth{3.5} \def\icleft{1.75} \def\icmid{2.25} \def\icright{2.75} % a \ifPst@pina \psline(0,4)(1,4) % Input a \uput[r](1,4){{\psk@pinalabel}} % Name a \uput[u](0.5,3.9){{\psk@pinanumber}} % Number a \ifPst@invertpina \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 4){{\psk@bubblesize}} % Invert Input a \fi \fi % b \ifPst@pinb \psline(0,3.5)(1,3.5) % Input b \uput[r](1,3.5){{\psk@pinblabel}} % Name b \uput[u](0.5,3.4){{\psk@pinbnumber}} % Number b \ifPst@invertpinb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3.5){{\psk@bubblesize}} % Invert Input b \fi \fi % c \ifPst@pinc \psline(0,3)(1,3) % Input c \uput[r](1,3){{\psk@pinclabel}} % Name c \uput[u](0.5,2.9){{\psk@pincnumber}} % Number c \ifPst@invertpinc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3){{\psk@bubblesize}} % Invert Input c \fi \fi % d \ifPst@pind \psline(0,2.5)(1,2.5) % Input d \uput[r](1,2.5){{\psk@pindlabel}} % Name d \uput[u](0.5,2.4){{\psk@pindnumber}} % Number d \ifPst@invertpind \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2.5){{\psk@bubblesize}} % Invert Input d \fi \fi % e \ifPst@pine \psline(0,2)(1,2) % Input e \uput[r](1,2){{\psk@pinelabel}} % Name e \uput[u](0.5,1.9){{\psk@pinenumber}} % Number e \ifPst@invertpine \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2){{\psk@bubblesize}} % Invert Input e \fi \fi % f \ifPst@pinf \psline(0,1.5)(1,1.5) % Input f \uput[r](1,1.5){{\psk@pinflabel}} % Name f \uput[u](0.5,1.4){{\psk@pinfnumber}} % Number f \ifPst@invertpinf \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input f \fi \fi % g \ifPst@ping \psline(0,1)(1,1) % Input g \uput[r](1,1){{\psk@pinglabel}} % Name g \uput[u](0.5,0.9){{\psk@pingnumber}} % Number g \ifPst@invertping \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input g \fi \fi % h \ifPst@pinh \psline(0,0.5)(1,0.5) % Input h \uput[r](1,0.5){{\psk@pinhlabel}} % Name h \uput[u](0.5,0.4){{\psk@pinhnumber}} % Number h \ifPst@invertpinh \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input h \fi \fi % i \ifPst@pini \psline(3.5,0.5)(4.5,0.5) % Input i \uput[l](3.5,0.5){{\psk@pinilabel}} % Name i \uput[u](4,0.4){{\psk@pininumber}} % Number i \ifPst@invertpini \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 0.5){{\psk@bubblesize}} % Invert Input i \fi \fi % j \ifPst@pinj \psline(3.5,1)(4.5,1) % Input j \uput[l](3.5,1){{\psk@pinjlabel}} % Name j \uput[u](4,0.9){{\psk@pinjnumber}} % Number j \ifPst@invertpinj \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Input j \fi \fi % k \ifPst@pink \psline(3.5,1.5)(4.5,1.5) % Input k \uput[l](3.5,1.5){{\psk@pinklabel}} % Name k \uput[u](4,1.4){{\psk@pinknumber}} % Number k \ifPst@invertpink \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1.5){{\psk@bubblesize}} % Invert Input k \fi \fi % l \ifPst@pinl \psline(3.5,2)(4.5,2) % Input l \uput[l](3.5,2){{\psk@pinllabel}} % Name l \uput[u](4,1.9){{\psk@pinlnumber}} % Number l \ifPst@invertpinl \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 2){{\psk@bubblesize}} % Invert Input l \fi \fi % m \ifPst@pinm \psline(3.5,2.5)(4.5,2.5) % Input m \uput[l](3.5,2.5){{\psk@pinmlabel}} % Name m \uput[u](4,2.4){{\psk@pinmnumber}} % Number m \ifPst@invertpinm \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 2.5){{\psk@bubblesize}} % Invert Input m \fi \fi % n \ifPst@pinn \psline(3.5,3)(4.5,3) % Input n \uput[l](3.5,3){{\psk@pinnlabel}} % Name n \uput[u](4,2.9){{\psk@pinnnumber}} % Number n \ifPst@invertpinn \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 3){{\psk@bubblesize}} % Invert Input n \fi \fi % o \ifPst@pino \psline(3.5,3.5)(4.5,3.5) % Input o \uput[l](3.5,3.5){{\psk@pinolabel}} % Name o \uput[u](4,3.4){{\psk@pinonumber}} % Number o \ifPst@invertpino \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 3.5){{\psk@bubblesize}} % Invert Input o \fi \fi % p \ifPst@pinp \psline(3.5,4)(4.5,4) % Input p \uput[l](3.5,4){{\psk@pinplabel}} % Name p \uput[u](4,3.9){{\psk@pinpnumber}} % Number p \ifPst@invertpinp \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 4){{\psk@bubblesize}} % Invert Input p \fi \fi % Body \psline[linewidth=1.5\pslinewidth](1,0)(1,4.5)(3.5,4.5)(3.5,0)(1,0) \or % % 20-Pin DIP IC % \def\icheight{5.5} \def\icwidth{3.5} \def\icleft{1.75} \def\icmid{2.25} \def\icright{2.75} % a \ifPst@pina \psline(0,5)(1,5) % Input a \uput[r](1,5){{\psk@pinalabel}} % Name a \uput[u](0.5,4.9){{\psk@pinanumber}} % Number a \ifPst@invertpina \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 5){{\psk@bubblesize}} % Invert Input a \fi \fi % b \ifPst@pinb \psline(0,4.5)(1,4.5) % Input b \uput[r](1,4.5){{\psk@pinblabel}} % Name b \uput[u](0.5,4.4){{\psk@pinbnumber}} % Number b \ifPst@invertpinb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 4.5){{\psk@bubblesize}} % Invert Input b \fi \fi % c \ifPst@pinc \psline(0,4)(1,4) % Input c \uput[r](1,4){{\psk@pinclabel}} % Name c \uput[u](0.5,3.9){{\psk@pincnumber}} % Number c \ifPst@invertpinc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 4){{\psk@bubblesize}} % Invert Input c \fi \fi % d \ifPst@pind \psline(0,3.5)(1,3.5) % Input d \uput[r](1,3.5){{\psk@pindlabel}} % Name d \uput[u](0.5,3.4){{\psk@pindnumber}} % Number d \ifPst@invertpind \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3.5){{\psk@bubblesize}} % Invert Input d \fi \fi % e \ifPst@pine \psline(0,3)(1,3) % Input e \uput[r](1,3){{\psk@pinelabel}} % Name e \uput[u](0.5,2.9){{\psk@pinenumber}} % Number e \ifPst@invertpine \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3){{\psk@bubblesize}} % Invert Input e \fi \fi % f \ifPst@pinf \psline(0,2.5)(1,2.5) % Input f \uput[r](1,2.5){{\psk@pinflabel}} % Name f \uput[u](0.5,2.4){{\psk@pinfnumber}} % Number f \ifPst@invertpinf \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2.5){{\psk@bubblesize}} % Invert Input f \fi \fi % g \ifPst@ping \psline(0,2)(1,2) % Input g \uput[r](1,2){{\psk@pinglabel}} % Name g \uput[u](0.5,1.9){{\psk@pingnumber}} % Number g \ifPst@invertping \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2){{\psk@bubblesize}} % Invert Input g \fi \fi % h \ifPst@pinh \psline(0,1.5)(1,1.5) % Input h \uput[r](1,1.5){{\psk@pinhlabel}} % Name h \uput[u](0.5,1.4){{\psk@pinhnumber}} % Number h \ifPst@invertpinh \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input h \fi \fi % i \ifPst@pini \psline(0,1)(1,1) % Input i \uput[r](1,1){{\psk@pinilabel}} % Name i \uput[u](0.5,0.9){{\psk@pininumber}} % Number i \ifPst@invertpini \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input i \fi \fi % j \ifPst@pinj \psline(0,0.5)(1,0.5) % Input j \uput[r](1,0.5){{\psk@pinjlabel}} % Name j \uput[u](0.5,0.4){{\psk@pinjnumber}} % Number j \ifPst@invertpinj \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input j \fi \fi % k \ifPst@pink \psline(3.5,0.5)(4.5,0.5) % Input k \uput[l](3.5,0.5){{\psk@pinklabel}} % Name k \uput[u](4,0.4){{\psk@pinknumber}} % Number k \ifPst@invertpink \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 0.5){{\psk@bubblesize}} % Invert Input k \fi \fi % l \ifPst@pinl \psline(3.5,1)(4.5,1) % Input l \uput[l](3.5,1){{\psk@pinllabel}} % Name l \uput[u](4,0.9){{\psk@pinlnumber}} % Number l \ifPst@invertpinl \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Input l \fi \fi % m \ifPst@pinm \psline(3.5,1.5)(4.5,1.5) % Input m \uput[l](3.5,1.5){{\psk@pinmlabel}} % Name m \uput[u](4,1.4){{\psk@pinmnumber}} % Number m \ifPst@invertpinm \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1.5){{\psk@bubblesize}} % Invert Input m \fi \fi % n \ifPst@pinn \psline(3.5,2)(4.5,2) % Input n \uput[l](3.5,2){{\psk@pinnlabel}} % Name n \uput[u](4,1.9){{\psk@pinnnumber}} % Number n \ifPst@invertpinn \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 2){{\psk@bubblesize}} % Invert Input n \fi \fi % o \ifPst@pino \psline(3.5,2.5)(4.5,2.5) % Input o \uput[l](3.5,2.5){{\psk@pinolabel}} % Name o \uput[u](4,2.4){{\psk@pinonumber}} % Number o \ifPst@invertpino \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 2.5){{\psk@bubblesize}} % Invert Input o \fi \fi % p \ifPst@pinp \psline(3.5,3)(4.5,3) % Input p \uput[l](3.5,3){{\psk@pinplabel}} % Name p \uput[u](4,2.9){{\psk@pinpnumber}} % Number p \ifPst@invertpinp \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 3){{\psk@bubblesize}} % Invert Input p \fi \fi % q \ifPst@pinq \psline(3.5,3.5)(4.5,3.5) % Input q \uput[l](3.5,3.5){{\psk@pinqlabel}} % Name q \uput[u](4,3.4){{\psk@pinqnumber}} % Number q \ifPst@invertpinq \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 3.5){{\psk@bubblesize}} % Invert Input q \fi \fi % r \ifPst@pinr \psline(3.5,4)(4.5,4) % Input r \uput[l](3.5,4){{\psk@pinrlabel}} % Name r \uput[u](4,3.9){{\psk@pinrnumber}} % Number r \ifPst@invertpinr \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 4){{\psk@bubblesize}} % Invert Input r \fi \fi % s \ifPst@pins \psline(3.5,4.5)(4.5,4.5) % Input s \uput[l](3.5,4.5){{\psk@pinslabel}} % Name s \uput[u](4,4.4){{\psk@pinsnumber}} % Number s \ifPst@invertpins \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 4.5){{\psk@bubblesize}} % Invert Input s \fi \fi % t \ifPst@pint \psline(3.5,5)(4.5,5) % Input t \uput[l](3.5,5){{\psk@pintlabel}} % Name t \uput[u](4,4.9){{\psk@pintnumber}} % Number t \ifPst@invertpint \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 5){{\psk@bubblesize}} % Invert Input t \fi \fi % Body \psline[linewidth=1.5\pslinewidth](1,0)(1,5.5)(3.5,5.5)(3.5,0)(1,0) \or % % 32-Pin DIP IC % \def\icheight{8.5} \def\icwidth{4} \def\icleft{2} \def\icmid{2.5} \def\icright{3} % a \ifPst@pina \psline(0,8)(1,8) % Input a \uput[r](1,8){{\psk@pinalabel}} % Name a \uput[u](0.5,7.9){{\psk@pinanumber}} % Number a \ifPst@invertpina \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 8){{\psk@bubblesize}} % Invert Input a \fi \fi % b \ifPst@pinb \psline(0,7.5)(1,7.5) % Input b \uput[r](1,7.5){{\psk@pinblabel}} % Name b \uput[u](0.5,7.4){{\psk@pinbnumber}} % Number b \ifPst@invertpinb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 7.5){{\psk@bubblesize}} % Invert Input b \fi \fi % c \ifPst@pinc \psline(0,7)(1,7) % Input c \uput[r](1,7){{\psk@pinclabel}} % Name c \uput[u](0.5,6.9){{\psk@pincnumber}} % Number c \ifPst@invertpinc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 7){{\psk@bubblesize}} % Invert Input c \fi \fi % d \ifPst@pind \psline(0,6.5)(1,6.5) % Input d \uput[r](1,6.5){{\psk@pindlabel}} % Name d \uput[u](0.5,6.4){{\psk@pindnumber}} % Number d \ifPst@invertpind \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 6.5){{\psk@bubblesize}} % Invert Input d \fi \fi % e \ifPst@pine \psline(0,6)(1,6) % Input e \uput[r](1,6){{\psk@pinelabel}} % Name e \uput[u](0.5,5.9){{\psk@pinenumber}} % Number e \ifPst@invertpine \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 6){{\psk@bubblesize}} % Invert Input e \fi \fi % f \ifPst@pinf \psline(0,5.5)(1,5.5) % Input f \uput[r](1,5.5){{\psk@pinflabel}} % Name f \uput[u](0.5,5.4){{\psk@pinfnumber}} % Number f \ifPst@invertpinf \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 5.5){{\psk@bubblesize}} % Invert Input f \fi \fi % g \ifPst@ping \psline(0,5)(1,5) % Input g \uput[r](1,5){{\psk@pinglabel}} % Name g \uput[u](0.5,4.9){{\psk@pingnumber}} % Number g \ifPst@invertping \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 5){{\psk@bubblesize}} % Invert Input g \fi \fi % h \ifPst@pinh \psline(0,4.5)(1,4.5) % Input h \uput[r](1,4.5){{\psk@pinhlabel}} % Name h \uput[u](0.5,4.4){{\psk@pinhnumber}} % Number h \ifPst@invertpinh \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 4.5){{\psk@bubblesize}} % Invert Input h \fi \fi % i \ifPst@pini \psline(0,4)(1,4) % Input i \uput[r](1,4){{\psk@pinilabel}} % Name i \uput[u](0.5,3.9){{\psk@pininumber}} % Number i \ifPst@invertpini \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 4){{\psk@bubblesize}} % Invert Input i \fi \fi % j \ifPst@pinj \psline(0,3.5)(1,3.5) % Input j \uput[r](1,3.5){{\psk@pinjlabel}} % Name j \uput[u](0.5,3.4){{\psk@pinjnumber}} % Number j \ifPst@invertpinj \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3.5){{\psk@bubblesize}} % Invert Input j \fi \fi % k \ifPst@pink \psline(0,3)(1,3) % Input k \uput[r](1,3){{\psk@pinklabel}} % Name k \uput[u](0.5,2.9){{\psk@pinknumber}} % Number k \ifPst@invertpink \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3){{\psk@bubblesize}} % Invert Input k \fi \fi % l \ifPst@pinl \psline(0,2.5)(1,2.5) % Input l \uput[r](1,2.5){{\psk@pinllabel}} % Name l \uput[u](0.5,2.4){{\psk@pinlnumber}} % Number l \ifPst@invertpinl \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2.5){{\psk@bubblesize}} % Invert Input l \fi \fi % m \ifPst@pinm \psline(0,2)(1,2) % Input m \uput[r](1,2){{\psk@pinmlabel}} % Name m \uput[u](0.5,1.9){{\psk@pinmnumber}} % Number m \ifPst@invertpinm \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2){{\psk@bubblesize}} % Invert Input m \fi \fi % n \ifPst@pinn \psline(0,1.5)(1,1.5) % Input n \uput[r](1,1.5){{\psk@pinnlabel}} % Name n \uput[u](0.5,1.4){{\psk@pinnnumber}} % Number n \ifPst@invertpinn \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input n \fi \fi % o \ifPst@pino \psline(0,1)(1,1) % Input o \uput[r](1,1){{\psk@pinolabel}} % Name o \uput[u](0.5,0.9){{\psk@pinonumber}} % Number o \ifPst@invertpino \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input o \fi \fi % p \ifPst@pinp \psline(0,0.5)(1,0.5) % Input p \uput[r](1,0.5){{\psk@pinplabel}} % Name p \uput[u](0.5,0.4){{\psk@pinpnumber}} % Number p \ifPst@invertpinp \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input p \fi \fi % q \ifPst@pinq \psline(4,0.5)(5,0.5) % Input q \uput[l](4,0.5){{\psk@pinqlabel}} % Name q \uput[u](4.5,0.4){{\psk@pinqnumber}} % Number q \ifPst@invertpinq \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 0.5){{\psk@bubblesize}} % Invert Input q \fi \fi % r \ifPst@pinr \psline(4,1)(5,1) % Input r \uput[l](4,1){{\psk@pinrlabel}} % Name r \uput[u](4.5,0.9){{\psk@pinrnumber}} % Number r \ifPst@invertpinr \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Input r \fi \fi % s \ifPst@pins \psline(4,1.5)(5,1.5) % Input s \uput[l](4,1.5){{\psk@pinslabel}} % Name s \uput[u](4.5,1.4){{\psk@pinsnumber}} % Number s \ifPst@invertpins \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 1.5){{\psk@bubblesize}} % Invert Input s \fi \fi % t \ifPst@pint \psline(4,2)(5,2) % Input t \uput[l](4,2){{\psk@pintlabel}} % Name t \uput[u](4.5,1.9){{\psk@pintnumber}} % Number t \ifPst@invertpint \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 2){{\psk@bubblesize}} % Invert Input t \fi \fi % u \ifPst@pinu \psline(4,2.5)(5,2.5) % Input u \uput[l](4,2.5){{\psk@pinulabel}} % Name u \uput[u](4.5,2.4){{\psk@pinunumber}} % Number u \ifPst@invertpinu \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 2.5){{\psk@bubblesize}} % Invert Input u \fi \fi % v \ifPst@pinv \psline(4,3)(5,3) % Input v \uput[l](4,3){{\psk@pinvlabel}} % Name v \uput[u](4.5,2.9){{\psk@pinvnumber}} % Number v \ifPst@invertpinv \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 3){{\psk@bubblesize}} % Invert Input v \fi \fi % w \ifPst@pinw \psline(4,3.5)(5,3.5) % Input w \uput[l](4,3.5){{\psk@pinwlabel}} % Name w \uput[u](4.5,3.4){{\psk@pinwnumber}} % Number w \ifPst@invertpinw \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 3.5){{\psk@bubblesize}} % Invert Input w \fi \fi % x \ifPst@pinx \psline(4,4)(5,4) % Input x \uput[l](4,4){{\psk@pinxlabel}} % Name x \uput[u](4.5,3.9){{\psk@pinxnumber}} % Number x \ifPst@invertpinx \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 4){{\psk@bubblesize}} % Invert Input x \fi \fi % y \ifPst@piny \psline(4,4.5)(5,4.5) % Input y \uput[l](4,4.5){{\psk@pinylabel}} % Name y \uput[u](4.5,4.4){{\psk@pinynumber}} % Number y \ifPst@invertpiny \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 4.5){{\psk@bubblesize}} % Invert Input y \fi \fi % z \ifPst@pinz \psline(4,5)(5,5) % Input z \uput[l](4,5){{\psk@pinzlabel}} % Name z \uput[u](4.5,4.9){{\psk@pinznumber}} % Number z \ifPst@invertpinz \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 5){{\psk@bubblesize}} % Invert Input z \fi \fi % aa \ifPst@pinaa \psline(4,5.5)(5,5.5) % Input aa \uput[l](4,5.5){{\psk@pinaalabel}} % Name aa \uput[u](4.5,5.4){{\psk@pinaanumber}} % Number aa \ifPst@invertpinaa \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 5.5){{\psk@bubblesize}} % Invert Input aa \fi \fi % ab \ifPst@pinab \psline(4,6)(5,6) % Input ab \uput[l](4,6){{\psk@pinablabel}} % Name ab \uput[u](4.5,5.9){{\psk@pinabnumber}} % Number ab \ifPst@invertpinab \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 6){{\psk@bubblesize}} % Invert Input ab \fi \fi % ac \ifPst@pinac \psline(4,6.5)(5,6.5) % Input ac \uput[l](4,6.5){{\psk@pinaclabel}} % Name ac \uput[u](4.5,6.4){{\psk@pinacnumber}} % Number ac \ifPst@invertpinac \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 6.5){{\psk@bubblesize}} % Invert Input ac \fi \fi % ad \ifPst@pinad \psline(4,7)(5,7) % Input ad \uput[l](4,7){{\psk@pinadlabel}} % Name ad \uput[u](4.5,6.9){{\psk@pinadnumber}} % Number ad \ifPst@invertpinad \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 7){{\psk@bubblesize}} % Invert Input ad \fi \fi % ae \ifPst@pinae \psline(4,7.5)(5,7.5) % Input ae \uput[l](4,7.5){{\psk@pinaelabel}} % Name ae \uput[u](4.5,7.4){{\psk@pinaenumber}} % Number ae \ifPst@invertpinae \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 7.5){{\psk@bubblesize}} % Invert Input ae \fi \fi % af \ifPst@pinaf \psline(4,8)(5,8) % Input af \uput[l](4,8){{\psk@pinaflabel}} % Name af \uput[u](4.5,7.9){{\psk@pinafnumber}} % Number af \ifPst@invertpinaf \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 8){{\psk@bubblesize}} % Invert Input af \fi \fi % Body \psline[linewidth=1.5\pslinewidth](1,0)(1,8.5)(4,8.5)(4,0)(1,0) \fi % % Top Pins % % tl \ifPst@pintl \pnode(\icleft,\icheight){A} \pnode([angle=90,offset=-0.1]A){B} \psline(A)([angle=0,offset=1]A) % Input tl \uput[d](A){{\psk@pintllabel}} % Name tl \uput[l]([angle=0,offset=0.55]B){{\psk@pintlnumber}} % Number tl \ifPst@invertpintl \pscircle[fillstyle=solid]([angle=0,offset=\psk@bubblesize]A){{\psk@bubblesize}} % Invert Input tl \fi \fi % tc \ifPst@pintc \pnode(\icmid,\icheight){A} \pnode([angle=90,offset=-0.1]A){B} \psline(A)([angle=0,offset=1]A) % Input tc \uput[d](A){{\psk@pintclabel}} % Name tc \uput[l]([angle=0,offset=0.55]B){{\psk@pintcnumber}} % Number tc \ifPst@invertpintc \pscircle[fillstyle=solid]([angle=0,offset=\psk@bubblesize]A){{\psk@bubblesize}} % Invert Input tc \fi \fi % tr \ifPst@pintr \pnode(\icright,\icheight){A} \pnode([angle=90,offset=-0.1]A){B} \psline(A)([angle=0,offset=1]A) % Input tr \uput[d](A){{\psk@pintrlabel}} % Name tr \uput[l]([angle=0,offset=0.55]B){{\psk@pintrnumber}} % Number tr \ifPst@invertpintc \pscircle[fillstyle=solid]([angle=0,offset=\psk@bubblesize]A){{\psk@bubblesize}} % Invert Input tr \fi \fi % % Bottom Pins % % bl \ifPst@pinbl \pnode(\icleft,0){A} \pnode([angle=-90,offset=0.1]A){B} \psline(A)([angle=0,offset=-1]A) % Input bl \uput[u](A){{\psk@pinbllabel}} % Name bl \uput[l]([angle=0,offset=-0.55]B){{\psk@pinblnumber}} % Number bl \ifPst@invertpinbl \pscircle[fillstyle=solid]([angle=0,offset=-\psk@bubblesize]A){{\psk@bubblesize}} % Invert Input bl \fi \fi % bc \ifPst@pinbc \pnode(\icmid,0){A} \pnode([angle=-90,offset=0.1]A){B} \psline(A)([angle=0,offset=-1]A) % Input bc \uput[u](A){{\psk@pinbclabel}} % Name bc \uput[l]([angle=0,offset=-0.55]B){{\psk@pinbcnumber}} % Number bc \ifPst@invertpinbc \pscircle[fillstyle=solid]([angle=0,offset=-\psk@bubblesize]A){{\psk@bubblesize}} % Invert Input bc \fi \fi % br \ifPst@pinbr \pnode(\icright,0){A} \pnode([angle=-90,offset=0.1]A){B} \psline(A)([angle=0,offset=-1]A) % Input br \uput[u](A){{\psk@pinbrlabel}} % Name br \uput[l]([angle=0,offset=-0.55]B){{\psk@pinbrnumber}} % Number br \ifPst@invertpinbc \pscircle[fillstyle=solid]([angle=0,offset=-\psk@bubblesize]A){{\psk@bubblesize}} % Invert Input br \fi \fi % Name \uput[r](\icwidth,0){#4} }}% \ignorespaces } % NOT Gate \logicnot % % Input at (+0,+1) % Output at (+3.5,+1) % \def\logicnot{\@ifnextchar[{\pst@logicnot}{\pst@logicnot[]}} \def\pst@logicnot[#1]{\@ifnextchar({\pst@logicnoti[#1]{0}}{\pst@logicnoti[#1]}} \def\pst@logicnoti[#1]#2(#3)#4{{% \psset{#1}% \rput{#2}(#3){ % Input \psline(0,1)(1,1) % Input \ifPst@invertinput \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input \fi % Body \ifPst@iec \psline[linewidth=1.5\pslinewidth](1,0)(2.5,0)(2.5,2)(1,2)(1,0) \uput[u](1.75,1.25){1} \else \psline[linewidth=1.5\pslinewidth](1,0)(1,2)(2.5,1)(1,0) \fi % Output \psline(2.5,1)(3.5,1) \ifPst@invertoutput \ifPst@iecinvert \psline(2.5,1.25)(3,1) \else \pscircle[fillstyle=solid](! 2.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Output \fi \fi % Name \uput[r](2.5,0){#4} \psset{} }}% \ignorespaces } % AND Gate (NAND Gate) \logicand % % 2-Input % Input A at (+0,+1) % Input B at () % Output at (+3.5,+1) % % 3-Input % Input A at (+0,+1) % Input B at () % Input C at () % Output at (+3.5,+1) % % 4-Input % Input A at (+0,+1) % Input B at () % Input C at () % Input D at () % Output at (+3.5,+1) % \def\logicand{\@ifnextchar[{\pst@logicand}{\pst@logicand[]}} \def\pst@logicand[#1]{\@ifnextchar({\pst@logicandi[#1]{0}}{\pst@logicandi[#1]}} \def\pst@logicandi[#1]#2(#3)#4{{% \psset{#1} \rput{#2}(#3){ % Inputs \ifcase\psk@ninputs\or \ifPst@inputa \psline(0,1)(1,1) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input A \fi \fi \or \ifPst@inputa \psline(0,1.5)(1,1.5) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,0.5)(1,0.5) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input B \fi \fi \or \ifPst@inputa \psline(0,1.5)(1,1.5) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,1)(1,1) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input B \fi \fi \ifPst@inputc \psline(0,0.5)(1,0.5) % Input C \ifPst@invertinputc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input C \fi \fi \or \ifPst@inputa \psline(0,1.75)(1,1.75) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.75){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,1.25)(1,1.25) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.25){{\psk@bubblesize}} % Invert Input B \fi \fi \ifPst@inputc \psline(0,0.75)(1,0.75) % Input C \ifPst@invertinputc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.75){{\psk@bubblesize}} % Invert Input C \fi \fi \ifPst@inputd \psline(0,0.25)(1,0.25) % Input D \ifPst@invertinputd \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.25){{\psk@bubblesize}} % Invert Input D \fi \fi \fi % Body \ifPst@iec \psline[linewidth=1.5\pslinewidth](1,0)(2.5,0)(2.5,2)(1,2)(1,0) \uput[u](1.75,1.25){\&} \else \psline[linewidth=1.5\pslinewidth](1,0)(1,2) \psline[linewidth=1.5\pslinewidth](1,0)(2.5,0) \psline[linewidth=1.5\pslinewidth](1,2)(2.5,2) \psbezier[linewidth=1.5\pslinewidth](2.5,0)(3.5,0)(3.5,1)(3.5,1) \psbezier[linewidth=1.5\pslinewidth](3.5,1)(3.5,1)(3.5,2)(2.5,2) \fi % Output \ifPst@iec \psline(2.5,1)(3.5,1) \else \psline(3.5,1)(4.5,1) \fi \ifPst@invertoutput \ifPst@iecinvert \psline(2.5,1.25)(3,1) \else \ifPst@iec \pscircle[fillstyle=solid](! 2.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Output \else \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Output \fi \fi \fi % Name \ifPst@iec \uput[r](2.5,0){#4} \else \uput[r](3.25,0){#4} \fi }}% \ignorespaces } % OR Gate (NOR Gate) \logicor % % Input at (+0,+1) % Output at (+3.5,+1) % \def\logicor{\@ifnextchar[{\pst@logicor}{\pst@logicor[]}} \def\pst@logicor[#1]{\@ifnextchar({\pst@logicori[#1]{0}}{\pst@logicori[#1]}} \def\pst@logicori[#1]#2(#3)#4{{% \psset{#1}% \rput{#2}(#3){ % Inputs \ifcase\psk@ninputs\or \ifPst@inputa \psline(0,1)(1.08,1) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1.08 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input A \fi \fi \or \ifPst@inputa \psline(0,1.5)(1,1.5) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,0.5)(1,0.5) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input B \fi \fi \or \ifPst@inputa \psline(0,1.5)(1,1.5) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,1)(1.06,1) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1.09 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input B \fi \fi \ifPst@inputc \psline(0,0.5)(1,0.5) % Input C \ifPst@invertinputc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input C \fi \fi \or \ifPst@inputa \psline(0,1.75)(0.88,1.75) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 0.87 \space\psk@bubblesize\space sub 1.75){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,1.25)(1.05,1.25) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1.07 \space\psk@bubblesize\space sub 1.25){{\psk@bubblesize}} % Invert Input B \fi \fi \ifPst@inputc \psline(0,0.75)(1.05,0.75) % Input C \ifPst@invertinputc \pscircle[fillstyle=solid](! 1.07 \space\psk@bubblesize\space sub 0.75){{\psk@bubblesize}} % Invert Input C \fi \fi \ifPst@inputc \psline(0,0.25)(0.88,0.25) % Input D \ifPst@invertinputd \pscircle[fillstyle=solid](! 0.87 \space\psk@bubblesize\space sub 0.25){{\psk@bubblesize}} % Invert Input D \fi \fi \fi % Body \ifPst@iec \psline[linewidth=1.5\pslinewidth](1,0)(2.5,0)(2.5,2)(1,2)(1,0) \uput[u](1.75,1.25){$\geq 1$} \else \psbezier[linewidth=1.5\pslinewidth](0.7,0)(1.2,0.5)(1.2,1.5)(0.7,2) \psline[linewidth=1.5\pslinewidth](0.7,0)(2,0) \psline[linewidth=1.5\pslinewidth](0.7,2)(2,2) \psbezier[linewidth=1.5\pslinewidth](2,0)(3,0)(3.5,1)(3.5,1) \psbezier[linewidth=1.5\pslinewidth](3.5,1)(3.5,1)(3,2)(2,2) \fi % Output \ifPst@iec \psline(2.5,1)(3.5,1) \else \psline(3.5,1)(4.5,1) \fi \ifPst@invertoutput \ifPst@iecinvert \psline(2.5,1.25)(3,1) \else \ifPst@iec \pscircle[fillstyle=solid](! 2.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Output \else \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Output \fi \fi \fi % Name \ifPst@iec \uput[r](2.5,0){#4} \else \uput[r](3.25,0){#4} \fi }}% \ignorespaces } % Exclusive-OR Gate (Exclusive NOR Gate) \logicxor % % Input at (+0,+1) % Output at (+3.5,+1) % \def\logicxor{\@ifnextchar[{\pst@logicxor}{\pst@logicxor[]}} \def\pst@logicxor[#1]{\@ifnextchar({\pst@logicxori[#1]{0}}{\pst@logicxori[#1]}} \def\pst@logicxori[#1]#2(#3)#4{{% \psset{#1}% \rput{#2}(#3){% % Inputs \ifcase\psk@ninputs\or \ifPst@inputa \psline(0,1)(1.08,1) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1.08 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input A \fi \fi \or \ifPst@inputa \psline(0,1.5)(1,1.5) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,0.5)(1,0.5) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input B \fi \fi \or \ifPst@inputa \psline(0,1.5)(1,1.5) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,1)(1.06,1) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1.09 \space\psk@bubblesize\space sub 1){{\psk@bubblesize}} % Invert Input B \fi \fi \ifPst@inputc \psline(0,0.5)(1,0.5) % Input C \ifPst@invertinputc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.5){{\psk@bubblesize}} % Invert Input C \fi \fi \or \ifPst@inputa \psline(0,1.75)(0.88,1.75) % Input A \ifPst@invertinputa \pscircle[fillstyle=solid](! 0.87 \space\psk@bubblesize\space sub 1.75){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,1.25)(1.05,1.25) % Input B \ifPst@invertinputb \pscircle[fillstyle=solid](! 1.07 \space\psk@bubblesize\space sub 1.25){{\psk@bubblesize}} % Invert Input B \fi \fi \ifPst@inputc \psline(0,0.75)(1.05,0.75) % Input C \ifPst@invertinputc \pscircle[fillstyle=solid](! 1.07 \space\psk@bubblesize\space sub 0.75){{\psk@bubblesize}} % Invert Input C \fi \fi \ifPst@inputd \psline(0,0.25)(0.88,0.25) % Input D \ifPst@invertinputd \pscircle[fillstyle=solid](! 0.87 \space\psk@bubblesize\space sub 0.25){{\psk@bubblesize}} % Invert Input D \fi \fi \fi % Body \ifPst@iec \psline[linewidth=1.5\pslinewidth](1,0)(2.5,0)(2.5,2)(1,2)(1,0) \uput[u](1.75,1.25){$= 1$} \else \psbezier[linewidth=1.5\pslinewidth](0.7,0)(1.2,0.5)(1.2,1.5)(0.7,2) \psbezier[linewidth=1.5\pslinewidth](1,0)(1.5,0.5)(1.5,1.5)(1,2) \psline[linewidth=1.5\pslinewidth](1,0)(2,0) \psline[linewidth=1.5\pslinewidth](1,2)(2,2) \psbezier[linewidth=1.5\pslinewidth](2,0)(3,0)(3.5,1)(3.5,1) \psbezier[linewidth=1.5\pslinewidth](3.5,1)(3.5,1)(3,2)(2,2) \fi % Output \ifPst@iec \psline(2.5,1)(3.5,1) \else \psline(3.5,1)(4.5,1) \fi \ifPst@invertoutput \ifPst@iecinvert \psline(2.5,1.25)(3,1) \else \ifPst@iec \pscircle[fillstyle=solid](! 2.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Output \else \pscircle[fillstyle=solid](! 3.5 \space\psk@bubblesize\space add 1){{\psk@bubblesize}} % Invert Output \fi \fi \fi % Name \ifPst@iec \uput[r](2.5,0){#4} \else \uput[r](3.25,0){#4} \fi }}% \ignorespaces } % Flip-Flop % % Input A at (+0,+2.25) % Input B at (+0,+0.75) % Output Q at (+3.5,+2.25) % Output Not Q at (+3.5,+0.75) % \def\logicff{\@ifnextchar[{\pst@logicff}{\pst@logicff[]}} \def\pst@logicff[#1]{\@ifnextchar({\pst@logicffi[#1]{0}}{\pst@logicffi[#1]}} \def\pst@logicffi[#1]#2(#3)#4{{% \psset{#1}% \rput{#2}(#3){% % Inputs \ifPst@inputa \psline(0,2.25)(1,2.25) % Input A \uput[r](1,2.25){\psk@inputalabel} % Input A Label \ifPst@invertinputa \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2.25){{\psk@bubblesize}} % Invert Input A \fi \fi \ifPst@inputb \psline(0,0.75)(1,0.75) % Input B \uput[r](1,0.75){\psk@inputblabel} % Input B Label \ifPst@invertinputb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.75){{\psk@bubblesize}} % Invert Input B \fi \fi \ifPst@enable \psline(0,1.5)(1,1.5) % Enable \uput[r](1,1.5){\psk@inputenlabel} % Enable Label \ifPst@invertenable \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Enable \fi \fi \ifPst@clock \psline(0,1.5)(1,1.5) % Clock \psline(1,1.7)(1.4,1.5)(1,1.3) \uput[r](1.4,1.5){\psk@inputcllabel} % Clock Label \ifPst@invertclock \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.5){{\psk@bubblesize}} % Invert Clock \fi \fi \ifPst@set \psline(2,4)(2,3) % Set \uput[d](2,3){$S$} % Set Label \ifPst@invertset \pscircle[fillstyle=solid](! 2 3 \space\psk@bubblesize\space add){{\psk@bubblesize}} % Invert Set \fi \fi \ifPst@reset \psline(2,-1)(2,0) % Reset \uput[u](2,0){$R$} % Reset Label \ifPst@invertreset \pscircle[fillstyle=solid](2,-\psk@bubblesize){{\psk@bubblesize}} % Invert Reset \fi \fi % Body \psline[linewidth=1.5\pslinewidth](1,0)(1,3)(3,3)(3,0)(1,0) % Outputs \ifPst@outputa \psline(3,2.25)(4,2.25) % Output Q \uput[l](3,2.25){\psk@outputalabel} \ifPst@invertoutputa \pscircle[fillstyle=solid](! 3 \space\psk@bubblesize\space add 2.25){{\psk@bubblesize}} % Invert Q \fi \fi \ifPst@outputb \psline(3,0.75)(4,0.75) % Output Not Q \uput[l](3,0.75){\psk@outputblabel} \ifPst@invertoutputb \pscircle[fillstyle=solid](! 3 \space\psk@bubblesize\space add 0.75){{\psk@bubblesize}} \fi \fi % Name \uput[r](3,0){#4} }}% \ignorespaces } % % 7-Segment Display \sevensegmentdisplay % \def\sevensegmentdisplay{\@ifnextchar[{\pst@sevensegmentdisplay}{\pst@sevensegmentdisplay[]}} \def\pst@sevensegmentdisplay[#1]{\@ifnextchar({\pst@sevensegmentdisplayi[#1]{0}}{\pst@sevensegmentdisplayi[#1]}} \def\pst@sevensegmentdisplayi[#1]#2(#3)#4{{% \psset{#1}% \rput{#2}(#3){% % Left Side Pins % la \ifPst@pinla \psline(0,3.75)(1,3.75) % Input la \uput[r](1,3.75){{\psk@pinlalabel}} % Name la \uput[u](0.5,3.65){{\psk@pinlanumber}} % Number la \ifPst@invertpinla \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3.75){{\psk@bubblesize}} % Invert Input la \fi \fi % lb \ifPst@pinlb \psline(0,3.25)(1,3.25) % Input lb \uput[r](1,3.25){{\psk@pinlblabel}} % Name lb \uput[u](0.5,3.15){{\psk@pinlbnumber}} % Number lb \ifPst@invertpinlb \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 3.25){{\psk@bubblesize}} % Invert Input lb \fi \fi % lc \ifPst@pinlc \psline(0,2.75)(1,2.75) % Input lc \uput[r](1,2.75){{\psk@pinlclabel}} % Name lc \uput[u](0.5,2.65){{\psk@pinlcnumber}} % Number lc \ifPst@invertpinlc \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2.75){{\psk@bubblesize}} % Invert Input lc \fi \fi % ld \ifPst@pinld \psline(0,2.25)(1,2.25) % Input ld \uput[r](1,2.25){{\psk@pinldlabel}} % Name ld \uput[u](0.5,2.15){{\psk@pinldnumber}} % Number ld \ifPst@invertpinld \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 2.25){{\psk@bubblesize}} % Invert Input ld \fi \fi % le \ifPst@pinle \psline(0,1.75)(1,1.75) % Input le \uput[r](1,1.75){{\psk@pinlelabel}} % Name le \uput[u](0.5,1.65){{\psk@pinlenumber}} % Number le \ifPst@invertpinle \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.75){{\psk@bubblesize}} % Invert Input le \fi \fi % lf \ifPst@pinlf \psline(0,1.25)(1,1.25) % Input lf \uput[r](1,1.25){{\psk@pinlflabel}} % Name lf \uput[u](0.5,1.15){{\psk@pinlfnumber}} % Number lf \ifPst@invertpinlf \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 1.25){{\psk@bubblesize}} % Invert Input lf \fi \fi % lg \ifPst@pinlg \psline(0,0.75)(1,0.75) % Input lg \uput[r](1,0.75){{\psk@pinlglabel}} % Name lg \uput[u](0.5,0.65){{\psk@pinlgnumber}} % Number lg \ifPst@invertpinlg \pscircle[fillstyle=solid](! 1 \space\psk@bubblesize\space sub 0.75){{\psk@bubblesize}} % Invert Input lg \fi \fi % Right Side Pins % rg \ifPst@pinrg \psline(4.5,0.75)(5.5,0.75) % Input rg \uput[l](4.5,0.75){{\psk@pinrglabel}} % Name rg \uput[u](5,0.65){{\psk@pinrgnumber}} % Number rg \ifPst@invertpinrg \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 0.75){{\psk@bubblesize}} % Invert Input rg \fi \fi % rf \ifPst@pinrf \psline(4.5,1.25)(5.5,1.25) % Input rf \uput[l](4.5,1.25){{\psk@pinrflabel}} % Name rf \uput[u](5,1.15){{\psk@pinrfnumber}} % Number rf \ifPst@invertpinf \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 1.25){{\psk@bubblesize}} % Invert Input rf \fi \fi % re \ifPst@pinre \psline(4.5,1.75)(5.5,1.75) % Input re \uput[l](4.5,1.75){{\psk@pinrelabel}} % Name re \uput[u](5,1.65){{\psk@pinrenumber}} % Number re \ifPst@invertpinre \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 1.75){{\psk@bubblesize}} % Invert Input re \fi \fi % rd \ifPst@pinrd \psline(4.5,2.25)(5.5,2.25) % Input rd \uput[l](4.5,2.25){{\psk@pinrdlabel}} % Name rd \uput[u](5,2.15){{\psk@pinrdnumber}} % Number rd \ifPst@invertpinrd \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 2.25){{\psk@bubblesize}} % Invert Input rd \fi \fi % rc \ifPst@pinrc \psline(4.5,2.75)(5.5,2.75) % Input rc \uput[l](4.5,2.75){{\psk@pinrclabel}} % Name rc \uput[u](5,2.65){{\psk@pinrcnumber}} % Number rc \ifPst@invertpinrc \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 2.75){{\psk@bubblesize}} % Invert Input rc \fi \fi % rb \ifPst@pinrb \psline(4.5,3.25)(5.5,3.25) % Input rb \uput[l](4.5,3.25){{\psk@pinrblabel}} % Name rb \uput[u](5,3.15){{\psk@pinrbnumber}} % Number rb \ifPst@invertpinrb \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 3.25){{\psk@bubblesize}} % Invert Input rb \fi \fi % ra \ifPst@pinra \psline(4.5,3.75)(5.5,3.75) % Input ra \uput[l](4.5,3.75){{\psk@pinralabel}} % Name ra \uput[u](5,3.65){{\psk@pinranumber}} % Number ra \ifPst@invertpinra \pscircle[fillstyle=solid](! 4 \space\psk@bubblesize\space add 3.75){{\psk@bubblesize}} % Invert Input ra \fi \fi % Top Pins % ta \ifPst@pinta \psline(1.75,4.5)(1.75,5.5) % Input ta \uput[d](1.75,4.5){{\psk@pintalabel}} % Name ta \uput[l](1.75,5.05){{\psk@pintanumber}} % Number ta \ifPst@invertpinta \pscircle[fillstyle=solid](1.75,4.5){{\psk@bubblesize}} % Invert Input ta \fi \fi % tb \ifPst@pintb \psline(2.25,4.5)(2.25,5.5) % Input tb \uput[d](2.25,4.5){{\psk@pintblabel}} % Name tb \uput[l](2.25,5.05){{\psk@pintbnumber}} % Number tb \ifPst@invertpintb \pscircle[fillstyle=solid](2.25,4.5){{\psk@bubblesize}} % Invert Input tb \fi \fi % tc \ifPst@pintc \psline(2.75,4.5)(2.75,5.5) % Input tc \uput[d](2.75,4.5){{\psk@pintclabel}} % Name tc \uput[l](2.75,5.05){{\psk@pintcnumber}} % Number tc \ifPst@invertpintc \pscircle[fillstyle=solid](2.75,4.5){{\psk@bubblesize}} % Invert Input tc \fi \fi % td \ifPst@pintd \psline(3.25,4.5)(3.25,5.5) % Input td \uput[d](3.25,4.5){{\psk@pintdlabel}} % Name td \uput[l](3.25,5.05){{\psk@pintdnumber}} % Number td \ifPst@invertpintd \pscircle[fillstyle=solid](3.25,4.5){{\psk@bubblesize}} % Invert Input td \fi \fi % te \ifPst@pinte \psline(3.75,4.5)(3.75,5.5) % Input te \uput[d](3.75,4.5){{\psk@pintelabel}} % Name te \uput[l](3.75,5.05){{\psk@pintenumber}} % Number te \ifPst@invertpinte \pscircle[fillstyle=solid](3.75,4.5){{\psk@bubblesize}} % Invert Input te \fi \fi % Bottom Pins % ba \ifPst@pinba \psline(1.75,0)(1.75,-1) % Input ba \uput[u](1.75,0){{\psk@pinbalabel}} % Name ba \uput[l](1.75,-0.55){{\psk@pinbanumber}} % Number ba \ifPst@invertpinba \pscircle[fillstyle=solid](1.75,0){{\psk@bubblesize}} % Invert Input ba \fi \fi % bb \ifPst@pinbb \psline(2.25,0)(2.25,-1) % Input bb \uput[u](2.25,0){{\psk@pinbblabel}} % Name bb \uput[l](2.25,-0.55){{\psk@pinbbnumber}} % Number bb \ifPst@invertpinbb \pscircle[fillstyle=solid](2.25,0){{\psk@bubblesize}} % Invert Input bb \fi \fi % bc \ifPst@pinbc \psline(2.75,0)(2.75,-1) % Input bc \uput[u](2.75,0){{\psk@pinbclabel}} % Name bc \uput[l](2.75,-0.55){{\psk@pinbcnumber}} % Number bc \ifPst@invertpinbc \pscircle[fillstyle=solid](2.75,0){{\psk@bubblesize}} % Invert Input bc \fi \fi % bd \ifPst@pinbd \psline(3.25,0)(3.25,-1) % Input bd \uput[u](3.25,0){{\psk@pinbdlabel}} % Name bd \uput[l](3.25,-0.55){{\psk@pinbdnumber}} % Number bd \ifPst@invertpinbd \pscircle[fillstyle=solid](3.25,0){{\psk@bubblesize}} % Invert Input bd \fi \fi % be \ifPst@pinbe \psline(3.75,0)(3.75,-1) % Input be \uput[u](3.75,0){{\psk@pinbelabel}} % Name be \uput[l](3.75,-0.55){{\psk@pinbenumber}} % Number be \ifPst@invertpinbe \pscircle[fillstyle=solid](3.75,0){{\psk@bubblesize}} % Invert Input be \fi \fi % Right Decimal Point \ifPst@dpright \pscircle[linewidth=0.5\pslinewidth](3.75,0.75){0.1} \fi % Left Decimal Point \ifPst@dpleft \pscircle[linewidth=0.5\pslinewidth](1.75,0.75){0.1} \fi % Body \psline[linewidth=1.5\pslinewidth](1,0)(1,4.5)(4.5,4.5)(4.5,0)(1,0) % Segments \ifcase\psk@segmentdisplay % Display 0 \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,2.15)(3.45,2.35) % g \or % Display 1 \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,2.25)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,2.15)(3.45,2.35) % g \or % Display 2 \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,2.15)(3.45,2.35) % g \or % Display 3 \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,2.15)(3.45,2.35) % g \or % Display 4 \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.25)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,2.15)(3.45,2.35) % g \or % Display 5 \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,2.15)(3.45,2.35) % g \or % Display 6 \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,2.15)(3.45,2.35) % g \or % Display 7 \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,2.15)(3.45,2.35) % g \or % Display 8 \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,2.15)(3.45,2.35) % g \or % Display 9 \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9,fillstyle=solid,fillcolor=\psk@segmentcolor](2.05,2.15)(3.45,2.35) % g \or % Display Blank \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,3.65)(3.45,3.85) % a \psframe[linewidth=0.5\pslinewidth,framearc=.9](3.45,2.35)(3.65,3.65) % b \psframe[linewidth=0.5\pslinewidth,framearc=.9](3.45,0.85)(3.65,2.15) % c \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,0.65)(3.45,0.85) % d \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,0.85)(2.05,2.15) % e \psframe[linewidth=0.5\pslinewidth,framearc=.9](1.85,2.35)(2.05,3.65) % f \psframe[linewidth=0.5\pslinewidth,framearc=.9](2.05,2.15)(3.45,2.35) % g \fi % Segment Labels \ifPst@segmentlabels \uput[d](2.75,3.75){\footnotesize{a}} \uput[l](3.55,3.05){\footnotesize{b}} \uput[l](3.55,1.55){\footnotesize{c}} \uput[u](2.75,0.75){\footnotesize{d}} \uput[r](1.95,1.55){\footnotesize{e}} \uput[r](1.95,3.05){\footnotesize{f}} \uput[u](2.75,2.35){\footnotesize{g}} \fi % Name \uput[r](4.5,0){#4}% }}% \ignorespaces } % % PLC Ladder Logic % % % \xic (XIC) % \def\xic{\@ifnextchar[{\pst@xic}{\pst@xic[]}} \def\pst@xic[#1](#2){{% \psset{#1}% \rput(#2){ % Input \psline(-1,0)(-0.25,0) % Input % Body \psline(-0.6,-0.35)(-0.25,-0.35)(-0.25,0.35)(-0.6,0.35) \psline(0.6,-0.35)(0.25,-0.35)(0.25,0.35)(0.6,0.35) % Output \psline(1,0)(0.25,0) % Names \uput[u](0,0.3){\psk@plcaddress} \uput[d](0,-0.35){\psk@plcsymbol} \psset{} }}% \ignorespaces } % % \xio (XIO) % \def\xio{\@ifnextchar[{\pst@xio}{\pst@xio[]}} \def\pst@xio[#1](#2){{% \psset{#1}% \rput(#2){ % Input \psline(-1,0)(-0.25,0) % Input % Body \psline(-0.6,-0.35)(-0.25,-0.35)(-0.25,0.35)(-0.6,0.35) \psline(0.6,-0.35)(0.25,-0.35)(0.25,0.35)(0.6,0.35) \psline(-0.6,-0.35)(0.6,0.35) % Output \psline(1,0)(0.25,0) % Name \uput[u](0,0.3){\psk@plcaddress} \uput[d](0,-0.35){\psk@plcsymbol} }}% \ignorespaces } % % \ote (OTE) % \def\ote{\@ifnextchar[{\pst@ote}{\pst@ote[]}} \def\pst@ote[#1](#2){{% \psset{#1}% \rput(#2){% % Input \psline(-1,0)(-0.6,0) % Input % Body \psline(-0.2,-0.35)(-0.6,-0.1)(-0.6,0.1)(-0.2,0.35) \psline(0.2,-0.35)(0.6,-0.1)(0.6,0.1)(0.2,0.35) % Output \psline(1,0)(0.6,0) % Name \ifPst@latch \uput[u](0,-0.3){L} % Latch \fi \ifPst@unlatch \uput[u](0,-0.3){U} % Unlatch \fi \uput[u](0,0.3){\psk@plcaddress} \uput[d](0,-0.35){\psk@plcsymbol} }}% \ignorespaces } % % \osr (OSR) % \def\osr{\@ifnextchar[{\pst@osr}{\pst@osr[]}} \def\pst@osr[#1](#2){{% \psset{#1}% \rput(#2){% % Input \psline(-1,0)(-0.7,0) % Input % Body \psline(-0.4,-0.35)(-0.7,-0.35)(-0.7,0.35)(-0.4,0.35) \psline(0.4,-0.35)(0.7,-0.35)(0.7,0.35)(0.4,0.35) % Output \psline(1,0)(0.7,0) % Name \uput[u](0,-0.3){OSR} % OSR \uput[u](0,0.3){\psk@plcaddress} \uput[d](0,-0.35){\psk@plcsymbol} }}% \ignorespaces } % % \res (RES) % \def\res{\@ifnextchar[{\pst@res}{\pst@res[]}} \def\pst@res[#1](#2){{% \psset{#1}% \rput(#2){% % Input \psline(-1,0)(-0.7,0) % Input % Body \psline(-0.4,-0.35)(-0.7,-0.1)(-0.7,0.1)(-0.4,0.35) \psline(0.4,-0.35)(0.7,-0.1)(0.7,0.1)(0.4,0.35) % Output \psline(1,0)(0.7,0) % Name \uput[u](0,-0.3){RES} % RES \uput[u](0,0.3){\psk@plcaddress} \uput[d](0,-0.35){\psk@plcsymbol} }}% \ignorespaces } % % Relay Ladder Logic % % % \swpb (Switch PB) % \def\swpb{\@ifnextchar[{\pst@swpb}{\pst@swpb[]}} \def\pst@swpb[#1](#2){{% \psset{#1}% \rput(#2){% % Input \psline(-1,0)(-0.5,0) % Input % Body \pscircle[fillstyle=solid](-0.4,0){0.1} \pscircle[fillstyle=solid](0.4,0){0.1} \ifPst@contactclosed \psline[linewidth=1.5\pslinewidth](-0.4,-0.1)(0.4,-0.1) \psline[linewidth=1.5\pslinewidth](0,-0.1)(0,0.4) \else \psline[linewidth=1.5\pslinewidth](-0.4,0.3)(0.4,0.3) \psline[linewidth=1.5\pslinewidth](0,0.3)(0,0.7) \fi % Output \psline(1,0)(0.5,0) }}% \ignorespaces } % % \swtog (Switch NO Toggle) % \def\swtog{\@ifnextchar[{\pst@swtog}{\pst@swtog[]}} \def\pst@swtog[#1](#2){{% \psset{#1}% \rput(#2){% % Input \psline(-1,0)(-0.5,0) % Input % Body \pscircle[fillstyle=solid](-0.4,0){0.1} \pscircle[fillstyle=solid](0.4,0){0.1} \ifPst@contactclosed \psline[linewidth=1.5\pslinewidth](-0.3,0)(0.4,0.1) \else \psline[linewidth=1.5\pslinewidth](-0.3,0)(0.3,0.4) \fi % Output \psline(1,0)(0.5,0) }}% \ignorespaces } % % \contact (Contact) % \def\contact{\@ifnextchar[{\pst@contact}{\pst@contact[]}} \def\pst@contact[#1](#2){{% \psset{#1}% \rput(#2){% % Input \psline(-1,0)(-0.2,0) % Input % Body \psline(-0.2,-0.35)(-0.2,0.35) \psline(0.2,-0.35)(0.2,0.35) \ifPst@contactclosed \psline(-0.6,-0.35)(0.6,0.35) \fi % Output \psline(1,0)(0.2,0) % Name \uput[u](0,0.3){\psk@plcaddress} \uput[d](0,-0.35){\psk@plcsymbol} }}% \ignorespaces } % % \motor (Motor Armature) % \def\armature{\@ifnextchar[{\pst@armature}{\pst@armature[]}} \def\pst@armature[#1](#2){{% \psset{#1}% \rput(#2){% % Input \psline(-1,0)(-0.7,0) %\psline[linewidth=8pt](-0.75,0)(-0.5,0) % Body \psline(-0.7,0.2)(0.7,0.2)(0.7,-0.2)(-0.7,-0.2)(-0.7,0.2) \pscircle[fillstyle=solid](0,0){0.5} % Output \psline(1,0)(0.7,0) %\psline[linewidth=8pt](0.75,0)(0.5,0) % Name \uput[u](0,0.3){\psk@plcaddress} \uput[d](0,-0.35){\psk@plcsymbol} }}% \ignorespaces } % % Modified pst-circ Components % % % \newcapacitor % \def\newcapacitor{\@ifnextchar[{\pst@newcapacitor}{\pst@newcapacitor[]}} \def\pst@newcapacitor[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@newcapacitor}\ignorespaces} % \def\pst@draw@newcapacitor{{% \psset{linewidth=1.5\pslinewidth}% \psline[arrows=-](-0.1,-0.3)(-0.1,0.3) \psline[arrows=-](0.1,-0.3)(0.1,0.3) \pnode(-0.1,0){dipole@1} \pnode(0.1,0){dipole@2} \ifPst@variable% \psline[arrows=->](-0.5,-0.55)(0.5,0.55)% \fi \ifPst@polarized% \rput[u](0,0){$+$}% \fi }} % % \newDiode % \def\newdiode{\@ifnextchar[{\pst@newdiode}{\pst@newdiode[]}} \def\pst@newdiode[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@newdiode} \ignorespaces} % \def\pst@draw@newdiode{{% \ifx\psk@Dstyle\pst@Dstyle@triac \pspolygon[linewidth=1.5\pslinewidth](-0.25,-0.4)(-0.25,0)(0.25,-0.2) \pspolygon[linewidth=1.5\pslinewidth](0.25,0)(-0.25,0.2)(0.25,0.4) \psline[arrows=-,linewidth=1.5\pslinewidth](-0.25,-0.4)(-0.25,0.4) \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,-0.4)(0.25,0.4) \psline[arrows=-,linewidth=\pslinewidth](0.25,-0.2)(0.5,-0.3)(0.5,-0.6) \else \ifPst@ison% \pspolygon[arrows=-,linewidth=1.5\pslinewidth,% fillstyle=solid,fillcolor=black](-0.25,-0.3)(-0.25,0.3)(0.25,0) \else \pspolygon[arrows=-,linewidth=1.5\pslinewidth]% (-0.25,-0.3)(-0.25,0.3)(0.25,0) \fi \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.3)(0.25,-0.3) \ifx\psk@Dstyle\pst@Dstyle@thyristor \psline[arrows=-,linewidth=1.5\pslinewidth](0,-0.1)(0,-0.35) \fi \ifx\psk@Dstyle\pst@Dstyle@GTO \psline[arrows=-,linewidth=1.5\pslinewidth](-0.1,-0.12)(-0.1,-0.35) \psline[arrows=-,linewidth=1.5\pslinewidth](0,-0.1)(0,-0.35) \fi \fi \pnode(-0.25,0){dipole@1} \pnode(0.25,0){dipole@2} }} % % \newZener % \def\newZener{\@ifnextchar[{\pst@newZener}{\pst@newZener[]}} \def\pst@newZener[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@newZener} \ignorespaces} % \def\pst@draw@newZener{{% \ifPst@ison% \pspolygon[arrows=-,linewidth=1.5\pslinewidth,% fillstyle=solid,fillcolor=black](-0.25,-0.3)(-0.25,0.3)(0.25,0) \else \pspolygon[arrows=-,linewidth=1.5\pslinewidth]% (-0.25,-0.3)(-0.25,0.3)(0.25,0) \fi \psline[arrows=-,linewidth=1.5\pslinewidth](0.1,0.4)(0.25,0.3)(0.25,-0.3)(0.4,-0.4) \pnode(-0.25,0){dipole@1} \pnode(0.25,0){dipole@2} }} % % \newLED % \def\newLED{\@ifnextchar[{\pst@newLED}{\pst@newLED[]}} \def\pst@newLED[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@newLED} \pst@getcoor{#2}\pst@tempa \pst@getcoor{#3}\pst@tempb \ignorespaces} % \def\pst@draw@newLED{{% \ifPst@ison% \pspolygon[arrows=-,linewidth=1.5\pslinewidth,% fillstyle=solid,fillcolor=black](-0.25,-0.3)(-0.25,0.3)(0.25,0) \else \pspolygon[arrows=-,linewidth=1.5\pslinewidth]% (-0.25,-0.3)(-0.25,0.3)(0.25,0) \fi \psline[arrows=-,linewidth=1.5\pslinewidth](0.25,0.3)(0.25,-0.3) \multips(-0.15,0.35)(0.2,0){2}{\psline[arrows=->](0,0)(0.2,0.25)} \pnode(-0.25,0){dipole@1} \pnode(0.25,0){dipole@2} }} % % \newarmature % \def\newarmature{\@ifnextchar[{\pst@newarmature}{\pst@newarmature[]}} \def\pst@newarmature[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@newarmature}\ignorespaces} % \def\pst@draw@newarmature{{% \pnode(-1,0){dipole@1} \pnode(1,0){dipole@2} % Input \psline(-1,0)(-0.7,0) % Body \psline(-0.7,0.2)(0.7,0.2)(0.7,-0.2)(-0.7,-0.2)(-0.7,0.2) \pscircle[fillstyle=solid](0,0){0.5} % Output \psline(1,0)(0.7,0) % Name \ifcase\psk@labelInside\or% do nothing \rput(0,0){\large\bf M}\or% case 1 - motor \rput(0,0){\large\bf G}% case 2 - generator \fi }} % % \vdc % \def\vdc{\@ifnextchar[{\pst@vdc}{\pst@vdc[]}} \def\pst@vdc[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@vdc}\ignorespaces} % \def\pst@draw@vdc{{% \psline[arrows=-,linewidth=1.5\pslinewidth](-0.30,-0.5)(-0.30,0.5) \psline[arrows=-,linewidth=3\pslinewidth](-0.10,-0.25)(-0.10,0.25) \psline[arrows=-,linewidth=1.5\pslinewidth](0.10,-0.5)(0.10,0.5) \psline[arrows=-,linewidth=3\pslinewidth](0.30,-0.25)(0.30,0.25) \pnode(-0.3,0){dipole@1} \pnode(0.3,0){dipole@2} \ifPst@variable% \psline{->}(-0.75,-0.5)(0.75,0.5)% \fi }} % % \vac % \def\vac{\@ifnextchar[{\pst@vac}{\pst@vac[]}} \def\pst@vac[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@vac \pst@getcoor{#2}\pst@tempa \pst@getcoor{#3}\pst@tempb \rput(! % \pst@tempa \pst@number{\psyunit} div /YA ED \pst@number{\psxunit} div /XA ED \pst@tempb \pst@number{\psyunit} div /YB ED \pst@number{\psxunit} div /XB ED XA XB add 2 div YA YB add 2 div ){\pscurve(-0.25,0)(-0.125,0.25)(0.125,-0.25)(0.25,0)}}\ignorespaces} % \def\pst@draw@vac{{% \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} }} % % \newSwitch (New Switch) % \def\newSwitch{\@ifnextchar[{\pst@newSwitch}{\pst@newSwitch[]}} \def\pst@newSwitch[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@newSwitch} \pst@getcoor{#2}\pst@tempa \pst@getcoor{#3}\pst@tempb \ignorespaces} % \def\pst@draw@newSwitch{{% \ifPst@ison \pnode(-0.6,0){dipole@1} \pnode(0.6,0){dipole@2} \psline[arrows=-,linewidth=4\pslinewidth](-0.5,-0.005)(0.5,-0.005) \pscircle[fillstyle=solid,fillcolor=black](-0.5,0){0.1} \pscircle[fillstyle=solid,fillcolor=black](0.5,0){0.1} \else \pnode(-0.6,0){dipole@1} \pnode(0.6,0){dipole@2} \psline[arrows=-,linewidth=2\pslinewidth](-0.5,0)(0.5,0.5) \pscircle[fillstyle=solid](-0.5,0){0.1} \pscircle[fillstyle=solid](0.5,0){0.1} \fi }} % % PHOTOVOLTAIC CELL % % \cell % \def\cell{\@ifnextchar[{\pst@cell}{\pst@cell[]}} \def\pst@cell[#1](#2)(#3)#4{{% \pst@draw@dipole{#1}{#2}{#3}{#4}\pst@draw@cell} % \pst@getcoor{#2}\pst@tempa % \pst@getcoor{#3}\pst@tempb \ignorespaces} % \def\pst@draw@cell{{% \pscircle(0.1,0){0.5} \psline[linewidth=2.5\pslinewidth](-0.1,-0.2)(-0.1, 0.2) \psline[linewidth=2\pslinewidth](0.1,-0.4)(0.1, 0.4) \psline[arrows=->](0.9,1)(0.5,0.6) \psline[arrows=->](0.6,1)(0.2,0.6) \wire(-0.6,0)(-0.1,0) \wire(0.6,0)(0.1,0) \pnode(-0.6,0){dipole@1} \pnode(0.6,0){dipole@2}% }\ignorespaces}% % % \splitter % \def\splitter{\pst@object{splitter}} \def\splitter@i(#1)(#2)(#3)#4#5{% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 add 2 div def /YC Y2 def XC YC){C@} \begingroup \use@keep@par \ifx\psk@tripole@style\pst@tripole@style@top \addbefore@par{labeloffset=-0.9,dimen=middle}% \else \addbefore@par{labeloffset=0.9,dimen=middle}% \fi \use@par \rput(C@){\pst@draw@splitter{#3}{#4}{#5}} \ifx\psk@Tinput\pst@Tinput@left% \ifPst@inputarrow \ncangle[arrows=->,arrowinset=0,arm=0.5,angleB=180]{#1}{Tport@left} \else \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{Tport@left} \fi \ncangle[arrows=-, arm=0.5,angleB=0]{#2}{Tport@right} \else \ifPst@inputarrow \ncangle[arrows=->,arrowinset=0,arm=0.5,angleB=0]{#2}{Tport@right} \else \ncangle[arrows=-,arm=0.5,angleB=0]{#2}{Tport@right} \fi \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{Tport@left} \fi \endgroup \pcline[linestyle=none](#1)(#2)% for the endarrows \pcline[linestyle=none](#2)(#3)% for the endarrows \ignorespaces% } \def\pst@draw@splitter#1#2#3{% \psframe[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \let\psk@fillstyle\psfs@none %% Diagonal line within the square \ifx\psk@Tinput\pst@Tinput@left% \ifx\psk@tripole@style\pst@tripole@style@top% \psline[linewidth=1.5\pslinewidth](-0.5,0.5)(0.5,-0.5) \else \psline[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \fi \else \ifx\psk@tripole@style\pst@tripole@style@top% \psline[linewidth=1.5\pslinewidth](-0.5,-0.5)(0.5,0.5) \else \psline[linewidth=1.5\pslinewidth](-0.5,0.5)(0.5,-0.5) \fi \fi \pnodes(-0.5,0){Tport@left}(0.5,0){Tport@right}% \pcline[offset=\psk@label@offset,linestyle=none](Tport@left)(Tport@right)\ncput{#2}% \ifx\psk@tripole@style\pst@tripole@style@top% \pnode(0,0.5){Tport@center} \ncangle[arrows=-,arm=0.5,angleB=90]{#1}{Tport@center} \else \pnode(0,-0.5){Tport@center} \ncangle[arrows=-,arm=0.5,angleB=270]{#1}{Tport@center} \fi% } % %%% Attenuator %%% % \newCircDipole{attenuator} \def\pst@draw@attenuator{% \pnode(-0.433,0){dipole@1} \pnode(0.433,0){dipole@2} \psline[fillstyle=none, arrowinset=0](-0.5,0)(0.5,0) \ifx\psk@Dinput\pst@Dinput@right \psline[linewidth=1.5\pslinewidth,fillstyle=none](-0.10825,0.433)(0.10825,0.2165)(-0.10825,0)(0.10825,-0.2165)(-0.10825,-0.433) \else \psline[linewidth=1.5\pslinewidth, fillstyle=none](0.10825,0.433)(-0.10825,0.2165)(0.10825,0)(-0.10825,-0.2165)(0.10825,-0.433) \fi } % % THIS CAN BE SET AS AN OPTION OF THE OSCILLATOR... % IT'S UP TO YOU... % %%% Modulator % \newCircDipole{modulator} \def\pst@draw@modulator{% \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} \ifx\psk@Dinput\pst@Dinput@right \psline[linewidth=1.5\pslinewidth]{cc-cc}(-0.3,-0.1)(0,0.2)(0,-0.1)(0.3,-0.1) \else \psline[linewidth=1.5\pslinewidth]{cc-cc}(-0.3,-0.1)(0,-0.1)(0,0.2)(0.3,-0.1) \fi } % %%% Plug %%% % \def\plug{\@ifnextchar[{\pst@plug}{\pst@plug[]}} \def\pst@plug[#1]{% \@ifnextchar({\pst@plugi[#1]{0}}{\pst@plugi[#1]}% } \def\pst@plugi[#1]#2(#3){{% \psset{#1}% \rput{#2}(#3){% \psline[linewidth=1.5\pslinewidth](0,0)(0,-0.3)(1.2,-0.3)(1.5,0)(1.2,0.3)(0,0.3)(0,0) }}% \ignorespaces% } % % \ampsinu % % THIS CAN ALSO BE SET AS AN OPTION FOR THE AMPLIFIER... % IT'S UP TO YOU \newCircDipole{ampsinu} \def\pst@draw@ampsinu{% \pnode(-0.433,0){dipole@1} \pnode(0.433,0){dipole@2} \ifx\psk@Dinput\pst@Dinput@right \pstriangle[gangle=90,linewidth=1.5\pslinewidth](0.433,0)(1,0.866) \pscurve[fillstyle=none,linewidth=1\pslinewidth](0.071625,-0.20)(0.025,-0.125)(0.061625,-0.05)% (0.15,0.025)(0.238375,0.1)(0.275,0.175)(0.238375,0.25) \else \pstriangle[gangle=-90,linewidth=1.5\pslinewidth](-0.433,0)(1,0.866) \pscurve[fillstyle=none,linewidth=1\pslinewidth](-0.071625,-0.20)(-0.025,-0.125)(-0.061625,-0.05)% (-0.15,0.025)(-0.238375,0.1)(-0.275,0.175)(-0.238375,0.25) \fi } % %%% newtransformer %%% % \newCircDipole{newtransformer} \def\pst@draw@newtransformer{% \pnode(-0.8,0){dipole@1} \pnode(0.8,0){dipole@2} \pscircle[linewidth=1.5\pslinewidth](-0.3,0){0.5} \pscircle[linewidth=1.5\pslinewidth](0.3,0){0.5} } % \def\newtransformerquad{\pst@object{newtransformerquad}}% \def\newtransformerquad@i(#1)(#2)(#3)(#4)#5{% \addbefore@par{dimen=middle,arm=0}% \begin@ClosedObj% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pst@getcoor{#4}\pst@tempd \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def \pst@tempd /Y4 exch \pst@number\psyunit div def /X4 exch \pst@number\psxunit div def /XC X1 X2 lt {X2} {X1} ifelse X3 X4 lt {X3} {X4} ifelse add 2 div def /YC Y1 Y3 lt {Y1} {Y3} ifelse Y2 Y4 lt {Y2} {Y4} ifelse add 2 div def XC YC){C@} \rput(C@){#5} \rput(C@){\pscircle[linewidth=1.5\pslinewidth](-0.3,0){0.5} \pscircle[linewidth=1.5\pslinewidth](0.3,0){0.5} \pnode(-1,0.3){inup@} \pnode(-1,-0.3){indown@} \pnode(1,-0.3){outdown@} \pnode(1,0.3){outup@} \psline(inup@)(-0.7,0.3) \psline(indown@)(-0.7,-0.3) \psline(outup@)(0.7,0.3) \psline(outdown@)(0.7,-0.3)} \ncangle[arrows=-,arm=0.5,angleB=180]{#1}{inup@} \ncangle[arrows=-,arm=0.5,angleB=180]{#2}{indown@} \ncangle[arrows=-,arm=0.5,angleB=0]{#3}{outup@} \ncangle[arrows=-,arm=0.5,angleB=0]{#4}{outdown@} \ncline[arrows=-,linestyle=none,fillstyle=none]{indown@}{outdown@} \pcline[linestyle=none](#1)(#3)% for the end arrows \pcline[linestyle=none](#2)(#4)% for the end arrows \end@ClosedObj% \ignorespaces% } \newCircDipole{arrowswitch} \def\pst@draw@arrowswitch{% \ifx\psk@Dstyle\pst@Dstyle@close \pnode(-0.5,0){dipole@1} \pnode(0.5,0){dipole@2} \qdisk(-0.5,0){1.5pt} \qdisk(0.5,0){1.5pt} \psline[arrows=-,linewidth=2\pslinewidth](-0.5,0.05)(0.5,0.05) \psarc[arrowinset=0]{->}(-0.5,0){0.75}{-45}{45} \else \pnode(-0.55,0){dipole@1} \pnode(0.5,0){dipole@2} \psline[arrows=-,linewidth=2\pslinewidth](-0.5,0)(0.5,0.5) \psarcn[arrowinset=0]{->}(-0.5,0){0.75}{45}{-45} \pscircle[fillstyle=solid](-0.5,0){0.07} \qdisk(0.5,0){1.5pt} \fi } %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%% Tripole %%% powermeter: tripolestyle:(bottom) | top %%% tripoleconfig: (left) | right %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % \def\powermeter{\pst@object{powermeter}} \def\powermeter@i(#1)(#2)(#3)#4{% \addbefore@par{dimen=middle,arm=0}% \begin@ClosedObj% \pst@getcoor{#1}\pst@tempa \pst@getcoor{#2}\pst@tempb \pst@getcoor{#3}\pst@tempc \pnode(!% \pst@tempa /Y1 exch \pst@number\psyunit div def /X1 exch \pst@number\psxunit div def \pst@tempb /Y2 exch \pst@number\psyunit div def /X2 exch \pst@number\psxunit div def \pst@tempc /Y3 exch \pst@number\psyunit div def /X3 exch \pst@number\psxunit div def /XC X1 X2 add 2 div def /YC Y2 def XC YC){C@} \rput(C@){#4} \rput(C@){% \pscircle[linewidth=1.5\pslinewidth](0,0){0.5} \pnodes(-1,0){Tport@left}(1,0){Tport@right}% \psline[arrows=-](Tport@left)(-0.5,0) \psline[arrows=-](Tport@right)(0.5,0) \ifx\psk@tripole@style\pst@tripole@style@top% \pnode(0,1){Tport@center} \ifx\psk@Tconfig\pst@Tconfig@left \psdot(-0.8,0) \psline[arrows=-](-0.8,0)(-0.8,-0.8)(0,-0.8)(0,-0.5) \psline[arrows=-](0,0.5)(Tport@center) \else \psdot(0.8,0) \psline[arrows=-](0.8,0)(0.8,-0.8)(0,-0.8)(0,-0.5) \psline[arrows=-](0,0.5)(Tport@center) \fi% \ncangle[arrows=-,arm=0.25,angleB=-90]{#3}{Tport@center} \else \pnode(0,-1){Tport@center} \ifx\psk@Tconfig\pst@Tconfig@left \psdot(-0.8,0) \psline[arrows=-](-0.8,0)(-0.8,0.8)(0,0.8)(0,0.5) \psline[arrows=-](0,-0.5)(Tport@center) \else \psdot(0.8,0) \psline[arrows=-](0.8,0)(0.8,0.8)(0,0.8)(0,0.5) \psline[arrows=-](0,-0.5)(Tport@center) \fi% \ncangle[arrows=-,arm=0.25,angleB=90]{#3}{Tport@center} \fi% } \ncangle[arrows=-,arm=0.25,angleB=180]{#1}{Tport@left} \ncangle[arrows=-,arm=0.25,angleB=0]{#2}{Tport@right} \pcline[linestyle=none](#1)(#2)% for the endarrows \pcline[linestyle=none](#2)(#3)% for the endarrows \end@ClosedObj% \ignorespaces% } % %%% POWER IGBT %%% % \newCircDipole{igbt} \def\pst@draw@igbt{% \pnode(-0.433,0){dipole@1} \pnode(0.433,0){dipole@2} %\psline[fillstyle=none, arrowinset=0](-0.433,-0.5)(0.5,0) \psdot(dipole@1) \psdot(dipole@2) \ifPst@IGBTinvert \psline[arrows=->,linewidth=1.5\pslinewidth, arrowsize =0.2, arrowinset=0](0.433,0)(-0.457,-0.457) \else \psline[arrows=->,linewidth=1.5\pslinewidth, arrowsize =0.2, arrowinset=0](0.433,0)(-0.457,0.457) \fi } % % %%% TRANSCONDUCTOR %%% % \def\pst@draw@GM{% \ifx\psk@tripole@style\pst@tripole@style@french \psframe[linewidth=1.5\pslinewidth](-1,-0.75)(1,0.75) \pspolygon(-0.4,-0.2)(-0.4,0.2)(-0.05,0) \else % USUAL Transconductor \pspolygon[arrows=-, linewidth=1.5\pslinewidth](-0.5, -1)(-0.5, 1)(0.5, 0.6)(0.5, -0.6)(-0.5, -1) % Supply pins Position \ifPst@GMpower \psline{-}(0,0.8)(0,1)%\uput[90](0,1){$+$} %\psline{-o}(0,0.375)(0,0.75)\uput[90](0,0.75){$+$} \psline{-}(0,-0.8)(0,-1)%\uput[-90](0,-1){$-$} %\psline{-o}(0,-0.375)(0,-0.75)\uput[-90](0,-0.75){$-$} \fi \fi % Input Pins Position \pnode(-0.5,0.5){\ifPst@GMinvert Minus@\else Plus@\fi} \pnode(-0.5,-0.5){\ifPst@GMinvert Plus@\else Minus@\fi} \pnode(0.5,0){S@} % + and - Position \uput{0.1}[0](-0.5,0.5){\ifPst@GMinvert$-$\else$+$\fi} %\uput{0.1}[0](-1,0.25){\ifPst@OAinvert$-$\else$+$\fi} \uput{0.1}[0](-0.5,-0.5){\ifPst@GMinvert$+$\else$-$\fi} %\uput{0.1}[0](-1,-0.25){\ifPst@OAinvert$+$\else$-$\fi} \ifPst@GMperfect\rput(0.25,0){$\infty$}\fi% } % \catcode`\@=\PstAtCode\relax % \endinput