% Copyright 2018-2020 by Romano Giannetti % Copyright 2015-2020 by Stefan Lindner % Copyright 2013-2020 by Stefan Erhardt % Copyright 2007-2020 by Massimo Redaelli % % This file may be distributed and/or modified % % 1. under the LaTeX Project Public License and/or % 2. under the GNU Public License. % % See the files gpl-3.0_license.txt and lppl-1-3c_license.txt for more details. \def\pgf@circ@direction{0.0} % swap two coordinates \def\pgfcirc@swap@coordinates#1#2{% coordinate (pgfcirc@tmp@swap) at (#1) coordinate (#1) at (#2) coordinate (#2) at (pgfcirc@tmp@swap) } % Names \ctikzset{name/.style = { n=#1 } } %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@@@ \ctikzset{n/.code = { \pgfkeys{/tikz/circuitikz/bipole/name=#1} }} % Reflect the node along \ctikzset{mirrored/.is choice} \ctikzset{mirror value/.initial=1} \ctikzset{mirrored/true/.code = {\ctikzsetvalof{mirror value}{-1}} } \ctikzset{mirrored/false/.code = {\ctikzsetvalof{mirror value}{1}} } \ctikzset{mirror/.style = {/tikz/circuitikz/mirrored=true}} % Invert node along path \ctikzset{inverted/.is choice} \ctikzset{invert value/.initial=1} \ctikzset{inverted/true/.code = {\ctikzsetvalof{invert value}{-1}\pgf@circuit@bipole@invertedtrue}} \ctikzset{inverted/false/.code = {\ctikzsetvalof{invert value}{1}\pgf@circuit@bipole@invertedfalse}} \ctikzset{invert/.style = {/tikz/circuitikz/inverted=true}} \newif\ifpgf@circuit@bipole@inverted \ctikzset{bipole/inverted/.is if=pgf@circuit@bipole@inverted} \newif\ifpgf@circuit@bipole@voltage@backward \ctikzset{bipole/voltage/direction/.is choice} \ctikzset{bipole/voltage/direction/forward/.code={\pgf@circuit@bipole@voltage@backwardfalse}} \ctikzset{bipole/voltage/direction/backward/.code={\pgf@circuit@bipole@voltage@backwardtrue}} % Initialize paths \def\pgfcircresetpath{ \ctikzset{bipole/name=, bipole/label/name=, bipole/label/position=90, ,bipole/annotation/name=, bipole/annotation/position=-90, bipole/inverted=false, bipole/kind=, bipole/voltage/direction=backward, bipole/voltage/label/name=, bipole/voltage/position=below, bipole/nodes/left=none, bipole/nodes/right=none, bipole/is voltage=false,bipole/is voltageoutsideofsymbol=false,bipole/is strokedsymbol=false, bipole/is current=false, bipole/current/label/name=, bipole/current/x position=after, bipole/current/y position=above, bipole/current/direction=forward, mirrored=false } } %% Generic bipole path \def\pgf@circ@bipole@path#1#2{ % Create a bipole path from the shapes defined with \pgfcircdeclarebipole % or \pgfcircdeclarebipolescaled; the node shapes are named with a "shape" % appended to the main (path-style) name % #1 path-style node name % #2 the argument passed from the to-path structure; don't touch % % Example: % \def\pgf@circ@capacitor@path#1{\pgf@circ@bipole@path{capacitor}{#1}} % \pgf@circ@bipole@path@base{shape}{}{#1}{#2} } % % this is used for components that are mainly node-style but have a path-style form % \def\pgfcirc@node@to@path#1#2#3{% % add a path-style component based on a node-style one without mangling the name % of the shape. % #1: node-type shape name (existing) % #2: path-type name (to be created) % #3: additional options to add to the path style % \expandafter\def\csname pgf@circ@#1@path\endcsname##1{\pgf@circ@bipole@path@base{}{##1}{#1}{}}% \compattikzset{#2/.style = {\circuitikzbasekey, /tikz/to path=\csname pgf@circ@#1@path\endcsname{##1}, #3}}% \ctikzset{bipoles/#1/height/.initial=1}% } %% %% ultra-generic bipole path %% I am not sure what the last argument is needed for, but don't touch it or everything explodes %% \def\pgf@circ@bipole@path@base#1#2#3#4{% % % Create a path-style component based on a node-style shape % #1: postfix to be added to the name path to obtain the main shape name % #2: text to be passed as text to the node % #3: name of the bipole component % #4: this will be filled by the argument of the to-path % \pgfextra{ \ctikzset{bipole/kind = #3} \edef\pgf@temp{\ctikzvalof{bipole/name}} \def\pgf@circ@temp{} \ifx\pgf@temp\pgf@circ@temp % if it has not a name \pgfmathrandominteger{\pgf@circ@rand}{1000}{9999} \ctikzset{bipole/name = pgfcirc@#3\pgf@circ@rand} % create it (re-usage should not create problem, but...) \edef\pgfcirc@a@prefix{pgfcirc}% do not pollute the namespace for nothing \else \edef\pgfcirc@a@prefix{\ctikzvalof{bipole/name}}% for exporting v-i-f anchors \fi } % save start and stop values % notice that we DO NOT MOVE the path position at all! coordinate (\ctikzvalof{bipole/name}start) at (\tikztostart) coordinate (\ctikzvalof{bipole/name}end) at (\tikztotarget) \pgfextra{ % find the direction (angle) of the path \pgfmathanglebetweenpoints{\pgfpointanchor{\ctikzvalof{bipole/name}start}{center}} {\pgfpointanchor{\ctikzvalof{bipole/name}end}{center}} \edef\pgf@circ@direction{\pgfmathresult} \expandafter\xdef\csname pgfcirc@\pgfcirc@a@prefix-direction\endcsname{\pgf@circ@direction} } % position the component in the middle of the path. We DO NOT MOVE the current position! node[#3#1, rotate=\pgf@circ@direction, yscale=\ctikzvalof{mirror value}, xscale=\ctikzvalof{invert value}] (\ctikzvalof{bipole/name}) at ($(\tikztostart) ! .5 ! (\tikztotarget)$) {#2} % set start and end labels \ifpgf@circuit@bipole@inverted \ifcsname pgf@anchor@#3#1@pathstart\endcsname%if special path-anchors are defined, use them! coordinate (pgfcirc@anchorstartnode) at (\ctikzvalof{bipole/name}.pathend) coordinate (pgfcirc@anchorendnode) at (\ctikzvalof{bipole/name}.pathstart) \else coordinate (pgfcirc@anchorstartnode) at (\ctikzvalof{bipole/name}.right) coordinate (pgfcirc@anchorendnode) at (\ctikzvalof{bipole/name}.left) \fi \else \ifcsname pgf@anchor@#3#1@pathstart\endcsname%if special path-anchors are defined, use them! coordinate (pgfcirc@anchorstartnode) at (\ctikzvalof{bipole/name}.pathstart) coordinate (pgfcirc@anchorendnode) at (\ctikzvalof{bipole/name}.pathend) \else coordinate (pgfcirc@anchorstartnode) at (\ctikzvalof{bipole/name}.left) coordinate (pgfcirc@anchorendnode) at (\ctikzvalof{bipole/name}.right) \fi \fi % draw the leads unless it's an open circuit % stop at the component \pgfextra{\def\pgf@temp{open}\def\pgf@circ@temp{#3}} \ifx\pgf@temp\pgf@circ@temp % if it is an open do nothing \else % it is important to start the path with -- to have correct line joins! -- (\tikztostart) -- (pgfcirc@anchorstartnode) \fi % Add all the "ornaments": labels, annotations, voltages, currents and flows \drawpoles \pgf@circ@ifkeyempty{bipole/label/name}\else\pgf@circ@drawlabels{label}\fi \pgf@circ@ifkeyempty{bipole/annotation/name}\else\pgf@circ@drawlabels{annotation}\fi \ifpgfcirc@has@v\pgf@circ@drawvoltage\fi % \pgf@circ@ifkeyempty{bipole/current/label/name}\else\pgf@circ@drawcurrent\fi \ifpgfcirc@has@i\pgf@circ@drawcurrent\fi % \pgf@circ@ifkeyempty{bipole/flow/label/name}\else\pgf@circ@drawflow\fi \ifpgfcirc@has@f\pgf@circ@drawflow\fi % finish the path from the component to the final target % you never know --- re-set \pgf@temp to detect open \pgfextra{\def\pgf@temp{open}\def\pgf@circ@temp{#3}} \ifx\pgf@temp\pgf@circ@temp % if it is an open do nothing (\tikztotarget) \else (pgfcirc@anchorendnode) -- (\tikztotarget) \fi % reset internal circuit keys \pgfextra{\pgfcircresetpath} %draw pending nodes an path \tikztonodes } %%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% Handling of terminals \ctikzset{bipole/nodes/.is family} \ctikzset{bipole/nodes/left/.initial=none} \ctikzset{bipole/nodes/right/.initial=none} \tikzset{bipole nodes/.style n args={2}{% \circuitikzbasekey/bipole/nodes/left=#1, \circuitikzbasekey/bipole/nodes/right=#2 } } %% Easily usable styles \ctikzset{o-o/.style = {\circuitikzbasekey/bipole/nodes/left=ocirc, \circuitikzbasekey/bipole/nodes/right=ocirc}} \ctikzset{-o/.style = {\circuitikzbasekey/bipole/nodes/left=none, \circuitikzbasekey/bipole/nodes/right=ocirc}} \ctikzset{o-/.style = {\circuitikzbasekey/bipole/nodes/left=ocirc, \circuitikzbasekey/bipole/nodes/right=none}} \ctikzset{*-o/.style = {\circuitikzbasekey/bipole/nodes/left=circ, \circuitikzbasekey/bipole/nodes/right=ocirc}} \ctikzset{o-*/.style = {\circuitikzbasekey/bipole/nodes/left=ocirc, \circuitikzbasekey/bipole/nodes/right=circ}} \ctikzset{d-o/.style = {\circuitikzbasekey/bipole/nodes/left=diamondpole, \circuitikzbasekey/bipole/nodes/right=ocirc}} \ctikzset{o-d/.style = {\circuitikzbasekey/bipole/nodes/left=ocirc, \circuitikzbasekey/bipole/nodes/right=diamondpole}} \ctikzset{*-/.style = {\circuitikzbasekey/bipole/nodes/left=circ, \circuitikzbasekey/bipole/nodes/right=none}} \ctikzset{-*/.style = {\circuitikzbasekey/bipole/nodes/left=none, \circuitikzbasekey/bipole/nodes/right=circ}} \ctikzset{d-/.style = {\circuitikzbasekey/bipole/nodes/left=diamondpole, \circuitikzbasekey/bipole/nodes/right=none}} \ctikzset{-d/.style = {\circuitikzbasekey/bipole/nodes/left=none, \circuitikzbasekey/bipole/nodes/right=diamondpole}} \ctikzset{*-*/.style = {\circuitikzbasekey/bipole/nodes/left=circ, \circuitikzbasekey/bipole/nodes/right=circ}} \ctikzset{d-*/.style = {\circuitikzbasekey/bipole/nodes/left=diamondpole, \circuitikzbasekey/bipole/nodes/right=circ}} \ctikzset{*-d/.style = {\circuitikzbasekey/bipole/nodes/left=circ, \circuitikzbasekey/bipole/nodes/right=diamondpole}} \ctikzset{d-d/.style = {\circuitikzbasekey/bipole/nodes/left=diamondpole, \circuitikzbasekey/bipole/nodes/right=diamondpole}} % rectjoinfill workarounds \ctikzset{.-/.style = {\circuitikzbasekey/bipole/nodes/left=rectjoinfill, \circuitikzbasekey/bipole/nodes/right=none}} \ctikzset{.-*/.style = {\circuitikzbasekey/bipole/nodes/left=rectjoinfill, \circuitikzbasekey/bipole/nodes/right=circ}} \ctikzset{.-o/.style = {\circuitikzbasekey/bipole/nodes/left=rectjoinfill, \circuitikzbasekey/bipole/nodes/right=ocirc}} \ctikzset{.-d/.style = {\circuitikzbasekey/bipole/nodes/left=rectjoinfill, \circuitikzbasekey/bipole/nodes/right=diamondpole}} \ctikzset{-./.style = {\circuitikzbasekey/bipole/nodes/left=none, \circuitikzbasekey/bipole/nodes/right=rectjoinfill}} \ctikzset{o-./.style = {\circuitikzbasekey/bipole/nodes/left=ocirc, \circuitikzbasekey/bipole/nodes/right=rectjoinfill}} \ctikzset{*-./.style = {\circuitikzbasekey/bipole/nodes/left=circ, \circuitikzbasekey/bipole/nodes/right=rectjoinfill}} \ctikzset{d-./.style = {\circuitikzbasekey/bipole/nodes/left=diamondpole, \circuitikzbasekey/bipole/nodes/right=rectjoinfill}} \ctikzset{.-./.style = {\circuitikzbasekey/bipole/nodes/left=rectjoinfill, \circuitikzbasekey/bipole/nodes/right=rectjoinfill}} \tikzset{reversed/.style = {\circuitikzbasekey/bipole/inverted=true}} \def\drawpoles{ \pgfextra{ \edef\pgf@circ@temp{\ctikzvalof{bipole/nodes/left}} \def\pgf@temp{none}} \ifx\pgf@temp\pgf@circ@temp\else(\tikztostart) node[\pgf@circ@temp] {}\fi \pgfextra{ \edef\pgf@circ@temp{\ctikzvalof{bipole/nodes/right}} } \ifx\pgf@temp\pgf@circ@temp\else(\tikztotarget) node[\pgf@circ@temp] {}\fi } %% Path definitions \def\pgf@circ@resistor@path#1{\ifpgf@circuit@europeanresistor\pgf@circ@bipole@path{generic}{#1}\else\pgf@circ@bipole@path{resistor}{#1}\fi} \def\pgf@circ@vresistor@path#1{\ifpgf@circuit@europeanresistor\pgf@circ@bipole@path{tgeneric}{#1}\else\pgf@circ@bipole@path{vresistor}{#1}\fi} \def\pgf@circ@sresistor@path#1{\ifpgf@circuit@europeanresistor\pgf@circ@bipole@path{thermistor}{#1}\else\pgf@circ@bipole@path{resistivesens}{#1}\fi} \def\pgf@circ@potentiometer@path#1{\ifpgf@circuit@europeanresistor\pgf@circ@bipole@path{genericpotentiometer}{#1}\else\pgf@circ@bipole@path{potentiometer}{#1}\fi} \def\pgf@circ@thermistor@path#1{\pgf@circ@bipole@path{thermistor}{#1}} \def\pgf@circ@thermistorptc@path#1{\pgf@circ@bipole@path{thermistorptc}{#1}} \def\pgf@circ@thermistorntc@path#1{\pgf@circ@bipole@path{thermistorntc}{#1}} \def\pgf@circ@varistor@path#1{\pgf@circ@bipole@path{varistor}{#1}} \def\pgf@circ@capacitor@path#1{\pgf@circ@bipole@path{capacitor}{#1}} \def\pgf@circ@capacitivesens@path#1{\pgf@circ@bipole@path{capacitivesens}{#1}} \def\pgf@circ@ecapacitor@path#1{\pgf@circ@bipole@path{ecapacitor}{#1}} %% polar capacitor is deprectaed, use curved capacitor instead \def\pgf@circ@polarcapacitor@path#1{\pgf@circ@bipole@path{polarcapacitor}{#1}} \def\pgf@circ@ccapacitor@path#1{\pgf@circ@bipole@path{ccapacitor}{#1}} \def\pgf@circ@vcapacitor@path#1{\pgf@circ@bipole@path{vcapacitor}{#1}} \def\pgf@circ@piezoelectric@path#1{\pgf@circ@bipole@path{piezoelectric}{#1}} \def\pgf@circ@battery@path#1{\pgf@circ@bipole@path{battery}{#1}} \def\pgf@circ@batteryone@path#1{\pgf@circ@bipole@path{battery1}{#1}} \def\pgf@circ@batterytwo@path#1{\pgf@circ@bipole@path{battery2}{#1}} \def\pgf@circ@europeaninductor@path#1{\pgf@circ@bipole@path{fullgeneric}{#1}} \def\pgf@circ@americaninductor@path#1{\pgf@circ@bipole@path{americaninductor}{#1}} \def\pgf@circ@cuteinductor@path#1{\pgf@circ@bipole@path{cuteinductor}{#1}} \def\pgf@circ@cutechoke@path#1{\pgf@circ@bipole@path{cutechoke}{#1}} \def\pgf@circ@inductor@path#1{% \pgfextra{ \edef\pgf@circ@temp{\ctikzvalof{inductor}}% \def\pgf@temp{european}% } \ifx\pgf@temp\pgf@circ@temp% \pgf@circ@europeaninductor@path{#1}% \else% \pgfextra{ \def\pgf@temp{cute} }% \ifx\pgf@temp\pgf@circ@temp% \pgf@circ@cuteinductor@path{#1}% \else% \pgf@circ@americaninductor@path{#1}% \fi% \fi% } \def\pgf@circ@vinductor@path#1{ \pgfextra{ \edef\pgf@circ@temp{\ctikzvalof{inductor}}% \def\pgf@temp{european}% } \ifx\pgf@temp\pgf@circ@temp% \pgf@circ@veuropeaninductor@path{#1}% \else% \pgfextra{ \def\pgf@temp{cute} }% \ifx\pgf@temp\pgf@circ@temp% \pgf@circ@vcuteinductor@path{#1}% \else% \pgf@circ@vamericaninductor@path{#1}% \fi% \fi% } \def\pgf@circ@inductivesens@path#1{% \pgfextra{ \edef\pgf@circ@temp{\ctikzvalof{inductor}}% \def\pgf@temp{european}% } \ifx\pgf@temp\pgf@circ@temp% \pgf@circ@europeaninductivesens@path{#1}% \else% \pgfextra{ \def\pgf@temp{cute} }% \ifx\pgf@temp\pgf@circ@temp% \pgf@circ@cuteinductivesens@path{#1}% \else% \pgf@circ@americaninductivesens@path{#1}% \fi% \fi% } \def\pgf@circ@veuropeaninductor@path#1{\pgf@circ@bipole@path{tfullgeneric}{#1}} \def\pgf@circ@vamericaninductor@path#1{\pgf@circ@bipole@path{vamericaninductor}{#1}} \def\pgf@circ@vcuteinductor@path#1{\pgf@circ@bipole@path{vcuteinductor}{#1}} \def\pgf@circ@europeaninductivesens@path#1{\pgf@circ@bipole@path{sfullgeneric}{#1}} \def\pgf@circ@americaninductivesens@path#1{\pgf@circ@bipole@path{samericaninductor}{#1}} \def\pgf@circ@cuteinductivesens@path#1{\pgf@circ@bipole@path{scuteinductor}{#1}} \def\pgf@circ@lamp@path#1{\pgf@circ@bipole@path{lamp}{#1}} \def\pgf@circ@bulb@path#1{\pgf@circ@bipole@path{bulb}{#1}} \def\pgf@circ@esource@path#1{\pgf@circ@bipole@path{esource}{#1}} \def\pgf@circ@pvsource@path#1{\pgf@circ@bipole@path{pvsource}{#1}} \def\pgf@circ@vsource@path#1{\pgf@circ@bipole@path{vsource}{#1}} \def\pgf@circ@dcvsource@path#1{\pgf@circ@bipole@path{dcvsource}{#1}} \def\pgf@circ@vsourceam@path#1{\pgf@circ@bipole@path{vsourceAM}{#1}} \def\pgf@circ@vsourcesin@path#1{\pgf@circ@bipole@path{vsourcesin}{#1}} \def\pgf@circ@isource@path#1{\pgf@circ@bipole@path{isource}{#1}} \def\pgf@circ@oosource@path#1{\pgf@circ@bipole@path{oosource}{#1}} \def\pgf@circ@oosourcetrans@path#1{\pgf@circ@bipole@path{oosourcetrans}{#1}} \def\pgf@circ@ooosource@path#1{\pgf@circ@bipole@path{ooosource}{#1}} \def\pgf@circ@dcisource@path#1{\pgf@circ@bipole@path{dcisource}{#1}} \def\pgf@circ@isourcesin@path#1{\pgf@circ@bipole@path{isourcesin}{#1}} \def\pgf@circ@vsourcesquare@path#1{\pgf@circ@bipole@path{vsourcesquare}{#1}} \def\pgf@circ@vsourcetri@path#1{\pgf@circ@bipole@path{vsourcetri}{#1}} \def\pgf@circ@isourceam@path#1{\pgf@circ@bipole@path{isourceAM}{#1}} \def\pgf@circ@ecsource@path#1{\pgf@circ@bipole@path{ecsource}{#1}} \def\pgf@circ@cvsource@path#1{\pgf@circ@bipole@path{cvsource}{#1}} \def\pgf@circ@cvsourceam@path#1{\pgf@circ@bipole@path{cvsourceAM}{#1}} \def\pgf@circ@cvsourcesin@path#1{\pgf@circ@bipole@path{cvsourcesin}{#1}} \def\pgf@circ@cisource@path#1{\pgf@circ@bipole@path{cisource}{#1}} \def\pgf@circ@cisourceam@path#1{\pgf@circ@bipole@path{cisourceAM}{#1}} \def\pgf@circ@cisourcesin@path#1{\pgf@circ@bipole@path{cisourcesin}{#1}} \def\pgf@circ@short@path#1{\pgf@circ@bipole@path{short}{#1}} \def\pgf@circ@cspst@path#1{\pgf@circ@bipole@path{cspst}{#1}} \def\pgf@circ@ospst@path#1{\pgf@circ@bipole@path{ospst}{#1}} \def\pgf@circ@nos@path#1{\pgf@circ@bipole@path{nos}{#1}} \def\pgf@circ@ncs@path#1{\pgf@circ@bipole@path{ncs}{#1}} \def\pgf@circ@pushbutton@path#1{\pgf@circ@bipole@path{pushbutton}{#1}} \def\pgf@circ@ncpushbutton@path#1{\pgf@circ@bipole@path{ncpushbutton}{#1}} \def\pgf@circ@open@path#1{\pgf@circ@bipole@path{open}{#1}} \def\pgf@circ@generic@path#1{\pgf@circ@bipole@path{generic}{#1}} \def\pgf@circ@ageneric@path#1{\pgf@circ@bipole@path{ageneric}{#1}} \def\pgf@circ@tgeneric@path#1{\pgf@circ@bipole@path{tgeneric}{#1}} \def\pgf@circ@xgeneric@path#1{\pgf@circ@bipole@path{xgeneric}{#1}} \def\pgf@circ@fullgeneric@path#1{\pgf@circ@bipole@path{fullgeneric}{#1}} \def\pgf@circ@tfullgeneric@path#1{\pgf@circ@bipole@path{tfullgeneric}{#1}} \def\pgf@circ@ammeter@path#1{\pgf@circ@bipole@path{ammeter}{#1}} \def\pgf@circ@ohmmeter@path#1{\pgf@circ@bipole@path{ohmmeter}{#1}} \def\pgf@circ@voltmeter@path#1{\pgf@circ@bipole@path{voltmeter}{#1}} \def\pgf@circ@oscope@path#1{\pgf@circ@bipole@path{oscope}{#1}} \def\pgf@circ@empty@path#1{} \def\pgf@circ@photoresistor@path#1{\pgf@circ@bipole@path{photoresistor}{#1}} \def\pgf@circ@emptythyristor@path#1{\pgf@circ@bipole@path{emptythyristor}{#1}} \def\pgf@circ@fullthyristor@path#1{\pgf@circ@bipole@path{fullthyristor}{#1}} \def\pgf@circ@toggleswitch@path#1{\pgf@circ@bipole@path{toggleswitch}{#1}} \def\pgf@circ@memristor@path#1{\pgf@circ@bipole@path{memristor}{#1}} \def\pgf@circ@emptytriac@path#1{\pgf@circ@bipole@path{emptytriac}{#1}} \def\pgf@circ@fulltriac@path#1{\pgf@circ@bipole@path{fulltriac}{#1}} \def\pgf@circ@tline@path#1{\pgf@circ@bipole@path{tline}{#1}} \def\pgf@circ@mstline@path#1{\pgf@circ@bipole@path{mstline}{#1}} \def\pgf@circ@squid@path#1{\pgf@circ@bipole@path{squid}{#1}} \def\pgf@circ@barrier@path#1{\pgf@circ@bipole@path{barrier}{#1}} \def\pgf@circ@openbarrier@path#1{\pgf@circ@bipole@path{openbarrier}{#1}} \def\pgf@circ@thermocouple@path#1{\pgf@circ@bipole@path{thermocouple}{#1}} \def\pgf@circ@fuse@path#1{\pgf@circ@bipole@path{fuse}{#1}} \def\pgf@circ@afuse@path#1{\pgf@circ@bipole@path{afuse}{#1}} \def\pgf@circ@gfsurgearrester@path#1{\ifpgf@circuit@europeangfsurgearrester\pgf@circ@europeangfsurgearrester@path{#1}\else\pgf@circ@americangfsurgearrester@path{#1}\fi} \def\pgf@circ@europeangfsurgearrester@path#1{\pgf@circ@bipole@path{european gas filled surge arrester}{#1}} \def\pgf@circ@americangfsurgearrester@path#1{\pgf@circ@bipole@path{american gas filled surge arrester}{#1}} \def\pgf@circ@twoport@path#1{\pgf@circ@bipole@path{twoport}{#1}} \def\pgf@circ@vco@path#1{\pgf@circ@bipole@path{vco}{#1}} \def\pgf@circ@bandpass@path#1{\pgf@circ@bipole@path{bandpass}{#1}} \def\pgf@circ@bandstop@path#1{\pgf@circ@bipole@path{bandstop}{#1}} \def\pgf@circ@highpass@path#1{\pgf@circ@bipole@path{highpass}{#1}} \def\pgf@circ@lowpass@path#1{\pgf@circ@bipole@path{lowpass}{#1}} \def\pgf@circ@adc@path#1{\pgf@circ@bipole@path{adc}{#1}} \def\pgf@circ@dac@path#1{\pgf@circ@bipole@path{dac}{#1}} \def\pgf@circ@dsp@path#1{\pgf@circ@bipole@path{dsp}{#1}} \def\pgf@circ@fft@path#1{\pgf@circ@bipole@path{fft}{#1}} \def\pgf@circ@amp@path#1{\pgf@circ@bipole@path{amp}{#1}} \def\pgf@circ@vamp@path#1{\pgf@circ@bipole@path{vamp}{#1}} \def\pgf@circ@piattenuator@path#1{\pgf@circ@bipole@path{piattenuator}{#1}} \def\pgf@circ@vpiattenuator@path#1{\pgf@circ@bipole@path{vpiattenuator}{#1}} \def\pgf@circ@tattenuator@path#1{\pgf@circ@bipole@path{tattenuator}{#1}} \def\pgf@circ@vtattenuator@path#1{\pgf@circ@bipole@path{vtattenuator}{#1}} \def\pgf@circ@phaseshifter@path#1{\pgf@circ@bipole@path{phaseshifter}{#1}} \def\pgf@circ@vphaseshifter@path#1{\pgf@circ@bipole@path{vphaseshifter}{#1}} \def\pgf@circ@detector@path#1{\pgf@circ@bipole@path{detector}{#1}} % \def\pgf@circ@sacdc@path#1{\pgf@circ@bipole@path{sacdc}{#1}} \def\pgf@circ@sdcac@path#1{\pgf@circ@bipole@path{sdcac}{#1}} \def\pgf@circ@tacdc@path#1{\pgf@circ@bipole@path{tacdc}{#1}} \def\pgf@circ@tdcac@path#1{\pgf@circ@bipole@path{tdcac}{#1}} %%Mechanical \def\pgf@circ@spring@path#1{\pgf@circ@bipole@path{spring}{#1}} \def\pgf@circ@inerter@path#1{\pgf@circ@bipole@path{inerter}{#1}} \def\pgf@circ@mass@path#1{\pgf@circ@bipole@path{mass}{#1}} \def\pgf@circ@damper@path#1{\pgf@circ@bipole@path{damper}{#1}} \def\pgf@circ@viscoe@path#1{\pgf@circ@bipole@path{viscoe}{#1}} %% Styles \def\comnpatname{\ifpgf@circuit@compat *\else\fi} \def\compattikzset#1{% % \typeout{BIPOLEDEF:\space \detokenize{#1}}% \tikzset{\comnpatname#1}} %\def\ctikzsetbipole#1#2{% % \tikzset{#1/.style= {to path=#2, \circuitikzbasekey, l=##1}}% %} \compattikzset{spring/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@spring@path, l=#1}} \compattikzset{inerter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@inerter@path, l=#1}} \compattikzset{mass/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@mass@path, l=#1}} \compattikzset{damper/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@damper@path, l=#1}} \compattikzset{viscoe/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@viscoe@path, l=#1}} \compattikzset{resistor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@resistor@path, l=#1}} \compattikzset{american resistor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@bipole@path{resistor}{#1}, l=#1}} \compattikzset{european resistor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@bipole@path{generic}{#1}, l=#1}} \compattikzset{potentiometer/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@potentiometer@path, l=#1}} \compattikzset{varistor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@varistor@path, l=#1}} \compattikzset{photoresistor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@photoresistor@path, l=#1}} \compattikzset{thermistor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@thermistor@path, l=#1}} \compattikzset{thermistor ptc/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@thermistorptc@path, l=#1}} \compattikzset{thermistor ntc/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@thermistorntc@path, l=#1}} \compattikzset{american potentiometer/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@bipole@path{potentiometer}{#1}, l=#1}} \compattikzset{european potentiometer/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@bipole@path{genericpotentiometer}{#1}, l=#1}} \compattikzset{variable resistor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vresistor@path, l=#1}} \compattikzset{variable american resistor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@bipole@path{vresistor}{#1}, l=#1}} \compattikzset{variable european resistor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@bipole@path{tgeneric}{#1}, l=#1}} \compattikzset{capacitor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@capacitor@path, l=#1}} \compattikzset{elko/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ecapacitor@path, l=#1}} \compattikzset{ecapacitor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ecapacitor@path, l=#1}} % polar capacitor is deprecated, use curved capacitor instead \compattikzset{polar capacitor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@polarcapacitor@path, l=#1}} \compattikzset{curved capacitor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ccapacitor@path, l=#1}} \compattikzset{variable capacitor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vcapacitor@path, l=#1}} \compattikzset{piezoelectric/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@piezoelectric@path, l=#1}} \compattikzset{battery/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@battery@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{battery1/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@batteryone@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{battery2/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@batterytwo@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@inductor@path, l=#1}} \compattikzset{gf surge arrester/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@gfsurgearrester@path, l=#1}} \compattikzset{american gas filled surge arrester/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@americangfsurgearrester@path, l=#1}} \compattikzset{european gas filled surge arrester/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@europeangfsurgearrester@path, l=#1}} \compattikzset{gas filled surge arrester/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@gfsurgearrester@path, l=#1}} \compattikzset{american inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@americaninductor@path, l=#1}} \compattikzset{cute inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cuteinductor@path, l=#1}} \compattikzset{cute choke/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cutechoke@path, l=#1}} \compattikzset{european inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@europeaninductor@path, l=#1}} \compattikzset{variable inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vinductor@path, l=#1}} \compattikzset{variable european inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@veuropeaninductor@path, l=#1}} \compattikzset{variable american inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vamericaninductor@path, l=#1}} \compattikzset{variable cute inductor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vcuteinductor@path, l=#1}} \compattikzset{tline/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@tline@path, l=#1}} \compattikzset{transmission line/.style = {tline = #1}} \compattikzset{TL/.style = {tline = #1}} \compattikzset{mstline/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@mstline@path, l=#1}} \compattikzset{european voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vsource@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{american voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vsourceam@path, \circuitikzbasekey/bipole/is voltage=true, v=#1}} \compattikzset{european current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@isource@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{american current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@isourceam@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{empty controlled source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ecsource@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{european controlled voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cvsource@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{american controlled voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cvsourceam@path, \circuitikzbasekey/bipole/is voltage=true, v=#1}} \compattikzset{european controlled current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cisource@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{american controlled current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cisourceam@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{sinusoidal voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vsourcesin@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1 }} \compattikzset{square voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vsourcesquare@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1 }} \compattikzset{triangle voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vsourcetri@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1 }} \compattikzset{sinusoidal current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@isourcesin@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{controlled sinusoidal voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cvsourcesin@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{controlled sinusoidal current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cisourcesin@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{voltage source/.style = {\comnpatname \ifpgf@circuit@europeanvoltage european \else american \fi voltage source, \circuitikzbasekey/bipole/is voltage=true, v=#1}} \compattikzset{current source/.style = {\comnpatname \ifpgf@circuit@europeancurrent european \else american \fi current source = #1, \circuitikzbasekey/bipole/is current=true}} \compattikzset{controlled voltage source/.style = {\comnpatname \ifpgf@circuit@europeanvoltage european \else american \fi controlled voltage source, \circuitikzbasekey/bipole/is voltage=true, v=#1}} \compattikzset{controlled current source/.style = {\comnpatname \ifpgf@circuit@europeancurrent european \else american \fi controlled current source = #1, \circuitikzbasekey/bipole/is current=true}} \compattikzset{generic/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@generic@path, l=#1}} \compattikzset{xgeneric/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@xgeneric@path, l=#1}} \compattikzset{ageneric/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ageneric@path, l=#1}} \compattikzset{tgeneric/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@tgeneric@path, l=#1}} \compattikzset{fullgeneric/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullgeneric@path, l=#1}} \compattikzset{tfullgeneric/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@tfullgeneric@path, l=#1}} \compattikzset{short/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@short@path}} \compattikzset{open/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@open@path}} \compattikzset{lamp/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@lamp@path}} \compattikzset{bulb/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@bulb@path, l=#1}} \compattikzset{squid/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@squid@path}} \compattikzset{barrier/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@barrier@path}} \compattikzset{openbarrier/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@openbarrier@path}} \compattikzset{thermocouple/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@thermocouple@path}} \compattikzset{fuse/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fuse@path}} \compattikzset{asymmetric fuse/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@afuse@path}} \compattikzset{twoport/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@twoport@path}} \compattikzset{vco/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vco@path}} \compattikzset{bandpass/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@bandpass@path}} \compattikzset{bandstop/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@bandstop@path}} \compattikzset{highpass/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@highpass@path}} \compattikzset{lowpass/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@lowpass@path}} \compattikzset{adc/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@adc@path}} \compattikzset{dac/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@dac@path}} \compattikzset{dsp/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@dsp@path}} \compattikzset{fft/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fft@path}} \compattikzset{amp/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@amp@path}} \compattikzset{vamp/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vamp@path}} \compattikzset{piattenuator/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@piattenuator@path}} \compattikzset{vpiattenuator/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vpiattenuator@path}} \compattikzset{tattenuator/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@tattenuator@path}} \compattikzset{vtattenuator/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vtattenuator@path}} \compattikzset{phaseshifter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@phaseshifter@path}} \compattikzset{vphaseshifter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vphaseshifter@path}} \compattikzset{detector/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@detector@path}} % \compattikzset{sacdc/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@sacdc@path, l=#1}} \compattikzset{sdcac/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@sdcac@path, l=#1}} \compattikzset{tacdc/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@tacdc@path, l=#1}} \compattikzset{tdcac/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@tdcac@path, l=#1}} % % % % % % % % Begin of Diodes % % % % % % \def\pgf@circ@fulldiode@path#1{\pgf@circ@bipole@path{fulldiode}{#1}} \def\pgf@circ@fullzdiode@path#1{\pgf@circ@bipole@path{fullzdiode}{#1}} \def\pgf@circ@fullzzdiode@path#1{\pgf@circ@bipole@path{fullzzdiode}{#1}} \def\pgf@circ@fullsdiode@path#1{\pgf@circ@bipole@path{fullsdiode}{#1}} \def\pgf@circ@fulltdiode@path#1{\pgf@circ@bipole@path{fulltdiode}{#1}} \def\pgf@circ@fulllediode@path#1{\pgf@circ@bipole@path{fulllediode}{#1}} \def\pgf@circ@fullpdiode@path#1{\pgf@circ@bipole@path{fullpdiode}{#1}} \def\pgf@circ@fullvarcap@path#1{\pgf@circ@bipole@path{fullvarcap}{#1}} \def\pgf@circ@fullbidirectionaldiode@path#1{\pgf@circ@bipole@path{fullbidirectionaldiode}{#1}} \def\pgf@circ@emptydiode@path#1{\pgf@circ@bipole@path{emptydiode}{#1}} \def\pgf@circ@emptyzdiode@path#1{\pgf@circ@bipole@path{emptyzdiode}{#1}} \def\pgf@circ@emptyzzdiode@path#1{\pgf@circ@bipole@path{emptyzzdiode}{#1}} \def\pgf@circ@emptysdiode@path#1{\pgf@circ@bipole@path{emptysdiode}{#1}} \def\pgf@circ@emptytdiode@path#1{\pgf@circ@bipole@path{emptytdiode}{#1}} \def\pgf@circ@emptylediode@path#1{\pgf@circ@bipole@path{emptylediode}{#1}} \def\pgf@circ@emptypdiode@path#1{\pgf@circ@bipole@path{emptypdiode}{#1}} \def\pgf@circ@emptyvarcap@path#1{\pgf@circ@bipole@path{emptyvarcap}{#1}} \def\pgf@circ@emptybidirectionaldiode@path#1{\pgf@circ@bipole@path{emptybidirectionaldiode}{#1}} \compattikzset{full diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fulldiode@path}} \compattikzset{full Schottky diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullsdiode@path}} \compattikzset{full Zener diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullzdiode@path}} \compattikzset{full ZZener diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullzzdiode@path}} \compattikzset{full tunnel diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fulltdiode@path}} \compattikzset{full photodiode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullpdiode@path}} \compattikzset{full led/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fulllediode@path}} \compattikzset{full varcap/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullvarcap@path}} \compattikzset{full bidirectionaldiode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullbidirectionaldiode@path}} \compattikzset{full thyristor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fullthyristor@path}} \compattikzset{full triac/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@fulltriac@path}} \compattikzset{empty diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptydiode@path}} \compattikzset{empty Schottky diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptysdiode@path}} \compattikzset{empty Zener diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptyzdiode@path}} \compattikzset{empty ZZener diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptyzzdiode@path}} \compattikzset{empty tunnel diode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptytdiode@path}} \compattikzset{empty photodiode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptypdiode@path}} \compattikzset{empty led/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptylediode@path}} \compattikzset{empty varcap/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptyvarcap@path}} \compattikzset{empty bidirectionaldiode/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptybidirectionaldiode@path}} \compattikzset{empty thyristor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptythyristor@path}} \compattikzset{empty triac/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@emptytriac@path}} \compattikzset{stroke diode/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptydiode@path}} \compattikzset{stroke Schottky diode/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptysdiode@path}} \compattikzset{stroke Zener diode/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptyzdiode@path}} \compattikzset{stroke ZZener diode/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptyzzdiode@path}} \compattikzset{stroke tunnel diode/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptytdiode@path}} \compattikzset{stroke photodiode/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptypdiode@path}} \compattikzset{stroke led/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptylediode@path}} \compattikzset{stroke varcap/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptyvarcap@path}} \compattikzset{stroke thyristor/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptythyristor@path}} %\compattikzset{stroke triac/.style = {\circuitikzbasekey,\circuitikzbasekey/bipole/is strokedsymbol=true, /tikz/to path=\pgf@circ@emptytriac@path}} \def\pgfcircdiodestylemacro{\ifpgf@circuit@strokediode stroke \else\ifpgf@circuit@fulldiode full \else empty \fi\fi} \compattikzset{Schottky diode/.style = {\comnpatname \pgfcircdiodestylemacro Schottky diode}} \compattikzset{Zener diode/.style = {\comnpatname \pgfcircdiodestylemacro Zener diode}} \compattikzset{ZZener diode/.style = {\comnpatname \pgfcircdiodestylemacro ZZener diode}} \compattikzset{tunnel diode/.style = {\comnpatname \pgfcircdiodestylemacro tunnel diode}} \compattikzset{photodiode/.style = {\comnpatname \pgfcircdiodestylemacro photodiode}} \compattikzset{led/.style = {\comnpatname \pgfcircdiodestylemacro led}} \compattikzset{varcap/.style = {\comnpatname \pgfcircdiodestylemacro varcap}} \compattikzset{diode/.style = {\comnpatname \pgfcircdiodestylemacro diode}} \compattikzset{thyristor/.style = {\comnpatname \pgfcircdiodestylemacro thyristor}} \compattikzset{triac/.style = {\comnpatname \ifpgf@circuit@fulldiode full \else empty \fi triac}}%no stroke triac! \compattikzset{bidirectionaldiode/.style = {\comnpatname \ifpgf@circuit@fulldiode full \else empty \fi bidirectionaldiode}}%no stroke bidirectionaldiode! (based on triac) %% Define Shortcuts \compattikzset{Do/.style = {\comnpatname empty diode}} \compattikzset{tDo/.style = {\comnpatname empty tunnel diode}} \compattikzset{zDo/.style = {\comnpatname empty Zener diode}} \compattikzset{zzDo/.style = {\comnpatname empty ZZener diode}} \compattikzset{sDo/.style = {\comnpatname empty Schottky diode}} \compattikzset{pDo/.style = {\comnpatname empty photodiode}} \compattikzset{leDo/.style = {\comnpatname empty led}} \compattikzset{VCo/.style = {\comnpatname empty varcap}} \compattikzset{biDo/.style = {\comnpatname empty bidirectionaldiode}} \compattikzset{Tyo/.style = {\comnpatname empty thyristor}} \compattikzset{Tro/.style = {\comnpatname empty triac}} \compattikzset{D*/.style = {\comnpatname full diode}} \compattikzset{tD*/.style = {\comnpatname full tunnel diode}} \compattikzset{zD*/.style = {\comnpatname full Zener diode}} \compattikzset{zzD*/.style = {\comnpatname full ZZener diode}} \compattikzset{sD*/.style = {\comnpatname full Schottky diode}} \compattikzset{pD*/.style = {\comnpatname full photodiode}} \compattikzset{leD*/.style = {\comnpatname full led}} \compattikzset{VC*/.style = {\comnpatname full varcap}} \compattikzset{biD*/.style = {\comnpatname full bidirectionaldiode}} \compattikzset{Ty*/.style = {\comnpatname full thyristor}} \compattikzset{Tr*/.style = {\comnpatname full triac}} \compattikzset{D/.style = {\comnpatname diode}} \compattikzset{tD/.style = {\comnpatname tunnel diode}} \compattikzset{zD/.style = {\comnpatname Zener diode}} \compattikzset{zzD/.style = {\comnpatname ZZener diode}} \compattikzset{sD/.style = {\comnpatname Schottky diode}} \compattikzset{pD/.style = {\comnpatname photodiode}} \compattikzset{leD/.style = {\comnpatname led}} \compattikzset{VC/.style = {\comnpatname varcap}} \compattikzset{biD/.style = {\comnpatname bidirectionaldiode}} \compattikzset{Ty/.style = {\comnpatname thyristor}} \compattikzset{Tr/.style = {\comnpatname triac}} \compattikzset{D-/.style = {\comnpatname stroke diode}} \compattikzset{tD-/.style = {\comnpatname stroke tunnel diode}} \compattikzset{zD-/.style = {\comnpatname stroke Zener diode}} \compattikzset{zzD-/.style = {\comnpatname stroke ZZener diode}} \compattikzset{sD-/.style = {\comnpatname stroke Schottky diode}} \compattikzset{pD-/.style = {\comnpatname stroke photodiode}} \compattikzset{leD-/.style = {\comnpatname stroke led}} \compattikzset{VC-/.style = {\comnpatname stroke varcap}} \compattikzset{Ty-/.style = {\comnpatname stroke thyristor}} \compattikzset{Tr-/.style = {\comnpatname empty triac}}%no stroke triac! \compattikzset{biD-/.style = {\comnpatname empty bidirectionaldiode}}%no stroke bidirectionaldiode! (based on triac) % % % % % % % % End of Diodes % % % % % % \compattikzset{memristor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@memristor@path}} \compattikzset{closing switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cspst@path, l=#1}} \compattikzset{opening switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ospst@path, l=#1}} \compattikzset{ncs/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ncs@path, l=#1}} \compattikzset{nos/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@nos@path, l=#1}} \compattikzset{normal closed switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ncs@path, l=#1}} \compattikzset{normal open switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@nos@path, l=#1}} \compattikzset{switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cspst@path, l=#1}} \compattikzset{push button/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@pushbutton@path, l=#1}} \compattikzset{nopb/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@pushbutton@path, l=#1}} \compattikzset{normally open push button/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@pushbutton@path, l=#1}} \compattikzset{ncpb/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ncpushbutton@path, l=#1}} \compattikzset{normally closed push button/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ncpushbutton@path, l=#1}} \compattikzset{toggle switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@toggleswitch@path}} \compattikzset{ammeter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ammeter@path}} \compattikzset{voltmeter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@voltmeter@path}} \compattikzset{ohmmeter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@ohmmeter@path}} \tikzset{oscope/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@oscope@path, l=#1}} % cute switches %% closed cute switch \def\pgf@circ@cuteclosedswitch@path#1{\pgf@circ@bipole@path{cuteclosedswitch}{#1}} \compattikzset{cute closed switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cuteclosedswitch@path, l=#1}} \compattikzset{ccsw/.style= {\comnpatname cute closed switch= #1}} %% open cute switch \def\pgf@circ@cuteopenswitch@path#1{\pgf@circ@bipole@path{cuteopenswitch}{#1}} \compattikzset{cute open switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cuteopenswitch@path, l=#1}} \compattikzset{cosw/.style= {\comnpatname cute open switch= #1}} %% closing cute switch \def\pgf@circ@cuteclosingswitch@path#1{\pgf@circ@bipole@path{cuteclosingswitch}{#1}} \compattikzset{cute closing switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cuteclosingswitch@path, l=#1}} \compattikzset{ccgsw/.style= {\comnpatname cute closing switch= #1}} %% opening cute switch \def\pgf@circ@cuteopeningswitch@path#1{\pgf@circ@bipole@path{cuteopeningswitch}{#1}} \compattikzset{cute opening switch/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cuteopeningswitch@path, l=#1}} \compattikzset{cogsw/.style= {\comnpatname cute opening switch= #1}} % short forms \compattikzset{esource/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@esource@path, \circuitikzbasekey/bipole/is voltage=true,\circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{pvsource/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@pvsource@path, \circuitikzbasekey/bipole/is voltage=true,\circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{dcvsource/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@dcvsource@path, \circuitikzbasekey/bipole/is voltage=true,\circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{dcisource/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@dcisource@path, \circuitikzbasekey/bipole/is current=true, l=#1}} \compattikzset{ioosource/.style = {\circuitikzbasekey, \circuitikzbasekey/bipole/is current=true,/tikz/to path=\pgf@circ@oosource@path, i=#1}} \compattikzset{voosource/.style = {\circuitikzbasekey, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, /tikz/to path=\pgf@circ@oosource@path, v=#1}} \compattikzset{oosourcetrans/.style = {\circuitikzbasekey, \circuitikzbasekey/bipole/is voltage=true,\circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, /tikz/to path=\pgf@circ@oosourcetrans@path, v=#1}} \compattikzset{ooosource/.style = {\circuitikzbasekey, \circuitikzbasekey/bipole/is voltage=true,\circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, /tikz/to path=\pgf@circ@ooosource@path, v=#1}} \compattikzset{vsource/.style = {\comnpatname voltage source = #1}} \compattikzset{isource/.style = {\comnpatname current source = #1}} \compattikzset{cisource/.style = {\comnpatname controlled current source = #1}} \compattikzset{ecsource/.style = {\comnpatname empty controlled source = #1}} \compattikzset{cvsource/.style = {\comnpatname controlled voltage source = #1}} \compattikzset{vsourcesin/.style = {\comnpatname sinusoidal voltage source = #1}} \compattikzset{vsourcesquare/.style = {\comnpatname square voltage source = #1}} \compattikzset{vsourcetri/.style = {triangle voltage source = #1}} \compattikzset{isourcesin/.style = {\comnpatname sinusoidal current source = #1}} \compattikzset{cisourcesin/.style = {\comnpatname controlled sinusoidal current source = #1}} \compattikzset{cvsourcesin/.style = {\comnpatname controlled sinusoidal voltage source = #1}} \compattikzset{controlled vsource/.style = {\comnpatname controlled voltage source = #1}} \compattikzset{controlled isource/.style = {\comnpatname controlled current source = #1}} \compattikzset{controlled vsourcesin/.style = {\comnpatname controlled sinusoidal voltage source = #1}} \compattikzset{controlled isourcesin/.style = {\comnpatname controlled sinusoidal current source = #1}} \compattikzset{R/.style= {\comnpatname resistor = #1}} \compattikzset{vR/.style= {\comnpatname variable resistor = #1}} \compattikzset{phR/.style= {\comnpatname photoresistor = #1}} \compattikzset{thR/.style= {\comnpatname thermistor = #1}} \compattikzset{thRp/.style= {\comnpatname thermistor ptc= #1}} \compattikzset{thRn/.style= {\comnpatname thermistor ntc= #1}} \compattikzset{pR/.style= {\comnpatname potentiometer = #1}} \compattikzset{C/.style = {\comnpatname capacitor = #1}} \compattikzset{eC/.style = {\comnpatname ecapacitor = #1}} %% pC is deprecated, use cC instead \compattikzset{pC/.style = {\comnpatname polar capacitor = #1}} \compattikzset{cC/.style = {\comnpatname curved capacitor = #1}} \compattikzset{vC/.style = {\comnpatname variable capacitor = #1}} \compattikzset{PZ/.style = {\comnpatname piezoelectric = #1}} \compattikzset{L/.style = {\comnpatname inductor = #1}} \compattikzset{vL/.style = {\comnpatname variable inductor = #1}} \compattikzset{V/.style = {\comnpatname voltage source = #1}} \compattikzset{cV/.style = {\comnpatname controlled voltage source = #1}} \compattikzset{sV/.style = {\comnpatname sinusoidal voltage source = #1}} \compattikzset{sqV/.style = {\comnpatname square voltage source = #1}} \compattikzset{tV/.style = {\comnpatname triangle voltage source = #1}} \compattikzset{csV/.style = {\comnpatname controlled sinusoidal voltage source = #1}} \def\pgf@temp#1{ \compattikzset{V#1/.style = {\comnpatname voltage source, v#1=##1} } \compattikzset{cV#1/.style = {\comnpatname controlled voltage source, v#1=##1} } \compattikzset{sV#1/.style = {\comnpatname sinusoidal voltage source, v#1=##1} } \compattikzset{csV#1/.style = {\comnpatname controlled sinusoidal voltage source, v#1=##1} } } \pgf@temp{_>} \pgf@temp{_<} \pgf@temp{^>} \pgf@temp{^<} \pgf@temp{>} \pgf@temp{<} \pgf@temp{^} \pgf@temp{_} %current sources \compattikzset{I/.style = {\comnpatname current source = #1}} \compattikzset{cI/.style = {\comnpatname controlled current source = #1}} \compattikzset{sI/.style = {\comnpatname sinusoidal current source = #1}} \compattikzset{csI/.style = {\comnpatname controlled sinusoidal current source = #1}} \def\pgf@temp#1{ \compattikzset{I#1/.style = {\comnpatname current source, i#1=##1} } \compattikzset{cI#1/.style = {\comnpatname controlled current source, i#1=##1} } \compattikzset{sI#1/.style = {\comnpatname sinusoidal current source, i#1=##1} } \compattikzset{csI#1/.style = {\comnpatname controlled sinusoidal current source, i#1=##1} } } \pgf@temp{_>} \pgf@temp{_<} \pgf@temp{^>} \pgf@temp{^<} \pgf@temp{>_} \pgf@temp{<_} \pgf@temp{>^} \pgf@temp{<^} \pgf@temp{>} \pgf@temp{<} \pgf@temp{^} \pgf@temp{_} % cute sources \def\pgf@circ@vsourceC@path#1{\pgf@circ@bipole@path{vsourceC}{#1}} \compattikzset{cute european voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vsourceC@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{vsourceC/.style= {\comnpatname cute european voltage source= #1}} \compattikzset{ceV/.style= {\comnpatname cute european voltage source= #1}} \def\pgf@circ@isourceC@path#1{\pgf@circ@bipole@path{isourceC}{#1}} \compattikzset{cute european current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@isourceC@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{isourceC/.style= {\comnpatname cute european current source= #1}} \compattikzset{ceI/.style= {\comnpatname cute european current source= #1}} \def\pgf@circ@cvsourceC@path#1{\pgf@circ@bipole@path{cvsourceC}{#1}} \compattikzset{cute european controlled voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cvsourceC@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{cvsourceC/.style= {\comnpatname cute european controlled voltage source= #1}} \compattikzset{cceV/.style= {\comnpatname cute european controlled voltage source= #1}} \def\pgf@circ@cisourceC@path#1{\pgf@circ@bipole@path{cisourceC}{#1}} \compattikzset{cute european controlled current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cisourceC@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{cisourceC/.style= {\comnpatname cute european controlled current source= #1}} \compattikzset{cceI/.style= {\comnpatname cute european controlled current source= #1}} % noise sources \def\pgf@circ@vsourceN@path#1{\pgf@circ@bipole@path{vsourceN}{#1}} \compattikzset{noise voltage source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@vsourceN@path, \circuitikzbasekey/bipole/is voltage=true, \circuitikzbasekey/bipole/is voltageoutsideofsymbol=true, v=#1}} \compattikzset{vsourceN/.style= {\comnpatname noise voltage source= #1}} \compattikzset{nV/.style= {\comnpatname noise voltage source= #1}} \def\pgf@circ@isourceN@path#1{\pgf@circ@bipole@path{isourceN}{#1}} \compattikzset{noise current source/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@isourceN@path, \circuitikzbasekey/bipole/is current=true, i=#1}} \compattikzset{isourceN/.style= {\comnpatname noise current source= #1}} \compattikzset{nI/.style= {\comnpatname noise current source= #1}} % resistive sensor american style \def\pgf@circ@resistivesens@path#1{\pgf@circ@bipole@path{resistivesens}{#1}} \compattikzset{american resistive sensor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@resistivesens@path, l=#1}} \compattikzset{european resistive sensor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@thermistorntc@path, l=#1}} \compattikzset{resistive sensor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@sresistor@path, l=#1}} \compattikzset{sR/.style= {\comnpatname resistive sensor= #1}} \compattikzset{capacitive sensor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@capacitivesens@path, l=#1}} \compattikzset{sC/.style= {\comnpatname capacitive sensor= #1}} \compattikzset{cute inductive sensor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@cuteinductivesens@path, l=#1}} \compattikzset{european inductive sensor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@europeaninductivesens@path, l=#1}} \compattikzset{american inductive sensor/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@americaninductivesens@path, l=#1}} \compattikzset{inductive sensor/.style= {\circuitikzbasekey, /tikz/to path=\pgf@circ@inductivesens@path, l=#1}} \compattikzset{sL/.style= {\comnpatname inductive sensor= #1}} \compattikzset{Mr/.style = {\comnpatname memristor}} \compattikzset{cspst/.style = {\comnpatname closing switch = #1}} \compattikzset{ospst/.style = {\comnpatname opening switch = #1}} \compattikzset{spst/.style = {\comnpatname switch = #1}} \compattikzset{afuse/.style = {\comnpatname asymmetric fuse=#1}} \compattikzset{vdd/.style = {\comnpatname vcc = #1}} \compattikzset{vss/.style = {\comnpatname vee = #1}} % activate the to-style crossing \def\pgf@circ@crossing@path#1{\pgf@circ@bipole@path{crossing}{#1}} \compattikzset{crossing/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@crossing@path, l=#1}} \compattikzset{xing/.style= {\comnpatname crossing= #1}} %% loudspeaker and microphone \def\pgf@circ@loudspeaker@path#1{\pgf@circ@bipole@path{loudspeaker}{#1}} \compattikzset{loudspeaker/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@loudspeaker@path, l=#1}} \def\pgf@circ@mic@path#1{\pgf@circ@bipole@path{mic}{#1}} \compattikzset{mic/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@mic@path, l=#1}} % more instrument \def\pgf@circ@rmeter@path#1{\pgf@circ@bipole@path{rmeter}{#1}} \compattikzset{rmeter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@rmeter@path, l=#1}} \def\pgf@circ@rmeterwa@path#1{\pgf@circ@bipole@path{rmeterwa}{#1}} \compattikzset{rmeterwa/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@rmeterwa@path, l=#1}} \def\pgf@circ@smeter@path#1{\pgf@circ@bipole@path{smeter}{#1}} \compattikzset{smeter/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@smeter@path, l=#1}} % current loop probes \def\pgf@circ@iloop@path#1{\pgf@circ@bipole@path{iloop}{#1}} \compattikzset{iloop/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@iloop@path, l=#1}} \def\pgf@circ@iloop2@path#1{\pgf@circ@bipole@path{iloop2}{#1}} \compattikzset{iloop2/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@iloop2@path, l=#1}} % qucs-style probes \def\pgf@circ@qiprobe@path#1{\pgf@circ@bipole@path{qiprobe}{#1}} \compattikzset{qiprobe/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@qiprobe@path, l=#1}} \def\pgf@circ@qvprobe@path#1{\pgf@circ@bipole@path{qvprobe}{#1}} \compattikzset{qvprobe/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@qvprobe@path, l=#1}} \def\pgf@circ@qpprobe@path#1{\pgf@circ@bipole@path{qpprobe}{#1}} \compattikzset{qpprobe/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@qpprobe@path, l=#1}} % multiwire(s) \def\pgf@circ@bmultiwire@path#1{\pgf@circ@bipole@path{bmultiwire}{#1}} \compattikzset{bmultiwire/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@bmultiwire@path, l=#1}} \def\pgf@circ@multiwire@path#1{\pgf@circ@bipole@path{multiwire}{#1}} \compattikzset{multiwire/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@multiwire@path, l=#1}} \def\pgf@circ@tmultiwire@path#1{\pgf@circ@bipole@path{tmultiwire}{#1}} \compattikzset{tmultiwire/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@tmultiwire@path, l=#1}} % reed switches \def\pgf@circ@reed@path#1{\pgf@circ@bipole@path{reed}{#1}} \compattikzset{reed/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@reed@path, l=#1}} % Transistor like bipoles \def\pgf@circ@trans@path#1#2{ \pgfextra{ \edef\pgf@temp{\ctikzvalof{bipole/name}} \def\pgf@circ@temp{#2} \ifx\pgf@temp\pgf@circ@temp % if it has not a name \pgfmathrandominteger{\pgf@circ@rand}{1000}{9999} \ctikzset{bipole/name = trans\pgf@circ@rand} % create it \fi } \ifpgf@circuit@bipole@inverted (\tikztostart) node[coordinate] (\ctikzvalof{bipole/name}end) {} (\tikztotarget) node[coordinate] (\ctikzvalof{bipole/name}start) {} \else (\tikztostart) node[coordinate] (\ctikzvalof{bipole/name}start) {} (\tikztotarget) node[coordinate] (\ctikzvalof{bipole/name}end) {} \fi \pgfextra{ \pgfmathanglebetweenpoints{\pgfpointanchor{\ctikzvalof{bipole/name}start}{center}} {\pgfpointanchor{\ctikzvalof{bipole/name}end}{center}} \pgfmathadd{\pgfmathresult}{-90} \pgfmathround{\pgfmathresult} \edef\pgf@circ@direction{\pgfmathresult} } ($(\tikztostart) ! .5 ! (\tikztotarget)$) node[#1, /tikz/rotate=\pgf@circ@direction, xscale=\ctikzvalof{mirror value}] (\ctikzvalof{bipole/name}) {} node {\ctikzvalof{bipole/label/name}} \ifcsname pgf@anchor@#1@pathstart\endcsname%if special path-anchors are defined, use them! (\ctikzvalof{bipole/name}start.center) --(\ctikzvalof{bipole/name}.pathstart) (\ctikzvalof{bipole/name}.pathend) -- (\ctikzvalof{bipole/name}end.center) \else (\ctikzvalof{bipole/name}start.center) --(\ctikzvalof{bipole/name}.left) (\ctikzvalof{bipole/name}.right) -- (\ctikzvalof{bipole/name}end.center) \fi \drawpoles \pgfextra{ \pgfcircresetpath } (\tikztotarget) \tikztonodes % e si continua } \def\pgf@circ@definetranspath#1{ \compattikzset{T#1/.style = {\circuitikzbasekey, /tikz/to path=\pgf@circ@trans@path{#1}{}, l=##1}} } \pgf@circ@definetranspath{elmech} \pgf@circ@definetranspath{nmos} \pgf@circ@definetranspath{pmos} \pgf@circ@definetranspath{hemt} \pgf@circ@definetranspath{npn} \pgf@circ@definetranspath{pnp} \pgf@circ@definetranspath{nfet} \pgf@circ@definetranspath{nigfete} \pgf@circ@definetranspath{nigfetd} \pgf@circ@definetranspath{nigfetebulk} \pgf@circ@definetranspath{pfet} \pgf@circ@definetranspath{pigfete} \pgf@circ@definetranspath{pigfetd} \pgf@circ@definetranspath{pigfetebulk} \pgf@circ@definetranspath{njfet} \pgf@circ@definetranspath{pjfet} \pgf@circ@definetranspath{pigbt} \pgf@circ@definetranspath{nigbt} \pgf@circ@definetranspath{Lpigbt} \pgf@circ@definetranspath{Lnigbt} % % Path-style logical ports % % create path-style element for one input --- one output logical ports % \def\pgfcirc@port@node@to@path#1#2{% % % add a logic port path style component --- we need to suppress leads % and use the correct center % \pgfcirc@node@to@path{#1}{#2}{/tikz/no leads, \circuitikzbasekey/logic ports origin=center}% } \pgfcirc@port@node@to@path{not port}{inline not} \pgfcirc@port@node@to@path{buffer port}{inline buffer} \pgfcirc@port@node@to@path{schmitt port}{inline schmitt} \pgfcirc@port@node@to@path{invschmitt port}{inline invschmitt}