Nach einigem Herumstöbern fand ich einigeLösungtikzBibliotheken im selben Dokument wie das Paket zu verwenden circuitkz. Oder zumindest dachte ich, ich täte das.
Mir gefällt die Optik der Tikz-Logik (und die Möglichkeit, Logikgatter mit mehreren Eingängen zu haben) und die Transistoren in Circuitikz.
Ich habe die oben genannte Lösung ausprobiert und sie funktioniert, wenn ich Folgendes mache:
\documentclass{article}
\usepackage{circuitikz}
\usepackage{tikz}
\begin{document}
\begin{figure}[htbp]
\centering
\begingroup
\usetikzlibrary{circuits.logic.US}
\usetikzlibrary{circuits.ee.IEC}
\begin{tikzpicture}[circuit logic US, circuit ee IEC, huge circuit symbols, set resistor graphic = var resistor IEC graphic]
\matrix[column sep=10mm, row sep=10mm,anchor=center]
{
\node [not gate] (not1) {}; \\
\node [not gate] (not2) {}; \\
};
\node (a) at ([xshift=-25mm]not1.input) {$V_{in}^+$};
\node [contact] (a1) at ([xshift=-10mm]not1.input) {};
\node (b) at ([xshift=-25mm]not2.input) {$V_{in}^-$};
\node [contact] (b1) at ([xshift=-10mm]not2.input) {};
\node (x) at ([xshift=25mm]not1.output) {$V_{out}^-$};
\node [contact] (x1) at ([xshift=10mm]not1.output) {};
\node (z) at ([xshift=25mm]not2.output) {$V_{out}^+$};
\node [contact] (z1) at ([xshift=10mm]not2.output) {};
\node (en) at ([xshift=-30mm]$(not1.south)!0.5!(not2.north)$) {$EN$};
\node [contact] (en1) at ($(not1.south)!0.5!(not2.north)$) {};
\draw (en1.center) -- (not1.south) node[below right] (ennot1) {$E$};
\draw (en1.center) -- (not2.north) node[above right] (ennot2) {$E$};
\node [resistor={info'={$R$}}] (res1) at ([xshift=2mm, yshift=10mm]not1.north){};
\node [resistor={info={$R$}}] (res2) at ([xshift=2mm, yshift=-10mm]not2.south){};
\draw (a.east) -- (a1.center);
\draw (a1.center) |- (res1.input);
\draw (a1.center) -- (not1.input);
\draw (b.east) -- (b1.center);
\draw (b1.center) |- (res2.input);
\draw (b1.center) -- (not2.input);
\draw (en.east) -- (en1.center);
\draw (not1.output) -- (x1.center);
\draw (x1.center) |- (res1.output);
\draw (x1.center) |- (x.west);
\draw (not2.output) -- (z1.center);
\draw (z1.center) |- (res2.output);
\draw (z1.center) |- (z.west);
\end{tikzpicture}
\endgroup
\caption{Some NOT gates with enable and resistors.}
\end{figure}
\begin{figure}[htbp]
\begin{center}
\begin{circuitikz}[scale=0.7, transform shape]
\draw[thick,->] (0,0.5) --(1,0.5) node[anchor=south east] {$i(x,t)$};
\node[] at (0,-1) {$v(x,t)$};
\draw
(0,0) node[anchor=east] {+}
to[short, o-] (1,0)
to[R=$Rx$] (3,0)
to[L=$Lx$] (5,0)
(5,-2) to[R=$Gx$, *-*] (5,0)
(5,0) to[short] (7,0)
(7,-2) to[C=$Cx$, *-*] (7,0)
(5,-2) to[short] (7,-2)
(0,-2) node[anchor=east]{-}
to[short, o-] (5,-2)
(9,0) node[anchor=west]{+}
to[short, o-] (7,0)
(9,-2) node[anchor=west]{-}
to[short, o-] (7,-2)
;
\draw[thick,->] (7,0.5) --(9,0.5) node[anchor=south east] {$i(x+ x,t)$};
\node[] at (9,-1) {$v(x+ x,t)$};
\end{circuitikz}
\caption{Infinitesimal section of a transmission line.}
\label{fig:transmission_line_section}
\end{center}
\end{figure}
\end{document}
Wenn ich jedoch versuche, eine weitere Zahl mit hinzuzufügen tikzpicture, wird das Programm mit Fehlern beendet. Beispiel:
\documentclass{article}
\usepackage{circuitikz}
\usepackage{tikz}
\begin{document}
\begin{figure}[htbp]
\centering
\begingroup
\usetikzlibrary{circuits.logic.US}
\usetikzlibrary{circuits.ee.IEC}
\begin{tikzpicture}[circuit logic US, circuit ee IEC, huge circuit symbols, set resistor graphic = var resistor IEC graphic]
\matrix[column sep=10mm, row sep=10mm,anchor=center]
{
\node [not gate] (not1) {}; \\
\node [not gate] (not2) {}; \\
};
\node (a) at ([xshift=-25mm]not1.input) {$V_{in}^+$};
\node [contact] (a1) at ([xshift=-10mm]not1.input) {};
\node (b) at ([xshift=-25mm]not2.input) {$V_{in}^-$};
\node [contact] (b1) at ([xshift=-10mm]not2.input) {};
\node (x) at ([xshift=25mm]not1.output) {$V_{out}^-$};
\node [contact] (x1) at ([xshift=10mm]not1.output) {};
\node (z) at ([xshift=25mm]not2.output) {$V_{out}^+$};
\node [contact] (z1) at ([xshift=10mm]not2.output) {};
\node (en) at ([xshift=-30mm]$(not1.south)!0.5!(not2.north)$) {$EN$};
\node [contact] (en1) at ($(not1.south)!0.5!(not2.north)$) {};
\draw (en1.center) -- (not1.south) node[below right] (ennot1) {$E$};
\draw (en1.center) -- (not2.north) node[above right] (ennot2) {$E$};
\node [resistor={info'={$R$}}] (res1) at ([xshift=2mm, yshift=10mm]not1.north){};
\node [resistor={info={$R$}}] (res2) at ([xshift=2mm, yshift=-10mm]not2.south){};
\draw (a.east) -- (a1.center);
\draw (a1.center) |- (res1.input);
\draw (a1.center) -- (not1.input);
\draw (b.east) -- (b1.center);
\draw (b1.center) |- (res2.input);
\draw (b1.center) -- (not2.input);
\draw (en.east) -- (en1.center);
\draw (not1.output) -- (x1.center);
\draw (x1.center) |- (res1.output);
\draw (x1.center) |- (x.west);
\draw (not2.output) -- (z1.center);
\draw (z1.center) |- (res2.output);
\draw (z1.center) |- (z.west);
\end{tikzpicture}
\endgroup
\caption{Some NOT gates with enable and resistors.}
\end{figure}
\begin{figure}[htbp]
\centering
\begingroup
\usetikzlibrary{circuits.logic.US}
\usetikzlibrary{circuits.ee.IEC}
\begin{tikzpicture}[circuit logic US, circuit ee IEC, huge circuit symbols, set resistor graphic = var resistor IEC graphic]
\matrix[column sep=10mm, row sep=10mm,anchor=center]
{
\node [not gate] (not1) {}; \\
\node [not gate] (not2) {}; \\
};
\node (a) at ([xshift=-25mm]not1.input) {$V_{in}^+$};
\node [contact] (a1) at ([xshift=-10mm]not1.input) {};
\node (b) at ([xshift=-25mm]not2.input) {$V_{in}^-$};
\node [contact] (b1) at ([xshift=-10mm]not2.input) {};
\node (x) at ([xshift=25mm]not1.output) {$V_{out}^-$};
\node [contact] (x1) at ([xshift=10mm]not1.output) {};
\node (z) at ([xshift=25mm]not2.output) {$V_{out}^+$};
\node [contact] (z1) at ([xshift=10mm]not2.output) {};
\node (en) at ([xshift=-30mm]$(not1.south)!0.5!(not2.north)$) {$EN$};
\node [contact] (en1) at ($(not1.south)!0.5!(not2.north)$) {};
\draw (en1.center) -- (not1.south) node[below right] (ennot1) {$E$};
\draw (en1.center) -- (not2.north) node[above right] (ennot2) {$E$};
\node [resistor={info'={$R$}}] (res1) at ([xshift=2mm, yshift=10mm]not1.north){};
\node [resistor={info={$R$}}] (res2) at ([xshift=2mm, yshift=-10mm]not2.south){};
\draw (a.east) -- (a1.center);
\draw (a1.center) |- (res1.input);
\draw (a1.center) -- (not1.input);
\draw (b.east) -- (b1.center);
\draw (b1.center) |- (res2.input);
\draw (b1.center) -- (not2.input);
\draw (en.east) -- (en1.center);
\draw (not1.output) -- (x1.center);
\draw (x1.center) |- (res1.output);
\draw (x1.center) |- (x.west);
\draw (not2.output) -- (z1.center);
\draw (z1.center) |- (res2.output);
\draw (z1.center) |- (z.west);
\end{tikzpicture}
\endgroup
\caption{Some NOT gates with enable and resistors.}
\end{figure}
\begin{figure}[htbp]
\begin{center}
\begin{circuitikz}[scale=0.7, transform shape]
\draw[thick,->] (0,0.5) --(1,0.5) node[anchor=south east] {$i(x,t)$};
\node[] at (0,-1) {$v(x,t)$};
\draw
(0,0) node[anchor=east] {+}
to[short, o-] (1,0)
to[R=$Rx$] (3,0)
to[L=$Lx$] (5,0)
(5,-2) to[R=$Gx$, *-*] (5,0)
(5,0) to[short] (7,0)
(7,-2) to[C=$Cx$, *-*] (7,0)
(5,-2) to[short] (7,-2)
(0,-2) node[anchor=east]{-}
to[short, o-] (5,-2)
(9,0) node[anchor=west]{+}
to[short, o-] (7,0)
(9,-2) node[anchor=west]{-}
to[short, o-] (7,-2)
;
\draw[thick,->] (7,0.5) --(9,0.5) node[anchor=south east] {$i(x+ x,t)$};
\node[] at (9,-1) {$v(x+ x,t)$};
\end{circuitikz}
\caption{Infinitesimal section of a transmission line.}
\label{fig:transmission_line_section}
\end{center}
\end{figure}
\end{document}
Mache ich etwas falsch? Wenn die Bibliotheken nur in der Gruppe deklariert sind, können sie dann nicht in einer anderen Gruppe deklariert werden? Gibt es eine bessere Lösung, um den Umfang der deklarierten Bibliotheken einzuschränken?
Antwort1
Nach sorgfältiger Lektüre von CircuiTikZ'sHandbuchcompatilibity, die richtige Lösung besteht darin, die Paketoption zu verwenden und TikZ-Bibliotheken global geladen zu lassen. Der einzige Nachteil ist, dass man bei der Verwendung von CircuiTikZ-Definitionen *davor ein verwenden sollte.
Zum Beispiel dies:
\begin{figure}[htbp]
\begin{center}
\begin{circuitikz}[scale=0.7, transform shape]
\draw[thick,->] (0,0.5) --(1,0.5) node[anchor=south east] {$i(x,t)$};
\node[] at (0,-1) {$v(x,t)$};
\draw
(0,0) node[anchor=east] {+}
to[short, o-] (1,0)
to[R=$Rx$] (3,0)
to[L=$Lx$] (5,0)
(5,-2) to[R=$Gx$, *-*] (5,0)
(5,0) to[short] (7,0)
(7,-2) to[C=$Cx$, *-*] (7,0)
(5,-2) to[short] (7,-2)
(0,-2) node[anchor=east]{-}
to[short, o-] (5,-2)
(9,0) node[anchor=west]{+}
to[short, o-] (7,0)
(9,-2) node[anchor=west]{-}
to[short, o-] (7,-2)
;
\draw[thick,->] (7,0.5) --(9,0.5) node[anchor=south east] {$i(x+ x,t)$};
\node[] at (9,-1) {$v(x+ x,t)$};
\end{circuitikz}
\caption{Infinitesimal section of a transmission line.}
\label{fig:transmission_line_section}
\end{center}
\end{figure}
Geht bei Nutzung der compatibilityOption folgendermaßen vor:
\begin{figure}[htbp]
\begin{center}
\begin{circuitikz}[scale=0.7, transform shape]
\draw[thick,->] (0,0.5) --(1,0.5) node[anchor=south east] {$i(x,t)$};
\node[] at (0,-1) {$v(x,t)$};
\draw
(0,0) node[anchor=east] {+}
to[*short, o-] (1,0)
to[*R=$Rx$] (3,0)
to[*L=$Lx$] (5,0)
(5,-2) to[*R=$Gx$, *-*] (5,0)
(5,0) to[*short] (7,0)
(7,-2) to[*C=$Cx$, *-*] (7,0)
(5,-2) to[*short] (7,-2)
(0,-2) node[anchor=east]{-}
to[*short, o-] (5,-2)
(9,0) node[anchor=west]{+}
to[*short, o-] (7,0)
(9,-2) node[anchor=west]{-}
to[*short, o-] (7,-2)
;
\draw[thick,->] (7,0.5) --(9,0.5) node[anchor=south east] {$i(x+ x,t)$};
\node[] at (9,-1) {$v(x+ x,t)$};
\end{circuitikz}
\caption{Infinitesimal section of a transmission line.}
\label{fig:transmission_line_section}
\end{center}
\end{figure}
Antwort2
Es ist machbar, aber dennoch ein Notbehelf.
Offensichtlich werden durch das Laden der Bibliotheken einige globale Änderungen vorgenommen, die am Ende der Gruppe nicht entfernt werden. Sie können jedoch alle Ihre gemischten Schaltkreise auf einmal erstellen und sie (global) in Saveboxen speichern.
Sie können versuchen, externalize zu verwenden, oder die Bilder einfach mit Standalone erstellen. Die beste Lösung wäre, die Quelle für die gewünschten TikZ-Komponenten zu kopieren und sie für die Verwendung in Circuitikz umzubenennen.
\documentclass{article}
\usepackage{circuitikz}
\usepackage{tikz}
\newsavebox{\figA}
\newsavebox{\figB}
\begin{document}
\begingroup
\usetikzlibrary{circuits.logic.US}
\usetikzlibrary{circuits.ee.IEC}
\global\setbox\figA=\hbox{%
\begin{tikzpicture}[circuit logic US, circuit ee IEC, huge circuit symbols, set resistor graphic = var resistor IEC graphic]
\matrix[column sep=10mm, row sep=10mm,anchor=center]
{
\node [not gate] (not1) {}; \\
\node [not gate] (not2) {}; \\
};
\node (a) at ([xshift=-25mm]not1.input) {$V_{in}^+$};
\node [contact] (a1) at ([xshift=-10mm]not1.input) {};
\node (b) at ([xshift=-25mm]not2.input) {$V_{in}^-$};
\node [contact] (b1) at ([xshift=-10mm]not2.input) {};
\node (x) at ([xshift=25mm]not1.output) {$V_{out}^-$};
\node [contact] (x1) at ([xshift=10mm]not1.output) {};
\node (z) at ([xshift=25mm]not2.output) {$V_{out}^+$};
\node [contact] (z1) at ([xshift=10mm]not2.output) {};
\node (en) at ([xshift=-30mm]$(not1.south)!0.5!(not2.north)$) {$EN$};
\node [contact] (en1) at ($(not1.south)!0.5!(not2.north)$) {};
\draw (en1.center) -- (not1.south) node[below right] (ennot1) {$E$};
\draw (en1.center) -- (not2.north) node[above right] (ennot2) {$E$};
\node [resistor={info'={$R$}}] (res1) at ([xshift=2mm, yshift=10mm]not1.north){};
\node [resistor={info={$R$}}] (res2) at ([xshift=2mm, yshift=-10mm]not2.south){};
\draw (a.east) -- (a1.center);
\draw (a1.center) |- (res1.input);
\draw (a1.center) -- (not1.input);
\draw (b.east) -- (b1.center);
\draw (b1.center) |- (res2.input);
\draw (b1.center) -- (not2.input);
\draw (en.east) -- (en1.center);
\draw (not1.output) -- (x1.center);
\draw (x1.center) |- (res1.output);
\draw (x1.center) |- (x.west);
\draw (not2.output) -- (z1.center);
\draw (z1.center) |- (res2.output);
\draw (z1.center) |- (z.west);
\end{tikzpicture}}%
\global\setbox\figB=\hbox{%
\begin{tikzpicture}[circuit logic US, circuit ee IEC, huge circuit symbols, set resistor graphic = var resistor IEC graphic]
\matrix[column sep=10mm, row sep=10mm,anchor=center]
{
\node [not gate] (not1) {}; \\
\node [not gate] (not2) {}; \\
};
\node (a) at ([xshift=-25mm]not1.input) {$V_{in}^+$};
\node [contact] (a1) at ([xshift=-10mm]not1.input) {};
\node (b) at ([xshift=-25mm]not2.input) {$V_{in}^-$};
\node [contact] (b1) at ([xshift=-10mm]not2.input) {};
\node (x) at ([xshift=25mm]not1.output) {$V_{out}^-$};
\node [contact] (x1) at ([xshift=10mm]not1.output) {};
\node (z) at ([xshift=25mm]not2.output) {$V_{out}^+$};
\node [contact] (z1) at ([xshift=10mm]not2.output) {};
\node (en) at ([xshift=-30mm]$(not1.south)!0.5!(not2.north)$) {$EN$};
\node [contact] (en1) at ($(not1.south)!0.5!(not2.north)$) {};
\draw (en1.center) -- (not1.south) node[below right] (ennot1) {$E$};
\draw (en1.center) -- (not2.north) node[above right] (ennot2) {$E$};
\node [resistor={info'={$R$}}] (res1) at ([xshift=2mm, yshift=10mm]not1.north){};
\node [resistor={info={$R$}}] (res2) at ([xshift=2mm, yshift=-10mm]not2.south){};
\draw (a.east) -- (a1.center);
\draw (a1.center) |- (res1.input);
\draw (a1.center) -- (not1.input);
\draw (b.east) -- (b1.center);
\draw (b1.center) |- (res2.input);
\draw (b1.center) -- (not2.input);
\draw (en.east) -- (en1.center);
\draw (not1.output) -- (x1.center);
\draw (x1.center) |- (res1.output);
\draw (x1.center) |- (x.west);
\draw (not2.output) -- (z1.center);
\draw (z1.center) |- (res2.output);
\draw (z1.center) |- (z.west);
\end{tikzpicture}}
\endgroup
\begin{figure}[htbp]
\centering
\usebox{\figA}
\caption{Some NOT gates with enable and resistors.}
\end{figure}
\begin{figure}[htbp]
\centering
\usebox{\figB}
\caption{Some NOT gates with enable and resistors.}
\end{figure}
\begin{figure}[htbp]
\begin{center}
\begin{circuitikz}[scale=0.7, transform shape]
\draw[thick,->] (0,0.5) --(1,0.5) node[anchor=south east] {$i(x,t)$};
\node[] at (0,-1) {$v(x,t)$};
\draw
(0,0) node[anchor=east] {+}
to[short, o-] (1,0)
to[R=$Rx$] (3,0)
to[L=$Lx$] (5,0)
(5,-2) to[R=$Gx$, *-*] (5,0)
(5,0) to[short] (7,0)
(7,-2) to[C=$Cx$, *-*] (7,0)
(5,-2) to[short] (7,-2)
(0,-2) node[anchor=east]{-}
to[short, o-] (5,-2)
(9,0) node[anchor=west]{+}
to[short, o-] (7,0)
(9,-2) node[anchor=west]{-}
to[short, o-] (7,-2)
;
\draw[thick,->] (7,0.5) --(9,0.5) node[anchor=south east] {$i(x+ x,t)$};
\node[] at (9,-1) {$v(x+ x,t)$};
\end{circuitikz}
\caption{Infinitesimal section of a transmission line.}
\label{fig:transmission_line_section}
\end{center}
\end{figure}
\end{document}