\begin{figure} \centering \begin{tikzpicture}[shorten >=1pt,->,draw=black!50, node distance=\layersep] \tikzstyle{every pin edge}=[<-,shorten <=1pt] \tikzstyle{fmmde}=[circle,fill=black!25,minimum size=30pt,inner sep=0pt] \tikzstyle{component}=[fmmde, fill=green!50]; \tikzstyle{failure}=[fmmde, fill=red!50]; \tikzstyle{symptom}=[fmmde, fill=blue!50]; \tikzstyle{annot} = [text width=4em, text centered] % Draw the input layer nodes %\foreach \name / \y in {1,...,4} % This is the same as writing \foreach \name / \y in {1/1,2/2,3/3,4/4} % \node[component, pin=left:Input \#\y] (I-\name) at (0,-\y) {}; \node[component] (OPAMP) at (0,-4) {$OPAMP$}; \node[component] (R1) at (0,-9) {$R_1$}; \node[component] (R2) at (0,-13) {$R_2$}; %\node[component] (C-3) at (0,-5) {$C^0_3$}; %\node[component] (K-4) at (0,-8) {$K^0_4$}; %\node[component] (C-5) at (0,-10) {$C^0_5$}; %\node[component] (C-6) at (0,-12) {$C^0_6$}; %\node[component] (K-7) at (0,-15) {$K^0_7$}; % Draw the hidden layer nodes %\foreach \name / \y in {1,...,5} % \path[yshift=0.5cm] \node[failure] (OPAMPLU) at (\layersep,-0) {latchup}; \node[failure] (OPAMPLD) at (\layersep,-2) {latchdown}; \node[failure] (OPAMPNP) at (\layersep,-4) {noop}; \node[failure] (OPAMPLS) at (\layersep,-6) {lowslew}; \node[failure] (R1SHORT) at (\layersep,-9) {$R1_{SHORT}$}; \node[failure] (R1OPEN) at (\layersep,-11) {$R1_{OPEN}$}; \node[failure] (R2SHORT) at (\layersep,-13) {$R2_{SHORT}$}; \node[failure] (R2OPEN) at (\layersep,-15) {$R2_{OPEN}$}; % Draw the output layer node % % Connect every node in the input layer with every node in the % % hidden layer. % %\foreach \source in {1,...,4} % % \foreach \dest in {1,...,5} \path (OPAMP) edge (OPAMPLU); \path (OPAMP) edge (OPAMPLD); \path (OPAMP) edge (OPAMPNP); \path (OPAMP) edge (OPAMPLS); \path (R1) edge (R1SHORT); \path (R1) edge (R1OPEN); \path (R2) edge (R2SHORT); \path (R2) edge (R2OPEN); % Potential divider failure modes % \node[symptom] (PDHIGH) at (\layersep*2,-11) {$PD_{HIGH}$}; \node[symptom] (PDLOW) at (\layersep*2,-13) {$PD_{LOW}$}; \path (R1OPEN) edge (PDHIGH); \path (R2SHORT) edge (PDHIGH); \path (R2OPEN) edge (PDLOW); \path (R1SHORT) edge (PDLOW); \node[symptom] (AMPHIGH) at (\layersep*4,-6) {$AMP_{HIGH}$}; \node[symptom] (AMPLOW) at (\layersep*4,-8) {$AMP_{LOW}$}; \node[symptom] (AMPLP) at (\layersep*4,-10) {$LOWPASS$}; \path (PDLOW) edge (AMPHIGH); \path (OPAMPLU) edge (AMPHIGH); \path (PDHIGH) edge (AMPLOW); \path (OPAMPNP) edge (AMPLOW); \path (OPAMPLD) edge (AMPLOW); \path (OPAMPLS) edge (AMPLP); % %\node[symptom,pin={[pin edge={->}]right:Output}, right of=C-1a] (O) {}; % \node[symptom, right of=C-1a] (s1) {s1}; % \node[symptom, right of=C-2a] (s2) {s2}; % % % % \path (C-2b) edge (s1); % \path (C-1a) edge (s1); % % \path (C-2a) edge (s2); % \path (C-1b) edge (s2); % % %\node[component, right of=s1] (DC) {$C^1_1$}; % % %\path (s1) edge (DC); % %\path (s2) edge (DC); % % % % % Connect every node in the hidden layer with the output layer % %\foreach \source in {1,...,5} % % \path (H-\source) edge (O); % % % Annotate the layers % \node[annot,above of=C-1a, node distance=1cm] (hl) {Failure modes}; % \node[annot,left of=hl] {Base Components}; % \node[annot,right of=hl](s) {Symptoms}; %\node[annot,right of=s](dcl) {Derived Component}; \end{tikzpicture} % End of code \caption{DAG representing failure modes and symptoms of the Non Inverting Op-amp Circuit} \label{fig:noninvdag0} \end{figure}