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idea on FMMD for an OPAMP compared to FMD-91

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Robin Clark 2011-11-16 11:02:08 +00:00
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commit d2c60a1915
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opamp_circuits_C_GARRETT/opamps.tex
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@ -637,6 +637,10 @@ $\{ LP1, SKLP_1, SKLP_2 \}$.
\caption{Circuit 3} \caption{Circuit 3}
\label{fig:circuit3} \label{fig:circuit3}
\end{figure} \end{figure}
\end{tabular}
\label{ampfmea}
\end{table}
\clearpage \clearpage
\section{Standard Non-inverting OP AMP} \section{Standard Non-inverting OP AMP}
@ -837,6 +841,17 @@ up the hierarchy.
This is a natural process. When we have a complicated systems This is a natural process. When we have a complicated systems
they always have a small number of system failure modes. they always have a small number of system failure modes.
\section{The Case for Derived Components}
Idea stage on this section
\begin{itemize}
\item Look at OPAMP circuits
\item examine number of components and failure modes
\item outline a proposed FMMD analysis
\item Show FMD-91 OPAMP failure modes -- compare with FMMD
\end{itemize}
\clearpage \clearpage
\section{Side Effects: A Problem for FMMD analysis} \section{Side Effects: A Problem for FMMD analysis}
A problem with modularising according to functionality is that we can have component failures that would A problem with modularising according to functionality is that we can have component failures that would