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Started on circuit 3

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Robin Clark 2011-11-28 20:37:48 +00:00
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2
opamp_circuits_C_GARRETT/Makefile
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@ -1,6 +1,6 @@
PNG_DIA = circuit1_dag.png mvampcircuit.png pd.png invamp.png shared_component.png tree_abstraction_levels.png three_tree.png blockdiagramcircuit2.png circuit2h.png
PNG_DIA = circuit1_dag.png mvampcircuit.png pd.png invamp.png shared_component.png tree_abstraction_levels.png three_tree.png blockdiagramcircuit2.png circuit2h.png bubba_oscillator_block_diagram.png

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opamp_circuits_C_GARRETT/bubba_oscillator_block_diagram.dia Normal file
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opamp_circuits_C_GARRETT/opamps.tex
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@ -138,6 +138,8 @@ $$ fm(NI\_AMP) = \{ {lowpass}, {high}, {low} \}.$$
\section{Inverting OPAMP}
\label{sec:invamp}
\begin{figure}[h]
\centering
\includegraphics[width=200pt]{./invamp.png}
@ -766,6 +768,42 @@ could be easily detected; the failure symptom $FilterIncorrect$ may be less obs
%\clearpage
%\section{Standard Non-inverting OP AMP}
This circuit is described in the Analog Applications Journal~\cite{bubba}.
The circuit uses four 45 degree phase shifts, and an inverting amplifier to provide
gain and the final 180 degrees of phase shift.
We identifiy three functional groups, the inverting amplifer (analysed in section~\ref{fig:invamp}),
a 45 degree phase shifter (a {$10k\Omega$} resistor and a $10nF$ capacitor) and a noninverting buffer
amplifier. We can name these $INVAMP$, $PHS45$ and $NIBUFF$ respectively.
We can use these {\fgs} to describe the circuit in block diagram form, as in figure ~\ref{fig:bubbablock}.
\begin{figure}[h]
\centering
\includegraphics[width=300pt,keepaspectratio=true]{./bubba_oscillator_block_diagram.png}
% bubba_oscillator_block_diagram.png: 720x295 pixel, 72dpi, 25.40x10.41 cm, bb=0 0 720 295
\caption{Circuit 3: Functional Group Block Diagram.}
\label{fig:bubbablock}
\end{figure}
We can now analyse each of these {\fgs} and create failure mode models for them, and from these
determine {\dcs}.
\subsection{Inverting Amplifier: INVAMP}
This has been analysed in section~\ref{sec:invamp}.
The inverting amplifier, as a {\dc}, has the following failure modes:
$$ fm(INVAMP) = \{ OUT OF RANGE, ZERO OUTPUT, NO GAIN, LOW PASS \} $$
\subsection{Phase shifter: PHS45}
\subsection{Non Inverting Buffer: NIBUFF}
\subsection{Bringing the functional Groups Together: The `Bubba' Oscillator}
\clearpage
\section{Basic Concepts Of FMMD}