Notes from C Garrett

pt100/pt100.tex

@@ -677,7 +677,7 @@ TC 12: &  $R_1$ SHORT $R_2$ SHORT   &  high        &   low    &  Both out of ran
 TC 14: &  $R_1$ SHORT $R_3$ SHORT   &  high        &   high    &  Both out of range \\ \hline
 
 \hline
- TC 15: & $R_2$ OPEN $R_3$ SHORT   &  high        &   Floating input Fault    &  sense+ out of range \\ \hline
+ TC 15: & $R_2$ OPEN $R_3$ OPEN   &  high        &   Floating input Fault    &  sense+ out of range \\ \hline
 TC 16: &  $R_2$ OPEN $R_3$ SHORT   &  high        &   high    &  Both out of Range \\ \hline
 TC 17: &  $R_2$ SHORT $R_3$ OPEN   &  high        &   low    &  Both out of Range \\ \hline
 TC 18: &  $R_2$ SHORT $R_3$ SHORT   &  low        &   low    &  Both out of Range \\ \hline
@@ -864,13 +864,13 @@ a given cardinality constraint is not visually obvious.
 \subsubsection{Symptom Extraction}
 
 We can now examine the results of the test case analysis and apply symptom abstraction.
-In all the test case results we have at least one an out of range value, except for
+In all the test case results we have at least one out of range value, except for
 $TC\_7$  
 which has two unknown values/floating readings. We can collect all the faults, except $TC\_7$, 
 into the symptom $OUT\_OF\_RANGE$. 
 As a symptom $TC\_7$ could be described as $FLOATING$. We can thus draw a PLD diagram representing the
 failure modes of this functional~group, the pt100 circuit from the perspective of double simultaneous failures,
-in figure \ref{fig:dubsim}.
+in figure \ref{fig:pt100_doublef}.
 
 
 \begin{figure}[h]