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Arne van Iterson 2024-04-14 21:16:07 +02:00
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doc/crosstalk/main.tex
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@ -73,7 +73,7 @@
\subsection{Equipment} \subsection{Equipment}
The following equipment and settings will be used during the experiment: The following equipment and settings will be used during the experiment:
\begin{itemize}[beginpenalty=10000] \begin{itemize}[beginpenalty=10000]
\item Rigol DG 2041A Function/Arbritrary Waveform Generator \item Rigol DG 2041A Function/Arbitrary Waveform Generator
\begin{itemize} \begin{itemize}
\item Setup according to the method described in the lab manual and the determined frequency: \item Setup according to the method described in the lab manual and the determined frequency:
\begin{itemize} \begin{itemize}
@ -304,7 +304,7 @@
\end{aligned} \end{aligned}
\end{equation} \end{equation}
Losing the dependance of the unknown variables $L_l$ and $C_l$ makes it possible to crosscheck this equation against one of the results. Figure \ref{fig:graph_char_230_near} gives the values: $U_g = 2.04\ V$, $\omega = 20 \cdot 10^6\ Hz$ and $Z_0 = 220\ \Omega$ Losing the dependence of the unknown variables $L_l$ and $C_l$ makes it possible to crosscheck this equation against one of the results. Figure \ref{fig:graph_char_230_near} gives the values: $U_g = 2.04\ V$, $\omega = 20 \cdot 10^6\ Hz$ and $Z_0 = 220\ \Omega$
\begin{equation} \begin{equation}
\begin{aligned} \begin{aligned}
@ -314,7 +314,7 @@
\end{aligned} \end{aligned}
\end{equation} \end{equation}
$0.13\ V$ is equal to the amplitude measured in Figure \ref{fig:graph_char_230_near}, concluding that $230 \Omega$ is the characterstic termination. $0.13\ V$ is equal to the amplitude measured in Figure \ref{fig:graph_char_230_near}, concluding that $230 \Omega$ is the characteristic termination.
\section{Conclusion} \section{Conclusion}
During this experiment, we were successfully measure and analyse the crosstalk between two conductors. Furthermore we were able to determine the mutual self-inductance and coupling capacitance of the setup and validate those results through simulation. Lastly, we were able to determine and validate the correct characteristic impedance of the setup. During this experiment, we were successfully measure and analyse the crosstalk between two conductors. Furthermore we were able to determine the mutual self-inductance and coupling capacitance of the setup and validate those results through simulation. Lastly, we were able to determine and validate the correct characteristic impedance of the setup.