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conclusiooons

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Tom Selier 2024-02-04 15:49:53 +01:00
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@ -456,7 +456,12 @@ for i in range(1, len(data[3])):
\section{Conclusion} \section{Conclusion}
Breadboards suck lmaoooooooooo In conclusion, the circuit does what it's supposed to do. It regulates well between
$7V$ and $3.3V$ and it's able to supply the required loads. The efficiency of
the circuit is respectable, with a peak efficiency of $86\%$ and a lowest
efficiency of $78\%$. The output noise is a problem, and it would be too high
for normal use. Lastly, the PI controller works, but can easily be saturated and
become unstable.
\subsection{Recommendations} \subsection{Recommendations}
The circuit can be improved in several ways. The most significant improvement would be to replace the breadboard in favour of a soldered PCB, this would significantly improve the stability of the system and reduce noise. During testing, it was found that Heisenberg's uncertainty principle was enough to influence the behaviour of the circuit. Simply observing the output voltage was enough to make it fluctuate. The circuit can be improved in several ways. The most significant improvement would be to replace the breadboard in favour of a soldered PCB, this would significantly improve the stability of the system and reduce noise. During testing, it was found that Heisenberg's uncertainty principle was enough to influence the behaviour of the circuit. Simply observing the output voltage was enough to make it fluctuate.