2023
DOI: 10.11591/ijeecs.v31.i1.pp160-169
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PID based on a single artificial neural network algorithm for DC-DC boost converter

Abstract: This research focuses on developing a proportional integral derivative controller based on a single artificial neural network (PID-SANN). The proposed control strategy drives the direct current (DC-DC) boost converter output voltage to follow the desired reference value. This controller calculates the PID gains via a learning algorithm based on an artificial single-neuron network, which overcomes the computational complexity of PID gains using analytical methods and automatically adjusts the controller paramet… Show more

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“…During main switch off, resonant capacitor powers output or load. Recycled energy ZCS lowers switching losses with the primary power switches near-zero current semiconductors strain [20]- [23].…”
Section: Dc-dc Convertermentioning
confidence: 99%
“…During main switch off, resonant capacitor powers output or load. Recycled energy ZCS lowers switching losses with the primary power switches near-zero current semiconductors strain [20]- [23].…”
Section: Dc-dc Convertermentioning
confidence: 99%