Robust Integral Controllers for High-Order Class-D Power Amplifiers
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Abstract
This study presents variable structure system theory based robust integral controllers for class-D power amplifiers. These amplifiers are highly efficient switching type power amplifiers with negligible losses. Sensorless and current feedback based integral controllers with sliding modes are designed to provide robust tracking performance with negligible phase delays and distortions. The methods are capable of providing high-quality outputs by maximising gain and minimising the tracking error and phase shifts. The validity, feasibility and robustness performance of the controllers are investigated through circuit realisations.
Description
Ablay, Gunyaz/0000-0003-2862-6761
ORCID
Keywords
Robust Control, Power Amplifiers, Variable Structure Systems, Electric Current Control, Control System Synthesis, Power Control, Robust Integral Controller, High-Order Class-D Power Amplifier, Variable Structure System Theory, Switching Type Power Amplifier, Sensorless Based Integral Controller, Current Feedback Based Integral Controller, Robust Tracking Performance, Tracking Error Minimization, Phase Shift Minimization
Fields of Science
0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
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1
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Volume
11
Issue
3
Start Page
593
End Page
599
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Scopus : 1
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