Small Signal Analysis of V super(2) Control Using Equivalent Circuit Model of Current Mode Controls

In $V2}$ control, the direct feedback contains the information of the inductor current, the capacitor voltage, and the load current. In this paper, by separating the current feedbacks and the capacitor voltage feedback, an equivalent circuit of $V2}$ control with ESR dominant output capacitor is pro...

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Veröffentlicht in:	IEEE transactions on power electronics 2016-07, Vol.31 (7), p.5344-5353
Hauptverfasser:	Yan, Yingyi, Lee, Fred C, Mattavelli, Paolo, Tian, Shuilin
Format:	Artikel
Sprache:	eng
Schlagworte:	Capacitors Control systems Control theory Electric potential Equivalent circuits Feedback Frequency modulation Voltage
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creator	Yan, Yingyi Lee, Fred C Mattavelli, Paolo Tian, Shuilin
description	In $V2}$ control, the direct feedback contains the information of the inductor current, the capacitor voltage, and the load current. In this paper, by separating the current feedbacks and the capacitor voltage feedback, an equivalent circuit of $V2}$ control with ESR dominant output capacitor is proposed. The proposed equivalent circuit is based on the unified equivalent circuit of current mode controls. It is a completed frequency domain model for $V2}$ control with a clear physical insight. $V2}$ control can be interpreted as an advanced implementation of current mode control with a proportional voltage feedback and an additional load current feedback. The load current feedback dramatically reduces the output impedance of a current mode controlled converter. The model is extended to the enhanced $V2}$ control. The proposed model is applicable to both variable frequency modulations and constant frequency modulations. The modeling results are verified by the Simplis simulation and the experimental results.
doi_str_mv	10.1109/TPEL.2015.2487543
format	Article
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In this paper, by separating the current feedbacks and the capacitor voltage feedback, an equivalent circuit of $V2}$ control with ESR dominant output capacitor is proposed. The proposed equivalent circuit is based on the unified equivalent circuit of current mode controls. It is a completed frequency domain model for $V2}$ control with a clear physical insight. $V2}$ control can be interpreted as an advanced implementation of current mode control with a proportional voltage feedback and an additional load current feedback. The load current feedback dramatically reduces the output impedance of a current mode controlled converter. The model is extended to the enhanced $V2}$ control. The proposed model is applicable to both variable frequency modulations and constant frequency modulations. The modeling results are verified by the Simplis simulation and the experimental results.</abstract><doi>10.1109/TPEL.2015.2487543</doi></addata></record>
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subjects	Capacitors Control systems Control theory Electric potential Equivalent circuits Feedback Frequency modulation Voltage
title	Small Signal Analysis of V super(2) Control Using Equivalent Circuit Model of Current Mode Controls
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