Voltage‐extrapolative charge balance controller with charge compensation for flyback converter operating in DCM

Zhang, Xiaofeng; Min, Run; Ji, Bin; Zhang, Donglai; Wang, Yi; Li, Jiannong

doi:10.1049/iet-pel.2018.5066

Cited by 3 publications

(1 citation statement)

References 24 publications

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“…However, due to several factors such as limitations in designed circuitry, the lower and higher input limits can be higher than 0% and lower than 100%, respectively. See, for example, [11], [12] [13], [14]. Actually, the saturation of the duty cycle in power converters appears in the circuitry that enables the transistor gate.…”

Section: Introductionmentioning

confidence: 99%

PI-Type Controllers and Σ–Δ Modulation for Saturated DC-DC Buck Power Converters

et al. 2021

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Departing from analyzing a general input-saturated second-order system, a Lyapunov-based constructive procedure for the output-feedback stabilization of the constantly perturbed DC-DC buck power converter is presented. The proposed scheme also incorporates a Σ-∆ modulator. The obtained control scheme is developed in two parts: a proportional-integral-type family of algorithms devoted to regulating the uncertain system by using measurements of the output voltage and a Σ-∆ modulator dedicated to transforming the control action into a {0, 1} discrete-valued signal. This modulator is a kind of a sliding controller, which can be seen as a subsystem with an on-off output. This combination, the PI-type family of controllers and the Σ-∆ modulator, assures the global stability of the closed-loop system, even if parametric uncertainties are presented. The convergence analysis was carried out using Lyapunov's method. The theoretical results are confirmed using real-time experimental tests, which demonstrate the anti-windup scheme and the Σ-∆ modulator efficiency. The experiments consider the saturation of the control input and disturbances, having obtained convincing results. INDEX TERMS DC-DC buck converter; Lyapunov's method; saturation control; Σ-∆ modulator; experimental results Recently, efficient control strategies have been designed for several types of power converters. A discontinuous con

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Section: Introductionmentioning

confidence: 99%

PI-Type Controllers and Σ–Δ Modulation for Saturated DC-DC Buck Power Converters

et al. 2021

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A Valley-Locking Control Scheme for an Audible Noise-Free Valley-Skip-Mode Flyback Converter

Han

et al. 2022

IEEE Trans. Ind. Electron.

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A Constant Current Control Scheme for Primary-Side Controlled Flyback Controller Operating in DCM and CCM

Zhu

2020

IEEE Trans. Power Electron.

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Voltage‐extrapolative charge balance controller with charge compensation for flyback converter operating in DCM

Cited by 3 publications

References 24 publications

PI-Type Controllers and Σ–Δ Modulation for Saturated DC-DC Buck Power Converters

PI-Type Controllers and Σ–Δ Modulation for Saturated DC-DC Buck Power Converters

A Valley-Locking Control Scheme for an Audible Noise-Free Valley-Skip-Mode Flyback Converter

A Constant Current Control Scheme for Primary-Side Controlled Flyback Controller Operating in DCM and CCM

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