Complex Dynamics and Effects of Memristive Load Using Current‐Mode‐Controlled in Buck Converter

Kammogne, Alain Soup Tewa; Kengne, Edwige Mache; Vaidyanathan, Sundarapandian; Fotsin, Hilaire Bertrand; Tamo, Thomas Tatietse

doi:10.1155/2022/7068949

Discrete Dynamics in Nature and Society

2022

DOI: 10.1155/2022/7068949

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Complex Dynamics and Effects of Memristive Load Using Current‐Mode‐Controlled in Buck Converter

Alain Soup Tewa Kammogne

Edwige Mache Kengne

Sundarapandian Vaidyanathan

et al.

Abstract: Electronic power converters are in a state of exhibiting some complex features which can be influenced by the converter’s structure parameters and load, as well as its pulse period. In this paper, we propose to investigate these phenomena occurring in the dc/dc buck converter by carrying out the dynamics of the said system when it exhibits the fingerprints of frequency-dependent pinched hysteresis loops. The essential part of this study is consecrated to the nonlinear dynamics when the converter load is memris… Show more

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Cited by 2 publications

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“…Kammogne et al [22] discussed the complex dynamics and properties of memristive load using current-modecontrolled in buck converter in their research article. It is well-known that electronic power converters exhibit some complex features that can be infuenced by the structure parameters, load, and pulse period of the converter.…”

mentioning

confidence: 99%

Modelling, Control Methods and Applications of Chaotic Oscillators

Vaidyanathan

Sambas

Lien

et al. 2023

Discrete Dynamics in Nature and Society

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mentioning

confidence: 99%

Modelling, Control Methods and Applications of Chaotic Oscillators

Vaidyanathan

Sambas

Lien

et al. 2023

Discrete Dynamics in Nature and Society

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Study and Modeling of Nonlinear Dynamic Characteristics of DC-DC Converters with Amnesia Loads

Li,

Zhou,

Pan

2024

Applied Mathematics and Nonlinear Sciences

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The chaos phenomenon is a seemingly random irregular motion occurring in a deterministic system, which is an inherent characteristic and prevalent phenomenon of amnesia-loaded DC-DC converter nonlinear systems. Nonlinear dynamics and chaos theory guide the text, and we create an amnesia-loaded DC-DC converter system model using an amnesia resistor. We analyze the stability of the system using Filippov theory, and analyze the nonlinear dynamic characteristic behavior of the amnesia-loaded DC-DC converter using the time-domain waveform diagram, bifurcation diagram, and phase-track diagram. This paper talks about the slope compensation method and the parametric resonance perturbation method for control analysis. These methods are used to stop the chaotic behavior that happens in the amnesia-loaded DCDC converter. The system maintains a stable state when the reference current is less than 4.732A and the supply voltage exceeds about 17.966V, maintaining an amplitude of the maximum eigenvalue below 1. When the load resistance is 50Ω, the capacitance is 43 uF, the inductance is 2.8 mH, and the reference voltage is 2.05 volts, the amnesia-loaded DC-DC converter suffers from obvious chaos. To restore the system to a steady state by applying the ramp compensation method, the slope of the ramp signal will need to increase as the reference current increases. Loading amnesia onto the DC-DC converter achieves a stable cycle 1 state when the perturbation phase’s fluctuation range falls between 4.35 and 6.15. A nonlinear dynamic analysis of the amnesia-loaded DC-DC converter helps find the stable parameters of the amnesia-loaded DC-DC converter and improve the design of the converter.

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Complex Dynamics and Effects of Memristive Load Using Current‐Mode‐Controlled in Buck Converter

Cited by 2 publications

References 36 publications

Modelling, Control Methods and Applications of Chaotic Oscillators

Modelling, Control Methods and Applications of Chaotic Oscillators

Study and Modeling of Nonlinear Dynamic Characteristics of DC-DC Converters with Amnesia Loads

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