Performance analysis in a two-phase interleaved DC-DC boost converter with coupled inductors

Balci, Selami; Sabancı, Kadir

doi:10.18100/ijamec.1195840

International Journal of Applied Mathematics Electronics and Computers

2022

DOI: 10.18100/ijamec.1195840

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Performance analysis in a two-phase interleaved DC-DC boost converter with coupled inductors

Selami Balci

Kadir Sabancı

Abstract: In this study, the inductor current ripple and output voltage ripple of a two-phase DC-DC boost converter, circuit performance is investigated according to the direct/inverse coupling effect of the coupled inductors. The coupled inductors are modeled with both power electronics circuit and electromagnetic modeling and by using finite element analysis software (FEA). However, the high frequency inductor designs generally use air-gapped composite ceramic ferrite cores and are designed with powder core (Kool Mu) … Show more

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2023

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Cascade sliding mode control implementation in photovoltaic power supply for camping-car applications

Zaïdi¹,

Mohamed²,

Zanzouri

2023

Journal of Energy Systems

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A cascade proportional integral sliding mode control for a two-stage interleaved boost converter (2IBC) serving as a reliable supplementary power source for camping-car applications is reported. Unlike the active fault-tolerant control approaches used for interleaved boost converters, which require controller reconfiguration, the proposed control scheme is passive fault-tolerant and does not require reconfiguration in the event of a faulty stage. The 2IBC model is analyzed together with the most important parasitic parameters, then, the averaged state-space model is derived to implement the control scheme. The appropriate linear cascade control is determined by using the small-signal equivalent model and improving the robustness and dynamic performance, thereby a proportional integrator controller is replaced by a sliding mode controller. The prototype system uses a signal processor and a low-power solar panel. The control code is generated by a PSIM software and loaded to the via a code composer tool. The experimental results validate the control design and demonstrate the efficiency of the proposed control scheme. In addition, the proposed controller ensures the continuity of service in the event of a faulty stage by verifying the reliability of the power supply.

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Cascade sliding mode control implementation in photovoltaic power supply for camping-car applications

Zaïdi¹,

Mohamed²,

Zanzouri

2023

Journal of Energy Systems

View full text Add to dashboard Cite

show abstract

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Performance analysis in a two-phase interleaved DC-DC boost converter with coupled inductors

Cited by 1 publication

References 11 publications

Cascade sliding mode control implementation in photovoltaic power supply for camping-car applications

Cascade sliding mode control implementation in photovoltaic power supply for camping-car applications

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