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A New Cuk-Based DC-DC Converter with Improved Efficiency and Lower Rated Voltage of Coupling Capacitor

Author

Listed:
  • Khaled A. Mahafzah

    (Department of Electrical Engineering, Faculty of Engineering, Al-Ahliyya Amman University, Amman 19328, Jordan)

  • Ali Q. Al-Shetwi

    (Electrical Engineering Department, Fahad Bin Sultan University, Tabuk 71454, Saudi Arabia
    Institute of Power Engineering, Universiti Tenaga Nasional, Kajang 43000, Selangor, Malaysia
    Department of Electrical and Electronic Engineering, Universiti Tenaga Nasional, Kajang 43000, Selangor, Malaysia)

  • M. A. Hannan

    (Department of Electrical and Electronic Engineering, Universiti Tenaga Nasional, Kajang 43000, Selangor, Malaysia)

  • Thanikanti Sudhakar Babu

    (Department of Electrical and Electronics Engineering, Chaitanya Bharathi Institute of Technology, Hyderabad 500075, India
    Centre for Cyber Physical Food, Energy and Water Systems, University of Johannesburg, Johannesburg 2006, South Africa)

  • Nnamdi Nwulu

    (Centre for Cyber Physical Food, Energy and Water Systems, University of Johannesburg, Johannesburg 2006, South Africa)

Abstract

DC-DC converters play a crucial role in recent and advanced applications, enabling efficient power conversion and management for renewable energy systems, electric vehicles, portable devices, and advanced communication systems. In line with this, the objective of this paper is to introduce a new DC-DC configuration based on the Cuk converter named as Mahafzah converter, which utilizes a coupling capacitor with a lower rated voltage. The paper aims to demonstrate the effectiveness of the proposed converter in terms of improved efficiency, reduced size, and reduced semiconductor device currents compared to the conventional Cuk converter. The proposed configuration comprises the same components as the Cuk converter, but in a different arrangement, without any additional elements. The main advantage of the proposed converter is using a coupling capacitor with a much lower rated voltage than the Cuk converter, resulting in a smaller capacitor size, reduced printed circuit board (PCB) size, and manufacturing cost. Additionally, the proposed converter reduces the currents of the semiconductor devices compared to those in the Cuk converter. To demonstrate its effectiveness, the converter is operated under continuous current mode (CCM) with a constant duty cycle and switching frequency. The study provides an in-depth discussion of the various operating modes by making use of equations relating to currents, voltages, duty cycles, and voltage gains. It also provides detailed illustrations of the limits between CCM and discontinuous current mode (DCM). The effectiveness of the proposed converter is demonstrated through a design example with operating parameters of 1 kW, 200 V/−300 V, and 20 kHz. Additionally, a low voltage–low power prototype (12/−18 V, 3.24 W, 20 kHz) is established to verify the operation of the proposed converter. Simulation and experimental verification of the proposed configuration achieved the desired results to improve efficiency and reduce the rate. The results clearly indicate that the efficiency of the proposed converter surpasses that of the conventional Cuk converter under identical operating conditions, reaching approximately 88% at rated load conditions.

Suggested Citation

  • Khaled A. Mahafzah & Ali Q. Al-Shetwi & M. A. Hannan & Thanikanti Sudhakar Babu & Nnamdi Nwulu, 2023. "A New Cuk-Based DC-DC Converter with Improved Efficiency and Lower Rated Voltage of Coupling Capacitor," Sustainability, MDPI, vol. 15(11), pages 1-17, May.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:11:p:8515-:d:1154493
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    References listed on IDEAS

    as
    1. Anna Richelli & Mohamed Salem & Luigi Colalongo, 2021. "A Review of Fully Integrated and Embedded Power Converters for IoT," Energies, MDPI, vol. 14(17), pages 1-22, August.
    2. Salem, Mohamed & Jusoh, Awang & Idris, N. Rumzi N. & Das, Himadry Shekhar & Alhamrouni, Ibrahim, 2018. "Resonant power converters with respect to passive storage (LC) elements and control techniques – An overview," Renewable and Sustainable Energy Reviews, Elsevier, vol. 91(C), pages 504-520.
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