A Comprehensive Study of Capacitive Loaded Resonant Converter Topologies for Charging Applications

Pandeswara, Geethanjali; Naresh, P.

doi:10.52549/ijeei.v9i4.3521

Cited by 3 publications

(2 citation statements)

References 24 publications

(26 reference statements)

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“…Because of above said benefits, CI based DC-DC converter is used in fast charging technology. Many coupled inductor based topologies [16]- [25] are available like switched coupled inductor (SCI) but the proposed novel topology has unique construction. The block diagram of coupled inductor-based DC-DC converter circuit is shown in Figure 1.…”

Section: Introductionmentioning

confidence: 99%

A novel single switch controlled efficient coupled inductor-based DC-DC boost converter

Geshma Kumari,

Ezhilarasi,

Pasula

2023

IJEECS

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Pollution is <span>one of the most hazard facing in the world. Day by day pollutions has been increased in the society due to population growth, industries, constructions, and transportation. As per the world health organization (WHO) survey, 45% of the air pollution is due to transportation because they lay on internal combustion engine (ICE) based engines. To avoid carbon footprints, green transportation should be encouraged for further generations. In recent days many electric vehicles (EV’s) are found in the market but facing some issues like battery blasts, storage limitations and lack of charging infrastructure. Out of these issues, mainly my focus is on developing a compact, efficient, simple, medium gain coupled inductor-based DC-DC boost converter is proposed which is helpful for fast charging system. In this paper, coupled inductor (CI) and switched coupled inductor (SCI) based converters are designed and analysed with mathematical approach. The outputs of both CI and SCI converters are verified and compared with simulation results and as well CI based converter is developed with hardware prototype and verified hardware and simulation results in terms of gain, elements and efficient.</span>

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Section: Introductionmentioning

confidence: 99%

A novel single switch controlled efficient coupled inductor-based DC-DC boost converter

Geshma Kumari,

Ezhilarasi,

Pasula

2023

IJEECS

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“…It has an additional advantage like with less winding turns between the range of 1<w<2 offers high voltage gain operating with an inverter is discussed in [16]- [22]. Owing to this advantage chosen CI-based Γ-Z source DC-DC converter for buck-boost operation in grid connected energy storage system, EV charging applications and pulsed power technology [23]- [27]. The mentioned (CI-based Γ-Z source DC-DC converter) by its nature will work as a high gain DC-DC converter under open circuit (OC) condition proposed in [23], but not focused on buck operation and more over the gain is load sensitive.…”

Section: Introductionmentioning

confidence: 99%

Control strategy for modified CI-based Bi-directional Γ-Z source DC-DC converter for buck-boost operation

Kumari

Ezhilarasi

Naresh

2022

IJPEDS

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This paper introduces a novel Bi-directional coupled-inductor (CI) based Γ-Z source converter for step up-step down DC application. It is a modified version of CI based Γ-Z high gain converter. The converter originates under the family of impedance networks with two winding coupled inductor. The said converter when operated with low duty ratio makes converter to achieve high gain compared to conventional DC-DC converters. As the society is in trend with electric vehicles (EV’s) are recommending operating the converters in Bi-directional mode to have continuous power flow when those are operated with green technologies. So, the same converter is initially operated and verified as buck and boost converter in open loop mode. Nearly 38 and 4 voltage-gainin boost and buck mode was observed when realized in MATLAB environment for the designed inductor and capacitor values with 49% and 1% duty cycle respectively under open-loop configuration. In the succeeding a PID controller based closed loop control strategy has implemented for the same converter. Gain sensitivity of the converter had been verified in MATLAB Simulink environment. Results obtained from simulation and mathematical found satisfactory in open and closed loop.

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Renewable Energy Integrated Charging Stations – A move towards Ecological Vehicles

Pandeswara

Naresh

2022

2022 IEEE 7th International Conference for Convergence in Technology (I2CT)

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A Comprehensive Study of Capacitive Loaded Resonant Converter Topologies for Charging Applications

Cited by 3 publications

References 24 publications

A novel single switch controlled efficient coupled inductor-based DC-DC boost converter

A novel single switch controlled efficient coupled inductor-based DC-DC boost converter

Control strategy for modified CI-based Bi-directional Γ-Z source DC-DC converter for buck-boost operation

Renewable Energy Integrated Charging Stations – A move towards Ecological Vehicles

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