Digital Control of a High-Voltage (2.5 kV) Bidirectional DC--DC Flyback Converter for Driving a Capacitive Incremental Actuator

Thummala, Prasanth; Maksimović, Dragan; Zhang, Zhe; Andersen, Michael A. E.

doi:10.1109/tpel.2016.2520497

Cited by 47 publications

(23 citation statements)

References 34 publications

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“…where, ὔ o and ὔ 6 are the equivalent values of output current o and junction capacitance 6 of SR tube 6 on the original side of transformer, respectively. At 1 , the resonance ends, and at this time C1 = in , the resonance process time r is obtained by substitution (10). e larger ὔ o and the smaller r , the shorter the dead time d .…”

Section: Automatic Dead Zonementioning

confidence: 99%

“…e average current mode phase-shi ed full-bridge so switch with digital control is proposed in the literature [9], which has good antinoise performance, but it is very complex to debug the two sets of parameters of voltage inner loop and outer loop. e peak current control is given in the literature [10]. Phase-shi ed full-bridge scheme, but there is no dead-time research.…”

Section: Introductionmentioning

confidence: 99%

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Design of Digital Control System for DC/DC Converter of On-Board Charger

Tao

Zhang

et al. 2019

Journal of Advanced Transportation

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Vehicle charging power supply is widely used because of its small size and portability. Aiming at the problems of slow dynamic response, subharmonic, oscillation and limited soft-switching range of phase-shifted full-bridge DC/DC converter, the paper proposed a modified PSFB converter by introducing clamp diodes at the primary side of the transformer to suppress voltage oscillation of the transformer’s secondary side. Also, digital peak current phase-shifting control and slope compensation are introduced to avoid subharmonic oscillation. Dynamic dead-time control technology introduced adjust the dead-time in different load ranges through the dead-time adjustment subroutine. Finally, an experimental platform of on-board charging phase-shifted full-bridge DC/DC converter is established. The experimental results show that the power supply eliminates subharmonic oscillation, achieves a wide range of soft-switching, improves the dynamic performance and antiinterference ability of the system, and optimizes the power efficiency.

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Section: Automatic Dead Zonementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Design of Digital Control System for DC/DC Converter of On-Board Charger

Tao

Zhang

et al. 2019

Journal of Advanced Transportation

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“…As conventional bidirectional isolated or non-isolated converter control methods and strategies have been widely presented in the literature, details on the related control analyses and design are provided in [26][27][28][29][30][31][32][33][34][35][36][37][38]. Given that the proposed new converter has many different transition control strategies across different states and modes, the switching control is mainly used during the transition process between the switching devices depending on the application requirements.…”

Section: Control Strategymentioning

confidence: 99%

A Multifunctional Isolated and Non-Isolated Dual Mode Converter for Renewable Energy Conversion Applications

Wang

Gan

et al. 2017

Energies

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Abstract:In this paper, a multifunctional isolated and non-isolated dual-mode low-power converter was designed for renewable energy conversion applications such as photovoltaic power generation to achieve different operating modes under bi-directional electrical conversion. The proposed topology consists of a bidirectional non-isolated DC/DC circuit and an isolated converter with a high-frequency transformer, which merge the advantages of both the conventional isolated converter and non-isolated converter with the combination of the two converter technologies. Compared with traditional converters, the multifunctional converter can not only realize conventional bi-directional functions, but can also be applied for many different operation modes and meet the high output/input ratio demands with the two converter circuits operating together. A novel control algorithm was proposed to achieve the various functions of the proposed converter. An experimental platform based on the proposed circuit was established. Both the simulation and experimental results indicated that the proposed converter could provide isolated and non-isolated modes in different applications, which could meet different practical engineering requirements.

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“…Control algorithms for optimal-flyback charging of a capacitive load have been proposed in [36], which focuses mainly on minimizing the conduction losses in the converter. Digital control of the bidirectional flyback converter is proposed in [37], for improving energy efficiency and the charge and discharge speed (driving frequency) of the incremental motor. Intelligent control of EAP actuators based on fuzzy and neuro-fuzzy methodologies is proposed in [38].…”

Section: Introductionmentioning

confidence: 99%

New Incremental Actuators Based on Electroactive Polymer: Conceptual, Control, and Driver Design Considerations

Thummala

Schneider

Zhang

et al. 2016

IEEE/ASME Trans. Mechatron.

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Digital Control of a High-Voltage (2.5 kV) Bidirectional DC--DC Flyback Converter for Driving a Capacitive Incremental Actuator

Abstract: -This paper presents a digital control technique to achieve valley switching in a bidirectional flyback converter used to drive a dielectric electro-active polymer based capacitive incremental actuator. The paper also

Cited by 47 publications

References 34 publications

Design of Digital Control System for DC/DC Converter of On-Board Charger

Design of Digital Control System for DC/DC Converter of On-Board Charger

A Multifunctional Isolated and Non-Isolated Dual Mode Converter for Renewable Energy Conversion Applications

New Incremental Actuators Based on Electroactive Polymer: Conceptual, Control, and Driver Design Considerations

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