Soft Switched Current Fed Dual Active Bridge Isolated Bidirectional Series Resonant DC-DC Converter for Energy Storage Applications

Bathala, Kiran; Kishan, Dharavath; Harischandrappa, Nagendrappa

doi:10.3390/en16010258

Cited by 2 publications

(1 citation statement)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…To address the aforementioned issues, this paper proposes a particular technological solution to optimize the performance of DC/DC converters used in an AC Battery. Firstly, a current-fed DC/DC converter with a Current Fed Dual Active Bridge (CFDAB) structure [12,13] is employed, where the interleaved boost circuit on the primary side helps reduce current stress, providing soft switching capabilities like Zero Voltage Switching (ZVS) to contribute to minimizing switching losses, especially at high frequencies. This topology could also be flexibly modified for the specific application [14,15].…”

Section: Introductionmentioning

confidence: 99%

Design and implementation of a current-fed dual active bridge converter for an AC battery

Do,

Nguyen,

2024

Journal of Electrical Engineering

View full text Add to dashboard Cite

Home battery has become more and more popular in which the AC battery is a trending product along with the AC-coupled system. The energy conversion of an AC battery commonly consists of a two-stage power converter to flexibly connect to the wide-range input battery voltage and different grid or load types. This study specifically concentrates on the DC/DC stage which plays an important role in transferring power with the battery. In addressing the need for isolation, bidirectional power flow, and limited battery current ripple, the Current-fed Dual Active Bridge (CFDAB) structure is chosen for this stage. This paper presents a comprehensive design for the CFDAB converter for an AC battery application, especially a technical solution focusing on zero voltage switching is applied to increase the efficiency of the converter. Finally, an experimental prototype is carried out to validate the performance of the CFDAB converter in both two modes of the power flow.

show abstract

Section: Introductionmentioning

confidence: 99%

Design and implementation of a current-fed dual active bridge converter for an AC battery

Do,

Nguyen,

2024

Journal of Electrical Engineering

View full text Add to dashboard Cite

show abstract

An Improved Cascaded Boost Converter with an Ultra-High Voltage Gain Suitable for Dielectric Quality Tests

Gholizadeh,

Shahrivar,

Amini

et al. 2024

Energies

View full text Add to dashboard Cite

Dielectric quality tests require a high AC voltage with a frequency range of 0.0001 Hz to 1000 Hz. However, providing a high AC voltage with such a frequency variety is challenging. Providing a high DC voltage and then applying such a voltage to an inverter to adjust the frequency can be an acceptable solution for such a challenge. Notably, a high DC voltage is required for DC tests. This study proposes an improved form of the cascaded boost converter, whose merits are as follows: (i) the high voltage gain providing low duty cycles is possible; (ii) the input current is continuous, which decreases the current ripple of the input filter capacitor; (iii) the current stress of the semiconductors is less than the input current, and most of them have a large difference with it; (iv) the voltage stress of the semiconductors is less than the output voltage with a large difference; (v) only one switch with a simple drive circuit is used; (vi) the common ground of the load and input source decreases the EMI noise; (vii) besides the high voltage gain, the voltage density of the converter based on the number of inductors, capacitors, switches, diodes, and whole components is greater than that of the recently proposed converters; (viii) only two stacked connections of the proposed topology can provide a 2.6 kV voltage for a higher DC voltage test of dielectrics. The functional details of the converter are extracted in ideal and continuous conduction (CCM) modes. Moreover, the converter’s voltage gain and density are compared with the recently proposed converters to show the superiority of the proposed converter. Finally, the experimental results are presented to validate the theoretical relations in a 140 W output power.

show abstract

Soft Switched Current Fed Dual Active Bridge Isolated Bidirectional Series Resonant DC-DC Converter for Energy Storage Applications

Cited by 2 publications

References 36 publications

Design and implementation of a current-fed dual active bridge converter for an AC battery

Design and implementation of a current-fed dual active bridge converter for an AC battery

An Improved Cascaded Boost Converter with an Ultra-High Voltage Gain Suitable for Dielectric Quality Tests

Contact Info

Product

Resources

About