Nathan Weise scite author profile

In vehicle-to-grid applications, the battery charger of the electric vehicle (EV) needs to have a bidirectional power flow capability. Galvanic isolation is necessary for safety. An ac-dc bidirectional power converter with high-frequency isolation results in high power density, a key requirement for an on-board charger of an EV. Dual-active-bridge (DAB) converters are preferred in medium power and high voltage isolated dc-dc converters due to high power density and better efficiency. This paper presents a DAB-based three-phase ac-dc isolated converter with a novel modulation strategy that results in: 1) single-stage power conversion with no electrolytic capacitor, improving the reliability and power density; 2) open-loop power factor correction; 3) soft-switching of all semiconductor devices; and 4) a simple linear relationship between the control variable and the transferred active power. This paper presents a detailed analysis of the proposed operation, along with simulation results and experimental verification.

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A Fault-Tolerant T-Type Multilevel Inverter Topology With Increased Overload Capability and Soft-Switching Characteristics

Katebi

Weise

et al. 2017

IEEE Trans. on Ind. Applicat.

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Advanced modulation strategy for a three-phase AC-DC dual active bridge for V2G

Weise

Basu

Mohan

2011

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A Current-Dependent Switching Strategy for Si/SiC Hybrid Switch-Based Power Converters

Katebi

Weise

2017

IEEE Trans. Ind. Electron.

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Nathan Weise

A Single-Stage Dual-Active-Bridge-Based Soft Switched AC–DC Converter With Open-Loop Power Factor Correction and Other Advanced Features

A Bidirectional Soft-Switched DAB-Based Single-Stage Three-Phase AC–DC Converter for V2G Application

A Fault-Tolerant T-Type Multilevel Inverter Topology With Increased Overload Capability and Soft-Switching Characteristics

Advanced modulation strategy for a three-phase AC-DC dual active bridge for V2G

A Current-Dependent Switching Strategy for Si/SiC Hybrid Switch-Based Power Converters

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