This paper investigates the deadbeat current controllers for isolated bidirectional dual-active-bridge dc-dc converter (IBDC), including the peak current mode (PCM) and middle current mode (MCM). The controller uses an enhanced single phase shift (ESPS) modulation method by exploiting pulse width as an extra control variable in addition to phase shift ratio. The control variables for PCM controllers are derived in detail and the two different current controllers are compared. A double-closed-loop control method is then employed, which could directly control the high-frequency inductor current and eliminate the transient DC current bias of the transformer. Furthermore, load feedforward was introduced to further enhance the dynamic of the con...
This paper proposes a fast load transient control for a bidirectional dual-active-bridge (DAB) DC/DC...
A switching control strategy to extend the zero- voltage-switching (ZVS) operating range of a Dual A...
In this paper, a new closed loop hybrid phase shift control is proposed for dual active bridge (DAB)...
The paper describes the cascaded voltage and current control for a bidirectional DC/DC converter in ...
Dual-active bridge converters offer a frequently used solution for isolated, bidirectional power con...
A transient dc-bias current due to the voltage-second imbalance of isolated bidirectional dual-activ...
The manipulation of the bidirectional power in a dual-active-bridge converter relies on the adjustme...
This study describes a new method to optimize the utilization of the dual-active bridge converter. T...
This paper deals with a well-known problem of the transient DC-bias current occurring during a phase...
This paper examines the characteristics of the zero voltage switching (ZVS) and zero voltage transit...
Dual active bridge converters are attractive solution for bidirectional power conversion, but suffer...
In the field of power electronics-based electrical power conversion, the Dual Active Bridge (DAB) to...
The Dual Active Bridge (DAB) is one of the most promising topologies among bidirectional isolated DC...
The dual active bridge topology allows bidirectional power flow and galvanic isolation for DC/DC ene...
Due to the high power density, inherent zero-voltage-switching (ZVS), and high voltage-conversation ...
This paper proposes a fast load transient control for a bidirectional dual-active-bridge (DAB) DC/DC...
A switching control strategy to extend the zero- voltage-switching (ZVS) operating range of a Dual A...
In this paper, a new closed loop hybrid phase shift control is proposed for dual active bridge (DAB)...
The paper describes the cascaded voltage and current control for a bidirectional DC/DC converter in ...
Dual-active bridge converters offer a frequently used solution for isolated, bidirectional power con...
A transient dc-bias current due to the voltage-second imbalance of isolated bidirectional dual-activ...
The manipulation of the bidirectional power in a dual-active-bridge converter relies on the adjustme...
This study describes a new method to optimize the utilization of the dual-active bridge converter. T...
This paper deals with a well-known problem of the transient DC-bias current occurring during a phase...
This paper examines the characteristics of the zero voltage switching (ZVS) and zero voltage transit...
Dual active bridge converters are attractive solution for bidirectional power conversion, but suffer...
In the field of power electronics-based electrical power conversion, the Dual Active Bridge (DAB) to...
The Dual Active Bridge (DAB) is one of the most promising topologies among bidirectional isolated DC...
The dual active bridge topology allows bidirectional power flow and galvanic isolation for DC/DC ene...
Due to the high power density, inherent zero-voltage-switching (ZVS), and high voltage-conversation ...
This paper proposes a fast load transient control for a bidirectional dual-active-bridge (DAB) DC/DC...
A switching control strategy to extend the zero- voltage-switching (ZVS) operating range of a Dual A...
In this paper, a new closed loop hybrid phase shift control is proposed for dual active bridge (DAB)...