Rou-Yong Duan scite author profile

In this study, a high step-up converter with a coupled-inductor is investigated. In the proposed strategy, a coupled inductor with a lower-voltage-rated switch is used for raising the voltage gain (whether the switch is turned on or turned off). Moreover, a passive regenerative snubber is utilized for absorbing the energy of stray inductance so that the switch duty cycle can be operated under a wide range, and the related voltage gain is higher than other coupled-inductor-based converters. In addition, all devices in this scheme also have voltage-clamped properties and their voltage stresses are relatively smaller than the output voltage. Thus, it can select low-voltage low-conduction-loss devices, and there are no reverse-recovery currents within the diodes in this circuit. Furthermore, the closed-loop control methodology is utilized in the proposed scheme to overcome the voltage drift problem of the power source under the load variations. As a result, the proposed converter topology can promote the voltage gain of a conventional boost converter with a single inductor, and deal with the problem of the leakage inductor and demagnetization of transformer for a coupled-inductor-based converter. Some experimental results via examples of a proton exchange membrane fuel cell (PEMFC) power source and a traditional battery are given to demonstrate the effectiveness of the proposed power conversion strategy.Index Terms-Battery, converter, coupled inductor, fuel cell, passive regenerative snubber, proton exchange membrane, reverse recovery.

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High-Efficiency DC-DC Converter With High Voltage Gain and Reduced Switch Stress

Wai

Lin

Duan

et al. 2007

IEEE Trans. Ind. Electron.

387

139

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High-efficiency bidirectional DC-DC converter with coupled inductor

Duan

Lee

2012

IET Power Electron.

111

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High-efficiency bidirectional dc–dc converter with high-voltage gain

Wai

Duan

Jheng

2012

IET Power Electron.

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High-efficiency DC∕DC converter with high voltage gain

Wai

Duan

2005

IEE Proc., Electr. Power Appl.

182

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In this paper, a high-efficiency dc-dc converter with high voltage gain and reduced switch stress is proposed. Generally speaking, the utilization of a coupled inductor is useful for raising the step-up ratio of the conventional boost converter. However, the switch surge voltage may be caused by the leakage inductor so that it will result in the requirement of high-voltage-rated devices. In the proposed topology, a three-winding coupled inductor is used for providing a high voltage gain without extreme switch dutycycle and enhancing the utility rate of magnetic core. Moreover, the energy in the leakage inductor is released directly to the output terminal for avoiding the phenomenon of circulating current and the production of switch surge voltage. In addition, the delay time formed with the cross of primary and secondary currents of the coupled inductor is manipulated to alleviate the reverse-recovery current of the output diode. It can achieve the aim of high-efficiency power conversion. Furthermore, the closed-loop control methodology is utilized in the proposed scheme to overcome the voltage drift problem of the power source under the variation of loads. Some experimental results via an example of a proton exchange membrane fuel cell power source with 250-W nominal rating are given to demonstrate the effectiveness of the proposed power conversion strategy.Index Terms-DC-DC converter, coupled inductor, fuel cell, proton exchange membrane, reverse recovery.

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Rou-Yong Duan

High Step-Up Converter With Coupled-Inductor

High-Efficiency DC-DC Converter With High Voltage Gain and Reduced Switch Stress

High-efficiency bidirectional DC-DC converter with coupled inductor

High-efficiency bidirectional dc–dc converter with high-voltage gain

High-efficiency DC∕DC converter with high voltage gain

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