Yutaka Furukawa scite author profile

Yutaka Furukawa

3Publications

11Citation Statements Received

25Citation Statements Given

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A power efficiency improvement technique for a bi-directional dual active bridge DC-DC converter at light load

Takasaki

Ishizuka

Ninomiya

et al. 2013

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Abstract-Recently, the bi-directional dc-dc converter has been focused on because of the huge demand for diversification of power supply network including battery. The dual active bridge (DAB) dc-dc converter is one of the most popular circuits for bi-directional applications because of its simple structure. However, power efficiency at light load is the intrinsic problem of a bi-directional DAB DC-DC converter. In this paper, the simple solution with digital operation for the problem is proposed and experiments are performed with 1kW system. This method can reduce a switching surge without other circuits such as snubber and improve power efficiency at light load. Therefore it can reduce loss of switching surge and, improve power efficiency. From the results, 37% maximum power efficiency improvement at light load is confirmed. Furthermore, this method is capable of control in the conventional method in the heavy load range. Consequently, it is possible to reduce the switching surge and realize high power efficiency in a wide load range.

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A static characteristic analysis of proposed bi-directional dual active bridge DC-DC converter

Nagata

Takasaki

Furukawa³

et al. 2014

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Abstract-Recently, the power supply network with energy storage devices such as battery has been focused. This network topology uses bi-directional isolated DC-DC converter of low or medium capacity is required for the diversification of power supply network. The dual active bridge (DAB) DC-DC converter is one of the effective bi-directional isolated DC-DC converters. However, the circuit has some instinct problems such as degradation of power efficiency and the occurrence of the surge in light-load operation. In this paper, we have been done a static characteristic analysis and highly power-efficient technique for DAB DC-DC Converter at light load. Also the analysis results and the proposed technique are verified with some experimental results.

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Switching surge reduction of a bi-directional dual active bridge DC-DC converter with a digital operation

Takasaki

Ishizuka

Ninomiya

et al. 2013

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Recently, the bi-directional dc-dc converter has been focused on because of the huge demand for diversification of power supply network including battery. The dual active bridge (DAB) dc-dc converter is one of the most popular circuits for bi-directional applications because of its simple structure. However, power efficiency at light load is the intrinsic problem of a bi-directional DAB DC-DC converter. In this paper, the simple solution with digital operation for the problem is proposed and experiments are performed with 1kW system. This method can reduce a switching surge without other circuits such as snubber and improve power efficiency at light load. Therefore it can reduce loss of switching surge, and improve power efficiency. From the results, 37% maximum power efficiency improvement at light load is confirmed. Furthermore, this method is capable for control in the conventional method in the heavy load range. Consequently, it is possible to reduce the switching surge and realize high power efficiency in a wide load range.

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Yutaka Furukawa

A power efficiency improvement technique for a bi-directional dual active bridge DC-DC converter at light load

A static characteristic analysis of proposed bi-directional dual active bridge DC-DC converter

Switching surge reduction of a bi-directional dual active bridge DC-DC converter with a digital operation

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