Yuichi Mabuchi scite author profile

Yuichi Mabuchi

5Publications

22Citation Statements Received

1Citation Statement Given

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Affiliations

Hitachi (Japan), Kyoto University

Publications

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A feasibility study for reducing common‐mode current on the wire harness connected to electronic control units

Mabuchi

Nakamura²,

Hayashi³

et al. 2007

Electron Comm Jpn Pt II

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SUMMARYWith the recent progress in high-speed and high-density implementation, EMI (electromagnetic interference) by the electronic equipment in operation with other equipment by electromagnetic wave emission is a problem. In vehicular electronic equipment, the radio frequency (~100 MHz) is a particular problem, and the common-mode current flowing in the wire harness connected to the electronic control unit is considered to be a major factor in radiating interference electromagnetic waves. This study investigates the common-mode current of electronic control units as a major source of EMI. A double-layer printed board, which forms the mainstream of vehicular electronic control units, is assumed, and the mechanism of the problem and effective means of combating it are investigated. It is found that, for the odd harmonic frequencies of microcontroller operation, the common-mode current due to voltage fluctuation is the dominant factor, and for the even harmonic frequencies, the common-mode current due to current fluctuation is the dominant factor. In particular, for the common-mode current produced by current fluctuation, analysis shows that the generation of the common-mode current can be reduced by adequately balancing the parasitic inductances and capacitances of the wiring patterns on the printed circuit board. The results of analysis are verified by measurements using an evaluation board.

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Development of a Low EMI Micro-controller Package for Automobile Applications

Mabuchi

Nakamura

Ohmae

et al. 2009

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Development of a Control Method for LLC Converter Utilized for Input-Parallel-Output-Series Inverter System with Solid-State Transformers

et al. 2019

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A multi-level power converter with series-connected solid-state transformer (SST) units for a power conditioning system for photovoltaic (PV) generation was developed. Each SST unit has an LLC converter driven by SiC-MOSFETs and a high-frequency transformer. By applying the developed converter, the system can be optimized and made lighter than a conventional system using a commercial transformer. A method for controlling the LLC converter so as to maintain its high efficiency over a wide voltage range of a PV panel is proposed. According to the results of an experimental evaluation of a prototype SST unit, the efficiency of the LLC converter is 98% or more even when the input voltage from the PV panel changes.

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Novel design technique for reducing common-mode current on wire harness connected to ECUs

Mabuchi

Nakamura

Hayashi

et al. 2006

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Low phase-to-phase-impedance busbar for modular power converter system

Kamizuma

Hattori

Matsumoto

et al. 2015

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Yuichi Mabuchi

A feasibility study for reducing common‐mode current on the wire harness connected to electronic control units

Development of a Low EMI Micro-controller Package for Automobile Applications

Development of a Control Method for LLC Converter Utilized for Input-Parallel-Output-Series Inverter System with Solid-State Transformers

Novel design technique for reducing common-mode current on wire harness connected to ECUs

Low phase-to-phase-impedance busbar for modular power converter system

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