K. Tokano scite author profile

Katsuki TOKANO †a) , Nonmember, Wenqi ZHU †b) , Student Member, Tatsuki OSATO † †c) , Kien NGUYEN †d) , Members, and Hiroo SEKIYA †e) , Senior Member SUMMARY This paper presents a design method of a two-hop wireless power transfer (WPT) system for installing on a robot arm. The class-E inverter and the class-D rectifier are used on the transmission and receiving sides, respectively, in the proposed WPT system. Analytical equations for the proposed WPT system are derived as functions of the geometrical and physical parameters of the coils, such as the outer diameter and height of the coils, winding-wire diameter, and number of turns. Using the analytical equations, we can optimize the WPT system to obtain the design values with the theoretically highest power-delivery efficiency under the size limitation of the robot arm. The circuit experiments are in quantitative agreement with the theoretical predictions obtained from the analysis, indicating the validity of the analysis and design method. The experimental prototype achieved 83.6 % power-delivery efficiency at 6.78 MHz operating frequency and 39.3 W output power.

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Design concept of n-buffer layer (n-Bottom Assist Layer) for 600V-class Semi-Super Junction MOSFET

Ono

Saito

Takashita

et al. 2007

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K. Tokano

Design Procedure of Load-Independent Class-E WPT Systems and Its Application in Robot Arm

Ultra low on-resistance SBD with p-buried floating layer

A novel low on-resistance Schottky-barrier diode with p-buried floating layer structure

Analysis and Design of 6.78MHz Wireless Power Transfer System for Robot Arm

Design concept of n-buffer layer (n-Bottom Assist Layer) for 600V-class Semi-Super Junction MOSFET

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