A Wireless Power Transfer System Using a Double DD Quadrature Coil Structure

This paper presents the evolution of an inductive wireless power transfer using a multicoil system. The double DD coil structure on the transmitter and the receiver side using two perpendicular bipolar DD coils is upgraded with an additional nonpolar quadrature coil. The proposed structure can be called the double DDQ coil structure. All three coils are not coupled, due to the nature of the directional double DD coil. If the transmitter and the receiver are not misaligned to one another, the system behaves as three separate, uncoupled IPT systems. The main advantage of the proposed coil topology is additionally increased power density and increased misalignment tolerance. Additionally, when the transmitter and the receiver coil are perfectly aligned, the proposed pad structure can transmit three different voltages and can be excited with different frequencies. In the case of this paper, the three coils on the transmitter side were excited by the same frequency. The proposed coil was evaluated experimentally and compared to the system using double DD coil structure.

Automated summary

This paper presents the evolution of an inductive wireless power transfer using a multicoil system. The proposed structure, called the double DDQ coil structure, consists of double DD coils on the transmitter and receiver side upgraded with an additional nonpolar quadrature coil. The main advantage of this structure is increased power density and increased misalignment tolerance.