198 / 2023-10-20 21:57:54
A Lateral Rotation-Free IPT System with Overlapped Receiving Coils for Power Cable Sensors
inductive power transfer,sensor,Cable,free rotation
Final Paper
Wenhui Wang / Sichuan University
Bohan Li / Sichuan university
Yefei Xu / Sichuan University
Kai Zhou / Sichuan University
    At present, there is no long-term reliable power source for the sensors on underground three-phase or dc power cables. Thus, a lateral free rotation inductive power transfer (LFR-IPT) system is proposed to charge the power cable sensors. The idea of the proposed system is to use two partially overlapped receiving coils to construct the power receiver. This design ensures even with the rotation of the receiver, the magnetic flux of the transmitting coil passing through the receiving coils would not decrease to zero. Compared with a fully enveloping single cylindrical receiving coil, the proposed overlapped receiving coils require less material, consequently, lower expense, and offer relatively higher system efficiency. Specific rotation and scanning angles are designed for the proposed overlapped two coils, and a decoupling circuit is utilized to eliminate the impact of cross-coupling between the two receiving coils and simplify the system design. Two half-bridge rectifiers are series connected to improve the system output voltage. Thus, comprehensively, the output of the system can keep a relatively lateral rotation-independent characteristic. A prototype is built to validate the performance of the proposed system. Experiment results show that, with 50 cm transmitting distance, the output power of the system can remain larger than 1.64 W when the receiving coils rotate from 0° to 360°.
Important Date
  • Conference Date

    Dec 08

    2023

    to

    Dec 10

    2023

  • Nov 01 2023

    Draft paper submission deadline

  • Dec 10 2023

    Registration deadline

Sponsored By
IEEE IAS
Organized By
Southwest Jiaotong University (SWJTU)