1. Research on Reflective Properties in the IPT System With Dual Secondary Loops.
- Author
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Luo, Ying, Song, Yi, Yang, Huanyu, and Mai, Ruikun
- Subjects
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WIRELESS communications , *ELECTROMAGNETIC fields , *RELIABILITY in engineering , *WIRELESS sensor networks , *TRANSMITTERS (Communication) , *CAPACITORS - Abstract
With the widely applying of inductive power transfer (IPT) sharing platforms in public, the security issue imposed by the leaked electromagnetic field (EMF) of standby transmitters (Txs) becomes one of the concerned topics. Multiple Txs may be an effective scheme to suppress the leaked EMF for which each Tx can be controlled independently. For the traditional technologies, multiple inverters, sensors, or wireless communication links are needed to achieve load detection and independent control, which increases the cost and reduces the system's reliability. This work presents an IPT system with dual secondary loops, which only needs a single inverter and can automatically control the Txs by its circuitry reflective property. The system can enhance the transmitting current when Rx couples with Tx and weaken that when Rx does not couple with Tx. Furthermore, a capacitor array is added in the secondary circuit to adapt different primary reactances by utilizing a simple switching-control method. Finally, a prototype that can transfer 112 W with a dc–dc efficiency of 91.79% is built to validate the feasibility of the proposed system. The experimental results show that the current in coupled Txs is three times higher than that in uncoupled Txs as per the theoretical analysis. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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