Journal
ELECTRONICS
Volume 11, Issue 7, Pages -Publisher
MDPI
DOI: 10.3390/electronics11071023
Keywords
parameter estimation; transmitter-side control strategy; wireless power transfer; constant current and constant voltage output
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Funding
- Jiangsu Provincial Industrial Prospective and the Key Core Technology Project of China [BE2019113]
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This paper presents a multi-parameter estimation method based on the phase difference between primary and secondary currents for a series/series (S/S) compensated contactless converter. By introducing the phase difference, a straightforward and accurate estimation model is derived, and a method combining pre-parameter identification and online parameter identification is proposed. The proposed method provides a general, accurate, and fast parameter estimation solution.
This paper proposes a multi-parameter estimation method based on the phase difference between primary and secondary currents, for a series/series (S/S) compensated contactless converter. To achieve secondary current sensing in the transmitter side, a primary sensing coil is added into the coupler. By introducing the phase difference between primary and secondary currents, a straightforward, multi-parameter estimation model is derived, significantly reducing the multi-parameter solving difficulty. Based on the derived model, a method combining pre-parameter identification based on frequency sweeping, with fast online parameter identification is proposed, offering a general, accurate, and rapid parameter estimation solution. Detailed implementation of the parameter identification method and the asymmetrical configuration of the coupler are also presented. The proposed method is verified with a 1 kW S/S compensated converter. Experimental results show that the estimated values agree well with the theoretical ones. Based on the estimated results, the transmitter-side, closed-loop control can also be achieved.
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