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Bibliographic Details
Main Authors: Wang, X., Krois, I., Ha-Van, N., Mirmoosa, M. S., Jayathurathnage, P., Hrabar, S., Tretyakov, S. A.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.15193
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_version_ 1866913241240698880
author Wang, X.
Krois, I.
Ha-Van, N.
Mirmoosa, M. S.
Jayathurathnage, P.
Hrabar, S.
Tretyakov, S. A.
author_facet Wang, X.
Krois, I.
Ha-Van, N.
Mirmoosa, M. S.
Jayathurathnage, P.
Hrabar, S.
Tretyakov, S. A.
contents Conventional wireless power transfer systems are linear and time-invariant, which sets fundamental limitations on their performance, including a tradeoff between transfer efficiency and the level of transferred power. In this paper, we introduce and study a possibility of temporal modulation for inductive wireless power transfer systems and uncover that this tradeoff is avoided as a consequence of varying the inductive coupling strength in time. Our theoretical analysis reveals that under the optimal modulation depth and phase, the time modulation can yield a substantial improvement in the WPT efficiency, while the received power at the load is also improved compared to the static WPT reference system. We experimentally demonstrate the concept with a low-frequency system and observe a threefold improvement in efficiency over the reference static counterpart. This technical capability reconciles the inherent tradeoff between the WPT efficiency and transferred power, paving the way for simultaneous advancements in both efficiency and delivered power.
format Preprint
id arxiv_https___arxiv_org_abs_2402_15193
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Time-Varying Wireless Power Transfer Systems for Improving Efficiency
Wang, X.
Krois, I.
Ha-Van, N.
Mirmoosa, M. S.
Jayathurathnage, P.
Hrabar, S.
Tretyakov, S. A.
Applied Physics
Conventional wireless power transfer systems are linear and time-invariant, which sets fundamental limitations on their performance, including a tradeoff between transfer efficiency and the level of transferred power. In this paper, we introduce and study a possibility of temporal modulation for inductive wireless power transfer systems and uncover that this tradeoff is avoided as a consequence of varying the inductive coupling strength in time. Our theoretical analysis reveals that under the optimal modulation depth and phase, the time modulation can yield a substantial improvement in the WPT efficiency, while the received power at the load is also improved compared to the static WPT reference system. We experimentally demonstrate the concept with a low-frequency system and observe a threefold improvement in efficiency over the reference static counterpart. This technical capability reconciles the inherent tradeoff between the WPT efficiency and transferred power, paving the way for simultaneous advancements in both efficiency and delivered power.
title Time-Varying Wireless Power Transfer Systems for Improving Efficiency
topic Applied Physics
url https://arxiv.org/abs/2402.15193