2018
DOI: 10.1109/tpel.2017.2768244
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Multi-MHz IPT Systems for Variable Coupling

Abstract: This paper proposes solutions for an IPT system to operate efficiently when large changes in coupling take place. To achieve high power-efficiency independent of coupling, we utilise inherent regulation properties of resonant converters to avoid losing soft switching for any coupling value, and present the optimal load to the IPT-link at the maximum energy-throughput coupling. A probability-based model is introduced to assess and optimise the IPT system by analysing coupling as a distribution in time, which de… Show more

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Cited by 65 publications
(33 citation statements)
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“…Various techniques to optimise the link were then formulated in [8], and by implementing this theory at multi-MHz frequencies significant improvements in end to end efficiencies have been achieved. For example in [9] a dc-ac efficiency of 77 % was reported at 6 MHz and 3.5 % coupling, and most recently in our previous work [10] we achieved 88 % dc-dc efficiency at 6.78 MHz and 10.5 % coupling. The introduction of wide bandgap devices has also pushed the capabilities and end-toend efficiency of these systems forward.…”
Section: Introductionsupporting
confidence: 50%
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“…Various techniques to optimise the link were then formulated in [8], and by implementing this theory at multi-MHz frequencies significant improvements in end to end efficiencies have been achieved. For example in [9] a dc-ac efficiency of 77 % was reported at 6 MHz and 3.5 % coupling, and most recently in our previous work [10] we achieved 88 % dc-dc efficiency at 6.78 MHz and 10.5 % coupling. The introduction of wide bandgap devices has also pushed the capabilities and end-toend efficiency of these systems forward.…”
Section: Introductionsupporting
confidence: 50%
“…8 describes the distribution of k as a histogram with equal size bins of 0.5 % coupling, when the drone is at maximum throttle and has no external flight control. Characterising motion as a probability distribution is useful because it allows optimising for the link and the circuits at both ends of the system for maximum overall energy efficiency as proposed in [10].…”
Section: B Range Of Motion and Variable Couplingmentioning
confidence: 99%
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“…Class EF inverter circuit topology pad dictate the range of coupling for the drone to land and recharge. As this system relies on variable coupling, it was designed considering the spatial distribution of coupling as in [7] from simulations but also from measurements.…”
Section: B the Wireless Power Transmittermentioning
confidence: 99%
“…A crucial feature of using high frequency IPT systems for wireless charging of autonomous drones is that these can be designed for a wide range of misalignment and independent of angular orientation [7]. Thus, the drones to be charged do not require a millimetre-precise landing system.…”
Section: Field Testingmentioning
confidence: 99%