Hyung Soo Lee scite author profile

A wireless power transfer (WPT) system is usually classified as being of either a two-coil or four-coil type. It is known that two-coil WPT systems are suitable for shortrange transmissions, whereas four-coil WPT systems are suitable for mid-range transmissions. However, this paper reveals that the two aforementioned types of WPT system are alike in terms of their performance and characteristics, differing only when it comes to their matching-network configurations. In this paper, we first find the optimum load and source conditions using Z-parameters. Then, we estimate the maximum power transfer efficiency under the optimum load and source conditions, and we describe how to configure the matching networks pertaining to both types of WPT system for the given optimum load and source conditions. The two types of WPT system show the same performance with respect to the coupling coefficient and load impedance. Further, they also demonstrate an identical performance in the two cases considered in this paper, that is, a strong-coupled case and a weak-coupled case.Keywords: Four-coil wireless power transfer system, matching network, power gain, power transfer efficiency, transducer power gain, two-coil wireless power transfer system, two-port network, Z-parameter.

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Whole-Body Muscle MRI in Patients with Hyperkalemic Periodic Paralysis Carrying theSCN4AMutation T704M: Evidence for Chronic Progressive Myopathy with Selective Muscle Involvement

Lee

et al. 2015

J Clin Neurol

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Background and PurposeHyperkalemic periodic paralysis (hyperKPP) is a muscle sodium-ion channelopathy characterized by recurrent paralytic attacks. A proportion of affected individuals develop fixed or chronic progressive weakness that results in significant disability. However, little is known about the pathology of hyperKPP-induced fixed weakness, including the pattern of muscle involvement. The aim of this study was to characterize the patterns of muscle involvement in hyperKPP by whole-body magnetic resonance imaging (MRI).MethodsWe performed whole-body muscle MRI in seven hyperKPP patients carrying the T704M mutation in the SCN4A skeletal sodium-channel gene. Muscle fat infiltration, suggestive of chronic progressive myopathy, was analyzed qualitatively using a grading system and was quantified by the two-point Dixon technique.ResultsWhole-body muscle MRI analysis revealed muscle atrophy and fatty infiltration in hyperKPP patients, especially in older individuals. Muscle involvement followed a selective pattern, primarily affecting the posterior compartment of the lower leg and anterior thigh muscles. The muscle fat fraction increased with patient age in the anterior thigh (r=0.669, p=0.009), in the deep posterior compartment of the lower leg (r=0.617, p=0.019), and in the superficial posterior compartment of the lower leg (r=0.777, p=0.001).ConclusionsOur whole-body muscle MRI findings provide evidence for chronic progressive myopathy in hyperKPP patients. The reported data suggest that a selective pattern of muscle involvement-affecting the posterior compartment of the lower leg and the anterior thigh-is characteristic of chronic progressive myopathy in hyperKPP.

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Phase-Silence-Shift-Keying for Power-Efficient Modulator

Kim

Lee

2009

IEICE Trans. Commun.

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Impaired spleen structure and chemokine expression in ME7 scrapie-infected mice

et al. 2016

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Hyung Soo Lee

Optimal Coupling to Achieve Maximum Output Power in a WPT System

A Study on Two-coil and Four-coil Wireless Power Transfer System Using Z-parameter Approach

Whole-Body Muscle MRI in Patients with Hyperkalemic Periodic Paralysis Carrying theSCN4AMutation T704M: Evidence for Chronic Progressive Myopathy with Selective Muscle Involvement

Phase-Silence-Shift-Keying for Power-Efficient Modulator

Impaired spleen structure and chemokine expression in ME7 scrapie-infected mice

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