Journal ArticleDOI
Design and Optimization of Resonance-Based Efficient Wireless Power Delivery Systems for Biomedical Implants
TLDR
This work has analyzed the four-coil energy transfer systems and outlined the effect of design parameters on power-transfer efficiency, and a proof-of-concept prototype system is implemented and confirms the validity of the proposed analysis and design techniques.Abstract:
Resonance-based wireless power delivery is an efficient technique to transfer power over a relatively long distance. This technique typically uses four coils as opposed to two coils used in conventional inductive links. In the four-coil system, the adverse effects of a low coupling coefficient between primary and secondary coils are compensated by using high-quality (Q) factor coils, and the efficiency of the system is improved. Unlike its two-coil counterpart, the efficiency profile of the power transfer is not a monotonically decreasing function of the operating distance and is less sensitive to changes in the distance between the primary and secondary coils. A four-coil energy transfer system can be optimized to provide maximum efficiency at a given operating distance. We have analyzed the four-coil energy transfer systems and outlined the effect of design parameters on power-transfer efficiency. Design steps to obtain the efficient power-transfer system are presented and a design example is provided. A proof-of-concept prototype system is implemented and confirms the validity of the proposed analysis and design techniques. In the prototype system, for a power-link frequency of 700 kHz and a coil distance range of 10 to 20 mm, using a 22-mm diameter implantable coil resonance-based system shows a power-transfer efficiency of more than 80% with an enhanced operating range compared to ~40% efficiency achieved by a conventional two-coil system.read more
Citations
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Journal ArticleDOI
A Critical Review of Recent Progress in Mid-Range Wireless Power Transfer
TL;DR: In this paper, a critical review outlines recent magneto-inductive research activities on wireless power transfer with the transmission distance greater than the transmitter coil dimension, and summarizes the operating principles of a range of wireless power research into the maximum power transfer and the maximum energy efficiency principles.
Journal ArticleDOI
Wireless Charging Technologies: Fundamentals, Standards, and Network Applications
TL;DR: In this paper, the authors present a comprehensive overview of wireless charging techniques, the developments in technical standards, and their recent advances in network applications, with regard to network applications and discuss open issues and challenges in implementing wireless charging technologies.
Journal ArticleDOI
Design and Optimization of a 3-Coil Inductive Link for Efficient Wireless Power Transmission
TL;DR: It is shown that despite achieving high PTE at larger coil separations, the 4-coil inductive links fail to achieve a high PDL, and an iterative design methodology is devised that provides the optimal coil geometries in a 3-coils inductive power transfer link.
Journal ArticleDOI
Wireless power transfer to deep-tissue microimplants
John S. Ho,Alexander J. Yeh,Evgenios Neofytou,Sanghoek Kim,Yuji Tanabe,Bhagat Patlolla,Ramin E. Beygui,Ada S. Y. Poon +7 more
TL;DR: A wireless powering method is reported that overcomes the challenge of energy transfer beyond superficial depths in tissue by inducing spatially focused and adaptive electromagnetic energy transport via propagating modes in tissue and is used to power a tiny electrostimulator that is orders of magnitude smaller than conventional pacemakers.
Journal ArticleDOI
Communications and Signals Design for Wireless Power Transmission
TL;DR: In this paper, the authors give an overview on the various radiative wireless power transfer (WPT) technologies, the historical development of the radiative WPT technology and the main challenges in designing contemporary WPT systems, focusing on the state-of-the-art communication and signal processing techniques that can be applied to tackle these challenges.
References
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Journal ArticleDOI
Wireless Power Transfer via Strongly Coupled Magnetic Resonances
Andre B. Kurs,Aristeidis Karalis,Robert Moffatt,John D. Joannopoulos,Peter H. Fisher,Marin Soljacic +5 more
TL;DR: A quantitative model is presented describing the power transfer of self-resonant coils in a strongly coupled regime, which matches the experimental results to within 5%.
Journal ArticleDOI
Efficient wireless non-radiative mid-range energy transfer
TL;DR: In this article, the physical phenomenon of long-lifetime resonant electromagnetic states with localized slowly-evanescent field patterns was investigated to transfer energy efficiently over non-negligible distances even in the presence of extraneous environmental objects.
Journal ArticleDOI
Magnetic Resonant Coupling As a Potential Means for Wireless Power Transfer to Multiple Small Receivers
TL;DR: In this paper, the magnetic resonance coupling between source and load coils is achieved with lumped capacitors terminating the coils, and a circuit model is developed to describe the system with a single receiver and extended to describe two receivers.
Journal ArticleDOI
Coupled-mode theory
H.A. Haus,W. Huang +1 more
TL;DR: In this paper, the authors give a brief historic perspective of the coupled mode theory and the development and applications of the theory in microwaves in early years and in optoelectronics and fiber optics in recent years.
Journal ArticleDOI
Design and Optimization of Printed Spiral Coils for Efficient Transcutaneous Inductive Power Transmission
Uei-Ming Jow,Maysam Ghovanloo +1 more
TL;DR: This work outlined the theoretical foundation of optimal power transmission efficiency in an inductive link, and combined it with semi-empirical models to predict parasitic components in PSCs to devise an iterative PSC design methodology that starts with a set of realistic design constraints and ends with the optimal PSC pair geometries.