Transfer properties of various compensation techniques for wireless power transfer system including parasitic effects
| Autor: | Viliam Jaros, Pavol Spanik, Marek Piri, Vladimir Kindl, Michal Frivaldsky |
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| Rok vydání: | 2017 |
| Předmět: |
Engineering
Mathematical model business.industry Applied Mathematics 020208 electrical & electronic engineering 020302 automobile design & engineering Control engineering 02 engineering and technology Computer Science Applications Power (physics) Compensation (engineering) System requirements 0203 mechanical engineering Computational Theory and Mathematics 0202 electrical engineering electronic engineering information engineering Electronic engineering Equivalent circuit Wireless Wireless power transfer Electrical and Electronic Engineering business Electronic circuit |
| Zdroj: | COMPEL - The international journal for computation and mathematics in electrical and electronic engineering. 36:1198-1219 |
| ISSN: | 0332-1649 |
| DOI: | 10.1108/compel-04-2016-0143 |
| Popis: | Purpose This paper aims to develop mathematical models of variously compensated wireless energy transfer (WET) systems. Attention is primarily paid to the derivation of the most important energy transfer characteristics such as efficiency and amount of transferred power. This paper discusses the main advantages and disadvantages of various compensation techniques to show their possible application areas. On the basis of these results, a designer will be able to quickly identify which compensation type suites as the best solution to fulfill a given system’s requirements. Design/methodology/approach First, the current state in the field of mathematical modeling of WET systems is introduced. Next, the non-resonant magnetic-coupled circuit together with four most common resonant magnetic-coupled circuits is analyzed. The equivalent circuit models using loop currents methodology is applied to the analyses. The proposed methodology is experimentally verified by the laboratory measurement of selected circuit topology. The main contribution of the proposed methodology lies in its quick applicability on more complicated or extended systems while keeping a relatively good match with the real system’s behavior. Findings The authors have presented the usage of a simple and accurate methodology for investigating variously compensated WET systems. Electrical engineers who require effective and powerful tools for the identification of basic WET systems properties will find this methodology to be of extensive help. Research limitations/implications The analyses consider only the sinusoidal type of supply voltage; so, it is valid mainly for the close range of the resonant state. Nonlinearities cannot be taken into account. Practical implications This research may be applied in the field of WET systems. Originality/value Research in the area of power electronic systems, which provides a clear and straightforward procedure for WET system identification, will be helpful to most practical technicians who are not well versed in areas of physical-based phenomena. |
| Databáze: | OpenAIRE |
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