@inproceedings{scholars10687,
          volume = {2018},
           title = {Evaluation of five compensation circuits for electric vehicle inductively coupled power transfer (ICPT)},
            note = {cited By 0; Conference of 5th IET International Conference on Clean Energy and Technology, CEAT 2018 ; Conference Date: 5 September 2018 Through 6 September 2018; Conference Code:144672},
          number = {CP749},
       publisher = {Institution of Engineering and Technology},
         journal = {IET Conference Publications},
            year = {2018},
             url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85061379218&partnerID=40&md5=dbc70e88caa9170303db84c2818bb4d4},
        abstract = {This paper analyzed and evaluated the output power and efficiency characteristics from five new compensation circuits for inductively coupled power transfer (ICPT) system. These compensations are series-series (SS), double-sided inductor capacitor capacitor (LCC), inductor capacitor capacitor-series (LCC-S), SS detuned and inductor capacitor-series (LC-S). The parameter tuning of all passive components for compensation circuits was presented in equations form before circuit analysis. All topologies were analyzed with inductive power transfer (IPT) equivalent circuit model using Kirchhoff Law theorem and matrix operation in MATLAB platform. Based on simulation result, although the SS compensation scheme generated the highest output power at low coupling coefficient, followed by an LC-S scheme, the flexibility of LC-S tuning has the advantage over than the SS scheme. Other topologies were underperformed in output power yet each of them has its specialty according to their purposed design. {\^A}{\copyright} 2018 Institution of Engineering and Technology. All rights reserved.},
          author = {Abdul Aziz, A. F. and Romlie, M. F. and Azni Zulkifli, T. Z. and Baharudin, Z.},
        keywords = {Compensation (personnel); Efficiency; Electric inductors; Electric network analysis; Electromagnetic induction; Energy transfer; Equivalent circuits; Inductive power transmission; MATLAB; Timing circuits; Topology; Tuning, Compensation circuits; Equivalent circuit model; ICPT; Inductive powertransfer (IPT); Inductively Coupled Power Transfer(ICPT); Output power; Output power and efficiencies; Passive component, Coupled circuits},
            isbn = {9781785618161; 9781785618437; 9781785618468; 9781785618871; 9781785619427; 9781785619694; 9781839530036; 9781785617911}
}