@article{athira_resonant_2022,
	title = {Resonant {Inductive} {Coupling} for {Wireless} {Power} {Transmission}},
	volume = {2},
	issn = {2789-3766},
	doi = {10.54616/ijeps/20220301},
	abstract = {Wireless power transmission (WPT) is the method that transferring electrical energy from power source to electrical without any physical contact and it can be used to transfer power to electricity dependent systems or devices. In WPT, electromagnetic energy is produced to transmit the energy from power source (transmitter) to the load (receiver) via resonant inductive coupling. This article focuses on the design of a resonant inductive coupling using parallel-T topology in coupling WTR and combined of single transmitter with multiple receivers. In addition, principle of magnetic wave between the transmitter and receiver with related parameters is utilized to develop in WPT. A parallel-T topology that consists of T-matching network for secondary side is proposed as it is more suitable for weak coupling wireless power transfer applications. Besides that, three circuits are designed to show the resonant inductive coupling for WTP which including the circuit with and without matching network and the circuit of single transmitter with multiple receivers. The simulation of output voltage and output current are observed to relate the effects of frequency on the circuit. The graph of output voltage and power are plotted to show the pattern on effect of the frequencies to the resonant inductive coupling circuit.},
	number = {1},
	journal = {International Journal of Electrical Power \& Energy Systems},
	author = {Athira, Puteri and Tze-Zhang, Ang and Mohamed, Salem},
	month = aug,
	year = {2022},
	pages = {1--5},
}