Wireless Power Transfer Based on Enhancement of Frequency Through PLL for Wide Range
Authors: Praduman Amroliya and Santosh Kumar Sharma
Publishing Date: 27-12-2022
ISBN: 978-81-955020-5-9
Abstract
In this paper, the proposed work conveys an efficient way to the desired extent while maintaining stable power generation and efficiency over long distances which has been difficult for past decades. These inductive or microwave plus coupling varieties are typically regarded key characteristics in a regularly used system. In a broad sense, capacitive coupling (CC), magnetic resonance coupling (MRC), microwave radiation (MR), & inductive coupling are the 4 kinds of coupling. Since its evaluation in the mid-1930s, when it was utilized as element of both the Synchronization of the level and lateral outputs of television, it has progressed to a Progressed representation of coordinated circuit (IC). Technological advances have been identified inside a long range of applications nowadays. The very first PLL ICs started available about 1965. Furthermore, its quality factor allows for maximum coupling efficiency at longer wavelengths and voltages. Past decades proved that obtaining a wide range of components leads to optimizing the wireless power transfer system. The suggested control approaches and frequent usage of PLL are described in this research, and they will enhance the effectiveness of the transmission frequency to acquire as much distance as possible while maintaining the required efficiency. Furthermore, the proposed technique for the inverter, which is dependent on the saturation principle, necessitates the monitoring of potential within transmitter and reception coils. The high-frequency transformer, on the other hand, fulfilled the specified distance at Megahertz by stepping up the regulated voltage and frequency using coil parameters. With the aid of optimization in coil settings, this suggested work approaches a novel high efficiency experiment and control upon coupled magnetic resonance across a large range of load power also with PLL that can raise the voltage at a rather high value to get the wide range. In a WPT system, this simple way can obtain optimal distance. The MATLAB-2019b environment was used to evaluate the simulation.
Keywords
CMR-WPT, Design and optimization of PLL, High Frequency Transformer, Mutual Inductance Coil Parameters, Power Transfer Distance.
Cite as
Praduman Amroliya and Santosh Kumar Sharma, "Wireless Power Transfer Based on Enhancement of Frequency Through PLL for Wide Range", In: Saroj Hiranwal and Garima Mathur (eds), Artificial Intelligence and Communication Technologies, SCRS, India, 2022, pp. 577-589. https://doi.org/10.52458/978-81-955020-5-9-56