CURRENT INTEGRATIVE ENGINEERING

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Characterization Of Resonant Coupled Inductor In A Wireless Power Transfer System

1 Faculty, Department Of Electrical Engineering, Nueva Vizcaya State University, Bambang, Nueva Vizcaya, 3702,Philippines

Volume 2

Issue 1

Page: [42 - 59]

Published Online: February 5, 2024

  • Abstract

    Wireless Power Transfer (WPT) Has Garnered Significant Interest As A Potentially Transformative Technology In The Energy Sector, As It Presents A Novel Approach To Powering And Charging Devices. The Functionality Of This Technology Is Predicated Upon The Utilization Of Electromagnetic Coupling To Facilitate The Wireless Transmission Of Energy Between Two Entities. Despite The Considerable Potential, Wireless Power Transfer (WPT) Faces Significant Obstacles That Restrict Its Practical Feasibility. One Notable Challenge That Arises Is The Decrease In Power Transfer Efficiency As The Distance Between The Transmitter And Receiver Increases. Moreover, The Wireless Power Transfer (WPT) Technology Is Further Limited By Its Reliance On Accurate Alignment Between The Transmitting Source And The Receiving Device, Thereby Posing Challenges For Its Practical Implementation. The Issues Present Substantial Obstacles To The Widespread Commercialization Of Wireless Power Transfer (WPT). This Study Seeks To Improve The Efficacy Of Power Transfer By Optimizing The Resonance Frequency Of The Power Transfer In Response To The Challenges. By Systematically Manipulating Various Parameters, Including Coil Dimensions, Input Voltage Levels, And Operational Frequency, A Novel Approach Is Proposed To Enhance The Efficiency Of Power Transfer. The Study Additionally Offers Valuable Insights Regarding The Correlation Between The Distance Separating The Coils And The Efficiency Of Power Transfer. The Findings Of This Study Offer A Thorough Empirical Analysis And Are Supported By A Strong Theoretical Framework, Resulting In A Substantial Coefficient Of Determination (R² = 0.937118). This Finding Suggests That The Linear Regression Model Under Consideration Could Account For Approximately 93.7118 Percent Of The Variability Observed In The Distance. The Findings Of This Study Establish A Pathway Towards Enhanced And Feasible Wireless Power Technology, Thereby Establishing A Robust Basis For The Prospective Commercial Implementation Of Wireless Power Transfer (WPT) Systems

    Keywords: Wireless Power Transfer Coupled Magnetic Resonance Resonance Frequency Inductive Coupling

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