Characterization of Resonant Coupled Inductor in a Wireless Power Transfer System (PDF)
(Sprache: Englisch)
Research Paper (postgraduate) from the year 2022 in the subject Engineering - Industrial Engineering and Management, , language: English, abstract: This research project uses resonant inductive coupling to transfer power wirelessly. It uses a low power...
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Research Paper (postgraduate) from the year 2022 in the subject Engineering - Industrial Engineering and Management, , language: English, abstract: This research project uses resonant inductive coupling to transfer power wirelessly. It uses a low power supply to transmit power. The scope of this study is limited to the construction of a simplified WPT system using a resonant coupled inductor system. This study includes the matching sections, derivation of relationship between the coupling coefficient and distance and the parameters (quality factor, coupling coefficients, mutual inductance, resonance frequency) of the resonators. The researcher uses a 12V, 5W CYD LED bulb as the load to be able to distinguish easily whether the system is operating well or not. This study will not cover other possible methods in improving the efficiency of a wireless power.
Wireless power transfer based on coupled magnetic resonances is a new technology in which energy can be transferred via coupled magnetic resonances in the non-radiative near-field. This paper presents the design, simulation, fabrication, and experimental characterization of a single-loop inductor that acts as the receiver and transmitter of the system. A circuit model is presented to provide a convenient reference for the analysis of the transfer characteristics of a magnetically coupled resonator system. Based on this structure, the output voltage in the receiving loop is related to different transfer distances and orientations. A given driving frequency was simulated and analyzed. The driving resonant frequency of the system is approximately 580 kHz.
Wireless power transfer based on coupled magnetic resonances is a new technology in which energy can be transferred via coupled magnetic resonances in the non-radiative near-field. This paper presents the design, simulation, fabrication, and experimental characterization of a single-loop inductor that acts as the receiver and transmitter of the system. A circuit model is presented to provide a convenient reference for the analysis of the transfer characteristics of a magnetically coupled resonator system. Based on this structure, the output voltage in the receiving loop is related to different transfer distances and orientations. A given driving frequency was simulated and analyzed. The driving resonant frequency of the system is approximately 580 kHz.
Autoren-Porträt von Alan Nebrida
Name: ALAN PACITES NEBRIDADate of Birth: MARCH 6, 1983
Place of Birth : BOLINAO, PANGASINAN
Nationality: FILIPINO
Sex: MALE
Marital Status: MARRIED
Name of Spouse: JOAN SOPONGCO MINIA-NEBRIDA
Name of Child: LANJ ANJELO MINIA NEBRIDA, LANJ DAVID MINIA NEBRIDA
Permanent Address: Purok 8, Banggot, Bambang 3702, Nueva Vizcaya, Philippines
Email address: alan@nebrida.com
GRADUATE STUDIES Doctor of Philosophy-Science Education-Mathematics
Nueva Vizcaya State University, Bayombong, Nueva Vizcaya
Academic Requirements
Master of Science in Electronics and Communication
Engineering (MSECE) - Control System
Mapua Institute of Technology, Intramuros, Manila
Master of Arts in Teaching (MAT) - Mathematics
Nueva Vizcaya State University, Bambang, Nueva Vizcaya
Academic Requirements
TERTIARY LEVEL Bachelor of Science in Electrical Engineering
Don Mariano Marcos Memorial State University Mid-La Union Campus, San Fernando City, La Union
CERTIFICATIONS/PROFESSIONAL REGISTRATIONS
Registered Electrical Engineer
MEMBERSHIP IN PROFESSIONAL ORGANIZATIONS
Association of Government Internal Auditors, Incorporated (AGIA)
Unit 402 Merchant Square Condominium, 1386 E. Rodriguez Sr. Avenue cor. Mabolo St, New Manila, Quezon City 1102
Institute of Electrical and Electronics Engineer, Incorporated
#3 Park Avenue, 17th Floor New York, NY 10016-5997 USA
Mathematical Modeling Organization of the Philippines Incorporated
Nueva Vizcaya State University, Bayombong, Nueva Vizcaya
Philippine Science Consortium, Inc.
Bulacan State University, Malolos, Bulacan
The Mathematics Teachers Association of the Philippines, Incorporated, Tertiary Level Chapter
Stella Maris College, Cubao, Quezon City
National Association of Mapua Alumni (NAMA)
Mapua Institute of Technology-Muralla Campus
Intramuros, Manila, Philippines
Institute of Integrated Electrical Engineers of the Philippines (IIEE)
#41 Monte de Piedad Street, Cubao, Quezon
... mehr
City
ASSOCIATE PROFESSOR II
NUEVA VIZCAYA STATE UNIVERSITY
Bambang, Nueva Vizcaya
PUBLISHED RESEARCHES
Characterization of Resonant Coupled Inductor in a Wireless Power Transfer System. Research Journal. Volume 2 No. ISSN 1655-5872
Assessment of Engineering Program in Board Examination of the Nueva Vizcaya State University-Bambang Campus from 2010-2015. NVSU Research Journal College of Engineering. Summer 2015
ASSOCIATE PROFESSOR II
NUEVA VIZCAYA STATE UNIVERSITY
Bambang, Nueva Vizcaya
PUBLISHED RESEARCHES
Characterization of Resonant Coupled Inductor in a Wireless Power Transfer System. Research Journal. Volume 2 No. ISSN 1655-5872
Assessment of Engineering Program in Board Examination of the Nueva Vizcaya State University-Bambang Campus from 2010-2015. NVSU Research Journal College of Engineering. Summer 2015
... weniger
Bibliographische Angaben
- Autor: Alan Nebrida
- 2022, 35 Seiten, Englisch
- Verlag: GRIN Verlag
- ISBN-10: 3346718298
- ISBN-13: 9783346718297
- Erscheinungsdatum: 08.09.2022
Abhängig von Bildschirmgrösse und eingestellter Schriftgrösse kann die Seitenzahl auf Ihrem Lesegerät variieren.
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- Grösse: 1.40 MB
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Sprache:
Englisch
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