REKAYASAPERANGKAT WIRELESS ENERGI TRANSFER (WET) GUNA MENYALURKAN ENERGY LISTRIK
DOI:
https://doi.org/10.70746/jstunsada.v6i2.287Keywords:
Frekuensi perubahan arus listrik(f), Rangkaian kumparan primer, Rangkaian kumparan sekunderAbstract
Pada penelitian ini dibuat sebuah perangkat Wireless Energi Transfer (WET) dengan frekuensi perubahan arus listrik sebesar 1 MHz guna menyalurkan energy listrik arus bolak-balik, dari rangkaian kumparan primer ke rangkaian kumparan sekunder yang terpisah oleh celah udara. Sistim WET ini dibuat dengan harapan dapat menyalurkan energy listrik sebesar 6 Watt atau lebih tergantung dari sumber energy pengirim serta metode yang dipergunakan. Hasil uji perangkat WET dapat menyalurkan energy listrik sebesar 6 watt, dengan efisiensi sebesar 12 % dengan mengatur frekuensi perubahan arus listrik pada rangkaian primer serta penerapan metode resonansi induktif system akan dapatmenyalurkan energy yang lebih besar.
References
1. Cheng,D K, Fundamentals of Engineering Electromagnetics, Addison-Wesley,Singapore, 1993
2. Apoorva,P, Design of Wireless Power Transfer System using Inductive Coupling and Matlab Programming, www.iritcc.org Vol 3- Issue 6,3817-3825, 2015.
3. Kurs, A, Wireless Power Transfer via Strongly Coupled Magnetic Resonance, www: sciencemag.org,317,83, 2007
4. Hamam, RE, Efficient Weakly-Radiative Wireless Energy Transfer, www.Elsevier.com Science Direct Annals of Physic, 324,1783-1795, 2009
5. Sanghoon,C, Wireless Energy Transfer System, ETRI,34-4,527, 2012
6. Prasanth, V,K, Wireless Power Transfer for E-Mobility,Delft Thesis, scolargoogle.com,. 2013
7. KaralisA, Efficient wireless non-radiative mid-range energy transfer,www. Science Direct.com Annals of Physic, 323,2008,34-48, 2007
8. Erdem Asa, Efficiency Analysis of Bi-directional DC/DC Converter for Wireless Energy Transfer Aplications,www.IEEE.com 978-1-4673-7151-3/15. 2015
9. Grobmann D, Inductive Charging – From Evaluation to Standardized E-Mobility, Hanser automotive Special Edition E-Mobility, issue 9-10/2016. 2003
10. Tesla, N, 1893, US-Paten
2. Apoorva,P, Design of Wireless Power Transfer System using Inductive Coupling and Matlab Programming, www.iritcc.org Vol 3- Issue 6,3817-3825, 2015.
3. Kurs, A, Wireless Power Transfer via Strongly Coupled Magnetic Resonance, www: sciencemag.org,317,83, 2007
4. Hamam, RE, Efficient Weakly-Radiative Wireless Energy Transfer, www.Elsevier.com Science Direct Annals of Physic, 324,1783-1795, 2009
5. Sanghoon,C, Wireless Energy Transfer System, ETRI,34-4,527, 2012
6. Prasanth, V,K, Wireless Power Transfer for E-Mobility,Delft Thesis, scolargoogle.com,. 2013
7. KaralisA, Efficient wireless non-radiative mid-range energy transfer,www. Science Direct.com Annals of Physic, 323,2008,34-48, 2007
8. Erdem Asa, Efficiency Analysis of Bi-directional DC/DC Converter for Wireless Energy Transfer Aplications,www.IEEE.com 978-1-4673-7151-3/15. 2015
9. Grobmann D, Inductive Charging – From Evaluation to Standardized E-Mobility, Hanser automotive Special Edition E-Mobility, issue 9-10/2016. 2003
10. Tesla, N, 1893, US-Paten
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Published
2016-09-15
How to Cite
Wahyono, E. B., & Hasanah, N. (2016). REKAYASAPERANGKAT WIRELESS ENERGI TRANSFER (WET) GUNA MENYALURKAN ENERGY LISTRIK. Jurnal Sains & Teknologi Fakultas Teknik Universitas Darma Persada, 6(2), 95–101. https://doi.org/10.70746/jstunsada.v6i2.287
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