Otomasi Simulasi Transfer Daya Nirkabel Dinamis dengan Double Coil Receiver Menggunakan LTSpice
Kata Kunci:
Python, LTSpice, Wireless Power Transfer, Coil, EfisiensiAbstrak
Wireless Power Transfer (WPT) merupakan teknologi yang memungkinkan transfer daya listrik tanpa kabel. Pengembangan WPT saat ini mengarah pada optimasi transfer daya antar coil. Optimasi transfer daya dapat dilakukan dengan menyesuaikan nilai frekuensi dan kapasitor. Metode ini memerlukan frekuensi dan kapasitor yang dinamis untuk mempertahankan nilai daya yang optimal. Hal ini akan sulit dilakukan pada lingkungan fisik WPT. Selain itu, penerapan WPT yang tergolong sistem kritis memerlukan simulasi sebelum menerapkannya pada sistem fisik. Lingkungan simulasi WPT dapat dibangun dengan menggunakan Python dan LTSpice. Dengan bantuan library PyLTSpice, maka simulasi LTSpice dapat dijalankan menggunakan bahasa pemrograman Python. Hasil simulasi menunjukkan bahwa effisiensi transfer daya nirkabel diperoleh pada saat terdapat satu kendaraan pada induktor mendapatkan rata-rata 87%, lalu saat kendaraan tersebut menjauh maka effisiensinya akan berkurang.
Referensi
M. I. Sofyan, P. O. Hadi and N. Hariyanto, "Design of Moving Wireless Charger for EV Prototype with Inductive Power Transfer Method," 2023 4th International Conference on High Voltage Engineering and Power Systems (ICHVEPS), Denpasar Bali, Indonesia, 2023, pp. 683-688, doi: 10.1109/ICHVEPS58902.2023.10257398.
Jamal, Jamalludin (2020). PERANCANGAN DAN IMPLEMENTASI WIRELESS POWER TRANSFER DC-DC CONVERTER DAYA 100 WATT BERSUMBER PANEL SURYA DAN BATERAI Transmisi: Jurnal Ilmiah Itenas Repository, 30(3), 35-45
T. C. Beh, M. Kato, T. Imura, S. Oh and Y. Hori, "Automated Impedance Matching System for Robust Wireless Power Transfer via Magnetic Resonance Coupling," in IEEE Transactions on Industrial Electronics, vol. 60, no. 9, pp. 3689-3698, Sept. 2013, doi: 10.1109/TIE.2012.2206337.
Agbinya, Johnson I., Ed. (2012). Wireless Power Transfer. River Publishers. ISBN 978-8792329233.
Ahmad, R. N., Suryoatmojo, H., & Riawan, D. C. (2023). Rancang Bangun Pengisi Daya Untuk Baterai Lithium-Polymer Dengan Mempertimbangkan Kompensasi Resistansi. Transmisi: Jurnal Ilmiah Teknik Elektro, 25(2), 48-57.
Ai, Y., Hu, X., Li, X., & Zhang, X. (2021). Analysis and study of compact inductive power transfer systems for EV charging. Journal of Power Electronics, 21(5), 829–839.
Arpitha, C. S., Jadoun, V. K., Jayalakshmi, N. S., & Kanwar, N. (2022). Inductive Power Transfer Modelling for Wireless Charging of Electric Vehicles. Lecture Notes in Electrical Engineering, 863.
Brocard, G. (2013). The LTSpice IV Simulator: Manual, Methods and Applications. Würth Elektronik. ISBN: 3899292588, 9783899292589
Hendinata, L. K., (2021). Simulasi Sistem Transfer Daya Nirkabel Berbasis Kopling Magnetik. 2. 71-74. 10.52158/jasens.v2i2.252
Hernández-Robles, I. A., González-Ramírez, X., Lozano-García, J. M., & Gutiérrez-Martínez, V. J. (2019). Analysis and simulation of relevant parameters for optimal wireless power transfer. Electrical Engineering, 101(3), 867–875.
Richardson, D. B. (2013). Electric vehicles and the electric grid: A review of modeling approaches, impacts, and renewable energy integration. Renewable & Sustainable Energy Reviews, 19, 247-254
Scrosati, B., Abraham, K. M., van Schalkwijk, W. A., & Hassoun, J. (Eds.). (2013). Lithium Batteries: Advanced Technologies and Applications. Wiley.
Shinohara, N. (2018). Wireless Power Transfer: Theory, Technology, and Applications. Institution of Engineering & Technology.
Wang, H.-W., Wang, N. X., & Lang, J. H. (2019). Simulation and Modeling of a Robust Wireless Transfer System for Multi-User Charging. Journal of Physics: Conference Series, 1407, 012104
M. I. Sofyan, P. O. Hadi and N. Hariyanto, "Design of Moving Wireless Charger for EV Prototype with Inductive Power Transfer Method," 2023 4th International Conference on High Voltage Engineering and Power Systems (ICHVEPS), Denpasar Bali, Indonesia, 2023, pp. 683-688, doi: 10.1109/ICHVEPS58902.2023.10257398.
Jamal, Jamalludin (2020). PERANCANGAN DAN IMPLEMENTASI WIRELESS POWER TRANSFER DC-DC CONVERTER DAYA 100 WATT BERSUMBER PANEL SURYA DAN BATERAI Transmisi: Jurnal Ilmiah Itenas Repository, 30(3), 35-45
T. C. Beh, M. Kato, T. Imura, S. Oh and Y. Hori, "Automated Impedance Matching System for Robust Wireless Power Transfer via Magnetic Resonance Coupling," in IEEE Transactions on Industrial Electronics, vol. 60, no. 9, pp. 3689-3698, Sept. 2013, doi: 10.1109/TIE.2012.2206337.
Agbinya, Johnson I., Ed. (2012). Wireless Power Transfer. River Publishers. ISBN 978-8792329233.
Ahmad, R. N., Suryoatmojo, H., & Riawan, D. C. (2023). Rancang Bangun Pengisi Daya Untuk Baterai Lithium-Polymer Dengan Mempertimbangkan Kompensasi Resistansi. Transmisi: Jurnal Ilmiah Teknik Elektro, 25(2), 48-57.
Ai, Y., Hu, X., Li, X., & Zhang, X. (2021). Analysis and study of compact inductive power transfer systems for EV charging. Journal of Power Electronics, 21(5), 829–839.
Arpitha, C. S., Jadoun, V. K., Jayalakshmi, N. S., & Kanwar, N. (2022). Inductive Power Transfer Modelling for Wireless Charging of Electric Vehicles. Lecture Notes in Electrical Engineering, 863.
Brocard, G. (2013). The LTSpice IV Simulator: Manual, Methods and Applications. Würth Elektronik. ISBN: 3899292588, 9783899292589
Hendinata, L. K., (2021). Simulasi Sistem Transfer Daya Nirkabel Berbasis Kopling Magnetik. 2. 71-74. 10.52158/jasens.v2i2.252
Hernández-Robles, I. A., González-Ramírez, X., Lozano-García, J. M., & Gutiérrez-Martínez, V. J. (2019). Analysis and simulation of relevant parameters for optimal wireless power transfer. Electrical Engineering, 101(3), 867–875.
Richardson, D. B. (2013). Electric vehicles and the electric grid: A review of modeling approaches, impacts, and renewable energy integration. Renewable & Sustainable Energy Reviews, 19, 247-254
Scrosati, B., Abraham, K. M., van Schalkwijk, W. A., & Hassoun, J. (Eds.). (2013). Lithium Batteries: Advanced Technologies and Applications. Wiley.
Shinohara, N. (2018). Wireless Power Transfer: Theory, Technology, and Applications. Institution of Engineering & Technology.
Wang, H.-W., Wang, N. X., & Lang, J. H. (2019). Simulation and Modeling of a Robust Wireless Transfer System for Multi-User Charging. Journal of Physics: Conference Series, 1407, 012104
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