MINI REVIEW: WIRELESS CHARGING SEBAGAI INOVASI PENGEMBANGAN TEKNOLOGI ELEKTROMAGNETIK DALAM MENUJU ERA SOCIETY 5.0

Yulianto Agung Rezeki; Aisha Zahra; Amanda Alya Kamilla; Fadhila Ramadhani

doi:10.59052/edufisika.v7i2.21484

Authors

Yulianto Agung Rezeki Universitas Sebelas Maret
Aisha Zahra Universitas Sebelas Maret
Amanda Alya Kamilla Universitas Sebelas Maret
Fadhila Ramadhani Universitas Sebelas Maret

DOI:

https://doi.org/10.59052/edufisika.v7i2.21484

Abstract

The wireless charger is a technology that can transfer energy through an air gap without using cables. This technology is essential in welcoming other technological developments in industry 5.0 because of its effectiveness. However, the understanding and development related to wireless chargers are still very minimal, especially in Indonesia. Articles that review wireless chargers are also still very limited in number. Therefore, this article presents a review related to wireless chargers, the development of wireless chargers as electromagnetic applications, and describes the advantages and disadvantages of wireless chargers using the literature study method. The wireless charger is one of the topics discussed in electromagnetics material. Therefore, the information in this article can be used as a reference for educators in teaching students about electromagnetics material.

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References

Abdilah, B. R., Sari, D. M., Amali, F. N., & Zahra, A. A. (2019). Charger Wireless Berdaya Rendah Bermedium Cahaya Dengan Metode Power Beaming. Transient: Jurnal Ilmiah Teknik Elektro, 8(2), 187â€“192.

Alhamrouni, I., Iskandar, M., Salem, M., Awalin, L. J., Jusoh, A., & Sutikno, T. (2020). Application of inductive coupling for wireless power transfer. International Journal of Power Electronics and Drive Systems, 11(3). https://doi.org/10.11591/ijpeds.v11.i3.pp1109-1116

Barman, S. Das, Reza, A. W., Kumar, N., Karim, M. E., & Munir, A. B. (2015). Wireless powering by magnetic resonant coupling: Recent trends in wireless power transfer system and its applications. In Renewable and Sustainable Energy Reviews (Vol. 51).

Dai, H., Wang, X., Liu, A. X., Ma, H., & Chen, G. (2017). Optimizing wireless charger placement for directional charging. Proceedings - IEEE INFOCOM.

Jawad, A. M., Nordin, R., Gharghan, S. K., Jawad, H. M., & Ismail, M. (2017). Opportunities and challenges for near-field wireless power transfer: A review. In Energies (Vol. 10, Issue 7).

Kraus, J. D. (1988). Heinrich Hertzâ€”Theorist and Experimenter. IEEE Transactions on Microwave Theory and Techniques, 36(5).

Kurs, A., Karalis, A., Moffatt, R., Joannopoulos, J. D., Fisher, P., & SoljaÄiÄ‡, M. (2007). Wireless power transfer via strongly coupled magnetic resonances. Science, 317(5834).

Lu, X., Wang, P., Niyato, D., Kim, D. I., & Han, Z. (2016). Wireless Charging Technologies: Fundamentals, Standards, and Network Applications. IEEE Communications Surveys and Tutorials, 18(2).

Mayordomo, I., Drager, T., Spies, P., Bernhard, J., & Pflaum, A. (2013). An overview of technical challenges and advances of inductive wireless power transmission. In Proceedings of the IEEE (Vol. 101, Issue 6).

Miller, A. B., Sears, M. E., Morgan, L. L., Davis, D. L., Hardell, L., Oremus, M., & Soskolne, C. L. (2019). Risks to health and well-being from radio-frequency radiation emitted by cell phones and other wireless devices. In Frontiers in Public Health (Vol. 7, Issue AUG).

Socrates, T. P., & Mufit, F. (2020). Efektivitas Penerapan Media Pembelajaran Fisika Berbasis Augmented Reality: Studi Literatur. EduFisika: Jurnal Pendidikan Fisika, 5(2003), 96â€“101.

Suryanto, F. A. (2018). Perancangan Rectenna Sebagai Pemanen Energi Elektromagnetik Pada Frekuensi GSM 900 MHz. Universitas Brawijaya.

Tesla, N. (1917). Apparatus for Transmitting Electrical Energy.

Wei, X., Wang, Z., & Dai, H. (2014). A critical review of wireless power transfer via strongly coupled magnetic resonances. In Energies (Vol. 7, Issue 7).

Zhang, S., Qian, Z., Wu, J., Kong, F., & Lu, S. (2018). Wireless Charger Placement and Power Allocation for Maximizing Charging Quality. IEEE Transactions on Mobile Computing, 17(6).

Zhang, Z., & Chau, K. T. (2015). Homogeneous Wireless Power Transfer for Move-and-Charge. IEEE Transactions on Power Electronics, 30(11).