Antena Wideband Planar Bowtie untuk Pemanenan Energi Gelombang Televisi Elektromagnetik Terestrial

Hanalde Andre


The process of harvesting electromagnetic energy has two important aspects, namely the antenna as a collector of electromagnetic waves and rectifiers. This paper aims to design a planar bowtie antenna that can operate on terrestrial television broadcasting frequency. Design of antennas using finite element simulation method. Based on the simulation result, the bandwitdh fraktional antenna for return loss value below -10 dB is 70,46% and fractionall bandwitdh antenna for VSWR below value 2 is 75,98. The middle frequency of the antenna is 589 MHz.


Keywords : Harvesting Energy, Electromagnetic, Antenna, Terrestrial Television



Proses pemanenan energi elektromagnetik memiliki dua aspek penting yaitu antena sebagai pengumpul gelombang elektromagnetik dan penyearah. Pada jurnal ini didisain antena bidang kupu-kupu yang dapat beroperasi pada frekuensi penyiaran televisi terestrial. Perancangan antena dilakukan menggunakan simulasi metode elemen hingga. Berdasarkan hasil simulasi didapatakan bandwitdh fraktional antena untuk nilai return loss dibawah -10 dB sebesar 70,46% dan bandwitdh fraktional antena untuk nilai VSWR dibawah 2 sebesar 75,98. Frekunsi tengah antena didapatkan sebesar 589 MHz.


Kata Kunci : Pemanenan Energi, Elektromagnetik, Antena, Televisi Terestrial

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Andre, Hanalde., “Analisa Path Loss Spektrum Frekuensi UHF Untuk Penyiaran TV Terestrial Kota Padang”. Jurnal Nasional Teknik Elektro (JNTE) Universitas Andalas (UNAND), Vol: 6, No. 1, Maret 2017.

P. SANJOY, "Digital Video Distribution in Broadband" in Television Mobile and Converged Networks: Trends Challenges and Solutions, Wiley, pp. 384, 2010.

Changjiang Deng;, ”A Wideband Isotropic Radiated Planar Antenna Using Sequential Rotated L-Shaped Monopoles,” IEEE Transactions on Antennas and Propagation, vol.62, no.3, pp.1461,1464, March 2014

Vincetti, L.; Maini, M.; Pinotti, E.; Larcher, L.; Scorcioni, S.; Bertacchini, A.; Grossi, D.; Tacchini, A., ”Broadband printed antenna for radio frequency energy harvesting,” International Conference on Electromagnetics in Advanced Applications (ICEAA), 2012 , vol., no., pp.814,816, 2-7 Sept. 2012

Scorcioni, S.; Larcher, L.; Bertacchini, A.; Vincetti, L.; Maini, M., ”An integrated RF energy harvester for UHF wireless powering applications,” IEEE Wireless Power Transfer (WPT), 2013 , vol., no., pp.92,95, 15-16 May 2013

Shoichi Kitazawa, Hiroshi Ban, and Kiyoshi Kobayashi, “Energy harvesting from ambient RF sources”, Proc. 2012 IEEE MTT-S Int. Microw. Workshop Series on Innovative Wireless Power Transmission: Technologies, Systems, and Applications, THU-B-2, pp. 39–42, Kyoto, Japan, May 2012.

Shoichi Kitazawa, Hirokazu Kamoda, Hiroshi Ban, Naoya Kukutsu, and Kiyoshi Kobayashi, “Energy Harvesting from Broadcasting and Cellular Radio Sources”, IEICE Technical Recport, WPT2013–16, pp. 49–54, November 2013 (in Japanese).

V. Marian, B. Allard, C. Vollaire and J. Verdier, “Strategy for Microwave Energy Harvesting From Ambient Field or a Feeding Source”, in IEEE Transactions on Power Electronics, vol. 27, no. 11, pp. 4481–4491, Nov. 2012.

Andre, Hanalde., Khayam, Umar., “Antena Kupu-kupu sebagai sensor Ultra High Frekuensi (UHF) untuk Mendeteksi Partial Discharge pada Gas Insulation Substation”. Jurnal Nasional Teknik Elektro (JNTE) Universitas Andalas (UNAND), Vol: 2, No. 2, September 2013.

R. Persico, N. Romano, F. Soldovieri, "Design Of A Balun For A Bowtie Antenna Inreconfigurable Ground Penetrating Adarsystems", Progress In Electromagnetics Research [C], vol. 18, pp. 123-135, 2011.

H. Andre, U. Khayam, "Design of New Shape Printed Bowtie Antena for Ultra High Frequency Partial Discharge Sensor in Gas-Insulated Substations”, IEEE, 2013



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