DESAIN DAN IMPLEMENTASI STRIPLINE STRUKTUR SPLIT RING RESONATOR (SRR) SEBAGAI ELECTROMAGNETIC BANDGAP (EBG) PADA ANTENA SUSUN PATCH PERSEGI

SUGIH PANGERSA

Abstract


Antena mikrostrip banyak digunakan pada perangkat telekomunikasi karena mudah difabrikasi, tipis dan ringan. Tetapi perolehan karakteristik sebagai radiasi seperti gain dan efisiensi rendah. Untuk memperbaiki karakteristik radiasi digunakan antena susun.

Pada antena susun teradi kopling gandeng antara elemen yang berdekatan. Untuk mereduksi kopling gandeng disisipkan stripline struktur split ring resonator (SRR) sebagai electromagnetic bandgap (EBG) di antara elemen yang berdekatan pada antena susun.

EBG dengan struktur SRR menghasilkan kopling gandeng pada rentan frekuensi 2,56 GHz – 3,0 GHz. Struktur EBG yang disisipkan di antara elemen antena susun patch persegi mengurangi kopling gandeng hingga 6,26 dB pada rentan frekuensi 2,56 GHz – 3,0 GHz.

 

Kata Kunci : Antena Mikrostrip, electromagnetic bandgap, split ring resonator


Full Text:

PDF

References


Yang L, Fan M, and Feng Z, A Spiral Electromagnetic Bandgap (EBG) Structure and its Application in Microstrip Antenna Arrays. IEEE. State Key Lab on Microwave & Digital Communications, Beijing, pp. 2-9. 2005.

Yang F, and Rahmat-Samii, Microstrip antennas integrated with electromagnetic band-gap structures: a low mutual coupling design for array applications, IEEE Trans. Antennas and Propagation, vol. 51, pp. 2936-2946, Oct. 2003.

Russer, P. Electromagnetics, Microwave Circuit and Antenna Design for Communications Engineering. Artech House. Norwedia. 2006.

Balanis, A. Antenna Theory Analysis and Design (2nd ed). New York: John Wiley & Sons, Inc. 1997

James, JR. Handbook of Microstrip antenna, Peter Peregrinus Ltd, London, 1989.

Wentworth, M. Fundamentals of Electromagnetic with Engineering Application. New York: John Wiley & Sons, Inc. 2008

Bevel F, “Field Region Antena”.2007. http://www.antennatheory.com/basics/fieldRegion.php. Diakses Pada 13 Desember 2016

Rahim, M.K., Electromagnetic Bandgap (EBG) Structure In Microwave Device Design, Universiti Teknologi Malaysia, Research Votes, No. 79017, 2008

Hary A. “Materi IPJBL 2”. Agunghary. 2013. Diakses Pada 13 Desember 2016

Williamson, V. Double-Positive (DPS), Double-Negative (DNG) ,Epsilon-Negative (ENG), Mu-Negative (MNG). How many different possibilities do exist for permittivity and permeability, fenix.tecnico. ulisboa. 2015

Junari, S. Gelombang elektromagnetik, Universitas Bima, NTB, pp. 5. Indonesia, 2014

Samsul. Perancangan Antena Mikrostrip Pada Frekuensi 2,3 GHz Untuk Aplikasi LTE (Long Term Evolution), Universitas Darma Persada, pp. 14-17. Jakarta. 2015

Abus D. Feeding Menthod. Liblary znate.2014. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5236075/. Diakses Pada 14 Desember 2016

Lema P. MTM Inclusions. dea uniroma3. 2014. www.dea.uniroma3.it/lema/. Diakses Pada 14 Desember 2016

Wales J. Split Ring Resonator. Wikipedia. 2016. https://en.wikipedia.org/wiki/Split-ring_resonator. Diakses Pada 14 Desember 2016

Buell K et,al., A substrate for Small Patch Antennas Providing Tunable Miniturization Factor, IEEE Transaction On Microwave Theory And Techniques, Vol. 54, pp. 257-305. No. 1, January 2006

Francois J, Zurcher, Broadband Patch Antennas, Artech House Inc. Norwood, Massachusetts. 1995

Patron, Kapil. A Reconfigurable Antenna with Omnidirectional and Directional Pattern for MIMO System. IEEE Antennas and Propagation Society International Symposium (APSURSI), July, 2013

Lin, H., Li, Z. and Sun, X. Compact Defected Ground Structure in microstrip Technology. Electron Lett, Vol, 41, pp. 3, 132, 134, 2005

Pangersa S, M. Yunus, E. Wismiana. Struktur Split Ring Resonator (SRR) sebagai Electromagnetic Bandgap (EBG) pada Antena Susun Patch Persegi. Engineering Faculty Bogor Pakuan University, Proceeding Seminar Nasional Microwave, Antena, and Propagasi (SMAP), pp. 2. December 2016.

Bilotti F, Equivalent-Circuit Models for the Design of Metamaterials Based on Artificial Magnetic Inclusions IEEE Transactions On Microwave Theory And Techniques, VOL. 55, NO. 12, pp. 244. December 2007


Refbacks

  • There are currently no refbacks.