Antena Mikrostrip Linear Array dengan Slot U untuk Internal Pesawat Televisi pada Band Frekuensi UHF

Aditya Wardhani, Ikhwana Elfitri

Abstract


Television (TV) can be considered as the most popular information media. TV at Ultra High Frequency (UHF) normally has larger size of antenna than the TV terminal itself, and is usually connected as external equipment so that they are not suitable for portable TV terminal. In this paper, a 4-element linear array microstrip antenna with U-slot has been designed. Simulation with Zeland IE3D shows that the proposed antenna is capable of operating at frequency of 486 – 734 MHz (within overall UHF band) and has a relatively smaller size with dimension of 80 x 27 cm, hence it is suitable for TV with screen size larger than 32 inch. The results of the experiment also show that the antenna can achieve Gain higher than 3.5 dB.

Keywords : Ultra High Frequency (UHF), Microstrip Antenna, U-Slot


Abstrak

Televisi (TV) adalah salah satu media informasi yang sangat populer di masyarakat. Antena TV pada frekuensi UHF yang saat ini tersedia umumnya berukuran relatif besar dan dipasang di luar pesawat TV sehingga kurang cocok apabila diterapkan pada peralatan yang bersifat portable. Pada tulisan ini dirancang sebuah antenna mikrostrip dengan slot berbentuk U dan disusun secara linear array empat elemen. Hasil simulasi menggunakan perangkat lunak Zeland IE3D menunjukkan bahwa antena yang dirancang mampu bekerja pada rentang frekuensi 486 – 734 MHz (keseluruhan rentang frekuensi UHF) dan memiliki ukuran yang relatif kecil yakni 80 x 27 cm, sehingga cocok dipasang pada TV dengan ukuran minimal 32 inchi. Hasil simulasi juga memperlihatkan bahwa antena yang dirancang memiliki Gain lebih besar dari 3.5 dB.

Kata Kunci : Ultra High Frequency (UHF), Antena Mikrostrip,U-Slot.


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References


Lifwarda.. Pembuatan Antena Mikrostrip Model Angka 4 Untuk Penerima Sinyal Televisi Pada Jalur UHF. Jurnal Elektron Vol 5 No.2. 2013

Al Rizqy, M. Hidayat.. Simulasi dan Implementasi Antena Mikrostrip Bentuk Trisula Sebagai Aplikasi Penerima TV Digital. Jurnal Transmisi Vol 15 No.3. 2013

Ainur Ridho, vicky.. Perancangan dan Realisasi Antena Mikrostrip 700 MHz Model Patch Circular Dengan Metode Linear Array Sebagai Penerima TV Digital. Jurnal Arus Elektro Indonesia vol 1 No.3. 2015

Dawre, R.K, dan Rani, Aruna.. Design and Analysis of Rectangular and U Slotted Microstrip Patch using Optimization Program in Java for UHF Applications. International Journal of Computer Applications Vol 3, No.5. 2010

Ansari, J. A. dan R. B. Ram. Broadband Stacked U-Slot Microstrip Patch Antenna. Progress in Electromagnetics Research Letters Vol. 4: 12-24. 2008

Balanis, Constantine A, , Antena Theory Analysis and Design, third edition, Willey inc. 2005

Garg Ramesh, , Microstrip Antenna Design Handbook, Artech House, hal.1 – 30 dan 425 – 436. 2001

Fahrazal, Muhammad. Rancang Bangun Antena Mikrostrip Triple Band Linear Array 4 Elemen Untuk Aplikasi Wimax. Penelitian. Universitas Indonesia. 2008.

Ishfaq Muhammad and Khan, Sheharyar Raja. A Compact Microstrip Patch Antenna for LTE Applications. Master Tesis. School of Computer Science, Physics and Mathematics. Linnaeus University. Swedia. 2013.

Tong, Chin Hong Matthew. System Study and Design of Broadband U-Slot Microstrip Patch Antennas for Aperstructures and Opportunistic Arrays. Thesis. California: Naval Postgraduate School. 2005.

Md. Tanvir Ishtaique-ul Huque, Md. Kamal Hosain, Md. Shihabul Islam, and Md. Al-Amin Chowdhury, Design and Performance Analysis of Microstrip Array Antennas with Optimum Parameters for X-band Applications. International Journal of Advanced Computer Science and Applications Vol 2 No.4. 2011

Erfan Achmad Dahlan. Perencanaan Dan Pembuatan Antena Mikrostrip Array 2x2 Pada Frekuensi 1575 Mhz. Jurnal EECCIS Vol. III No. 1. 2009.

Barbetty, Mauricio Sánchez. Design And Implementation Of A Transceiver And A Microstrip Corporate Feed For Solid State X Band Radar. Penelitian. University Of Puerto Rico Mayagüez Campus. 2005.

Whites, Keith W. Lecture 24 :T-junction and Resistive Power dividers. EE 481. 2013.




DOI: https://doi.org/10.25077/jnte.v7n1.470.2018

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