Antena Planar UWB dengan Pencatuan Tapered-CPW dan Spline-Curved Ground Plane
Abstract
The use of radio spectrum in L-to-X bands is currently very diverse, with various types of devices. Therefore, an antenna with good response on very wide spectrum is expected to be a solution for diverse devices. By widening the antenna bandwidth that is applied to the ultra-wideband (UWB) communication, it is expected to be able to meet wireless communication needs on other bands or frequencies. The UWB antenna has the fractional bandwidth of at least 20% of its center frequency. This paper proposes an attempt to widen the bandwidth of planar UWB antenna with a circular patch (resonator) using coplanar waveguide (CPW). The study was conducted by the phased modification scenario using tapered line and spline-curved ground plane method. This method achieved a UWB antenna with fractional bandwidth of 145.57% (with a testing limit up to 12 GHz frequency) in the size of 40×50 mm2. At the testing bandwidth (L-X band), the basic form antenna (Model A) has a total bandwidth achievement of 39.36% (triple-band); the first antenna modification using tapered line at the feed line (Model B) has total bandwidth achievement of 83.09% (dual-band); and the last antenna modification using the tapered line (from the first modification) with the spline-curved ground plane addition (Model C) has total bandwidth achievement of 91.91% (single-band).
References
“Tabel Alokasi Spektrum Frekuensi Radio Indonesia,” Peraturan Menteri Komunikasi dan Informatika Republik Indonesia, No. 25, 2014.
First Report and Order in the Matter of Revision of Part 15 of the Commission's Rules Regarding Ultra-Wideband Transmission Systems, Federal Communication Commission ET-Docket 98–153, April, 2002.
A. Katuru dan A. Sudhakar, “Design and Analysis of Compact CPW Fed Elliptical Patch Antenna for UWB Applications,” International Journal of Control Theory and Applications, Vol. 10, No. 35, hal. 353–360, 2017.
R.S. Beeresha, A.M. Khan, dan H.V. Manjunatha Reddy, “CPW to Microstrip Transition Using Different CPW Ground Plane Structures,” IEEE International Conference On Recent Trends In Electronics Information Communication Technology, 2016, hal. 667–671.
M.A. Basit, G. Wen, O.G. Kwame, dan N. Rasool, “A Compact Wideband CPW-Fed Hybrid Slot Antenna”, IEEE - 3rd Asia-Pacific Conference on Antennas and Propagation, 2014, hal. 57–60.
P. Moeikham, N. Tangthong, dan S. Akatimagool, “CPW-Fed Printed Slot Antenna for WLAN/WiMAX and UWB Applications,” Proceedings of IEEE International Symposium on Antennas and Propagation (ISAP), 2014, hal. 227–228.
A. Verma, A. Yaduvanshi, dan L. Varshney, “Design and Analysis of UWB Microstrip Patch Antenna,” International Journal of Advanced Computer Research, Vol. 2, No. 4, hal. 340-344, 2012.
E.S. Rameswarudu, M. Srinubabu, dan S.S.S.R. Rao, “A New 3-Shape Slot Microstrip Patch Antenna with Tapered Step Defected Ground Structures for Wireless Communication Applications,” IEEE International Conference on Wireless Communications, Signal Processing and Networking (WiSPNET), 2016, hal. 2094–2097.
S. Mirzaee dan Y. Zehforoosh, “CPW-Fed Circularly Polarized Slot Antenna with Elliptical-Shaped Patch for UWB Applications,” Journal of Communication Engineering, Vol. 6, No. 2, hal. 151-162, 2017.
L. Lizzi, F. Viani, R. Azaro, dan A. Massa, “Optimization of a Spline-Shaped UWB Antenna by PSO,” IEEE Antennas and Wireless Propagation Letters, Vol. 6, hal. 182–185, 2007.
S. Koulouridis dan J.L. Volakis, “A Novel Planar Conformal Antenna Designed with Splines,” IEEE Antennas and Wireless Propagation Letters, Vol. 8, hal. 34–36, 2009.
A. Bekasiewicz dan S. Koziel, “A Structure and Computationally-Efficient Design Closure of Compact Spline-Parameterized UWB Monopole Antenna,” IEEE International Symposium on Antennas and Propagation (APSURSI), 2016, hal. 1759–1760.
B.C. Wadell, Transmission Line Design Handbook, Norwood, USA: Artech House Publishers, 1991.
C.A. Hall dan W.W. Meyer, ”Optimal Error Bounds for Cubic Spline Interpolation”, Journal of Approximation Theory, Vol. 16, No. 2, hal. 105–122, 1976.
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