Compact coplanar-fed tree-shaped antenna

• Autorzy: Malinowska Małgorzata , Kitliński Marek

Identyfikatory

DOI

10.24425/ijet.2019.126298

• Języki publikacji: EN

Abstrakty

EN

The paper presents the concept of a fully planar tree-shaped antenna with quasi-fractal geometry. The shape of the proposed radiator is based on a multi-resonant structure. Developed planar tree has symmetrical branches with different length and is fed by a coplanar waveguide (CPW) with modified edge of the ground plane. The antenna of size 29 mm x25 mm has been designed on Taconic - RF-35 substrate (er = 3.5, tgde= 0.0018, h = 0.762 mm). The paper shows simulated and measured characteristics of return loss, as well as measured radiation patterns. The proposed antenna could be a good candidate for broadband applications (for instance: wideband imaging for medical application and weather monitoring radars in satellite communication etc.)

Słowa kluczowe

EN

broadband antenna; fractal antenna; reflection coefficient,; defected ground structure; coplanar waveguide

• Wydawca: Polish Academy of Sciences, Committee of Electronics and Telecommunication
• Czasopismo: International Journal of Electronics and Telecommunications
• Rocznik: 2019
• Tom: Vol. 65, No. 2
• Strony: 175--180
• Opis fizyczny: Bibliogr. 28 poz., rys., tab., wykr., fot.

Twórcy

autor

Malinowska Małgorzata

• Department of Marine Electronics, Gdynia Maritime University, Gdynia, Poland

autor

Kitliński Marek

• Department of Marine Electronics, Gdynia Maritime University, Gdynia, Poland

Bibliografia

• [1] A. El. Hamdouni, A. Tajmouati, J. Zbitou, A. Errkik, L. El Abdellaoui, M. Latrach, “A New Design of an UWB C ircular Fractal Printed Antenna” Telkomnika, Vol.16, No.5, pp. 1931-1938, 2018.
• [2] Balanis C.A., “ Antenna Theory, Third edition”, John Wiley & Sons, Inc., New York 2005.
• [3] Dhanashri S. Salgare, Shamala R. Mahadik, "A Review of Defected Ground Structure for Microstrip Antennas", IRJET, vol. 2, no. 6, pp. 150 - 154, 2015.
• [4] F.B. Zarrabi, A.M. Shire,M. Rahimi, N.P. Gandji, “Ultra-wideband tapered patch antenna with fractal slots for dual notch application” , Microwave Opt TechnolLett 56, pp. 1344–1348, 2014.
• [5] H. Oraizi, S. Hedayati, “Miniaturized UWB monopole microstrip antenna design by the combination of GiusepePeano and Sierpinski carpet fractals”, IEEE Antennas Wireless Propag Lett 10, pp. 67–70, 2011.
• [6] J.K. Park, H.S. An, J.N. Lee, “Design of the tree-shaped UWB antenna using fractal concept”, Microwave Opt TechnolLett 50, pp. 144–150, 2008.
• [7] K. P. Ray, “Design Aspects of Printed Monopole Antennas for Ultra-Wide Band Applications,” International Journal of Antennas and Propagation, vol. 2008, Article ID 713858, 2008.
• [8] K. Rudyk, R. Kubacki, S. Lamari, “Antena ultra-szerokopasmowa ze strukturą periodyczną” Przegląd Elektrotechniczny, R. 92 nr 12/2016, pp. 149 -152, 2016.
• [9] L. Yang and G. B. Giannakis, “Ultra-wideband communications - an idea whose time has come”, IEEE Signal Processing Magazine, vol. 21, pp. 26–54, 2004.
• [10] M. Garbaruk „ Konstrukcje i charakterystyki czteroelementowej anteny ultraszerokopasmowej UWB” Przegląd Elektrotechniczny, R. 90 nr 12/2014, pp. 64 -67, 2014.
• [11] M.Gunavathi, P.Ramya, P.Hamsagayathri, D.Kavitha, “Design and simulation of miniaturized UWB microstrip patch antenna for wireless communication” , International Research Journal of Engineering and Technology, Volume 03, Issue 04, pp 1-6, 2016.
• [12] M. Kitlinski, R. Kieda, “Compact CPW-fed Sierpinski fractalmonopole antenna”, Electronics Letters, Vol. 40 No. 22, pp.1387-1388, 2004.
• [13] M. Jalali, T. Sedghi, “Very compact UWB CPW-fed fractal antenna using modified ground plane and unit cells”, Microwave Opt TechnolLett 56, pp. 851–854, 2014.
• [14] M. Malinowska, “Antena fraktalna – badanie wpływu stopnia iteracji drzewa fraktalnego na częstotliwości rezonansowe oraz dobroć anten”, Zeszyty Naukowe Akademii Morskiej w Gdyni, nr 95 pp. 54 -65, 2016.
• [15] N.M. Sahar, M.T. Islamand N. Misran, “Analysis of fractal antenna for ultra wideband application”, Res J Appl Sci Eng Technol 7, pp. 2022–2026, 2014.
• [16] P. JyotiGogoi, D. JyotiGogoi, S.N. Bhattacharyya, “Modified ground plane of patch antenna for broadband applications in C-band”, Microw Opt TechnolLett 58(5), pp. 1074–1078, 2016.
• [17] R.Sherif Zahran, Abdelhamid Gaafar, A. Mahmoud Abdalla “Time domain analysis for foldable thin UWB monopole antenna” AEU - International Journal of Electronics and Communications, Volume 83, pp. 253 -262, 2018.
• [18] R. Ghatak, A. Karmakar, D.R. Poddar, “Hexagonal boundary Sierpinski carpet fractal shaped compact ultra wideband antenna with band rejection functionality”, AEU Int J Electron Commun 67, pp. 250–255, 2013.
• [19] R. Kumar, P.N. Chaubey, “On the design of inscribed pentagonal-cut fractal antenna for ultra wideband applications”, Microwave Opt TechnolLett 53, pp. 2828–2830, 2011.
• [20] R. Kumar, P. Malathi, K. Sawant, “On the design of wheel shaped fractal antenna”, Microwave Opt TechnolLett 53, pp. 155–158, 2011.
• [21] SwarnapravaSahoo, Laxmi Prasad Mishra, Mihir Narayan Mohanty, Rabindra Kishore Mishra “Design of compact UWB monopole planar antenna with modified partial ground plane” Microw Opt TechnolLett , Volume 60, Issue 3, pp. 578 -583, 2018.
• [22] S. Elajoumi, A. Tajmouati, M. C. Abounaima, A. Errkik, L. Elabdellaoui, M. Latrach, “Compact Ultra-Wideband Printed Monopole Microstrip Antenna with Defected Ground Structure” International conference on computing and wireless communication systems, pp. 5 – 10, 2016.
• [23] Shruti R.S Parmar, Er. Hardeep Singh ” Analysis of Fractal Geometries and its Applications in Microstrip Antenna”,International Journal of Advanced Research in Computer Science, Volumne 8, No.4, pp.194 – 198, 2017.
• [24] Qi. Luo, J. Rocha Pereira, H. Salgado „Low Cost Compact Multiband Printed Monopole Antennas and Arrays for Wireless Communications” Progress in Compact Antennas – Chapter -3,pp. 87 - 84, 2014.
• [25] M. Mahmud, T. Alam, and M. Islam. “A triangular coupled-resonator antenna for ultra-wideband applications” Applied Physics A: Materials Science and Processing, 123(1):2–5, 2017.
• [26] P. Jermakowicz, „Ultraszerokopasmowe anteny planarne dla systemów komunikacji bezprzewodowej”, praca dyplomowa magisterska, Politechnika Gdańska, 2009.
• [27] Advanced Design System (ADS 2016)www.keysight.com.
• [28] CST Microwave Studio (CST 2014) www.cst.com.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).