Haydar Kütük, Ahmet Yahya Teşneli, Nigar Berna Teşneli

3.3 GHz mikroşerit anten tasarımı ve farklı besleme yöntemleri için analizi

This work presents design of microstrip patch antenna for operation at 3.3 GHz using five basic feeding techniques. The antenna was intended for use next generation wireless application such as WiMax. When the proposed antenna design, patch size, dielectric material and thickness of substrate were fixed, only feeding techniques and dimensions of transmission line were changed. In this way, performance of feeding techniques was compared and was tried to design of wideband microstrip antenna. Ansoft HFSS was used for the simulation of antenna and up to %60 wideband microstrip antennas were designed.

Anahtar Kelimeler:

Mikroşerit anten, Dikdörtgensel yama, Geniş bant, Besleme yöntemleri

3.3 GHz microstip antenna design and analysis for different feeding methods

This work presents design of microstrip patch antenna for operation at 3.3 GHz using five basic feeding techniques. The antenna was intended for use next generation wireless application such as WiMax. When the proposed antenna design, patch size, dielectric material and thickness of substrate were fixed, only feeding techniques and dimensions of transmission line were changed. In this way, performance of feeding techniques was compared and was tried to design of wideband microstrip antenna. Ansoft – HFSS was used for the simulation of antenna and up to %60 wideband microstrip antennas were designed.

Keywords:

Microstrip antenna, Rectangular patch, Wideband, Feeding methods,

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KURNIAWAN, A., MUKTI, P.H., A 2.3/3.3 dual band microstrip antenna design for WiMax Applications, ITB J. ICT, Vol. 4, No. 2, 67-78, 2011.
GARG, R., PRAKASH, B., INDER B., APİSAK, I., Microstrip Antenna Design Handbook, Artech House; pages: 1-2, 11.2000.
SAFRAN, M.I., K, AYDIN, E., Pek Geniş Bant Anten Tasarımı ve İmalatı, Atılım Üniversitesi, Ankara. BAZAN, G. A. S., Design of a Circularly Polarized Patch Antenna for Satellite Mobile Communications in l-Band, Polytechnic University of Cataluña, December 20 H. GUTTON AND G. BAISSINOT, Flat Aerial for Ultra High Frequencies, French Patent No. 703113, 19
YILDIRIM, A., YAĞCI, H. B., PAKER S., 2.4 GHz High Power Microstrip Patch Antenna Design and Realization, Telenetronics n.p.sh, Mbreti Zog 61, Prizren, Kosova, 2000.
BALANIS C.A., Antenna Theory Analysis and Design, John Wiley and Sons , Arizona State University ,pages: 4-6, 1982.
SAINATI, R. A., CAD of Microstrip Antenna for Wireless Application, Artech House, London, 1996.
REDDY, C.V.V., RANA, R., Design of Linearly Polarized Rectangular Microstrip Patch Antenna Using IE3D/PSO, National Institute of Technology, Rourkela, 200 SCHNEIDER, M., Microstrip Lines for Microwave Integrated Circuits, Bell. Syst. Tech. J., 48.,1968. m2 27,8 60 25,7 13 37,5 20 40 60 80 Mikroşerit CPW Koaksiyel Açıklık Yakınlık B an t G en işl iğ i
(%) Besleme Yöntemleri