Design and Analysis of A Multi Band Electrically Small Antenna Using Ceramic Material Substrate

• Autorzy: Ullah M. H. , Islam M. T. , Mandeep J. S. , Misran N.

Warianty tytułu

PL

Projektowanie i analiza wielopasmowej anteny na podłożu ceramicznych o elektrycznie małych rozmiarach

• Języki publikacji: EN

Abstrakty

EN

A Multi band modified S shaped electrically small microstrip patch antenna on Aluminium tri-oxide ceramic substrate is designed and analyzed in this paper. The proposed microstrip line fed miniature patch antenna designed by using high frequency electromagnetic solver and the computed results are analyzed by using finite element method. It is observed from obtained results that, the achieved -10 dB return loss bandwidth 410 MHz in Ku band and 350 MHz in K band, 1.5dBi average gain in total operating band, 97.3% of average efficiency are achieved for Ku and K applications. Furthermore, the co-cross polarization of radiation pattern and the current distribution along surface the radiating patch of the proposed antenna are analyzed.

PL

W artykule przedstawiono projekt wielopasmowej prostokątnej anteny mikropaskowej o elektrycznie małych rozmiarach na podłożu ceramicznym z trójtlenku aluminium. W pracy wykorzystano pakiet programowy do obliczania pól elektromagnetycznych wysokich częstotliwości, a otrzymane wyniki poddano analizie metodą elementów skończonych.

Słowa kluczowe

EN

aluminium oxide; finite element method; ceramic material

PL

tlenek aluminium; metoda elementów skończonych; materiał ceramiczny; antena wielopasmowa

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2013
• Tom: R. 89, nr 1a
• Strony: 271--274
• Opis fizyczny: Bibliogr. 13 poz., rys., tab., wykr.

Twórcy

autor

Ullah M. H.

• Universiti Kebnagsaan Malaysia

autor

Islam M. T.

• Universiti Kebnagsaan Malaysia

autor

Mandeep J. S.

• Universiti Kebnagsaan Malaysia

autor

Misran N.

• Universiti Kebnagsaan Malaysia

Bibliografia

• [1] Mosallaei H., Sarabandi K., Antenna miniaturization and bandwidth enhancement using a reactive impedance substrate, IEEE Transactions on Antennas and Propagation, 52 (2004), No. 9, 2403- 2414.
• [2] Rahmadani F., Munir A., Microstrip patch antenna miniaturization using artificial magnetic conductor, 6th International Conference on Telecommunication Systems, Services, and Applications (TSSA). Bali (Indonesia), 2011, 219- 223.
• [3] Elayachi M., Brachat P., Ribero J.M., Novel EBG Structure for Antenna Miniaturization, the Second European Conference on Antennas and Propagation. Edinburgh (UK), 2007, 1-4.
• [4] Mirza I.O., Shouyuan Shi, Fazi C., Prather D.W., Stacked patch antenna miniaturization using metamaterial, IEEE International Symposium Antennas and Propagation Society, California (USA), 2008, 1-4.
• [5] Laheurte J. M., Katehi L. P. B., Rebeiz G. M., CPW-Fed Slot Antennas on Multilayer Dielectric Substrates, 24th European Microwave Conference, 1994, p.887-892.
• [6] Ullah M. H., Islam M. T., Design Of A Modified W-Shaped Patch Antenna On Al2O3 Ceramic Material Substrate For Ku- Band, Chalcogenide Letters, 9 (2012), No. 2, 61-66.
• [7] Kula J., Psychoudakis D., Chen C.-C., Volakis J.L., Halloran J.H., Patch antenna miniaturization using thick truncated textured ceramic substrates, IEEE International Symposium Antennas and Propagation Society, 2004, 3800- 3803.
• [8] Huitema L., Koubeissi M., Mouhamadou M., Arnaud E., Decroze C., Monediere T., Compact and Multiband Dielectric Resonator Antenna With Pattern Diversity for Multi standard Mobile Handheld Devices, IEEE Transactions on Antennas and Propagation, 59 (2011), No.11, 4201-4208.
• [9] Kula J.S., Psychoudakis D., Liao W.-J., Chen C.-C., Volakis J. L., Halloran J. W., Patch-antenna miniaturization using recently available ceramic substrates, IEEE Antennas and Propagation Magazine, 48 (2006), No. 6, 13-20.
• [10] WU S. J., KANG C. H., CHEN K. H., TARNG J. H., A Multiband Quasi-Yagi Type Antenna, IEEE Transactions on Antennas and Propagation, 58 (2010), No. 2, 593-596.
• [11] Sinha S.N., Jain M., A Self-Affine Fractal Multiband Antenna, IEEE Antennas and Wireless Propagation Letters, 6 (2007), No., 110-112.
• [12] Mobashsher A. T., Islam M. T., Azim R., A Compact Shorted Wall Patch Antenna for Dual Band Operation, Trends in Applied Sciences Research, 6 (2011), No. 9, 1071-1077.
• [13] Azim R., Islam M. T., Misran N., Printed Planar Antenna for Wideband Applications, Journal of Infrared, Millimeter and Terahertz Waves, 31 (2010), No. 8, 969-978.