Abstract
An annular-ring microstrip antenna (ARMSA) with a defective ground structure for multiband operation is proposed. The proposed antenna operates at three different frequency bands, at S/C/X bands. Initially, the antenna is operated in dual-band mode from 1 to 12 GHz; then, by introducing an annular ring slot, a multiband mode antenna is realized. A microstrip feed line is used to excite the annular-ring patch antenna embedded on FR-4 substrate with a dielectric constant εr = 4.4. The designed antenna is circularly polarized with waveport excitation; it is best suited for multiband applications.
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References
Devashree S., Marotkar, and Prasanna Zade. 2016. Bandwidth enhancement of microstrip patch antenna using DGS. In International conference on electrical and optimization techniques, pp. 9939–9943.
Mythili, P., P. Cherian, S. Mridula, and B. Paul. 2009. Design of a compact multiband microstrip antenna. Microwave and Optical Technology Letters 9: 4244–4859.
Ado Muhammad, Nuraddeen, and Yusuf Idris. 2016. Design and analysis of rectangular microstrip antenna for global WLAN applications. International Journal of Engineering Science and computing 6 (4): 3732–3737.
Ming Mak, K.A., Hau Wah Lai, Kwai Man Luk, and Chi Hou Chan. 2015. Circular polarised patch antennas for future 5G mobile phones. IEEE Publications 2 (1): 1521–1529.
Puneet, Khanna, Kshitji Shinghal, and Arun Kumar. 2016. Multiband annular ring microstrip antenna with defected ground structure for wireless communication. International Journal of Computer Applications 135 (2): 19–25.
Paras, and Gangwar. 2016. Design of compact GA-optimized annular slot multiband circular microstrip antenna. International Journal of Advances in Microwave Technology 1 (1): 30–35.
Ado Muhammad, Nuraddeen, and Yusuf Idris. 2015. An annular microstrip patch antenna for multiband applications. International Journal of Engineering Research and Technology 4 (3): 546–549.
Ammann, M.J., and X.L. Bao. 2007. Miniaturized annular ring loaded patch antennas. IEEE Transactions on Antennas and Wireless Propagation 1 (7): 912–915.
Wu, C.M., Y.L. Chen, and W.C. Liu. 2012. A compact UWB slotted patch antenna for wireless USB dongle applications. In IEEE antennas and wireless propagation letters, pp. 596–599.
Huang, C.Y., and W.C. Hsia. 2005. Planar elliptical antenna for ultra wide band communications. Electronics Letters 41 (6): 21–25.
Raj, Kumar, and K.K. Sawant. 2010. Rectangular patch microstrip antenna: A survey. International Journal of Microwave and Optical Technology 5 (6): 320–327.
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Prashanth, C.R., Naik, M.N. (2019). Design of Compact Multiband Annular-Ring Slot Antenna. In: Krishna, A., Srikantaiah, K., Naveena, C. (eds) Integrated Intelligent Computing, Communication and Security. Studies in Computational Intelligence, vol 771. Springer, Singapore. https://doi.org/10.1007/978-981-10-8797-4_30
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DOI: https://doi.org/10.1007/978-981-10-8797-4_30
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