A Compact 4 Port MIMO Diversified Antenna for X-Band  Applications

M Rajasekhar; S CH Kantha Rao; T R Chaithanya; B S Ganesh

doi:10.55524/

Authors

M Rajasekhar Associate Professor, Department of Electronics and Communication Engineering, PACE Institute of Technology and Sciences, Ongole, India Author
S CH Kantha Rao Professor, Department of Computer Science & Engineering, PACE Institute of Technology and Sciences, Ongole, India Author
T R Chaithanya Assistant Professor, Department of Electronics and Communication Engineering, PACE Institute of Technology and Sciences, Ongole, India Author
B S Ganesh Assistant Professor, Department of Electronics and Communication Engineering, PACE Institute of Technology and Sciences, Ongole, India Author

DOI:

https://doi.org/10.55524/

Keywords:

X band, MIMO antenna

Abstract

Antennas Currently there is large scope in wireless applications due to increased scalability and mobility. Users need these technologies to improve data accessing information from anywhere along with high data speed giving rise to 5G technology. Today’s recent growth increased by huge capacity, data rate and high throughput with single antenna system fulfilling the given requirement more likely to do multipath fading and had low data rate. The drawbacks can be overcome by the MIMO antenna in the wireless communication system.In this paper we designed a rectangular patch antenna with semicircle defective ground substrate which improves the efficiency and reduce interference. These might have wide range of applications in WLAN and WiMAX. This has an advantage of less interference using MIMO antenna. The proposed antenna will be working at frequency of 4-6GHZ (c-band) and frequency (x-band) applications mainly satellite and WiMAX applications.

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References

Jensen, M.A and J. W. Wallace, "A survey of radio wires and engendering for MIMO remote interchanges," IEEE Exchanges on Radio wires and Proliferation, Vol. 52, No. 11, 2810-2824, Nov. 2004..

Ozdemir, M. furthermore, E. Arvas, "Elements of spatial connection and suggestions on MIMO frameworks," IEEE Commun. Mag., Vol. 42, No. 6, S14-S19, Jun. 2004.

Qin, H. furthermore, Y. Liu, "Reduced double band MIMO radio wire with high port detachment for WLAN applications," Progress in Electromagnetics Exploration C, Vol. 49, 97-104, 2014.

Joo, E., K. Kwon, J. Park, and J. Choi, "On-body UWB MIMO recieving wire for UWB application," 2013 Asia-Pacific Microwave Gathering Procedures (APMC), 1130-1132, Seoul, 2013.

Kashani, F. H., M. Shahpari, and H. Ameri, "Double band double energized radio wire with high productivity for base handset stations," Diary of Electromagnetic Waves and Appl., Vol. 23, No. 10, 1371-1379, 2008. Progress In Electromagnetics Exploration C, Vol. 86, 2018 2019

Zhang, L., W. Liu, and T. Jiang, "A minimized UWB MIMO radio wire with high detachment," 2016 IEEE Worldwide Discussion on Radio wires and Spread (APSURSI), 913-914, Fajardo, 2016..

Qin, H and Y. Liu, "Minimal UWB MIMO recieving wire with ACS-took care of design," Progress in Electromagnetics Exploration C, Vol. 50, 29-37, 2014..

Nirmal, P. C., A. B. Nandgaonkar, S. Nalbalwar, and R. K. Gupta, "A conservative double band MIMO radio wire with further developed separation for Wi-Max and WLAN applications," Progress In Electromagnetics Exploration M, Vol. 68, 69-77, 2018..

Nirmal, P. C., A. B. Nandgaonkar, S. Nalbalwar, and R. K. Gupta, "A smaller double band MIMO recieving wire with further developed detachment for Wi-Max and WLAN applications," Progress In Electromagnetics Exploration M, Vol. 68, 69-77, 2018.].

Xia, X., Q. Chu, and J. Li, "Plan of a reduced wideband MIMO radio wire for portable terminals," Progress in Electromagnetics Exploration C, Vol. 41, 163-174, 2013. (

Gao, P., S. He, X. Wei, Z. Xu, N. Wang, and Y. Zheng, "Reduced printed UWB variety opening Recieving wire with 5.5-GHz band-indented qualities," IEEE Radio wires and Remote Spread Letters, Vol. 13, 376-379, 2014.

Jiang, W., L. Yang, B. Wang, and S. Gong, "A high segregation double band MIMO radio wire for WLAN application," 2017 Worldwide Discussion on Radio wires and Proliferation (ISAP), Oct. 30-Nov. 2, 2017.)

Deng, J. Y., J. Y. Li, L. Zhao, and L. X. Guo, "A double band upset F MIMO radio wire with improved detachment for WLAN," IEEE Radio wires Remote Propag. Lett., Vol. 16, 2270-2273, 2017.

Zhao, N. furthermore, W.- P. Tian, "CPW-took care of double band MIMO radio wire with normal emanating component," Progress In Electromagnetics Exploration Letters, Vol. 62, 71-75, 2016.

Deng, J. Y., J. Y. Li, L. Zhao, and L. X. Guo, "A double band upset F MIMO radio wire with improved detachment for WLAN," IEEE Radio wires Remote Propag. Lett., Vol. 16, 2270-2273, 2017.

Tooth, Q., D. Mi, and Y.- Z. Yin, "A tri-band MIMO recieving wire for WLAN/WiMAX application," Progress In Electromagnetics Exploration Letters, Vol. 55, 75-80, 2015.

Srinivasa Rao, S., K. J. Babu, and A. M. Prasad, "Smaller multi-band MIMO radio wire with further developed detachment," Progress In Electromagnetics Exploration M, Vol. 62, 199-210, 2017.

Li, Y., W. X. Li, C. Liu, and T. Jiang, "Two UWB-MIMO radio wires with high disengagement utilizing sleeve coupled ventured impedance resonators," IEEE Asia-Pacific Meeting on Receiving wires and Proliferation, 21-22, Singapore, Aug. 27-29, 2012.