Enhancement of Microstrip Patch Antenna by Using“Blade-Pipette Shaped Hexagonal SRR”

Dr. Bimal Garg

Abstract


The compact patch antennas (CPA) are mandate and size is little and solid design. These antennas are source created to accomplish the ongoing necessities. These antennas are wanted to be had less return loss, better directivity, and higher transmission capacity and minimized size at the working at recurrence when utilized in any imparting activity. This offered configuration is considered at the reverberating recurrence of 2.5GHz. The coupling of fix and ground alongside the metamaterial execution over the Microstrip Patch Antenna upgraded the transmission capacity and gain.


Full Text:

PDF

References


BimalGarg, DauoodSaleem,“A highly efficient & directive rectangular microstrip patch transceiver using circular SRR based metamaterial structure for microwave and wireless communication applications,” has been published for the publication “Innovative Trends in Information Technologies and Computing Sciencesfor Competitive world order” JNU, New Delhi, February 2013

Jun-Won Kim, Tae-Hwan Jung, Hong-KyunRyu, Jong-Myung Woo, "Compact Multiband Microstrip Antenna Using Inverted L and T-Shaped Parasitic Elements." IEEE Antennas and Wireless Propagation Letters, vol. 12, 2013, pp. 1299-1302.

BimalGarg, AnkitSamadhiya, Rahul DevVerma, “Design of Double-F Metamaterial Structure for Enhancing Bandwidth of Patch Antenna With Negative µ And ε”. International Conference on Communication Systems and Network Technologies (CSNT-2012), Rajkot (Gujrat), 11-13 May 2012

BimalGarg, Rahul Tiwari, Ashish Kumar and TilakChitransh, “Design of factored ‘X’ shaped metamaterial structure for enhancement of patch antenna gain”, International Conference onCommunication Systems and Network Technologies 2011.

BimalGarg, DauoodSaleem,“Analysis and design of innovative double H metamaterial structure for amelioration in patch antenna parameters,” STM journals, Volume 2, Issue3, December2012.

BimalGarg, Vijay Sharma, NitinAgrawal, “Enhancement of Gain and Directivity of Rectangular Resonant Microstrip Patch Antenna Loaded with “SYMMETRIC W” shaped Double Negative Left-Handed inspired metamaterial”, National Conference on Recent Advances in Microwave Engineering, 2011.

Emad S. Ahmed "Multiband CPW-Fed Rectangular Ring Microstrip Antenna Design for Wireless Communications." IEEE Jordan Conference, AEECT, 2011.

PradeepPaswan, Vivekanand Mishra, P. N. Patel, SurabhiDwivedi "Performance Enhancement of Coaxial Feed Microstrip Patch Antenna Using Left-Handed Metamaterial Cover," IEEE conference, SCEECS, 2014.

J.B. Pendry, A.J. Holden, D.J. Robbins, W.J. Stewart,“magnetism from conductors and enhanced nonlinearphenomena” IEEE Trans. Micro Tech. vol.47 no.11, pp.2075-2081, Nov.1999.

D.R. Smith, W.J. Padilla, D.C. Vier, et al, Compositemedium with simultaneously negative permeability andpermittivity, Phys Rev Lett 84, 4184–4187,May 2000.

J.B. Pendry, Negative refraction males a prefect lens, PhysRevLett, 85, 3966–396,2000.

Y.J. Sung, M. Kinand Y.S. Kin, “Harmonics Reduction with Defected Ground Structure for Micro-Strip Patch Radiator”, IEEE Radiator and Wireless Propagation Letters, Vol. 2, 2003.

C. A. Balanis, “Microstrip Antenna” in Antenna Theory and Design, Vol 3, John Wiley & Sons, Inc., 1997, pp. 811-882.

D. R. Jackson and N. G. Alex6poulos, "Gain enhancement methods forprinted circuit antennas," IEEE Trans, Antennas Propag, vol. AP-33, no. 9,Sep, 1985.

H. Nakano, M. Ikeda, K.,Hitosugi, and 1. Yamauchi, "A spiral antennasandwiched by dielectric layers," IEEE Trans. Antennas Propag., vo1.52, no. 6,Jun. 2004,


Refbacks

  • There are currently no refbacks.