Design and performance analysis of a triple band micro-strip patch antenna with CPW-fed
Автор: Rahul Tiwari, Laxman Yogi, Ashish Bagwari, Vivek Singh Kushwah
Журнал: International Journal of Wireless and Microwave Technologies @ijwmt
Статья в выпуске: 1 Vol.9, 2019 года.
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A compact microstrip patch antenna (RMPA) using systematic coplanar waveguide (CPW-Fed) triple printed antenna has designed for WiMAX/WLAN applications in this paper. A prototype CPW-Fed antenna was fabricated with FR4 Substrate with the dielectric constant of 4.4 and thickness h =1.6 mm. The antenna primarily consists of the symmetrical coplanar waveguide with rectangular slotted patch and excite by a 50 Ω CPW feed line for impedance matching to generate wide triple operating bands. This antenna is suitable for the range from 2.39 -2.75 GHz, 3.4-3.7GHz and 4.6 -6.9 GHz. It is designed miniaturized CPW-Fed microstrip patch antenna has a compact size 20 mm x 35 mm. In this paper researcher has focused on to improve the gain, impedance bandwidth and also have lower return losses, better impedance matching. The simulated results show that the proposed antenna has achieved wider bandwidth with satisfactory gain by introducing a stub with CPW-Fed in the assistant of a rectangular slot in the upper layer.
Triple band, CPW-Fed Microstrip antenna, FR-4 substrate, CST Software, VSWR, WiMAX, WLAN applications
Короткий адрес: https://sciup.org/15016958
IDR: 15016958 | DOI: 10.5815/ijwmt.2019.01.04
Список литературы Design and performance analysis of a triple band micro-strip patch antenna with CPW-fed
- A. Balanis, “Antenna theory, analysis and design,” John Wiley & Sons, New York, 1997.
- R. Waterhouse, “Small microstrip patch antenna,” Electronics Letters. 31, 604, 1995.
- Jean-Sheen Row, "Dual-frequency triangular planar inverted-f antenna," IEEE transactions on antennas and propagation, vol. 53, no. 2, pp. 874-876, February 2005.
- Hala A. Eisadek, "CLIP antenna for wireless Bluetooth applications," IEEE Antennas and propagation magazine, vol. 47, no.3, pp. 149-153, June 2005.
- B.-K. Ang and B.-K. Chung, "A wideband E-shaped microstrip patch antenna for 5–6 GHz wireless communications," PIER 75, 397–407, 2007.
- Sang-Hyuk Wi, Yong-Shik Lee, and Jong-Gwan Yook, “Wideband microstrip patch antenna with U-shaped parasitic elements,” IEEE transactions on antennas and propagation, vol. 55, no. 4, pp. 1196-1199, April 2007.
- Kim, H., and C.-W. Jung, “Bandwidth enhancement of CPW fed tapered slot antenna with multi transformation characteristics,” Electronics Letters, vol. 46, no. 15, 1050-1051, 2010.
- Ali A. Dheyab Al-Sajee and Karim A. Hamad, "Improving bandwidth rectangular patch antenna using different thickness of a dielectric substrate," ARPN Journal of Engineering and Applied Sciences, vol. 6, no. 4, April 2011.
- Indrasen Singh, Dr V.S. Tripathi, "Microstrip Patch Antenna and its Applications: a Survey," Int. J. Comp. Tech. Appl., vol 2 (5), pp. 1595-1599, 2011.
- Khandelwal, Mukesh Kumar, Kanaujia, Binod Kumar, Dwari, Santanu, Kumar, Sachin Gautam, A. K., "Analysis and design of wideband Microstrip-line-fed antenna with the defected ground structure for Ku band applications," AEU - International Journal of Electronics and Communications, vol. 68, issue 10, pp. 951-957, 2014.
- Praveen V. Naidu and Raj Kumar, “A compact dual-band octagonal slotted printed monopole antenna for WLAN/ WiMAX and UWB applications,” Journal of Microwaves, Optoelectronics and Electromagnetic Applications, vol. 14, no. 1, June 2015.
- Amar Sharma, Puneet Khanna, Kshitij Shinghal, and Arun Kumar, "Design of cpw-fed antenna with a defected substrate for wideband applications," Hindawi Publishing Corporation Journal of Electrical and Computer Engineering volume 2016.
- Ahmed Zakaria,Manouare, Saida Ibnyaich, Abdelaziz EL Idrissi, Abdelilah Ghammaz, "A Compact Dual-Band CPW-Fed Planar Monopole Antenna for 2.62-2.73 GHz Frequency Band, WiMAX and WLAN Applications", Journal of Microwaves, Optoelectronics and Electromagnetic Applications, vol. 16, no. 2, June 2017.