Dual Symmetrical Slots Single Slit Partial Ground Dual Notch Rectangular Monopole Microstrip Antenna for Broadband Applications
Abstract
The worldwide wireless communication technology’s rapid growth requires broadband antennas with multiple applications simultaneously for various applications such as television, mobile phones, GPS, Wi-Fi and 4G. The design and development of Microstrip Antenna Technology fulfills these features. A simple compact Dual Symmetrical Slots Single Slit Partial Ground Dual Notch Rectangular Monopole Microstrip Antenna is designed and proposed for Broad Band Applications in this paper. The proposed antenna is fabricated on modify Epoxy substrate material of ϵr = 4.2, h=1.6mm at 3 GHz of dimension 50X50 mm2. The impedance bandwidth covers the range from 1.15-8.12 GHz with respective bandwidth of 150.30% for the magnitude of return loss<-10dB and VSWR<=2 with multiple resonant frequencies..The designed and proposed antenna has nearly omnidirectional radiation pattern and maximum gain at 4GHz. The Proposed antenna is most suitable for wireless communications including ISM (2.4-2.5 GHz)/ (6.765-6.795GHz), WLAN IEEE 802.11 g/a (5.15-5.35 GHz and 5.725-5.825 GHz) and C Band (4-8 GHz) applications.
How to cite this article:
Ara SF. Dual Symmetrical Slots Single Slit Partial Ground Dual Notch Rectangular Monopole Microstrip Antenna for Broadband Applications. J Adv Res Electro Engi Tech 2021; 8(3&4): 8-11.
DOI: https://doi.org/10.24321/2456.1428.202102
References
2. Sujith R, Mridula S, Binu P et al. Compact CPW-fed ground defected H-shaped slot antenna with harmonic suppression and stableradiation characteristics. Electron Lett 2010; 46(12): 812-814.
3. Nguyen N-A, Ahmad R, Im Y-T et al. A T-shaped wideslot harmonic suppression antenna. IEEE AntennasWireless Propag. Lett 2007; 6: 647-650.
4. Ojaroudi M, Yazdanifard S, Ojaroudi N et al. Small square monopole antenna with enhanced bandwidth by using inverted T-shaped slot and conductor-backed plane. IEEE Trans. Antennas Propag 2011; 59.
5. M. A. Matin, B. S. Sharif and C. C. Tsimenidis, “Broadband Stacked Microstrip Antennas with Different Radiating Patch.Springer Science Business Media- Wireless Pers Commun 2009: 637-648.
6. Roy AA, Mom JM, Igwue GA. Enhancing the Bandwidth of a Microstrip Patch Antenna using Slots Shaped Patch. AJER. 2(9): 23-30.
7. Shackelford KF, Lee D, Chatterjee YX et al. Small-size wide-bandwidth microstrip patch antennas. IEEE AP-S Int Symp, Boston, Massachusetts 2001; 86-89
8. Wu K, Wong KL. Broadband microstrip antenna with directly coupled and gap-coupled parasitic patches. Microwave Opt Technol Lett 1999; 22: 348-349.
9. Nirun KN. Chalermpol, Taspong T. Parametric Study of the Rectangular Microstrip Antenna with an Air Gap. R&D Journal 2001; 24(2): 131-142.
10. CL Mak. Half U-Slot Patch Antenna with Shorting Wall. Electronic Letters 2003; 39(25): 1779-1780.
11. Salman H. Project Report Part 4, Microstrip Patch Antennas for Broadband Indoor Wireless Systems. Department of Electrical and Computer Engineering, University of Auckland 2003.
12. Kumar G, Ray KP. Broadband microstrip antennas. Artech House antennas and propagation library, 2003.
13. Wong KL. Planar Antennas for Wireless Communications. Wiley, 2003.
14. Han L, Hao L, Yan L et al. Design of compact dualfrequency antenna with bandwidth enhancement. Int J Microw Wirel Technol 2017; 9: 213-218.
15. Kale G H, Labade RP, Pawase RS. Open rectangular ring slot loaded rectangular microstrip antenna for dual frequency operation. Microw Opt Technol Lett 2015; 57: 2448-2452.