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A Dual Band Microstrip-fed Slot Antenna

4/5/2022
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  1. A Dual Band Microstrip-fed Slot Antenna Combo
  2. Design Of A Novel Microstrip-fed Dual-band Slot Antenna For Wlan Applications

Main Article Content

Abstract

A Dual Band Microstrip-fed Slot Antenna
  • For multi-band linearly polarization systems, a dual band antenna with arc-shaped slot operating at 1.6 GHz and 2.05-2.29 GHz is reported in 10. The subtending angle of the slot can be adjusted for operating frequency tuning and band spacing ratio. Furthermore, a triple band H-shaped slot antenna excited by proximity coupling of.
  • This paper presents a study of dual/triple-band simple slot antenna fed by microstrip line for WLAN and WiMAX communications systems. The first proposed antenna consists of a rectangular slot with rectangular-ring strip at the centre of a rectangular ground plane and microstrip line feed at the centre for excitation.
A Dual Band Microstrip-fed Slot Antenna

A new compact microstrip slot antenna with Y-shaped coupling aperture is proposed. This antenna is based on a rectangular form with a microstrip fed line for excitation, and consists of slots on the edge of the radiation patch to provide dual-band operation. The design and simulation of the antenna were performed using CST Microwave Studio simulator. A prototype of the proposed antenna has been constructed and tested. In order to validate the return loss of the prototype antenna, the experimental results are presented. The results show two available bands with –10 dB band S at 2.7 GHz and band C at 5 GHz. Also, good radiation performance and antenna gain over the two frequency ranges have been obtained. Computation results confirm the experimental findings.

Keywords

Microstrip antennaDual band antennaSlot antennaCST microwave studio simulator.

A Dual Band Microstrip-Fed Slot Antenna Abstract: A simple new design method to achieve a dual band microstrip-fed slot antenna is presented. It is shown that when two slot antennas are placed in series, the spacing between the two antennas can be adjusted to achieve an effective secondary resonance.

Article Details

Wali, R., Ghnimi, S., Hand, A., & Razban, T. (2014). Analysis and Design of a New Dual Band Microstrip Patch Antenna Based on Slot Matching Y-Shaped. The Journal of Engineering Research [TJER], 11(2), 89–97. https://doi.org/10.24200/tjer.vol11iss2pp89-97
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BibTeX

References

  1. Abdelaziz AA (2006), Bandwidth enhancement of microstrip antenna. Progress In Electromagnetics Research, PIER 63:311–317.
  2. Adnan S, Mustafa HB, Ucar, Yunus EE (2009), Loop-loaded printed dipole array design for a dual-band radar application. Antennas & Propagation Conference, LAPC Loughborough. 529–532.
  3. Adnen R, Ghnimi S, Ali G (2010, Electrical characteristics of a dual-band microstrip patch antenna for GSM/ UMTS / WLAN operations. International Journal of Communication Networks and Information Security (IJCNIS) 2(1):54-59.
  4. Allen CM, Eldek AA, Elsherbeni AZ, Smith CE (2005), Dual tapered meander slot antenna for radar applications. IEEE transactions on antennas and propagation 53(7):2324- 2328.
  5. BALANIS CA (1997), Antenna theory: analysis and design. 2nd Edition, John Wiley & Sons, New York, USA.
  6. Christina F, Jou JWW, Chien-Jen W (2009), Novel broadband monopole antennas with dual-band circular polarization. IEEE transactions on antennas and propagation 57(4):1027-1034.
  7. Gai S, Jiao YC, Yang YB, Li CY, Gong JG (2010), Design of a novel microstrip-fed dual-band slot antenna for WLAN applications. Progress In Electromagnetics Research Letters 13:75- 81.
  8. Ghnimi S, Rawia W, Ali G, Razban T (2013), A new design of an S/X dual band circular slot antenna for radar applications. Journal of Microwave Power and Electromagnetic Energy 47(2):138-146.
  9. Khaled EEM, Saad AAR (2008), Multiwide band compact microstrip patch antenna based on slot matching. Progress In Electromagnetics Research C 4:169–177.
  10. Khunead G, Nakasuwan J, Songthanapitak N, Anantrasirichai N (2007), Investigate rectangular slot antenna with L-shaped strip. Piers online 3(7):1076-1079.
  11. Qu X, Zhong S, Zhang YM (2006), Dualband dual-polarised microstrip antenna array for SAR applications. Electronic letters 42(24):1376-1377.
  12. Saidatul NA, Azremi AAH, Ahmad RB, Soh PJ, Malek F (2009), Multiband fractal planar inverted F antenna (F-PIFA) for mobile phone application. Progress In Electromagnetics Research B 14:127–148.
  13. Zhilong M, Cheng H, Qin Z, Mingbo P, Xiaoliang M, Xiangang L (2012), Design of a patch antenna with dual-band radar cross section reduction. International Conference on Microwave and Millimeter Wave Technology (ICMMT) 5:1–3.

References


Abdelaziz AA (2006), Bandwidth enhancement of microstrip antenna. Progress In Electromagnetics Research, PIER 63:311–317.

Adnan S, Mustafa HB, Ucar, Yunus EE (2009), Loop-loaded printed dipole array design for a dual-band radar application. Antennas & Propagation Conference, LAPC Loughborough. 529–532.

Adnen R, Ghnimi S, Ali G (2010, Electrical characteristics of a dual-band microstrip patch antenna for GSM/ UMTS / WLAN operations. International Journal of Communication Networks and Information Security (IJCNIS) 2(1):54-59.

A Dual Band Microstrip-fed Slot Antenna

Allen CM, Eldek AA, Elsherbeni AZ, Smith CE (2005), Dual tapered meander slot antenna for radar applications. IEEE transactions on antennas and propagation 53(7):2324- 2328.

BALANIS CA (1997), Antenna theory: analysis and design. 2nd Edition, John Wiley & Sons, New York, USA.

A Dual Band Microstrip-fed Slot Antenna

Christina F, Jou JWW, Chien-Jen W (2009), Novel broadband monopole antennas with dual-band circular polarization. IEEE transactions on antennas and propagation 57(4):1027-1034.

Gai S, Jiao YC, Yang YB, Li CY, Gong JG (2010), Design of a novel microstrip-fed dual-band slot antenna for WLAN applications. Progress In Electromagnetics Research Letters 13:75- 81.

A Dual Band Microstrip-fed Slot Antenna

Ghnimi S, Rawia W, Ali G, Razban T (2013), A new design of an S/X dual band circular slot antenna for radar applications. Journal of Microwave Power and Electromagnetic Energy 47(2):138-146.

Khaled EEM, Saad AAR (2008), Multiwide band compact microstrip patch antenna based on slot matching. Progress In Electromagnetics Research C 4:169–177.

A Dual Band Microstrip-fed Slot Antenna Combo

Khunead G, Nakasuwan J, Songthanapitak N, Anantrasirichai N (2007), Investigate rectangular slot antenna with L-shaped strip. Piers online 3(7):1076-1079.

Qu X, Zhong S, Zhang YM (2006), Dualband dual-polarised microstrip antenna array for SAR applications. Electronic letters 42(24):1376-1377.

Saidatul NA, Azremi AAH, Ahmad RB, Soh PJ, Malek F (2009), Multiband fractal planar inverted F antenna (F-PIFA) for mobile phone application. Progress In Electromagnetics Research B 14:127–148.

Design Of A Novel Microstrip-fed Dual-band Slot Antenna For Wlan Applications

Zhilong M, Cheng H, Qin Z, Mingbo P, Xiaoliang M, Xiangang L (2012), Design of a patch antenna with dual-band radar cross section reduction. International Conference on Microwave and Millimeter Wave Technology (ICMMT) 5:1–3.

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