Abstract
This paper, a (is read “Ha”) shaped slotted microstrip antenna is designed, fabricated and analyzed. The proposed antenna used -shape slot is to improve return loss and operate for wireless LAN 2.4 GHz frequency band. The proposed antenna utilize transmission line model for analysis and simulation for return loss as well as VSWR with the support CST studio software. After doing some optimization on simulation, finally the dimension of microstrip patch antenna (MSPA) which operated on WLAN frequency 2.4 GHz is obtained. The best simulation results are then used as reference for MSPA fabrication on FR4 substrate with dielectric constant \( \left( {\varepsilon_{\text{r}} } \right) = 4.3 \) and thickness (h) = 1.5 mm. The measurement result shows that the -slot microstrip antenna can achieve return loss (S11) −29.81 dB and VSWR 1.068 at 2.4640770 GHz. The proposed design shows that shape technically can be used as slot within patch to improve microstrip antenna performance.
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References
Singh, D., Gupta, K.A., Prasad, R.K.: Design and analysis of C-shaped microstrip patch antenna for wideband application. VSRD Int. J. Electr. Electron. Commun. Eng. 3(1) (2013)
Girish, K., Ray, K.P.: Broadband Microstrip Antennas, pp. 3–4. Artech House, London (2005)
Balanis A: Constantine, Antenna Theory Analysis and Design, 3rd edn. John Willey and Sons (2005)
Kushwaha, R.S., Srivastava, D.K., Saini, J.P.: A multi-slotted wide microstrip patch antenna for dual frequency. Int. J. Comput. Sci. Inf. Technol. 3(2), 3523–3525 (2012)
Li, F., Ren, L.S., Zhao, G., Jiao, Y.C.: Compact triple-band monopole antenna with C-shaped and S-shaped meander strips for Wlan/Wimax applications. Prog. Electromagnet. Res. Lett. 15, 107–116 (2010)
Boutheina, T.: Design of Double C-Slot Microstrip Patch Antenna for WiMax Application. 978-1-4244-4968-2/10, IEEE (2010)
Divya, R., Priya, M.: Design and characterization of E-shape microstrip patch antenna for wireless communication. ICTACT J. Commun. Technol. 4(1) (2013)
Pauria, B.I., Kumar, S., Sharma, S.: Design and simulation of E-shape microstrip patch antenna for wideband applications. Int. J. Soft Comput. Eng. 2(3) (2012)
Singh, J., Tiwari, M., Neha, P.: Design and simulation of microstrip E-shaped patch antenna for improved bandwidth and directive gain. Int. J. Eng. Trends Technol. 9(9) (2014)
Punit, N.S.: Design of a compact microstrip patch antenna for use in wireless cellular devices. Master thesis, Florida State University (2004)
Liang, J., Antenna study and design for ultra-wideband communication applications. Doctor of Philosophy thesis, Queen Mary University of London, UK (2006)
Matin, A.M., Sayeed, I.A.: A design rule for inset-fed rectangular microstrip patch antenna. WSEAS Trans. Commun. (2010)
Atser, R.A., Joseph, M.M., Gabriel, I.A.: Enhancing the bandwidth of a microstrip patch antenna using slots shaped patch. Am. J. Eng. Res. 2(9), 23–30 (2013)
Pozar, D.M.: Microwave Engineering, 3rd edn. John Wiley & Sons, Inc. New Jersey (2005)
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© 2016 Springer Science+Business Media Singapore
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Sotyohadi, S., Pramono, S.H., Sarosa, M. (2016). Design and Fabrication of “Ha ()” Shape-Slot Microstrip Antenna for WLAN 2.4 GHz. In: Pasila, F., Tanoto, Y., Lim, R., Santoso, M., Pah, N. (eds) Proceedings of Second International Conference on Electrical Systems, Technology and Information 2015 (ICESTI 2015). Lecture Notes in Electrical Engineering, vol 365. Springer, Singapore. https://doi.org/10.1007/978-981-287-988-2_41
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DOI: https://doi.org/10.1007/978-981-287-988-2_41
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