Tecnología de microcintas para antenas, caso de diseño de un dipolo en la banda de 2.4 GHz
Keywords:
Bandwidth, Dipole, Impedance, Microstrip, Relative permittivity, Substrates, Tangent of losses
Abstract
This paper describes the experiences in the study and development of a centrally fed dipole, constructed by using the microstrip technique for the 2.4GHz band. Since there are studies related to other microstrip devices, the dipole has been chosen as the subject of study, in order to analyze its strengths and weaknesses by the analysis of the theoretical framework, design, implementation and characterization of its parameters. To do this, software tools have been used to apply the methods of moments (MoM) and finite difference model in the time domain (FDTD).
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References
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[2] Jamaluddin, M.H. Rahim, M.K.A. Aziz, M.Z.A.A. Asrokin, A.; “Microstrip dipole antenna analysis with different width and length at 2.4 GHz”; Aisa-Pacific Conference on Applied Electromagnetics, 2005. APACE 2005
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[13] M. Ammann. Design of rectangular micropstrip patch antennas for the 2.4 GHz Band. Applied Microwave and Wireless, pp. 22-34
[2] Jamaluddin, M.H. Rahim, M.K.A. Aziz, M.Z.A.A. Asrokin, A.; “Microstrip dipole antenna analysis with different width and length at 2.4 GHz”; Aisa-Pacific Conference on Applied Electromagnetics, 2005. APACE 2005
[3] J. Duderstadt, F. Knoll, G. Springer. Principles of Engineering, Jhon Wiley & Sons, Inc., New York. 1982
[4] J. R. James, P. S. Hall. Handbook of Microstrip Antennas. Peter Peregrinus Ltd. on Institution of Electrical Engineers. 1989
[5] G. A. Deschamps. Microstrip microwave antennas en The 3rd. USAF Simposium on antennas. 1953
[6] D. R. Jackson, N. G. Alexopoulos. Analysis of planar strip geometries in a substrate-superstrate configuration. IEEE Trans. 1986, AP-34, pp. 1430-1438
[7] TACONIC. Orcer RF-35 [en línea]. Disponible en: http:// www.taconic-add.com/pdf/rf35.pdf
[8] AWR. Microwave Office [en línea]. Disponible en: http://web.awrcorp.com/Usa/Products/Microwave%2DOffice/
[9] R. F. Harrington. Origin and development of the Moment Methods for field problems en Computational Electromagnetics Frecuency Domain Method of Moments. IEEE Press. 1992, pp. 43-47
[10] A. Salvia. Método de las Diferencias Finitas en el Dominio del Tiempo (FDTD). Métodos Numéricos para la Resolución de Ecuaciones Diferenciales. 2002
[11] Kane S. Yee. Numerical solution of initial boundary value problema involving Maxwell’s Ecuations in isotropic media. IEEE Trans. On Antenas and propagation Vol. 14. Mayo de 1966, pp. 302-307
[12] Agilent Technologies. Electromagnetic Profesional (EMPro) [En línea]. Disponible en: http://www.home.agilent.com/agilent/product.jspx?cc=US&lc=eng&ckey=1291297&nid=-34278.0.00&id=1297143
[13] M. Ammann. Design of rectangular micropstrip patch antennas for the 2.4 GHz Band. Applied Microwave and Wireless, pp. 22-34
Published
2013-11-19
How to Cite
Bermúdez Orozco, H., Gómez Mina, M., & Botero Pabón, S. (2013). Tecnología de microcintas para antenas, caso de diseño de un dipolo en la banda de 2.4 GHz. ITECKNE, 7(1), 68-74. https://doi.org/https://doi.org/10.15332/iteckne.v7i1.2708
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Section
Research and Innovation Articles
