Individual Patch Antenna and Antenna Patch Array for Wi-Fi Communication

Autores/as

  • José Gerardo Vera Dimas Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO
  • Margarita Tecpoyotl Torres Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO
  • Pedro Vargas Chablé Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO
  • Jorge Alberto Damian Morales Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO
  • Jesús Escobedo Alatorre Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO
  • Svetlana Koshevaya Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO

DOI:

https://doi.org/10.30973/progmat/2010.2.1/2

Palabras clave:

Gain, Polarización lineal, cortes, ranuras

Resumen

La comunicación inalámbrica, mejor conocida como Wi-Fi (Wireless Fidelity), adquiere interés ya que no requiere del uso de cables, los cuales son engorrosos y limitan el espacio libre. Este tipo de comunicación es ampliamente utilizado en equipos electrónicos, principalmente en el hogar y la industria. Las antenas de parche, que usan algunos de estos equipos, son muy populares debido a sus características. El objetivo de este trabajo es obtener un prototipo de antena de parche eficiente y económico para su uso en interiores y exteriores. En principio, se presenta el prototipo de una antena de parche rectangular diseñada para Wi-Fi con polarización lineal. Después, se realizan sobre ella cortes y ranuras, para mejorar su ganancia. Las pruebas realizadas con la antena individual con cuatro cortes muestra la factibilidad de su uso para interiores. Posteriormente, se diseña un arreglo de antenas de parche en base a la antena individual de cuatro cortes, con la finalidad de obtener un prototipo mejorado. Las pruebas demuestran un buen desempeño del arreglo de antenas propuesto, para su uso en interiores y exteriores, como se esperaba.

Biografía del autor/a

José Gerardo Vera Dimas , Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO

José Gerardo Vera Dimas was born in Morelia, Michoacán, Mexico, on January 3rd, 1984. He is graduated from the Technologic of Morelia as Electronic Engineer. Member IEEE since January 2005. Commit member of VII and VIII ROPEC. He received the award "EGRETEC 2009" by the Association of Graduates from the Technological Institute of Morelia. Nowadays he is student of master degree in the Research Center of Engineering and Applied Sciences (CIICAp) at the Autonomous University of Morelos State (UAEM).

Margarita Tecpoyotl Torres, Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO

Margarita Tecpoyotl Torres received the Mathematician degree from the University of Puebla (UAP), Mexico, in 1991. In this University, she was graduated as Electronic Engineer in 1993. She received the M.Sc. and Ph.D. degrees in Electronics from National Institute of Astrophysics, Optics and Electronics (INAOE), México, in 1997 and 1999, respectively. Dr. Tecpoyotl works, since 1999, at Research Center of Engineering and Applied Sciences (CIICAp) of the Autonomous University of Morelos (UAEM), Mexico, where she is currently a titular professor. She has been visiting research scientist in University of Bristol (2001), UK. Her main research interest includes MEMS, Antenna design, and Microwave devices, and the development of educational programs. She has currently two patents under revision. She holds the status of National Researcher (SNI) in Mexico since 2002, (level 1). From 1999- 2002, she was Candidate of SNI.

Pedro Vargas Chablé, Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO

Pedro Vargas Chablé; was born in 1985, in Villa Benito Juárez, Macuspana, Tabasco. He was graduated as Electrical and Electronic Engineer in 2009, from Juárez Autonomous University of Tabasco. The title of his thesis is: "Design, manufacture and testing of a direct coupled rectangular microstrip antenna array (RMSAs)". He works at Tecnología del Ambiente S. A. C. V. realizing studies of lighting based on the NOM-025-STPS- 2008. He participated in the 17th and 18th Summer of Scientific Research. He also attended to the Workshop about interpretation and documentation of the standard ISO/IGS 17025; 2005 (NMX-EC- 17025-IMNC-2006). He realized studies of lighting for Pemex, exploration and production, South region (Specific agreement No. 425018988), and of metrology, among others.

Jorge Alberto Damian Morales, Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO

Jorge Alberto Damian Morales was born in Villa Benito Juárez, Macuspana, Tabasco, Mexico, on February 27, 1985. He is graduated from the Juarez University of Tabasco as Electrical and Electronics Engineer in 2009. Nowadays he is student of master degree in the Research Center of Engineering and Applied Sciences (CIICAp) at the Autonomous University of Morelos State (UAEM).

Jesús Escobedo Alatorre, Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO

Jesús Escobedo-Alatorre received the Dipl. Electronics Eng. degree from the University of Guadalajara, Mexico, in 1994, the M.Sc. and Ph.D. degrees from National Institute of Astrophysics, Optics and Electronics (INAOE), México, in 1997 and 2005, respectively. Dr. Escobedo works, since 1998, at CIICAp of the UAEM, Mexico. He collaborated in the design and organization of the undergraduate and graduate programs in CIICAp. His interest research areas are in digital design and systems design based on microcontrollers and microprocessors. He is a member of the Mexican National System of Researchers SNI-I.

Svetlana Koshevaya, Center for Research of Engineering and Applied Sciences (CIICAp), Autonomous University of Morelos State (UAEM), MÉXICO

Svetlana Koshevaya received the Diploma of Master from Faculty of Radiophysics, Physical Electronics Dept., in 1964, the Ph. D. in Radiophysics from Kiev Institute of Radioproblems, in 1969, and the diploma of Doctor of Science, in 1986, all them at Kiev University. Dra. Koshevaya worked as Engineer (1964-1968), in Kiev Institute of Radioproblems, Ukraine. She was Junior Senior Research Scientist Research Scientist (1968-1970) in Kiev Institute of Radioproblems and Senior Research Scientist in Institute "Orion" (1979-1972), Kiev, Ukraine. In Faculty of Radiophysics of Kiev National University, she was Senior Research Scientist (1972-1974), Principal Lecturer (1974-1980), Associate Professor (1980-1987) and Full Professor (1987 - 1995). She was Titular Researcher "C” (1995- 1998), in INAOE, Puebla, Mexico. Since 1998, she is Titular Researcher “C” at CIICAp, UAEM, Cuernavaca, Mexico. Her research interests include Remote sensing system, Fotonics and millimeter wave integrated technique, nonlinear radiolocation, and Solitonics. She has 7 books (in Russia), two chapters in books published in English, 166 Papers in International journals and 121 Articles in Proceedings of Symposiums. She is member of National System of Researchers (SNI) in Mexico (level 2) and Mexican Academy of Science.

Citas

Luís Calero - Wireless II – 2004 - ReusWireless.net

Alejandra Camberos. Ruteadores inalámbricos. http://www.esemanal.com.mx/articulos.php?id_sec=11&id_art=5054. On May 18th, 2007. No. 748.

Poynting Antennas (Pty) Ltd. 8dBi Patch Antenna. http://www.poynting.co.za/products/brochure/POYNTING%20-%20PATCH-A0024.pdf

NOGA net. Wireless Router NG-W710. http://www.noganet.com/index.php?categoryID=20&offset=6. September, 2009.

Belkin International, Inc. Módem router inalámbrico N1. http://catalog.belkin.com/IWCatProductPage.process?Product_Id=327601#. España. 2000-2009.

Divakar Goswami. Wi-Fi: The Network Fix. http://www.idrc.ca/esaro/ev-118619-201-1-DO_TOPIC.html. On August 10th, 2009.

Dailymotion. Megacities: Paris. http://www.dailymotion.com/video/x303ke_megacities-paris-1-of-3_travel. September, 2009.

Marshall Brain and Tracy V. Wilson. How WiFi Works. http://www.howstuffworks.com/wireless- network.htm/printable. September, 2009

Abdelnasse A. Eldek A. Eldek. Analisys and design of a compact multiband antenna for wireless communication applications. Microwave Journal. May 2008, pp. 218-230.

Linksys by Cisco. Dual-Band Wireless-N Gigabit Router with Storage Link. http://www.linksysbycisco.com/EU/es/support/WRT600N. United States of America. 2009.

Value analysis of wi-fi agent functions in construction. Kaeseok Lee. Ph. D. Dissertetion. North Caroline State University. 2005.

Wireless communication device with a patch antenna supporting cross-polarized active elements. United States Patent 7301503.

Ramers H. Garg, Microstrip Antenna Design Handbook, Artech House, Norwood, MA, 2001.

J. R. James & P.S. Hall, Handbook of microstrip antennas, Vol. 1, Peter Peregrinus Ltd, London, United Kingdom, 1989.

Kin-Lu Wong. Compact and Broadband Microstrip Antennas, Wiley Inter-Science, New York, 2002.

Kai Chang, RF and Microwave Wireless Systems, John Wiley & Sons, New York, 2001.

Constantine A. Balanis, Antenna Theory, Wiley-Interscience, New Jersey 2005.

IT. Lista de productos. http://www.informaticatotal.net/catalogo/routers-inalambricos-c-87_157.html?sort=5d&page=1. September, 2009.

José Gerardo Vera Dimas. Antena de patch para 2.4 GHz. Tesis de licenciatura. ITMorelia-CIICAp, Universidad Autónoma del Estado de Morelos.

BALLICOM International. Network Accessories. http://www.ballicom.co.uk/index.php?stockav=2&cPath=54_64&sort=4a&results_list=20&cat_id=64&cat_search_keywords=antenna&page=1. September, 2009.

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Publicado

30-06-2010

Cómo citar

Vera Dimas , J. G., Tecpoyotl Torres, M., Vargas Chablé, P., Damian Morales, J. A., Escobedo Alatorre, J., & Koshevaya, S. (2010). Individual Patch Antenna and Antenna Patch Array for Wi-Fi Communication. Programación matemática Y Software, 2(1), 17–31. https://doi.org/10.30973/progmat/2010.2.1/2

Número

Vol. 2 Núm. 1 (2010): Junio 2010

Sección

Artículos

Licencia

Derechos de autor 2010 Programación Matemática y Software

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