Printed logoperiodic antenna

Schlesinger, P.L.; Valdez, A.D.; Miranda, C.A.; Chiozza, J.A.; Miranda, C.V.; Bava, J.A.

doi:10.1109/RPIC.2015.7497123

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Schlesinger, P.L.; Valdez, A.D.; Miranda, C.A.; Chiozza, J.A.; Miranda, C.V.; Bava, J.A. "Printed logoperiodic antenna" (2016) 16th Workshop on Information Processing and Control, RPIC 2015

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97814673_v_n_p_Schlesinger

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Abstract:

We propose the development of a printed logoperiodic antenna, by combining the operating principles of the conventional logoperiodic with the construction technique of printed microstrip. Hence we obtain a compact design and small size antenna whose frequency response is within the expected bandwidth. This antenna will be used in conjunction with a detector device for true RMS values of RF signals [1], an autonomous electronic equipment able to measuring the level of electromagnetic fields in the most used bands of the radio-electrical spectrum. The information on the levels of non-ionizing radiation (NIR)-obtained with this method-in sensitive environments to humans such as hospitals, schools or recreation centers, represents a topic of special interest to study in various disciplines. There are numerous safety standards and recommendations [2], [3], [4] formulated with a precautionary principle to minimize the possible effects of human exposure to radiofrequency (RF). Self-monitoring of NIR level is encouraged as a way to collecting regular, systematic and reliable information [5] needed for future research. The development of printed logoperiodic antenna is part of the Technological and Social Development Project "Optimization and Control of Non-Ionizing Radiation" [6]. © 2015 IEEE.

Registro:

Documento:	Conferencia
Título:	Printed logoperiodic antenna
Autor:	Schlesinger, P.L.; Valdez, A.D.; Miranda, C.A.; Chiozza, J.A.; Miranda, C.V.; Bava, J.A.
Filiación:	Facultad de Ciencias Exactas y Naturales y Agrimensura, Departamento de Ingeniería, Universidad Nacional del Nordeste, Corrientes, Argentina Facultad de Ingeniería, Universidad Nacional de La Plata, La Plata, Buenos Aires, Argentina
Palabras clave:	antenna; bandwidth; frequency; level; microstrip; Antennas; Bandwidth; Electromagnetic fields; Electronic equipment; Frequency response; Information science; Infrared devices; Ionizing radiation; Oscillators (electronic); Radiation shielding; Autonomous electronics; Construction technique; frequency; level; Microstripes; Nonionizing radiation; Optimization and control; Precautionary principle; Microstrip antennas
Año:	2016
DOI:	http://dx.doi.org/10.1109/RPIC.2015.7497123
Título revista:	16th Workshop on Information Processing and Control, RPIC 2015
Título revista abreviado:	Workshop on Inf. Process. Control, RPIC
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97814673_v_n_p_Schlesinger

Referencias:

Valdez, D., Miranda, C., Schlesinger, P., Control de Radiaciones No Ionizantes: Detectores de Potencia RMS en Radiofrecuencias (2014) Ill Jornadas de Investigatión en Ingeniería Del NEA y Paises lirm'Trofes, , UTN
(2002) Recomendaciones, 82, pp. 540-548. , 74:494-522 (1998)
(1995) Estdndar Nacional de Seguridadpara la Exposition A Radiofrecuencias Comprendidas Entre 100 KHzy 300 GHz, , Secretaria de Salud y Actión Social. Resolutión N 202-95
(2004) Protocolo para la Evaluatión de Radiaciones No Ionizantes
Procedimiento de Evaluatión para un Sitio de Medición, , UIT-T K 83 "" Unión International de Telecomunicaciones. 83 Sector de Normalizatión de las telecomunicaciones de la UIT
(2013) Optimizatión y Control de Las Radiaciones No Ionizantes, , Secretaría General de Ciencia y Tecnica. UNNE N 17/13F015
Constantine, B.A., (2005) Antenna Theory Analysis and Design, , 3 Editión. Estados Unidos. John Wiley &Sons
Carrel, R.L., (1960) Analysis and Design of the Log-periodic Dipole Antenna, , Illinois
Ramo, S., (1974) Campos y Ondas, pp. 703-707. , Pirámide, Madrid, 3 editión
Miranda, J.M., (2002) Ingeniería de Microondas. Tecnicas Experimentales, , Prentice Hall, España
Bava, J.A., (1999) Microondas y Receptión Satelital, pp. 37-41. , Editión del CELP. La Plata, Argentina
Aznar, A.C., (2004) Antenas, , Alfaomega. México

Citas:

---------- APA ----------

Schlesinger, P.L., Valdez, A.D., Miranda, C.A., Chiozza, J.A., Miranda, C.V. & Bava, J.A. (2016) . Printed logoperiodic antenna. 16th Workshop on Information Processing and Control, RPIC 2015.
http://dx.doi.org/10.1109/RPIC.2015.7497123

---------- CHICAGO ----------

Schlesinger, P.L., Valdez, A.D., Miranda, C.A., Chiozza, J.A., Miranda, C.V., Bava, J.A. "Printed logoperiodic antenna" . 16th Workshop on Information Processing and Control, RPIC 2015 (2016).
http://dx.doi.org/10.1109/RPIC.2015.7497123

---------- MLA ----------

Schlesinger, P.L., Valdez, A.D., Miranda, C.A., Chiozza, J.A., Miranda, C.V., Bava, J.A. "Printed logoperiodic antenna" . 16th Workshop on Information Processing and Control, RPIC 2015, 2016.
http://dx.doi.org/10.1109/RPIC.2015.7497123

---------- VANCOUVER ----------

Schlesinger, P.L., Valdez, A.D., Miranda, C.A., Chiozza, J.A., Miranda, C.V., Bava, J.A. Printed logoperiodic antenna. Workshop on Inf. Process. Control, RPIC. 2016.
http://dx.doi.org/10.1109/RPIC.2015.7497123