Printed logoperiodic antenna
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 bandwidt...
Guardado en:
Publicado: |
2016
|
---|---|
Materias: | |
Acceso en línea: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97814673_v_n_p_Schlesinger http://hdl.handle.net/20.500.12110/paper_97814673_v_n_p_Schlesinger |
Aporte de: |
id |
paper:paper_97814673_v_n_p_Schlesinger |
---|---|
record_format |
dspace |
spelling |
paper:paper_97814673_v_n_p_Schlesinger2023-06-08T16:37:43Z Printed logoperiodic antenna 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 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. 2016 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97814673_v_n_p_Schlesinger http://hdl.handle.net/20.500.12110/paper_97814673_v_n_p_Schlesinger |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
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 |
spellingShingle |
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 Printed logoperiodic antenna |
topic_facet |
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 |
description |
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. |
title |
Printed logoperiodic antenna |
title_short |
Printed logoperiodic antenna |
title_full |
Printed logoperiodic antenna |
title_fullStr |
Printed logoperiodic antenna |
title_full_unstemmed |
Printed logoperiodic antenna |
title_sort |
printed logoperiodic antenna |
publishDate |
2016 |
url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97814673_v_n_p_Schlesinger http://hdl.handle.net/20.500.12110/paper_97814673_v_n_p_Schlesinger |
_version_ |
1768543109487001600 |