2009 International Conference on Emerging Trends in Electronic and Photonic Devices &Amp; Systems 2009 Help me understand this report
Performance of H-shaped microstrip antenna using IE3D
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Cited by 2 publications
(4 citation statements)
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“…The implementation of this work is highly anticipated to be employed for designing hybrid shaped patches for WLAN, wireless network (Wi-Fi and Bluetooth), nonstandard RF remote, ISM band applications. R. Fotedar, P. Garia, R. Saini, A. Vidyarthi, and R. Gowri [3] design and analyze comparative performance of microstrip patch antennas with different shapes of patch to find out the best shape. The resonant frequency is kept 2.4 GHz because of the great importance of this frequency in wireless communication.…”
Section: Related Workmentioning
confidence: 99%
“…The implementation of this work is highly anticipated to be employed for designing hybrid shaped patches for WLAN, wireless network (Wi-Fi and Bluetooth), nonstandard RF remote, ISM band applications. R. Fotedar, P. Garia, R. Saini, A. Vidyarthi, and R. Gowri [3] design and analyze comparative performance of microstrip patch antennas with different shapes of patch to find out the best shape. The resonant frequency is kept 2.4 GHz because of the great importance of this frequency in wireless communication.…”
Section: Related Workmentioning
confidence: 99%
“…Microstrip antennas are low profile, comfortable to planar and non-planar surfaces, simple and inexpensive to manufacture using modern printed-circuit technology, mechanically robust when mounted on rigid surfaces, compatible with Microwave Monolithic Integrated circuit (MMIC) designs, and when the particular patch shape and mode are selected, they are very versatile in terms of resonant frequency, polarization pattern, and impedance [3].…”
Section: Introductionmentioning
confidence: 99%
“…Para la miniaturización por variación de la forma se diseñó una antena modificando los bordes del elemento radiante. Aunque existen diversas formas para lograr la reducción en el parche [30][31][32][33], en este aparte se propone un parche con la forma H como se ilustra en la figura 21(b), ya que esta forma presenta buenos rendimientos sin sacrificar los parámetros de desempeño de la antena debido a su simplicidad y facilidad en la fabricación [27] [28]. En la miniaturización por cargas distribuidas, se diseño una antena usando algunos elementos distribuidos como inductancias mediante la implementación de, postes de corto circuito y se planteo el uso de capacitancias con capacitores ínter-digitales [46,47,80], como se pueden detallar en la figura 22.…”
Section: Descripción Generalunclassified
“…Esta técnica consiste en insertar ranuras modificando la forma del parche, cambiando así la distribución de corrientes e incrementando la longitud eléctrica, por ende se reduce la frecuencia de resonancia, y se logra una disminución física en el elemento radiante [4]. La tercera técnica es la modificación directa de la forma del parche, como se han reportado en gran variedad de formas geométricas [26][27][28][29]. Formas fractales como la Minkowski, Koch y Sierpinski [30][31][32][33][34][35], formas modificadas usando algoritmos genéticos sobre las superficies radiantes para eliminar partes prescindibles del parche [36,37], y muchas otras formas inusuales que se han investigado, las cuales poseen buenas características en miniaturización [38].…”
Section: Introductionunclassified
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