Desenvolvimento e implementação de antena planar para aparelhos celulares

Téllez Garzón, Johan Leandro

January 2013

Neste trabalho é apresentado o projeto de uma antena planar de formato de F-invertido (PIFA) com ranhura-T para aplicação nos sistemas de comunicações sem fio GSM/UMTS/WCDMA. As larguras de banda da antena são aumentadas em função do aproveitamento dos modos ressonantes implícitos no plano de terra. Uma análise paramétrica é feita visando a obtenção de desempenho equilibrado na antena. As diversas simulações do desempenho da antena são realizadas com o software SEMCAD, que utiliza o método das diferenças finitas no domínio do tempo (FDTD). No trabalho é avaliada a diferença de desempenho da antena com e sem a presença do aparelho celular e também próximo à cabeça do usuário. Deste modo, é observada uma influência negativa sobre o desempenho da antena causada pela presença da cabeça do usuário. Adicionalmente, boa concordância é observada entre os dados do modelo simulado e os resultados medidos do protótipo. / This work presents the design and implementation of a planar inverted F-type antenna (PIFA) slot-T for wireless mobile communications GSM/UMTS/WCDMA. The excitation of the ground plane modes is used to increase the antenna bandwidth. A parametric analysis is done to obtain a balanced performance of the antenna. The several antenna performance simulations are performed with the SEMCAD software, which use the finite difference time domain (FDTD) method. In addition the differences in performance of the antenna are evaluated with and without the presence of the cell phone housing and the user's head, thus, negative influence on the antenna performance caused by the presence of the user's head is observed. Finally a prototype is implemented to get an idea of the real behavior of the proposed antenna. Good agreement is observed between data of the simulated model and measured results of the prototype.

Comunicação sem fio

Telefone celular

Antenas

Telecommunications

Wireless applications

Planar antenna

Bandwidth PIFA

SAR

Desenvolvimento e implementação de antena planar para aparelhos celulares

Téllez Garzón, Johan Leandro

January 2013

Neste trabalho é apresentado o projeto de uma antena planar de formato de F-invertido (PIFA) com ranhura-T para aplicação nos sistemas de comunicações sem fio GSM/UMTS/WCDMA. As larguras de banda da antena são aumentadas em função do aproveitamento dos modos ressonantes implícitos no plano de terra. Uma análise paramétrica é feita visando a obtenção de desempenho equilibrado na antena. As diversas simulações do desempenho da antena são realizadas com o software SEMCAD, que utiliza o método das diferenças finitas no domínio do tempo (FDTD). No trabalho é avaliada a diferença de desempenho da antena com e sem a presença do aparelho celular e também próximo à cabeça do usuário. Deste modo, é observada uma influência negativa sobre o desempenho da antena causada pela presença da cabeça do usuário. Adicionalmente, boa concordância é observada entre os dados do modelo simulado e os resultados medidos do protótipo. / This work presents the design and implementation of a planar inverted F-type antenna (PIFA) slot-T for wireless mobile communications GSM/UMTS/WCDMA. The excitation of the ground plane modes is used to increase the antenna bandwidth. A parametric analysis is done to obtain a balanced performance of the antenna. The several antenna performance simulations are performed with the SEMCAD software, which use the finite difference time domain (FDTD) method. In addition the differences in performance of the antenna are evaluated with and without the presence of the cell phone housing and the user's head, thus, negative influence on the antenna performance caused by the presence of the user's head is observed. Finally a prototype is implemented to get an idea of the real behavior of the proposed antenna. Good agreement is observed between data of the simulated model and measured results of the prototype.

Comunicação sem fio

Telefone celular

Antenas

Telecommunications

Wireless applications

Planar antenna

Bandwidth PIFA

SAR

Phased array antenna element evaluation

Samuelsson, Jacob

January 2017

This thesis evaluates two array antenna elements for large phased array antennas. The two antenna concepts are a surface mounted notch element and a PIFA (Planar Inverted F Antenna). The antennas have been simulated at S-band in Ansys HFSS as a unit cell in an infinite array environment. Thereafter, a finite 7 x 7 element array of the two concepts was simulated. A corresponding 49 element array, using the notch element, was built and measured upon. Embedded element patterns and S-matrix parameters have been measured. From this result, full array antenna patterns as well as active reflection coefficients have been calculated. The measurements show very good performance for large scan angles and a wide frequency range.

Antenna

Array

PIFA

Notch

HFSS

Annan elektroteknik och elektronik

A band-suppression UWB suspended planar antenna incorporating a slotted spiral resonator

See, Chan H., Abd-Alhameed, Raed, Hraga, Hmeda I., Excell, Peter S., Jones, Steven M.R., Noras, James M.

19 November 2012

No / A novel miniaturized planar inverted F-L antenna assembly is considered for UWB radio operations. The antenna design utilizes the electromagnetic coupling between an air dielectric planar inverted-F antenna (PIFA) and a parasitic planar inverted-L (PIL) element, with broadband feeding from a rectangular plate. To improve the functionality of the channel, a simple notch filter has been introduced through a local modification to the broadband feed plate, this takes the form of a simple slotted rectangular spiral resonator which is etched directly onto the plate. This allows the proposed antenna to maintain its full band UWB coverage, with the HYPERLAN/2 band centered at 5.35 GHz to be effectively rejected over the sub-band 5.15–5.725 GHz, without the need for substantial re-optimization of its principal structure parameters. The impedance bandwidth operates over the full UWB band, with VSWR better than 2, this performance is not degraded by the presence of the band rejection. The observed gains, radiation patterns, and group delay confirm that the antenna has appropriate characteristics for short range wireless applications.

A Low-Profile Ultra-Wideband Modified Planar Inverted-F Antenna

See, Chan H., Hraga, Hmeda I., Abd-Alhameed, Raed, McEwan, Neil J., Noras, James M., Excell, Peter S.

January 2013

No / A miniaturized modified planar inverted-F antenna (PIFA) is presented and experimentally studied. This antenna consists of a planar rectangular monopole top-loaded with a rectangular patch attached to two rectangular plates, one shorted to the ground and the other suspended, both placed at the optimum distance on each side of the planar monopole. The fabricated antenna prototype had a measured impedance bandwidth of 125%, covering 3 to 13GHz for reflection coefficient better than -10 dB. The radiator size was 20 x 10 x 7.5 mm(3), making it electrically small over most of the band and suitable for incorporation in mobile devices. The radiation patterns and gains of this antenna have been cross-validated numerically and experimentally and confirm that this antenna has adequate characteristics for short range ultra-wideband wireless applications.

Impedance bandwidth

Monopole antenna

PIFA

Ultra-wideband

Ultrawideband antenna

UWB antenna

Bandwidth

Design of Planar Double Inverted-F Antenna for Ultra-Wideband Applications

See, Chan H., Abd-Alhameed, Raed, Zhou, Dawei, Excell, Peter S.

2010 September 1922

yes / A novel miniaturized planar double inverted-F antenna is presented. The antenna design is based on the electromagnetic coupling of two air dielectric PIFA antennas, combined with a broadband rectangular plate feed structure to achieve ultra-wideband characteristics. The computed and experimental impedance bandwidths show good agreement over an UWB frequency band from 3.1 GHz to 10.6 GHz for |S11| < -10dB. The antenna is electrically small, with size 0.31 x 0.16 x 0.09 wavelengths at 3.1 GHz and 1.06 x 0.55 x 0.31 wavelengths at 10.6 GHz. The simulated and measured gain and radiation patterns show acceptable agreement and confirm that the antenna has appropriate characteristics for short range wireless applications. / MSCRC

Inverted-F antenna

Ultra-Wideband (UWB)

Planar Inverted-F Antenna (PIFA)

A Numerical and Experimental Investigation of Planar Inverted-F Antennas for Wireless Applications

Huynh, Minh-Chau Thu

26 October 2000

In recent years, the demand for compact handheld communication devices has grown significantly. Devices having internal antennas have appeared to fill this need. Antenna size is a major factor that limits device miniaturization. In the past few years, new designs based on the microstrip antennas (MSA) and planar inverted-F antennas have been used for handheld wireless devices because these antennas have low-profile geometry and can be embedded into the devices. New wireless applications requiring operation in more than one frequency band are emerging. Dual-band and tri-band phones have gained popularity because of the multiple frequency bands used for wireless applications. One prominent application is to include bluetooth, operating band at 2.4 GHz, for short-range wireless use. This thesis examines two antennas that are potential candidates for small and low-profile structures: microstrip antennas and planar inverted-F antennas. Two techniques for widening the antenna impedance bandwidth are examined by adding parasitic elements. Reducing antenna size generally degrades antenna performance. It is therefore important to also examine the fundamental limits and parameter tradeoffs involved in size reduction. In the handheld environment, antennas are mounted on a small ground plane. Ground plane size effects on antennas are investigated and the results from a thorough numerical study on the performance of a PIFA with various ground planes sizes and shapes is reported. Finally, a new wideband compact PIFA antenna (WC-PIFA) is proposed. Preliminary work is presented along with numerical and experimental results for various environments such as free space, plastic casing, and the proximity of a hand. This new antenna covers frequencies from 1700 MHz to 2500 MHz, which basically include the following operating bands: DCS-1800m PCS-1900, IMT-2000, ISM, and Bluetooth. / Master of Science

microstrip

small antennas

PIFA

wideband antennas

ground plane effects

antennas

planar inverted-f

low-profile

Couplages algorithmes génétiques et TLM pour la conception des antennes imprimées miniatures

Chu, H.S.

02 June 2004

Cette étude contribue à la recherche de formes originales et non intuitives d'antennes miniatures. Il s'agit du développement et de l'application d'un code de calcul associant la simulation électromagnétique TLM (Transmission Line Matrix) à un Algorithme Génétique (AG). La partie théorique présente d'une part la méthode TLM et d'autre part les algorithmes génétiques. La méthode TLM, sur calculateur parallèle, permet d'analyser en 3 dimensions des antennes miniatures de formes arbitraires. Ses évolutions successives sont présentées avec l'objectif d'un couplage avec les algorithmes génétiques. Ceux-ci s'inspirent d'une technique d'optimisation stochastique basée sur la sélection naturelle et l'evolution des espèces. Une présentation définissant les grandeurs fondamentales à nos développements est effectuée. Dans la partie suivante, le couplage AG/TLM est décrit. La conception d'antennes, de formes intuitives ou non, est proposée pour deux types d'antennes bien connues, large bande et bi-bande. Il est ensuite propose un micro-algorithme génétique et son couplage avec la TLM (mAG/TLM) permettant d'atteindre une convergence plus rapide vers la solution optimale et d'éviter des convergences prématurées. Le code mAG/TLM a été appliqué à la recherche d'antennes imprimées, pour les normes WLAN2450 et HIPERLAN5250. Plusieurs antennes obtenues, chaque configuration dépend des conditions imposées sur les conditions initiales et sur la définition de la fonction ''objectif'', portant sur l'adaptation. Une étude expérimentale et de comparaisons systématique avec des logiciels commerciaux a été également développée. Enfin, dans la dernière partie, on s'est attache a l'optimisation d'antennes de type PIFA permettant de couvrir plusieurs standards, GSM, DCS, PCS, UMTS ou WLAN. Des résultats originaux sont proposes. En dernier lieu, des antennes filsplaques mono-polaires répondant aux standards WLAN/HIPERLAN2 et UMTS/HIPARLAN2 ont été obtenus.

[SPI:OTHER] Engineering Sciences/Other

Méthode TLM

algorithme génétiques

antennes imprimées

PIFA

fil-plaque

normes

GSM

DCS

UMTS

WLAN

HIPERLAN2

NOVEL ANTENNAS FOR MOBILE PHONES AND WLAN APPLICATIONS

Yeh, Shih-Huang

19 April 2003

This paper proposes novel antenna designs for cellular phones and WLAN (Wireless LAN) applications. For cellular phones, a dual- frequency PIFA (Planar Inverted-F Antenna) loaded with a chip inductor is constructed. In order to decrease the construction cost, PIFAs without a loading chip inductor for GMS/DCS phones are devised. Besides, a PIFA-monopole antenna for GSM/DCS/PCS is also proposed. For WLAN application, a dual-band PIFA for 2.4/5.8 GHz and a dual-band integrated monopole antenna for 2.4/5.2 GHz are shown. Finally, a novel metal-plate WLAN antenna, having a simple structure and being easy to construct with low cost, is presented.

DCS

GSM

Mobile phone

WLAN (Wireless LAN)

PIFA (Planar Inverted-F Antenna)

PCS

Dual-band

ISM-band

Study of the Internal Multiband Mobile Phone Antenna with a Coupling Feed

Huang, Chih-Hung

12 June 2008

A variety of internal mobile phone antennas with a coupling feed are proposed. The antennas are suitable to be embedded in the mobile communication devices. At first, the coupling feed is incorporated to the conventional dual-band PIFA (planar inverted-F antenna) to achieve a dual-resonance excitation at about 900 MHz such that the obtained bandwidths can easily cover GSM850, GSM900, DCS and PCS operations. Then, the coupling feed is further applied to the PIFA with a single resonant path close to about one-eighth wavelength at 900 MHz. In this design, the large input impedance at 900 and 1900 MHz can be greatly decreased to allow the PIFA to generate two operating bands at about 900 and 1900 MHz to cover GSM900, DCS, PCS and UMTS operations. Finally, a compact quad-band folder-type mobile phone antenna with a coupling feed is proposed. The one-eighth wavelength mode can be excited, and the obtained bandwidths cover GSM850, GSM900, DCS and PCS operations.

PIFA (planar inverted-F antenna)

internal mobile phone antennas

antennas

coupling feed

quad-band antenna

multiband antennas