Relevant bibliographies by topics / Printed Dipole Antenna

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Printed Dipole Antenna'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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Journal articles on the topic "Printed Dipole Antenna"

1

Wang, Heesu, and Ikmo Park. "Characteristics of the Angled Printed Dipole Array Antenna with Different Numbers of Dipole Elements." Journal of Electromagnetic Engineering and Science 20, no. 3 (July 31, 2020): 183–89. http://dx.doi.org/10.26866/jees.2020.20.3.183.

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This paper investigated the characteristics of series-fed angled dipole antennas as the number of dipoles increased from one to two, four, and eight. A parallel strip line printed on both sides of the substrate was used to connect angled printed dipoles of the same size in a series with equal spacing. As expected, although the gain increased as the number of dipoles increased, the impedance and gain bandwidths decreased. In addition, as the number of dipoles increased, the half-power beamwidth (HPBW) differences between the xz- and yzplanes decreased and the radiation pattern of the xz-plane became more symmetric. Antennas with one, two, four, and eight-dipole elements in a series were designed, and their peak gains were 5.0 dBi, 7.2 dBi, 9.4 dBi, and 10.4 dBi, respectively. The differences between the xz- and yz-plane HPBWs of the four antennas were 160.4°, 41.7°, 14.2°, and 5.3°, respectively. As the number of dipoles in the antenna increased, the differences between the HPBWs in the xz- and yz-planes decreased.
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Marindra, Adi M. J., Pornanong Pongpaibool, Werayuth Wallada, and Siwaruk Siwamogsatham. "An optimized ink-reducing hollowed-out arm meander dipole antenna structure for printed RFID tags." International Journal of Microwave and Wireless Technologies 9, no. 2 (January 7, 2016): 469–79. http://dx.doi.org/10.1017/s1759078715001725.

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This paper presents an optimized ink-reducing meander dipole antenna structure suitable for implementing printed radio frequency identification (RFID) tags. The proposed antenna designs contain empty ink-reducing hollowed-out areas along the antenna's arms such that the resulting antennas require much less conductive ink to produce yet still achieve decent antenna performance compared with the conventional solid-arm dipole antennas. The simulation results demonstrate that when the ratio between the width of the hollowed-out areas and the width of the antenna arms is about 0.6, the resulting RFID tag experiences a slight read range performance degradation of <10%, while it offers a sizeable ink consumption reduction of almost 50%.
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Paredes, F., G. Zamora, S. Zufanelli, F. J. Herraiz-Martínez, J. Bonache, and F. Martín. "Recent Advances in Multiband Printed Antennas Based on Metamaterial Loading." Advances in OptoElectronics 2012 (October 22, 2012): 1–12. http://dx.doi.org/10.1155/2012/968780.

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It is shown that printed antennas loaded with metamaterial resonators can be designed to exhibit multiband functionality. Two different antenna types and metamaterial loading are considered: (i) printed dipoles or monopoles loaded with open complementary split ring resonators (OCSRRs) and (ii) meander line or folded dipole antennas loaded with split ring resonators (SRRs) or spiral resonators (SRs). In the first case, multiband operation is achieved by series connecting one or more OCSRRs within the dipole/monopole. Such resonators force opens at their positions, and by locating them at a quarter wavelength (at the required operating frequencies) from the feeding point, it is possible to achieve multiple radiation bands. In the second case, dual-band functionality is achieved through the perturbation of the antenna characteristics caused by the presence of the metamaterial resonators. This latter strategy is specially suited to achieve conjugate matching between the antenna and the chip in radiofrequency identification (RFID) tags at two of the regulated UHF-RFID bands.
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Liu, Xiao Lan, Jin Cai Lin, and Jin Hang Hu. "A New Electromagnetic Field Probe by Using Printed Dipole Antenna." Applied Mechanics and Materials 220-223 (November 2012): 1877–82. http://dx.doi.org/10.4028/www.scientific.net/amm.220-223.1877.

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This paper presents a novel Electromagnetic field (E-Field) probe structure employing a printed dipole antenna to get isotropic pattern. The printed dipole is constituted by a variety of orthogonal dipole antenna array, and it is used in the design to reduce the complexity and cost. In this paper, we stimulate the printed dipole antenna and detector diodes by software, and the results confirm the validity of the printed dipole antenna. Moreover, the directivity of antenna array depends on the location of dipole antenna. By changing some design of the antenna, the probe achieves flat frequency response in 0.1GHz-10GHz.
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Razumikhin, A. S., G. N. Devyatkov, K. A. Laiko, and J. O. Filimonova. "Printed broadband dipole for phased array antenna." Issues of radio electronics, no. 10 (December 16, 2020): 38–45. http://dx.doi.org/10.21778/2218-5453-2020-10-38-45.

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The article discusses ways to increase the operating frequency band of a symmetrical broadband vibrator in printed version for a phased array antenna. The equivalent circuit of such an emitter is described. Various designs of an emitter made on a Rogers RT5880 dielectric substrate with a thickness of t = 1.5 mm and εr = 2.2 and the results of electromagnetic modeling are considered. A wide working band is achieved due to the introduction of a dual-circuit system and a modified geometry of the vibrator arms. Topologies, as well as matching and directivity characteristics of three types of antennas are given. The developed antenna is intended for use in broadband systems both as a separate independent antenna and as a radiator for digital phased antenna arrays. The CST Microwave studio environment was used to simulate the emitter.
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Mistry, Keyur K., Pavlos I. Lazaridis, Zaharias D. Zaharis, and Tian Hong Loh. "Design and Optimization of Compact Printed Log-Periodic Dipole Array Antennas with Extended Low-Frequency Response." Electronics 10, no. 17 (August 24, 2021): 2044. http://dx.doi.org/10.3390/electronics10172044.

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This paper initially presents an overview of different miniaturization techniques used for size reduction of printed log-periodic dipole array (PLPDA) antennas, and then continues by presenting a design of a conventional PLPDA design that operates from 0.7–8 GHz and achieves a realized gain of around 5.5 dBi in most of its bandwidth. This antenna design is then used as a baseline model to implement a novel technique to extend the low-frequency response. This is completed by replacing the longest straight dipole with a triangular-shaped dipole and by optimizing the four longest dipoles of the antenna using the Trust Region Framework algorithm in CST. The improved antenna with extended low-frequency response operates from 0.4 GHz to 8 GHz with a slightly reduced gain at the lower frequencies.
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Zichner, R., and R. R. Baumann. "Printed antennas: from theory to praxis, challenges and applications." Advances in Radio Science 11 (July 4, 2013): 271–76. http://dx.doi.org/10.5194/ars-11-271-2013.

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Abstract. Miniaturized, highly integrated wireless communication systems are used in many fields like logistics and mobile communications. Often multiple antenna structures are integrated in a single product. To achieve such a high level of integration the antenna structures are manufactured e.g. from flexible boards or via LDS (laser direct structuring) which allows the production of complex monopole or dipole antennas with three-dimensionally curved shapes. Main drawbacks are the sophisticated production process steps and their costs. The additive deposition of metallic inks or pastes by a printing process is an alternative manufacturing method with reduced cost. To implement such printed antennas we investigated in the fields of antenna design, simulation, printing technology and characterization. The chosen example of use was a customized dipole antenna for a Radio Frequency Identification application. The results prove the intended functionality of the printed dipole in regard to a highly cost efficient printing manufacturing.
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Wang, Can, and Yuehe Ge. "A Novel Broadband Printed Dipole Antenna and Its Application for TD-LTE Communications." International Journal of Antennas and Propagation 2014 (2014): 1–7. http://dx.doi.org/10.1155/2014/960963.

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Novel double-sided printed dipole antennas are proposed and investigated in this paper. Two pairs of identical T-shape metallic loadings are connected to the traditional double-sided printed dipole, enhancing the operating bandwidth. Simulations show that the proposed printed dipole without the reflecting ground plane gives a bandwidth of up to 90.7% forS11<-10 dBor 84.9% forS11<-15 dB, which is significantly greater than those of the traditional printed dipole. The proposed dipole is then applied to design a dual-polarized printed dipole antenna, mounted on a ground plane. Measurements for the prototype show a bandwidth of 68.8% forS11<-10 dB, covering the entire TD-LTE band. The gain is about 6–8 dBi and the isolation is over 24 dB over the bandwidth.
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Floch, Jean-Marie, Ameni Mersani, Bandar Hakim, Khaled Sedraoui, and Hatem Rmili. "Design of Dual-Band Printed-Dipole Array Antenna with Omni-directional Radiation Behaviour." Applied Computational Electromagnetics Society 35, no. 8 (October 7, 2020): 899–907. http://dx.doi.org/10.47037/2020.aces.j.350808.

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In this paper, we present a compact array of 4 printed dipole antennas with ground plane, operating at 2.7 GHz and 5.2 GHz, designed for base station applications. First, the elementary printed dipole antenna, selected for its small size and good performances, is described. However, this kind of structures cannot cover two bands at the same time, which justify our proposal of a 4-elements network. Next, the 4-elements array is simulated, optimized, and measured to proof its performances with good agreement between the measurements and simulations. The measured gain of the 4-dipoles array is 4.21 dBi and 6.15 dBi for both operating frequencies 2.7 GHz and 5.2 GHz, respectively.
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Anim, Kyei, Bonghyuk Park, Hui Dong Lee, Seunghyun Jang, Sunwoo Kong, and Young-Bae Jung. "A Simple Printed Cross-Dipole Antenna with Modified Feeding Structure and Dual-Layer Printed Reflector for Direction Finding Systems." Sensors 21, no. 17 (September 6, 2021): 5966. http://dx.doi.org/10.3390/s21175966.

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In this paper, a simple printed cross-dipole (PCD) antenna to achieve a right-hand circular polarization (RHCP) at the L/S-band for direction finding (DF) systems is presented. The radiating part of the antenna consists of two printed dipoles that interlock with each other and are mounted orthogonally on a dual-layer printed reflector. To connect the feedlines of the dipole elements to the antenna’s feed network, which is located on the backside of the reflector, a through-hole signal via (THSV) is employed as the signal interconnection instead of the mainstream approach of using coaxial bead conductor. This feeding technique provides a degree of freedom to control the impedance of the signal path between the feedlines and the feed network in the numerical simulation for improved matching conditions. The proposed THSV extending through the dual-layer printed reflector is more reliable, durable, and mechanically robust to stabilize the matching conditions of the fabricated antenna in contrast to the coaxial-based approach that is more susceptible to impedance mismatch due to solder fatigue. Thus, the proposed PCD antenna offers advantages of broadband, flexible impedance matching, and fabrication ease. The antenna exhibits an impedance bandwidth (IBW) of 59% (1.59–2.93 GHz), a 3-dB axial ratio bandwidth (ARBW) of 57% (1.5–2.7 GHz), and a peak of 7.5 dB within the operating frequency band.
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Dissertations / Theses on the topic "Printed Dipole Antenna"

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Chu, Chun Yiu 1974. "Printed dipole antenna design for wireless communications." Thesis, McGill University, 2005. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=83858.

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With their planar structure and compatibility with the printed circuit fabrication techniques, printed dipole antennas present one of the best options for future wireless networks. Although they have existed for a long time, printed dipole antennas are not vastly in use due to their relatively large size. In this thesis, new design techniques are proposed to miniaturize these antennas. Other major improvements such as pattern correction and bandwidth enhancement are also presented. The resulting antenna is then integrated with an IEEE 802.15.4 wireless transceiver on the same printed circuit board to show its functionality in future wireless networks.
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Moossavi, Reza. "Printed Antennas on Paper." Thesis, Mittuniversitetet, Avdelningen för elektronikkonstruktion, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:miun:diva-19638.

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Ink-jet printing (IJP) using conductive inks, has gained the attention of scientistsand researchers during the past decades. Solar Cells (SCs), Radio FrequencyIdentication (RFID), E-papers and antennas are only some of the applicationsfor which IJP is being applied. IJP facilitates printing complex antenna structureswith a good resolution. The use of the IJP process is compatible with devicefabrication on unusual substrates such as paper, polymer lms (Polyethylenenaphthalate (PEN), Polyethylene terephthalate (PET), Polyimide (PI)), textiles,etc at low temperature. The aim of this study is to design and fabricate antennason paper substrates capable of operating at 2.4 GHz via printing technique.Simulation and experimental studies have been presented for microstrip patchantenna and dipole antenna using Itoh's balun.
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Riauka, Nerijus. "Compact and broadband antenna system at UHF." Thesis, Loughborough University, 2010. https://dspace.lboro.ac.uk/2134/6319.

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The aim of this research was to study a novel, broadband, low cost, low profile and a high-medium gain antenna in the UHF band. This has been achieved through numerical modelling, theoretical investigation and physical measurements. In this study two commercially available antenna systems are investigated in order to compare and establish potential deficiencies in the UHF antenna systems. A number of disadvantages are resolved within a novel antenna system design. The parametric study is performed for each element of the novel antenna system in order to optimise its overall performance. The indoor and outdoor measurements have been carried out in house, in order to validate the predicted results. The novel antenna system is compared to the most popular and commercially available UHF antenna systems. The study demonstrates that the novel antenna system has clear advantages such as broadband, balanced, compact and low cost when compared to the commercial antenna designs studied here. The comparison of the manufacturers' data to the measured results shows a good match, validating the outdoor measurements technique used in this research.
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Bouknia, M. L., C. Zebiri, D. Sayad, I. Elfergani, M. Alibakhshikenari, J. Rodriguez, Raed A. Abd-Alhameed, F. Falcone, and E. Limiti. "Analysis of the combinatory effect of uniaxial electrical and magnetic anisotropy on the input impedance and mutual coupling of a printed dipole antenna." IEEE, 2005. http://hdl.handle.net/10454/18506.

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Yes
The main objective of this work is to investigate the combinatory effects of both uniaxial magnetic and electrical anisotropies on the input impedance, resonant length and the mutual coupling between two dipoles printed on an anisotropic grounded substrate. Three different configurations: broadside, collinear and echelon are considered for the coupling investigation. The study is based on the numerical solution of the integral equation using the method of moments through the mathematical derivation of the appropriate Green’s functions in the spectral domain. In order to validate the computing method and evaluated Matlab® calculation code, numerical results are compared with available literature treating particular cases of uniaxial electrical anisotropy; good agreements are observed. New results of dipole structures printed on uniaxial magnetic anisotropic substrates are presented and discussed, with the investigation of the combined electrical and magnetic anisotropies effect on the input impedance and mutual coupling for different geometrical configurations. The combined uniaxial (electric and magnetic) anisotropies provide additional degrees of freedom for the input impedance control and coupling reduction.
This work is part of the POSITION-II project funded by the ECSEL joint Undertaking under grant number Ecsel-7831132-Postitio-II-2017-IA,www. position-2.eu and partly funded by FCT/MCTES through national funds and when applicable co-funded EU funds under the project UIDB/50008/2020- UIDP/50008/2020. This work was also supported in part by the DGRSDT (General Directorate of Scientific Research and Technological Development) - MESRS (Ministry of Higher Education and Scientific Research), Algeria, and RTI2018-095499-B-C31, Funded by Ministerio de Ciencia, Innovación y Universidades, Gobierno de España (MCIU/AEI/FEDER,UE).
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Bouknia, M. L., C. Zebiri, D. Sayad, Issa T. Elfergani, M. Alibakhshikenari, J. Rodriguez, Raed A. Abd-Alhameed, F. Falcone, and E. Limiti. "Analysis of the combinatory effect of uniaxial electrical and magnetic anisotropy on the input impedance and mutual coupling of a printed dipole antenna." IEEE, 2021. http://hdl.handle.net/10454/18506.

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Yes
The main objective of this work is to investigate the combinatory effects of both uniaxial magnetic and electrical anisotropies on the input impedance, resonant length and the mutual coupling between two dipoles printed on an anisotropic grounded substrate. Three different configurations: broadside, collinear and echelon are considered for the coupling investigation. The study is based on the numerical solution of the integral equation using the method of moments through the mathematical derivation of the appropriate Green’s functions in the spectral domain. In order to validate the computing method and evaluated Matlab® calculation code, numerical results are compared with available literature treating particular cases of uniaxial electrical anisotropy; good agreements are observed. New results of dipole structures printed on uniaxial magnetic anisotropic substrates are presented and discussed, with the investigation of the combined electrical and magnetic anisotropies effect on the input impedance and mutual coupling for different geometrical configurations. The combined uniaxial (electric and magnetic) anisotropies provide additional degrees of freedom for the input impedance control and coupling reduction.
This work is part of the POSITION-II project funded by the ECSEL joint Undertaking under grant number Ecsel-7831132-Postitio-II-2017-IA,www. position-2.eu and partly funded by FCT/MCTES through national funds and when applicable co-funded EU funds under the project UIDB/50008/2020- UIDP/50008/2020. This work was also supported in part by the DGRSDT (General Directorate of Scientific Research and Technological Development) - MESRS (Ministry of Higher Education and Scientific Research), Algeria, and RTI2018-095499-B-C31, Funded by Ministerio de Ciencia, Innovación y Universidades, Gobierno de España (MCIU/AEI/FEDER,UE).
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McGough, Erin Patrick. "A Low-Cost Omnidirectional Antenna for Wi-Fi Access Points." University of Akron / OhioLINK, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=akron1398172020.

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Katragadda, Mahesh. "Design and Simulation of a Planar Crossed-Dipole Global Navigation Satellite System (GNSS) Antenna in the L1 Frequency Band." Ohio University / OhioLINK, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1345227397.

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Cheng, Shi. "Integrated Antenna Solutions for Wireless Sensor and Millimeter-Wave Systems." Doctoral thesis, Uppsala universitet, Mikrovågs- och terahertzteknik, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-111197.

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This thesis presents various integrated antenna solutions for different types of systems and applications, e.g. wireless sensors, broadband handsets, advanced base stations, MEMS-based reconfigurable front-ends, automotive anti-collision radars, and large area electronics. For wireless sensor applications, a T-matched dipole is proposed and integrated in an electrically small body-worn sensor node. Measurement techniques are developed to characterize the port impedance and radiation properties. Possibilities and limitations of the planar inverted cone antenna (PICA) for small handsets are studied experimentally. Printed slot-type and folded PICAs are demonstrated for UWB handheld terminals. Both monolithic and hybrid integration are applied for electrically steerable array antennas. Compact phase shifters within a traveling wave array antenna architecture, on single layer substrate, is investigated for the first time. Radio frequency MEMS switches are utilized to improve the performance of reconfigurable antennas at higher frequencies. Using monolithic integration, a 20 GHz switched beam antenna based on MEMS switches is implemented and evaluated. Compared to similar work published previously, complete experimental results are here for the first time reported. Moreover, a hybrid approach is used for a 24 GHz switched beam traveling wave array antenna. A MEMS router is fabricated on silicon substrate for switching two array antennas on a LTCC chip. A concept of nano-wire based substrate integrated waveguides (SIW) is proposed for millimeter-wave applications. Antenna prototypes based on this concept are successfully demonstrated for automotive radar applications. W-band body-worn nonlinear harmonic radar reflectors are proposed as a means to improve automotive radar functionality. Passive, semi-passive and active nonlinear reflectors consisting of array antennas and nonlinear circuitry on flex foils are investigated. A new stretchable RF electronics concept for large area electronics is demonstrated. It incorporates liquid metal into microstructured elastic channels. The prototypes exhibit high stretchability, foldability, and twistability, with maintained electrical properties.
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Hawatmeh, Derar Fayez. "Three Dimensional Direct Print Additively Manufactured High-Q Microwave Filters and Embedded Antennas." Scholar Commons, 2018. http://scholarcommons.usf.edu/etd/7165.

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The need for miniaturized, and high performance microwave devices has focused significant attention onto new fabrication technologies that can simultaneously achieve high performance and low manufacturing complexity. Additive manufacturing (AM) has proven its capability in fabricating high performance, compact and light weight microwave circuits and antennas, as well as the ability to achieve designs that are complicated to fabricate using other manufacturing approaches. Direct print additive manufacturing (DPAM) is an emerging AM process that combines the fused deposition modeling (FDM) of thermoplastics with micro-dispensing of conductive and insulating pastes. DPAM has the potential to jointly combine high performance and low manufacturing complexity, along with the possibility of real-time tuning. This dissertation aims to leverage the powerful capabilities of DPAM to come-up with new designs and solutions that meet the requirements of rapidly evolving wireless systems and applications. Furthermore, the work in this dissertation provides new techniques and approaches to alleviate the drawbacks and limitations of DPAM fabrication technology. Firstly, the development of 3D packaged antenna, and antenna array are presented along with an analysis of the inherent roughness of 3D printed structures to provide a deeper understanding of the antenna RF performance. The single element presents a new volumetric approach to realizing a 3D half-wave dipole in a packaged format, where it provides the ability to keep a signal distribution network in close proximity to the ground plane, facilitating the implementation of ground connections (e.g. for an active device), mitigating potential surface wave losses, as well as achieving a modest (10.6%) length reduction. In addition, a new approach of implementing conformal antennas using DPAM is presented by printing thin and flexible substrate that can be adhered to 3D structures to facilitate the fabrication and reduce the surface roughness. The array design leverages direct digital manufacturing (DDM) technology to realize a shaped substrate structure that is used to control the array beamwidth. The non-planar substrate allows the element spacing to be changed without affecting the length of the feed network or the distance to the underlying ground plane. The second part describes the first high-Q capacitively-loaded cavity resonator and filter that is compatible with direct print additive manufacturing. The presented design is a compromise between quality factor, cost and manufacturing complexity and to the best of our knowledge is the highest Q-factor resonator demonstrated to date using DPAM compatible materials and processes. The final version of the single resonator achieves a measured unloaded quality factor of 200-325 over the frequency range from 2.0 to 6.5 GHz. The two pole filter is designed using a coupled-resonator approach to operate at 2.44 GHz with 1.9% fractional bandwidth. The presented design approach simplifies evanescent-mode filter fabrication, eliminating the need for micromachining and vias, and achieving a total weight of 1.97 g. The design is fabricated to provide a proof-of-principle for the high-Q resonator and filter that compromises between performance, cost, size, and complexity. A stacked version of the two-pole filter is presented to provide a novel design for multi-layer embedded applications. The fabrication is performed using an nScrypt Tabletop 3Dn printer. Acrylonitrile Butadiene Styrene (ABS) (relative permittivity of 2.7 and loss tangent of 0.008) is deposited using fused deposition modeling to form the antenna, array, resonator, and filter structures, and Dupont CB028 silver paste is used to form the conductive traces conductive regions (the paste is dried at 90 °C for 60 minutes, achieving a bulk DC conductivity of 1.5×106 S/m.). A 1064 nm pulsed picosecond Nd:YAG laser is used to laser machine the resonator and filter input and output feedlines.
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Li, Chien-Hua, and 李建樺. "Design of Dual-Band Printed Dipole Antennas and Study of Active Antenna Systems." Thesis, 2005. http://ndltd.ncl.edu.tw/handle/29361580965275499214.

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碩士
國立臺灣大學
電信工程學研究所
93
In this thesis, we have designed two antennas, one is double step-type microstrip line fed rectangular slot dipole antenna operated at the band of IEEE 802.11b, the other is the microstrip line fed dual-band printed dipole antenna operated at the band of IEEE 802.11a/b/g. Full-wave simulation software IE3D & HFSS used in this thesis, the resonant frequencies, bandwidth, return loss, input impedance and radiation pattern are studied completely by various antenna size parameter. Step-type MS line feeding enhances the bandwidth, the bandwidth covering 2GHz~3GHz is about 41.2%.Furthermore,we try to reduce ground size, and then we trade-off between size and bandwidth. MS line fed dual-band printed dipole antenna are studied to cover 2.4GHz~2.4835GHz, 5.15GHz~5.35GHz, 5.725GHz~ 5.825GHz for all WLAN IEEE802.11a/b/g. Finally, we combine with the low noise amplifier and the double step-type microstrip line fed rectangular slot dipole antenna, and then we measure the radiation pattern for this active antenna module. The total noise figure of all receivers is discussed. The research of the RF receiving system will be mentioned in this thesis, too.
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Book chapters on the topic "Printed Dipole Antenna"

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Gao, Guoping, Bin Hu, Jianyuan Zhang, Xiaodong Cong, Lele He, and Jianyuan Zhang. "Transfer Function Characteristics of a Printed Rectangular Dipole UWB Antenna." In Pervasive Computing and the Networked World, 99–109. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-09265-2_11.

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Ramli, Mohamad Hafize, Mohamad Zoinol Abidin Abd Aziz, Mohd Azlishah Othman, Badrul Hisham Ahmad, Mohd Kadim Suaidi, and Abdul Halim Dahalan. "Investigation of MultiSlot and Stacked Layer on Dual Band Printed Dipole Antenna." In Theory and Applications of Applied Electromagnetics, 69–76. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-17269-9_8.

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Carro, Pedro Luis, and Jesus de Mingo. "Mean Effective Gain of Compact WLAN Genetic Printed Dipole Antennas in Indoor-Outdoor Scenarios." In Personal Wireless Communications, 275–83. Berlin, Heidelberg: Springer Berlin Heidelberg, 2006. http://dx.doi.org/10.1007/11872153_24.

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Poongodi, Chenniappan, Arumugam Shanmugam, and P. Prabhu. "Design of Two Element and Four Element Printed Dipole Array Antennas for Wireless Communication Applications." In Lecture Notes in Electrical Engineering, 245–55. India: Springer India, 2013. http://dx.doi.org/10.1007/978-81-322-1000-9_23.

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Haraz, Osama, Sultan Almorqi, Abdel-Razik Sebak, and Saleh A. Alshebeili. "High-Gain Broadband Antennas for 60-GHz Short-Range Wireless Communications." In Wideband, Multiband, and Smart Reconfigurable Antennas for Modern Wireless Communications, 72–122. IGI Global, 2016. http://dx.doi.org/10.4018/978-1-4666-8645-8.ch003.

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This chapter introduces design and implementation of high-gain broadband antennas for 60-GHz short-range communications. It presents different antenna configurations and architectures that can be good candidates for the 60-GHz industrial, scientific and medical (ISM) band. Printed dipole array (PDA) antennas and especially the Printed log-periodic dipole array (PLPDA) antennas will be discussed in this chapter. Loading these kind of antennas with low-cost spherical or hemispherical dielectric lenses will also be presented and demonstrated to increase the gain of the antenna. Another type of antennas called electromagnetically coupled (EMC) elliptical patch antenna arrays will be investigated. Antipodal Vivaldi antenna and corrugated antipodal Vivaldi antenna are also introduced as good candidates for 60-GHz short-range communication applications.
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Conference papers on the topic "Printed Dipole Antenna"

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Tarasenko, Natalva V. "Printed Dipole Antenna with Stepped-Width Dipoles." In 2020 1st International Conference Problems of Informatics, Electronics, and Radio Engineering (PIERE). IEEE, 2020. http://dx.doi.org/10.1109/piere51041.2020.9314679.

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Guo, Min, and Shun-Shi Zhong. "Broadband widebeamwidth printed dipole antenna." In 2012 IEEE International Workshop on Antenna Technology "Small Antennas and Unconventional Applications" (iWAT). IEEE, 2012. http://dx.doi.org/10.1109/iwat.2012.6178401.

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Gorbachev, Anatoly P., and Mariet A. Bzhasso. "The modified printed dipole antenna." In 2010 10th International Scientific-Technical Conference on Actual Problems of Electronic Instrument Engineering - APEIE. IEEE, 2010. http://dx.doi.org/10.1109/apeie.2010.5677319.

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Gorbachev, Anatoly P., and Mariet A. Bzhasso. "The modified printed dipole antenna." In 2010 10th International Scientific-Technical Conference on Actual Problems of Electronic Instrument Engineering - APEIE. IEEE, 2010. http://dx.doi.org/10.1109/apeie.2010.5677340.

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Guo, M., S. S. Zhong, and X. B. Xuan. "Conformal double printed dipole antenna." In 2012 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC). IEEE, 2012. http://dx.doi.org/10.1109/apwc.2012.6324916.

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Yue, Chongyi, Atef Elsherbeni, Veysel Demir, and Wenxing Li. "Compact meander printed dipole antenna." In 2017 International Applied Computational Electromagnetics Society Symposium - Italy (ACES). IEEE, 2017. http://dx.doi.org/10.23919/ropaces.2017.7916050.

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Rudant, L., and C. Delaveaud. "Small printed magnetic dipole." In 11th International Symposium on Antenna Technology and Applied Electromagnetics [ANTEM 2005]. IEEE, 2005. http://dx.doi.org/10.1109/antem.2005.7852152.

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Qudrat-E-Maula, M., and L. Shafai. "Broadband rare radiating printed dipole antenna." In 2011 IEEE Antennas and Propagation Society International Symposium and USNC/URSI National Radio Science Meeting. IEEE, 2011. http://dx.doi.org/10.1109/aps.2011.5996690.

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Wang, Heesu, and Ikmo Park. "Series-Fed Printed Dipole Array Antenna." In 2018 11th Global Symposium on Millimeter Waves (GSMM). IEEE, 2018. http://dx.doi.org/10.1109/gsmm.2018.8439163.

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Dongwei Tan, Wei Hong, Jixin Chen, Ling Tian, Pinpin Yan, Jianyi Zhou, and Zhenqi Kuai. "Wideband omnidirectional printed dipole array antenna." In 2008 8th International Symposium on Antennas, Propagation and EM Theory. IEEE, 2008. http://dx.doi.org/10.1109/isape.2008.4735152.

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