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Автор: Grafiati
Опубліковано: 11 вересня 2023

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Статті в журналах з теми "APERTURE COUPLED ANTENNA"

1

Kirov, Georgi, Georgi Chervenkov, and Chavdar Kalchev. "Aperture Coupled Microstrip Short Backfire Antenna." Journal of Electrical Engineering 63, no. 2 (March 1, 2012): 75–80. http://dx.doi.org/10.2478/v10187-012-0011-0.

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Aperture Coupled Microstrip Short Backfire Antenna A broadband aperture coupled microstrip short backfire antenna is described herein. It consists of a feed part (a microstrip feed line and a coupling slot in a metal ground) and a radiating part with two radiators: a patch antenna and a backfire antenna. The bandwidth widening of the antenna is achieved by use of two resonances: a patch resonance and a backfire resonance. The antenna is designed to operate within the Ku-band. It has a frequency bandwidth of about 15% and a maximum gain of 11.5 dBi. Within the antenna bandwidth the gain and the radiation efficiency have values more than 9 dBi and 82.1%, respectively. The designed antenna has a simple and compact construction and high mechanical and electrical characteristics. It can be used as a single antenna or as an element of microstrip antenna arrays with various applications in the contemporary communication systems.
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2

Soni, Brijesh Kumar, Kamaljeet Singh, Amit Rathi, and Sandeep Sancheti. "Performance Improvement of Aperture Coupled MSA through Si Micromachining." International Journal of Circuits, Systems and Signal Processing 16 (January 10, 2022): 272–77. http://dx.doi.org/10.46300/9106.2022.16.33.

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In recent times rectangular patch antenna design has become the most innovative and popular subject due to its advantages, such as being lightweight, conformal, ease to fabricate, low cost and small size. In this paper design of aperture coupled microstrip patch antenna (MSA) on high index semiconductor material coupled with micromachining technique for performance enhancement is discussed. The performance in terms of return loss bandwidth, gain, cross-polarization and antenna efficiency is compared with standard aperture coupled antenna. Micromachining underneath of the patch helps in to reduce the effective dielectric constant, which is desirable for the radiation characteristics of the patch antenna. Improvement 36 percent and 18 percent in return loss bandwidth and gain respectively achieved using micromachined aperture coupled feed patch, which is due to the reduction in losses, suppression of surface waves and substrate modes. In this article along with design, fabrication aspects on Si substrate using MEMS process also discussed. Presented antenna design is proposed antenna can be useful in smart antenna arrays suitable in satellite, radar communication applications. Two topologies at X-band are fabricated and comparison between aperture coupled and micromachined aperture coupled are presented. Index Terms—Microstrip Patch Antenna, Aperture Coupled, Micromachining, High Resistivity Silicon
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3

Чурсина, О. А., Е. А. Литинская, К. В. Плыкин, С. В. Поленга, А. А. Баскова та Р. О. Рязанцев. "Низкопрофильная сканирующая антенная решетка на основе излучающего элемента с апертурной связью". Письма в журнал технической физики 49, № 15 (2023): 12. http://dx.doi.org/10.21883/pjtf.2023.15.55857.19563.

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A low-profile antenna array based on an aperture-coupled element with wide-angle mechanoelectric scanning is considered. The scanning sector of the developed antenna array is 0°-60° by the criterion of the gain degradation not more than by 3 dB at a profile of the whole antenna is 48 mm. Developed antenna aperture-coupled element with two linear orthogonal polarizations has a multilayer structure and gain more 7 dB in the frequency band 10.7-12.75 GHz. The presented antenna array consists of eight identical subarrays, each consisting of 16 aperture-coupled radiators. Modeling and analysis of the directional characteristics of the antenna array based on an aperture-coupled radiator are performed. Conclusions about the applicability of the proposed antenna array based on the aperture-coupled element in ground terminals of satellite communication, including for low-orbit and medium-orbit systems is done.
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4

Rao, Q., and R. H. Johnston. "Modified Aperture Coupled Microstrip Antenna." IEEE Transactions on Antennas and Propagation 52, no. 12 (December 2004): 3397–401. http://dx.doi.org/10.1109/tap.2004.836415.

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5

Park, I., and R. Mittra. "Aperture-coupled small microstrip antenna." Electronics Letters 32, no. 19 (1996): 1741. http://dx.doi.org/10.1049/el:19961188.

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6

Milligan, T., and N. Herscovici. "The aperture-coupled helix antenna." IEEE Antennas and Propagation Magazine 37, no. 3 (June 1995): 47–50. http://dx.doi.org/10.1109/74.388818.

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7

Wang, Bo, Yiqi Zhuang, Xiaoming Li, and Weifeng Liu. "Design of a novel dual ports antenna to enhance sensitivity of handheld RFID reader." International Journal of Microwave and Wireless Technologies 8, no. 2 (April 21, 2015): 369–77. http://dx.doi.org/10.1017/s1759078715000756.

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A compact dual ports antenna with high isolation is proposed for handheld radio frequency identification (RFID) reader which is rarely reported in open literatures. Different with conventional handheld RFID reader antennas with single port, the proposed antenna transmits and receives signal separately. The proposed antenna operating with full duplex mode can enhance effectively sensitivity of reader, since the strong transmitting signal of reader with single port is usually highly coupled with weak receiving backscatter signal of tag. The antenna utilizes E-shaped aperture-coupled patch structure that occupies less volume and provides further space-saving efficiency. The height of the proposed antenna is only 6.8 mm and the volume of that is 80 mm × 80 mm × 6.8 mm, which is easy to integrate in handheld RFID readers. The antenna uses two E-shaped coupling apertures to excite two orthogonal modes for dual-polarized operation. High isolation of around −30 dB is obtained by proper arrangement of the length of coupling apertures and the position of the stubs. The measured results show −10 dB matching band and −25 dB isolation band from 2.32 to 2.6 GHz and from 2.3 to 2.55 GHz, respectively. The antenna is suitable for applications in handheld RFID readers.
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8

Duffy, S. M., and D. M. Pozar. "Circularly polarised aperture coupled microstrip antenna." Electronics Letters 31, no. 16 (August 3, 1995): 1303–5. http://dx.doi.org/10.1049/el:19950937.

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9

Oostlander, R., Y. M. M. Antar, A. Ittipiboon, and M. Cuhaci. "Aperture coupled microstrip antenna element design." Electronics Letters 26, no. 4 (1990): 224. http://dx.doi.org/10.1049/el:19900151.

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10

Croq, F., and A. Papiernik. "Large bandwidth aperture-coupled microstrip antenna." Electronics Letters 26, no. 16 (1990): 1293. http://dx.doi.org/10.1049/el:19900832.

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Дисертації з теми "APERTURE COUPLED ANTENNA"

1

Civerolo, Michael Paul. "Aperture Coupled Microstrip Antenna Design and Analysis." DigitalCommons@CalPoly, 2010. https://digitalcommons.calpoly.edu/theses/300.

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A linearly-polarized aperture coupled patch antenna design is characterized and optimized using HFSS antenna simulation software. This thesis focuses on the aperture coupled patch antenna due to the lack of fabrication and tuning documentation for the design of this antenna and its usefulness in arrays and orthogonally polarized communications. The goal of this thesis is to explore dimension effects on aperture coupled antenna performance, to develop a design and tuning procedure, and to describe performance effects through electromagnetic principles. Antenna parameters examined in this study include the dimensions and locations of the substrates, feed line, ground plane coupling slot, and patch. The operating frequency, input VSWR, percent bandwidth, polarization ratio, and broadside gain are determined for each antenna configuration. The substrate material is changed from RT Duroid (material in nominal HFSS design) to FR4 due to lower cost and availability. The operating frequency is changed from 2.3GHz (specified in nominal HFSS design) to 2.4GHz for wireless communication applications. Required dimensional adjustments when changing substrate materials and operating frequencies for this antenna are non-trivial and the new design procedure is used to tune the antenna. The antenna is fabricated using 59mil thick double and single sided FR4 boards joined together with double sided 45mil thick acrylic tape. The antenna is characterized in an anechoic chamber and experimental results are compared to theoretical predictions. The results show that the new design procedure can be successfully applied to aperture coupled antenna design.
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2

Zubir, Farid. "Direct integration of push-pull amplifier and aperture coupled antenna." Thesis, University of Birmingham, 2016. http://etheses.bham.ac.uk//id/eprint/6454/.

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The work described in this thesis concerns the integration of push-pull class B amplifier and antenna modules. Push-pull class B is well-known with its fruitful advantages of using differential feeding technique, resulting in low distortion, reasonably high efficiency and high output power. Meanwhile, the antenna module in this work is adapted from the aperture-coupled antenna structure due to its degree of freedom to control the variables which provide the best possible topology that could be realised in system on chip or system in package. More generally, the variables allow good coverage of the Smith Chart so that a wide range of odd-mode matching requirements could be met, for different devices and bias condition of a given transistor. The approach also offers additional filtering up to 3rd harmonic in that it comprises identical harmonic traps on both sides of the aperture using resonant stubs to form bandstop filters, which reduce the ripples at the output waveforms, giving them a significant advantage of neat and tight integration of a push-pull transmitting amplifier.
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3

Zivanovic, Bojana. "Series-Fed Aperture-Coupled Microstrip Antennas and Arrays." Scholar Commons, 2012. http://scholarcommons.usf.edu/etd/4425.

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The focus of this dissertation is on the development and circuit modeling of planar series-fed, linear- and circular-polarized microstrip aperture-coupled antennas and N-element arrays operating in C-band. These arrays were designed to be used as part of airborne or land-based frequency-hopped communication systems. One of the main objectives of this work was to maintain a constant beam angle over the frequency band of operation. In order to achieve constant beam pointing versus frequency, an anti-symmetric series-fed approach using lumped-element circuit models was developed. This series feed architecture also balances the power radiated by each element in the N-element arrays. The proposed series-fed approach was used in the development of four-element series-fed aperture-coupled arrays with 15% 10 dB impedance bandwidth centered at 5 GHz and a gain of 11.5 dB, to construct an omni-directional radiator. Omni-directional radiators with pattern frequency stability are desired in a multitude of applications; from defense in tactical communications, information gathering, and detection of signal of interest to being part of sensors in medical applications. A hexagonal assembly of six series-fed microstrip aperture-coupled four-element arrays was used to achieve the omni-directional radiation with 0.6 dB peak to peak difference across 360˚ broadside pattern and 0.6 dB gain variation at the specific azimuth angle across 15% impedance bandwidth. Given that each of these six arrays can be individually controlled, this configuration allows for individual pattern control and reconfiguration of the omni-directional pattern with increased gain at specific azimuth angles and the ability to form a directional pattern by employing a fewer number of arrays. Incorporating a beam-forming network or power distribution network is also possible. Wide 3 dB circular polarization (CP) bandwidth was achieved without external couplers and via only a single feed with a unique Z-slot aperture-coupled microstrip antenna. A single RHCP Z-slot aperture-coupled antenna has ∼10% CP and 10 dB impedance bandwidth. The series-fed network consisting of lumped elements, open-circuited stubs and transmission lines was subsequently developed to maintain more than 5% CP and 10% 10 dB impedance bandwidth in the series-fed four-element Z-slot aperture-coupled CP array that could also be used for-omni-directional radiation.
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4

Iseri, Kadir. "Analysis Of Dual-polarized Aperture-coupled Microstrip Antennas With H-shaped Slots And Equivalent Circuit Modeling Of H-shaped Slots." Master's thesis, METU, 2012. http://etd.lib.metu.edu.tr/upload/12614527/index.pdf.

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This thesis includes the design, production and measurement of a wideband dualpolarized X-band aperture-coupled microstrip patch antenna. The wideband and dual-polarized operation is achieved through the use of H-shaped coupling slots. Therefore, the equivalent circuit modeling of a microstrip line fed H-shaped slot is also studied in this thesis. A step-by-step procedure is followed during the design process of the dual-polarized aperture-coupled microstrip antenna. First, an aperture-coupled microstrip antenna with a single rectangular slot, that exhibits a wideband characteristic for single polarization, is designed. Then, the design procedure is repeated for an antenna with H-shaped slot in order to satisfy the same specifications with a shorter slot. Finally, dual-polarized aperture-coupled microstrip antenna is designed. At this configuration, two H-shaped slots are used and they are placed orthogonal to each other. During the design process, the effects of antenna parameters on the input impedance characteristics of the antenna are investigated. These parametric analyses are done in CST Microwave Studio®
. The v designed dual-polarized wideband aperture-coupled microstrip antenna is manufactured. Simulation results and measurement results are compared. During the equivalent circuit modeling of an H-shaped slot fed by a microstrip line, an approach based on the reciprocity theorem is utilized. The method was originally proposed for rectangular shaped slots, in this thesis it is generalized for arbitrarily shaped slots. Software codes are developed in MATLAB to calculate the equivalent impedance of the slot.
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5

Vlasits, Tamas. "Modelling and application of a cross-aperture coupled single feed circularly polarised patch antenna." Thesis, Northumbria University, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.245262.

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6

Liu, Lei. "Investigation of aperture coupled microstrip antenna to obtain a high efficient active integrated antenna by using Class F and Inverse Class F power amplifiers." Thesis, Northumbria University, 2013. http://nrl.northumbria.ac.uk/21425/.

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In wireless communications and radar systems, there are requirements for high efficiency, small size, low cost, and wide bandwidth of transmitter front –end usage for commercial and also military applications. Active integrated antenna (AIA) could satisfy almost all the requirements. The overall objective of the proposed research is to model, optimise, and design a compact and high efficient AIA using an aperture coupled microstrip antenna (ACMA) by integrating with a power amplifier (PA). Research on ACMA has been focused on the transmissions line (TL) model (TLM) and full wave electromagnetic (EM) model analysis. The full wave investigation is rigorous and elegant but because the dimension of the physical model and the value of the circuit elements are interdependent, the design of the antenna is still difficult. TLM analysis has lower accuracy but easier to analysis and optimise than full wave EM model analysis. To increase the accuracy, the challenge is the coupling ratios between feed/slot, and slot/patch where no unique solution at the moment exists. In this thesis, a novel and simplified method has been produced to investigate these ratios using Scattering (S) parameters. A dual frequency ACMA has been designed to verify these results. Research on the class F and inverse class F PAs is carried out by a novel and simplified load/pull method. A new design method of harmonic load matching network has been presented using lump elements and TLs. Both linear and nonlinear modelling has been investigated. High power added efficiency (PAE) and high gain which are up to 60% and 12dB have been obtained. Finally AIAs have been produced based on previous investigation on class F, inverse class F PAs and a broadband circular polarized ACMA design with 350 MHz bandwidth and 8.5 dB gain at 2 GHz.
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7

Okuducu, Yusuf. "Dual Band Microstrip Patch Antenna Structures." Master's thesis, METU, 2005. http://etd.lib.metu.edu.tr/upload/2/12606859/index.pdf.

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Wideband and dual band stacked microstrip patch antennas are investigated for the new wideband and dual band applications in the area of telecommunications. In this thesis, aperture-coupled stacked patch antennas are used to increase the bandwidth of the microstrip patch antenna. By this technique, antennas with 51% bandwidth at 6.1 GHz and 43% bandwidth at 8 GHz satisfying S11<
-15 dB are designed, manufactured and measured. A dual-band aperture coupled stacked microstrip patch antenna operating at 1.8 GHz with 3.8% bandwidth and at 2.4 GHz with 1.6% bandwidth is designed, produced and measured for mobile phone and WLAN applications. In addition, an aperture coupled stacked microstrip patch antenna which operates at PCS frequencies in 1.7-1.95 GHz band is designed. Dual and circularly polarized stacked aperture coupled microstrip patch antennas are also investigated. A triple band dual polarized aperture coupled stacked microstrip patch antenna is designed to operate at 900 MHz, at 1.21 GHZ and at 2.15 GHz. Mutual coupling between aperture coupled stacked microstrip patch antennas are examined and compared with the coupling of aperture coupled microstrip patch antennas
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8

Bílek, Ondřej. "Flíčkový reflektor s elektronickým řízením směrové charakteristiky." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2017. http://www.nusl.cz/ntk/nusl-316447.

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The diploma thesis is aimed to design, optimize, produce and subsequently measure the properties of the reflector with the electronic steering direction for the frequency of the 24,125 GHz band ISM. The problem chosen is solved by a group of voltage-controlled varicaps. The reflector consists of a matrix of two rows, each containing 3 cells. The reflector was designed by full-wave software CST Microwave Studio 2015.
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9

Liyakath, Riaz Ahmed. "Reconfigurable Antenna and RF Circuits Using Multi-Layer Stretchable Conductors." Scholar Commons, 2012. http://scholarcommons.usf.edu/etd/4130.

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The growth of flexible electronics industry has given rise to light-weight, flexible devices which have a wide range of applications such as wearable electronics, flexible sensors, conformal antennas, bio-medical applications, solar cells etc. Though several techniques exist to fabricate flexible devices, the limiting factors have been durability, cost and complexity of the approach. In this research, the focus has been on developing stretchable (flexible) conductors using a multi-layer structure of metal and conductive rubber. The stretchable conductors developed using this approach do not lose electrical connection when subjected to large strains up to 25%. Also, the conductivity of the conductive rubber has been improved by ~20 times using the multi-layer approach. Furthermore, the multi-layer approach was used to fabricate devices for RF and antenna applications. A flexible micro-stripline was fabricated using the multi-layer approach to study the performance at microwave frequencies up to 5 GHz. It was observed that using an optimal metal and conductive rubber layer structure can help to reduce the loss of the device by 58% and also the device does not get damaged due to bending. In addition to this, an aperture-coupled patch antenna at 3.1 GHz was fabricated using the multi-layer approach to demonstrate reconfigurability. Ideally, the multi-layer patch antennas can be stretched up to 25% which helps to tune the resonance frequency from 3.1 GHz to 2.5 GHz. The multi-layer patch antennas were tested up to ~10% strains to study their radiation properties. It was demonstrated that using an ideal multi-layer structure of metal and conductive rubber layer can help to improve the antenna's peak gain by 3.3 dBi compared to a conductive rubber based antenna.
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10

GUGLIANDOLO, GIOVANNI. "Applications of Microwave Resonators to Thermal Metrology." Doctoral thesis, Politecnico di Torino, 2020. http://hdl.handle.net/11583/2849028.

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Книги з теми "APERTURE COUPLED ANTENNA"

1

Q, Lee Richard, and United States. National Aeronautics and Space Administration., eds. Planar dielectric resonator stabilized HEMT oscillator integrated with CPW/aperture coupled patch antenna. [Washington, D.C.]: National Aeronautics and Space Administration, 1991.

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2

Vlasits, Tamás. Modelling and application of a cross-aperture coupled single feed circularly polarised patch antenna. 1997.

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3

Robinson, Bryan. Mathematical modelling of aperture coupled patch antennas with multi-layered superstrates. 1997.

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Частини книг з теми "APERTURE COUPLED ANTENNA"

1

Khobragade, Sanjay, Sanjay Nalbalwar, and Anil Nandgaonkar. "Fractal Tree Microstrip Antenna Using Aperture Coupled Ground." In Advances in Intelligent Systems and Computing, 507–17. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-2008-9_48.

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2

Bansode, Pranoti S., and D. C. Gharpure. "Design of Aperture Coupled Microstrip Phased Array Antenna." In Lecture Notes in Electrical Engineering, 97–111. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-7076-3_10.

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3

Sörgel, W., C. Waldschmidt, and W. Wiesbeck. "An Ultra Wideband Aperture Coupled Bowtie Antenna for Communications." In Ultra-Wideband, Short-Pulse Electromagnetics 7, 409–16. New York, NY: Springer New York, 2007. http://dx.doi.org/10.1007/978-0-387-37731-5_45.

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4

Yadav, Sachin Kumar, Amanpreet Kaur, and Rajesh Khanna. "Aperture-Coupled Rectangular Dielectric Resonator Antenna for Multiband Applications." In Innovations in Cyber Physical Systems, 793–99. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-4149-7_73.

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5

Aris, M. A., M. T. Ali, and N. H. Abd Rahman. "Frequency Reconfigurable Aperture-Coupled Microstrip Array Antenna Using Periodic Defected Ground Structures." In Theory and Applications of Applied Electromagnetics, 61–69. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-30117-4_6.

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6

Zebiri, Chemseddine, Djamel Sayad, Fatiha Benabelaziz, Mohamed Lashab, and Ammar Ali. "Impact of Microstrip-Line Defected Ground Plane on Aperture-Coupled Asymmetric DRA for Ultra-Wideband Applications." In Antenna Fundamentals for Legacy Mobile Applications and Beyond, 101–18. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-63967-3_5.

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7

Targonski, S. D., and D. M. Pozar. "Wideband Circularly Polarized Aperture-Coupled Microstrip Antennas." In Ultra-Wideband, Short-Pulse Electromagnetics, 189–94. Boston, MA: Springer US, 1993. http://dx.doi.org/10.1007/978-1-4615-2870-8_22.

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8

Bugaj, Marek, and Marian Wnuk. "Bandwidth Optimization of Aperture-Coupled Stacked Patch Antenna." In Advancement in Microstrip Antennas with Recent Applications. InTech, 2013. http://dx.doi.org/10.5772/54661.

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9

"Broadbanding Techniques IV — Aperture Coupled Patches." In Microstrip Patch Antennas, 291–320. IMPERIAL COLLEGE PRESS, 2010. http://dx.doi.org/10.1142/9781848164543_0012.

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"Broadbanding Techniques IV — Aperture Coupled Patches." In Microstrip Patch Antennas, 313–42. WORLD SCIENTIFIC, 2017. http://dx.doi.org/10.1142/9789813208605_0012.

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Тези доповідей конференцій з теми "APERTURE COUPLED ANTENNA"

1

Ismail, M. F., M. K. A. Rahim, H. A. Majid, M. R. Hamid, M. R. Kamarudin, and N. A. Murad. "Frequency reconfigurable aperture coupled antenna." In 2012 6th European Conference on Antennas and Propagation (EuCAP). IEEE, 2012. http://dx.doi.org/10.1109/eucap.2012.6206472.

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2

Aijaz, Zarreen, and S. C. Shrivastava. "Aperture coupled microstrip slot antenna." In 2008 International Conference on Recent Advances in Microwave Theory and Applications (MICROWAVE). IEEE, 2008. http://dx.doi.org/10.1109/amta.2008.4763142.

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Kaushal, Shailendra, Ryuta Yamamoto, Kiyoshi Kobayashi, and Nina Guan. "Aperture Coupled Beamforming Antenna Array." In 2018 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting. IEEE, 2018. http://dx.doi.org/10.1109/apusncursinrsm.2018.8608334.

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4

Civerolo, M., and D. Arakaki. "Aperture coupled patch antenna design methods." 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.2011.5996415.

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5

Rongzheng Li, Changzhou Hua, Yunlong Lu, Zhangmin Wu, and Yi Wang. "Dual-polarized aperture-coupled filtering antenna." In 2017 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM). IEEE, 2017. http://dx.doi.org/10.1109/iwem.2017.7968814.

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6

Kamma, Anil, Praveen S, and Jayanta Mukherjee. "Dual band aperture coupled MIMO antenna." In 2016 Asia-Pacific Microwave Conference (APMC). IEEE, 2016. http://dx.doi.org/10.1109/apmc.2016.7931327.

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7

Tripathi, Subodh Kumar, and Anuj Sharma. "Dual resonant aperture coupled microstrip antenna." In 2011 3rd International Conference on Electronics Computer Technology (ICECT). IEEE, 2011. http://dx.doi.org/10.1109/icectech.2011.5942011.

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8

Balusa, Vinay, V. S. K. Pavan Kumar, and B. T. P. Madhav. "Aperture coupled feed circularly polarized antenna." In 2015 International Conference on Signal Processing And Communication Engineering Systems (SPACES). IEEE, 2015. http://dx.doi.org/10.1109/spaces.2015.7058257.

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9

Gugliandolo, Giovanni, Krishna Naishadham, Nicola Donato, Giovanni Neri, and Vito Fernicola. "Sensor-Integrated Aperture Coupled Patch Antenna." In 2019 IEEE International Symposium on Measurements & Networking (M&N). IEEE, 2019. http://dx.doi.org/10.1109/iwmn.2019.8805023.

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10

Ittipiboon, A., D. Roscoe, Y. Antar, M. Cuhaci, and L. Shafai. "EHF aperture-coupled microstrip antenna development." In 1992 Symposium on Antenna Technology and Applied Electromagnetics. IEEE, 1992. http://dx.doi.org/10.1109/antem.1992.7854250.

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Звіти організацій з теми "APERTURE COUPLED ANTENNA"

1

Sullivan, Peter L., and Daniel H. Schaubert. Analysis of an Aperture Coupled Microstrip Antenna. Fort Belvoir, VA: Defense Technical Information Center, February 1986. http://dx.doi.org/10.21236/ada165283.

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