Bibliografie tematiche / Coupled microstrip transmission line

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Letteratura scientifica selezionata sul tema "Coupled microstrip transmission line"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 1 febbraio 2022

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Articoli di riviste sul tema "Coupled microstrip transmission line"

1

Islam, R., e G. V. Eleftheriades. "Review of the microstrip/negative-refractive-index transmission-line coupled-line coupler". IET Microwaves, Antennas & Propagation 6, n. 1 (2012): 31. http://dx.doi.org/10.1049/iet-map.2011.0225.

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2

Himdi, M., J. P. Daniel e C. Terret. "Transmission line analysis of aperture-coupled microstrip antenna". Electronics Letters 25, n. 18 (1989): 1229. http://dx.doi.org/10.1049/el:19890824.

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3

La, Dong-Sheng, Xin Guan, Shuai-Ming Chen, Yu-Ying Li e Jing-Wei Guo. "Wideband Band-Pass Filter Design Using Coupled Line Cross-Shaped Resonator". Electronics 9, n. 12 (17 dicembre 2020): 2173. http://dx.doi.org/10.3390/electronics9122173.

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In this paper, a wideband bandpass filter with a coupled line cross-shaped resonator (CLCSR) is proposed. The proposed bandpass filter is composed of two open-end parallel coupled lines, one short-end parallel coupled line, one branch microstrip line, and the parallel coupled line feed structure. With the use of the even and odd mode approach, the transmission zeros and transmission poles of the proposed bandpass filter are analyzed. The coupling coefficient of the parallel coupled line feed structure is big, so the distance between the parallel coupled line is too small to be processed. A three microstirp lines coupled structure is used to realize strong coupling and cross coupling. This structure also can reduce the return loss in passband and increase the out-of-band rejection. The transmission zeros can be adjusted easily by varying the lengths of the open-end parallel coupled line or the short-end parallel coupled line. The proposed bandpass filter is fabricated and measured. The simulated results agree well with the measured ones, which shows that the design method is valid.
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El Yazidi, M., M. Himdi e J. P. Daniel. "Transmission line analysis of nonlinear slot coupled microstrip antenna". Electronics Letters 28, n. 15 (1992): 1406. http://dx.doi.org/10.1049/el:19920894.

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5

Cheng-Cheh Yu e Kai Chang. "Transmission-line analysis of a capacitively coupled microstrip-ring resonator". IEEE Transactions on Microwave Theory and Techniques 45, n. 11 (1997): 2018–24. http://dx.doi.org/10.1109/22.644224.

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6

Chao-Huang Wu, Yo-Shen Lin, Chi-Hsueh Wang e Chun Hsiung Chen. "Compact microstrip coupled-line bandpass filter with four transmission zeros". IEEE Microwave and Wireless Components Letters 15, n. 9 (settembre 2005): 579–81. http://dx.doi.org/10.1109/lmwc.2005.855375.

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7

Shi, Jin, Jiancheng Dong, Kai Xu e Lingyan Zhang. "Miniaturized Wideband Bandpass Filter based on Capacitor-loaded One-eighth Wavelength Coupled Line". Applied Computational Electromagnetics Society 36, n. 7 (19 agosto 2021): 865–71. http://dx.doi.org/10.47037/2021.aces.j.360707.

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Abstract (sommario):
A novel miniaturized wideband bandpass filter (BPF) using capacitor-loaded microstrip coupled line is proposed. The capacitors are loaded in parallel and series to the coupled line, which makes the filter just require one one-eighth wavelength coupled line and achieve filtering response with multiple transmission poles (TPs) and transmission zeros (TZs). Compared with the state-of-the-art microstrip wideband BPFs, the proposed filter has the advantages of compact size and simple structure. A prototype centered at 1.47 GHz with the 3-dB fractional bandwidth of 86.5% is demonstrated, which exhibits the compact size of 0.003λ2 g (λg is the guided wavelength at the center frequency) and the minimum insertion loss of 0.37 dB.
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Soleimani, Nastaran, Mohammad G. H. Alijani e Mohammad H. Neshati. "Crosstalk analysis of multi‐microstrip coupled lines using transmission line modeling". International Journal of RF and Microwave Computer-Aided Engineering 29, n. 6 (3 gennaio 2019): e21677. http://dx.doi.org/10.1002/mmce.21677.

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Dekleva, J., e V. Roje. "Accurate numerical solution of coupled integral equations for microstrip transmission line". IEE Proceedings H Microwaves, Antennas and Propagation 134, n. 2 (1987): 163. http://dx.doi.org/10.1049/ip-h-2.1987.0031.

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Al-Jibouri, B., T. Vlasits, E. Korolkiewicz, S. Scott e A. Sambell. "Transmission-line modelling of the cross-aperture-coupled circular polarised microstrip antenna". IEE Proceedings - Microwaves, Antennas and Propagation 147, n. 2 (2000): 82. http://dx.doi.org/10.1049/ip-map:20000069.

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Tesi sul tema "Coupled microstrip transmission line"

1

Wimberley, Jack Timpson. "Behavior of Periodic Coupled Microstrip Resonators". Thesis, Boston College, 2011. http://hdl.handle.net/2345/1983.

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Thesis advisor: Krzysztof Kempa
The resonant modes of a sequence of periodically spaced microstrip resonators is studied. The system is analyzed as transmission line with periodic capacitive gaps, as a waveguide with apertures via normal mode expansion, and through a derivation of the static fields in the gap between two microstrip resonators via conformal mapping. FDTD simulations are also performed to numerically calculate the resonant modes of the sequence and also its absorption spectrum when it contains a lossy dielectric. It is found, as expected, that when the gap size is large, the microstrip resonators are uncoupled and there resonant modes are unperturbed. As the gap size narrows, the resonators become strongly coupled, and changing boundary conditions perturb the resonant modes upwards in frequency. Moreover, an additional resonant mode is observed that does not correspond to any uncoupled mode
Thesis (BS) — Boston College, 2011
Submitted to: Boston College. College of Arts and Sciences
Discipline: College Honors Program
Discipline: Physics Honors Program
Discipline: Physics
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2

Uzelac, Lawrence Stevan. "A Multiple Coupled Microstrip Transmission Line Model for High-Speed VLSI Interconnect Simulation". PDXScholar, 1991. https://pdxscholar.library.pdx.edu/open_access_etds/4526.

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A model is presented which incorporates the advantages of a mixed mode simulation to characterize transmission line behavior in multiple coupled Transmission line systems. The model is intended for use by digital circuit designers who wish to be able to obtain accurate transmission line behavior for complex digital systems for which continuous time simulation tools such as SPICE would time prohibitive. The model uses a transverse electromagnetic wave approximation to obtain solutions to the basic transmission line equations. A modal analysis technique is used to solve for the attenuation and propagation constants for the transmission lines. Modal analysis done in the frequency domain after a Fast Fourier Transform of the time-domain input signals. Boundary conditions are obtained from the Thevinized transmission line input equivalent circuit and the transmission line output load impedance. The model uses a unique solution queue system that allows n-line coupled transmission lines to be solved without resorting to large order matrix methods or the need to diagonals larger matrices using linear transformations. This solution queue system is based on the method of solution superposition. As a result, the CPU time required for the model is primarily a function of the number of transitions and not the number of lines modeled. Incorporation of the model into event driven circuit simulators such as Network C is discussed. It will be shown that the solution queue methods used in this model make it ideally suited for incorporation into a event-driven simulation network. The model presented in this thesis can be scaled to incorporate direct electromagnetic coupling between first, second, or third lines adjacent to the line transitioning. It is shown that modeling strictly adjacent line coupling is adequate for typical digital technologies. It is shown that the model accurately reproduces the transmission line behavior of systems modeled by previous authors. Example transitions on a 8-line system are reviewed. Finally, future model improvements are discussed.
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Pajares, Vega Francisco Javier. "Modelatge multimodal de transicions en entorn microstrip". Doctoral thesis, Universitat Ramon Llull, 2007. http://hdl.handle.net/10803/9134.

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Avui dia cada vegada s'ha de tenir més en compte com es realitza el traçat de pistes en les plaques de circuit imprès (PCB). Això és degut a que cada vegada més hi viatgen senyals amb components freqüencials més elevades. Per tant, paràmetres com la desadaptació per impedància característica, acoblaments, ressonàncies i comportaments complexes de les transicions que es troben els senyals en la seva propagació per les pistes, han de ser considerats per evitar problemes d'integritat del senyal i garantir la compatibilitat electromagnètica (EMC) amb el seu entorn.
El present treball de tesi s'ha centrat en l'estudi del comportament d'una situació particular, però molt habitual, de pistes: dues pistes sobre un pla de massa, formant el que es coneix com una línia de transmissió microstrip acoblada. Els senyals que viatgen a través d'una línia microstrip acoblada es poden descompondre en dos modes bàsics de propagació: mode comú (on la tensió està definida entre el pla de massa i cada pista) i el mode diferencial (on la tensió està definida entre les pistes). Aquesta descomposició és molt habitual en el món de la compatibilitat electromagnètica ja que les tècniques de filtratge de les interferències varien depenent si aquestes viatgen en mode comú o en mode diferencial.
El treball desenvolupat s'ha focalitzat en l'estudi, des d'aquest punt de vista multimodal (que té en compte simultàniament tant el mode comú com el diferencial), de les diferents transicions que es pot trobar el senyal en la seva propagació degut al traçat de pistes. Com a resultat d'aquest estudi s'han obtingut uns models circuitals que permeten l'anàlisi i simulació dels diferents modes que intervenen i que han estat validats de forma experimental. Aquest fet ha permès l'ús d'aquests models en l'anàlisi de problemes d'integritat del senyal que són comuns en el entorn de la compatibilitat electromagnètica (EMC). Els resultats obtinguts han estat presentats en congressos nacionals i internacionals.
Hoy en día cada vez se debe tener más en cuenta como se realiza el trazado de pistas en las placas de circuito impreso (PCB). Esto es así debido a que cada vez más viajan por ellas señales con componentes frecuenciales más elevadas. Por lo tanto, parámetros como la desadaptación por impedancia característica, acoplamientos, resonancias y comportamientos complejos de las transiciones que se encuentran las señales mientras se propagan por las pistas, deben ser tenidos en consideración para evitar problemas de integridad de la señal y garantizar la compatibilidad electromagnética (EMC) con su entorno.
En el presente trabajo de tesis se ha centrado en el estudio del comportamiento de una situación particular, pero habitual, de pistas: dos pistas sobre un plano de masa, formando lo que se conoce como línea de transmisión microstrip acoplada. Las señales que viajan a través de una línea microstrip acoplada se pueden descomponer en dos modos básicos de propagación: modo común (donde la tensión está definida entre el plano de masa y cada pista) y modo diferencial (donde la tensión está definida entre pistas). Esta descomposición es muy habitual en el mundo de la compatibilidad electromagnética ya que las técnicas de filtrado de las interferencias varían dependiendo si estas viajan en modo común o en modo diferencial.
El trabajo desarrollado se ha focalizado en el estudio, desde este punto de vista multimodal (que tiene en cuenta simultáneamente tanto el modo común como el diferencial), de las diferentes transiciones que puede encontrarse la señal durante su propagación debido al trazado de pistas. Como resultado se han obtenido unos modelos circuitales que permiten el análisis y simulación de los diferentes modos que intervienen y que han sido validados de forma experimental. Este hecho ha permitido el uso de dichos modelos en el análisis de problemas de integridad de la señal que son comunes en el entorno de la compatibilidad electromagnética (EMC). Los resultados obtenidos han sido mostrados en congresos nacionales e internacionales.
Nowadays, the placement of the strips in a printed circuit board (PCB) has to be performed with increasing care, because of the rise of the spectral content of the signals propagating through the strips. Due to this fact, mismatches of the characteristic impedances, crosstalks, resonances and complex behavior of the transitions that the signals may encounter in their propagation have to be considered in order to avoid signal integrity problems and to guarantee the electromagnetic compatibility with their environment.
This work is focused on the study of the behavior of a particular, but also a very common way of routing strips: two close strips above a ground plane, forming a extit{coupled microstrip transmission line}. The signals present at this transmission line can be decomposed into two basic signals known as common mode (where its voltage is defined between the ground plane and each strip) and differential mode (where its voltage is defined between the two strips). This decomposition is often found in electromagnetic compatibility because the different techniques of filtering interferences depend on their main mode of propagation.
The study carried out in this thesis is focused on the analysis from a multimodal point of view of different transitions that signals encounter during their propagation in a coupled microstrip transmission line.
As a result of this analysis, a number of circuit models for different transitions have been obtained and experimentally validated. These models have been used to successfully study signal integrity problems found in EMC and they have been presented in national and international symposiums.
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4

Elkalsh, Ahmed. "Coupled electro-thermal transmission line modelling (TLM) method". Thesis, University of Nottingham, 2017. http://eprints.nottingham.ac.uk/40661/.

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The theme of this thesis is concerned with the modelling of the multi-physics interactions that occur in lightning and arc discharge. The main contributions of this research are presented as combining different physical studies namely, electromagnetic (EM) propagation, thermal diffusion and non-linear materials using a numerical algorithm. The algorithm was developed based on the two dimensional (2D) numerical transmission line method (TLM). The algorithm was applied to several practical examples namely, to model the electro-thermal analysis and the temperature development in a plasmonic nano-heat sources for terahertz applications; to predict the shape and the location of an arc discharge channel caused by a lightning strike using electro-thermal analysis, and to model diverter strips for lightning protection on aeroplanes. Different electro-thermal coupling approaches, such as fully and partially coupled methods were used to investigate the efficiency and accuracy of the model. In the fully coupled method the thermal model was allowed to change the electrical properties of materials in the electromagnetic model. On the other hand partial coupling did not consider the temperature dependency of the electrical properties in the electromagnetics model. Both of the models used the dissipated power from the electromagnetic model as a source signal to evaluate the temperature profile in the thermal model. Also different coupling interval timesteps were investigated to minimize the computational power needed without affecting the model accuracy.
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Imran, Md Asheque. "Dual-Band Quarter Wavelength and Half Wavelength Microstrip Transmission Line Design". Thesis, University of North Texas, 2015. https://digital.library.unt.edu/ark:/67531/metadc801931/.

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The thesis represents the design for dual-band quarter wavelength and half wavelength microstrip transmission line. Chapter 2 proposed the design of a novel dual-band asymmetric pi-shaped short-circuited quarter wavelength microstrip transmission line working at frequencies 1GHz and 1.55 GHz for 50Ω transmission line and at frequencies 1GHz and 1.43GHz for 60Ω transmission line. Chapter 3 proposed the design of a novel dual-band quarter wavelength microstrip transmission line with asymmetrically allocated open stubs and short-circuited stubs working at frequencies 1GHz and 1.32GHz. Chapter 4 proposed the design of dual-band pi-shaped open stub half wavelength microstrip transmission line working at frequencies 1GHz and 2.07GHz. Numerical simulations are performed both in HyperLynx 3D EM and in circuit simulator ADS for all of the proposed designs to measure the return loss (S11) and insertion loss (S12) in dB and phase response for S12 in degree.
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Jin, Won Tae. "Circuit models for a millimeter-wave suspended-microstrip line discontinuity". Thesis, Monterey, California : Naval Postgraduate School, 1990. http://handle.dtic.mil/100.2/ADA240906.

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Thesis (M.S. in Systems Engineering (Electronic Warfare))--Naval Postgraduate School, September 1990.
Thesis Advisor(s): Atwater, Harry A. Second Reader: Janaswamy, Rama. "September 1990." Description based on title screen as viewed on December 29, 2009. DTIC Identifier(s): Suspended striplines, microstrip lines, equivalent circuits, program listings, theses. Author(s) subject terms: Suspended-microstrip line, step discontinuity, equivalent circuit model, step-change. Includes bibliographical references (p. 60). Also available in print.
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Choi, Man Soo. "Computer-aided design models for millimeter-wave suspended-substrate microstrip line". Thesis, Monterey, California : Naval Postgraduate School, 1990. http://handle.dtic.mil/100.2/ADA227259.

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Thesis (M.S. in Electrical Engineering)--Naval Postgraduate School, March 1990.
Thesis Advisor(s): Atwater, H.A. Second Reader: Lee, H. M. "March 1990." Description based on signature page as viewed on August 26, 2009. DTIC Descriptor(s): Strip Transmission Lines, Computer Aided Design, Computerized Simulation, Parameters, Microwave Equipment, Radar, Full Wave Rectifiers, Transmittance, Resonant Frequency, Construction, Wave Propagation, Coefficients, Boundary Value Problems, Resonators, Circuits, Discontinuities, Ka Band, Models, Scattering, Equivalent Circuits, Frequency. Author(s) subject terms: Millimeter wave, suspended substrate, design model. Includes bibliographical references (p. 78-79). Also available online.
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Chiang, Chun Pong. "Design of quasi-elliptic microstrip bandpass filter using terminated anti-parallel coupled-line structure". Thesis, University of Macau, 2007. http://umaclib3.umac.mo/record=b1937941.

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Wong, Man Fai. "A novel compact microstrip type composite right/left handed transmission line (CRLH TL) and its applications /". access full-text access abstract and table of contents, 2009. http://libweb.cityu.edu.hk/cgi-bin/ezdb/thesis.pl?mphil-ee-b23750467f.pdf.

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Thesis (M.Phil.)--City University of Hong Kong, 2009.
"Submitted to Department of Electronic Engineering in partial fulfillment of the requirements for the degree of Master of Philosophy." Includes bibliographical references.
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Shah, Chintan Hemendra. "Inductively Coupled Interconnect for Chip to Chip Communication over Transmission Line". NCSU, 2009. http://www.lib.ncsu.edu/theses/available/etd-04012009-003531/.

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As data frequency increases beyond several Gbps range, low power chip to chip communication becomes more critical. The concept researched in this thesis is inductively coupled interconnect (LCI) over short length transmission line. The data will be transmitted across a 10 cm differential microstrip line on FR-4 material with a transformer on each side of the line. The transmitter and receiver circuits are designed in TSMC 0.18μm process technology and can operate at 2.5 Gbps. The power consumption of the design is 5.53 mW at 2.5 Gbps which yields around 2.21 mW.Gb-1.s-1. This design can achieve BER of less than 10-12. The inductive coupling will reduce DC power because the low frequency DC component of the signal will be blocked by coupling inductors. The power consumed by this design is lower than most of the conventional I/Os that use physical contact interconnects. An H-bridge current steering driver is used at the transmitter and a differential amplifier and Sense-amp Flip flop is used at the receiver.
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Libri sul tema "Coupled microstrip transmission line"

1

Uysal, Sener. Nonuniform line microstrip directional couplers and filters. Boston: Artech House, 1993.

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Bahl, I. J., R. K. Mongia, J. Hong e P. Bhartia. RF and Microwave Coupled-Line Circuits. 2a ed. Artech House Publishers, 2007.

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RF and microwave coupled-line circuits. 2a ed. Norwood, MA: Artech House, 2007.

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Bahl, I. J. RF and Microwave Coupled-Line Circuits. 2a ed. Artech House Publishers, 1999.

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Kim, Yoonsuk. Characterization of coupled microstrip structure using FDTD. 1999.

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Broadband uniplanar microstrip to slot-line transitions. [Washington, DC: National Aeronautics and Space Administration, 1995.

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Capitoli di libri sul tema "Coupled microstrip transmission line"

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Ravelo, Blaise. "Cartographical Analyses of Reflection and Transmission Coefficients of Shunt Coupled Lines". In Analytical Methodology of Tree Microstrip Interconnects Modelling For Signal Distribution, 167–89. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-15-0552-2_9.

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Jha, Kumud Ranjan, e Ghanshyam Singh. "Multilayered Microstrip Transmission Line". In Terahertz Planar Antennas for Next Generation Communication, 23–37. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-02341-0_2.

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Vladislav Ivanovich, Danilchenko, Danilchenko Yevgenia Vladimirovna e Kureichik Viktor Mikhailovich. "Bioinspired Approach to Microstrip Transmission Line Design". In Software Engineering and Algorithms, 170–79. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-77442-4_15.

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Barbieri, Nilson, Marcos José Mannala, Renato Barbieri, Mayara Kelly Tenório Calado e Gabriel de Sant’Anna Vitor Barbieri. "Modal Analysis of Transmission Line Cables". In Dynamics of Coupled Structures, Volume 4, 367–70. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-54930-9_32.

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Ansari, Mohammad Ahmad, Poonam Agarwal e Krishnan Rajkumar. "Artificial Neural Network (ANN) to Design Microstrip Transmission Line". In Proceedings of International Conference on Artificial Intelligence and Applications, 25–33. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4992-2_3.

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Gurwinder Singh, Rajni e Anupma Marwaha. "Frequency Switching in Coupled Microstrip Line Loaded with Split-Ring Resonator". In Proceedings of the International Conference on Recent Cognizance in Wireless Communication & Image Processing, 573–80. New Delhi: Springer India, 2016. http://dx.doi.org/10.1007/978-81-322-2638-3_64.

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Vinothkumar, Samiappan, Shanmugasundaram Piramasubramanian e Muthu Ganesh Madhan. "A Meandered Transmission Line-based Microstrip Filter for Multiband OFDM Applications". In Lecture Notes in Networks and Systems, 455–64. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3812-9_48.

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Zebiri, Chemseddine, Djamel Sayad, Fatiha Benabelaziz, Mohamed Lashab e 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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Nosrati, M., e M. S. Fealy. "A Novel High-Miniaturized Semi-fractal Branch-Line Coupler Using Loaded Coupled Transmission Lines". In Ultra-Wideband, Short Pulse Electromagnetics 9, 151–55. New York, NY: Springer New York, 2010. http://dx.doi.org/10.1007/978-0-387-77845-7_17.

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Wei, Lim Yang, Kyota Otsuka e Takanobu Ohno. "Study of Transmission and Reflection Characteristics of Microstrip Line During Application of Noise Suppression Sheet by Adhesive". In The Malaysia-Japan Model on Technology Partnership, 243–51. Tokyo: Springer Japan, 2014. http://dx.doi.org/10.1007/978-4-431-54439-5_23.

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Atti di convegni sul tema "Coupled microstrip transmission line"

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Pallaviram, S. "Microstrip coupled line filter elements as CRLH transmission line unit cells". In 2009 Applied Electromagnetics Conference (AEMC 2009). IEEE, 2009. http://dx.doi.org/10.1109/aemc.2009.5430621.

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Khalaj-Amirhosseini, Mohammad, e Gholamali Rezai-rad. "Circular Symmetric Coupled Microstrip Transmission Lines". In 2008 IEEE International RF and Microwave Conference (RFM). IEEE, 2008. http://dx.doi.org/10.1109/rfm.2008.4897362.

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Cheraiet, Z., M. T. Benhabiles e M. L. Riabi. "Interwound and concentric Ruthroff 1∶4 transmission-line transformers using coupled microstrip lines". In 2017 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization for RF, Microwave, and Terahertz Applications (NEMO). IEEE, 2017. http://dx.doi.org/10.1109/nemo.2017.7964204.

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Arai, H., e N. Yoneyama. "Wireless power transmission system by tightly coupled microstrip line overlay resonators". In 2011 IEEE MTT-S International Microwave Workshop Series on Innovative Wireless Power Transmission: Technologies, Systems, and Applications (IMWS 2011). IEEE, 2011. http://dx.doi.org/10.1109/imws.2011.5877093.

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Li Shufang e Sun Fuxun. "Simulation for crosstalk in coupled microstrip transmission lines". In Proceedings. Asia-Pacific Conference on Environmental Electromagnetics. IEEE, 2003. http://dx.doi.org/10.1109/ceem.2003.238245.

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Cheraiet, Z., R. Khalef, M. T. Benhabiles e M. L. Riabi. "A broadband and low-loss Ruthroff 4∶9 transmission-line transformer using coupled Microstrip lines". In 2017 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization for RF, Microwave, and Terahertz Applications (NEMO). IEEE, 2017. http://dx.doi.org/10.1109/nemo.2017.7964240.

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Cheraiet, Z., M. T. Benhabiles e M. L. Riabi. "A broadband and high-efficiency Ruthroff 1:9 transmission-line transformer using coupled microstrip lines". In 2016 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO). IEEE, 2016. http://dx.doi.org/10.1109/nemo.2016.7561626.

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8

Letavin, Denis A. "Compact Dual-Frequency Microstrip Branch-Line Coupler Using Artificial Transmission Lines". In 2018 19th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM). IEEE, 2018. http://dx.doi.org/10.1109/edm.2018.8434988.

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Zhou, Xiang, Xue-guan Liu, Hui-ping Guo e Lv-xia Shao. "Design of broadband impedance transformer using coupled microstrip transmission lines". In 2009 3rd IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications (MAPE). IEEE, 2009. http://dx.doi.org/10.1109/mape.2009.5355844.

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Helen Judith, S. Shirley, S. Maheshwari Shanmugam e S. Hemajothi. "Miniaturization of Microstrip Branch-Line Coupler for Wireless Application With Branched Transmission Lines". In 2018 3rd International Conference on Communication and Electronics Systems (ICCES). IEEE, 2018. http://dx.doi.org/10.1109/cesys.2018.8723942.

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Rapporti di organizzazioni sul tema "Coupled microstrip transmission line"

1

Uzelac, Lawrence. A Multiple Coupled Microstrip Transmission Line Model for High-Speed VLSI Interconnect Simulation. Portland State University Library, gennaio 2000. http://dx.doi.org/10.15760/etd.6410.

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