Microstrip

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Microstrip is a type of electrical transmission line which can be fabricated using printed circuit board technology, and is used to convey microwave-frequency signals. (Wikipedia.org)






Conferences related to Microstrip

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2012 Asia Pacific Microwave Conference (APMC)

The conference will cover the entire scope of microwave engineering, including passive and active microwave components, devices, circuits and modules, MMICs, RFICs, EMC/EMI, antennas and propagation, and any other microwave related topics.


2012 European Microwave Conference (EuMC)

Microwave and millimeter wave: active/passive devices, antennas, electromagnetics, bio-interaction, circuits, manufacturing and measurement, MEMS, meta-materials, sensor networks, cognitive radio, 4G communications, space technology and applications.

  • 2011 European Microwave Conference (EuMC)

    Status and trends in microwave and millimetre-wave systems and technologies. High-frequency related topics, from materials and technologies to integrated circuits, systems and applications in all their aspects: theory, simulation, design and measurement including passive components, modelling and design of high frequency and high data rate photonics, highly stable and noiseless microwave and millimetre-wave sources, new linearisation techniques and the impact of new packaging technologies on development app

  • 2010 European Microwave Conference (EuMC)

    The European Microwave Conference is the premier forum for presentation of the present status and future trends in the field of microwave, millimetre- and submillimetre-wave systems and technologies.

  • 2009 European Microwave Conference (EuMC)

    The 39th European Microwave Conference (EuMC), is the core of the European Microwave Week 2009, the largest event in Europe dedicated to microwave electronics. It is the premier forum to present the actual status and future trends in the field of materials and technologies to integrated circuits, systems and applications will be addressed in all their aspects: theory, simulation, design and measurement.

  • 2008 European Microwave Conference (EuMC)

    The 38th European Microwave Conference (EuMC) in Amsterdam, The Netherlands, from 27 to 31 October, is the core of the European Microwave Week 2008, the largest event in Europe dedicated to microwave electronics. It is the premier forum to present the actual status and future trends in the field of materials and technologies to integrated circuits, systems and applications will be addressed in all their aspects: theory, simulation, design and measurement.

  • 2007 European Microwave Conference (EuMC)

    Status and trends in microwave and millimetre-wave systems and technologies. High-frequency related topics, from materials and technologies to integrated circuits, systems and applications in all their aspects: theory, simulation, design and measurement including passive components, modelling and design of high frequency and high data rate photonics, highly stable and noiseless microwave and millimetre-wave sources, new linearisation techniques and the impact of new packaging.

  • 2006 European Microwave Conference (EuMC)


2012 International Conference on Microwave and Millimeter Wave Technology (ICMMT)

ICMMT2012 will be held in Shenzhen, China on May 5-8, 2012. Technical papers describing original work in research, development, and application of all area in microwave and millimeter wave are solicited, including antennas, EM theory and numerical methods, RFIC, EMC, measurement, wireless and optic communications. ICMMT2012 is organized, sponsored by Microwave Society of Chinese Institute of Electronics, co-sponsored by Harbin Institute of Technology Shenzhen Graduate School, South China University of Technology, and KingRadio Technology, and technically co-sponsored by IEEE Beijing Section, IEEE Nanjing Section, IEEE Shanghai Section, IEEE Harbin Section, etc. ICMMT is intended to provide a broad international forum and nice opportunity for the scientists and engineers to present their new ideas and exchange information on research. We welcome you to join us and share your contributions in the conference.


2011 IEEE Applied Electromagnetics Conference (AEMC)

Bioelectromagnetics (BEM), Computational Electromagnetics (CEM), Electromagnetic Compatibility (EMC), EM Education (EME), Electromagnetic Materials (EMM), Microwave Devices & Circuits (MDC), MEMS and RFID (MRF), Microwave Processing (MWP), Radar & Satellite Tech (RST), Wave Propagation & Remote Sensing (WPR)

  • 2009 Applied Electromagnetics Conference (AEMC)

    The conference provides a forum for knowledge sharing and exhibition of theoretical and technological development in the general areas of applied electromagnetics. This is a major conference technically sponsored by two IEEE societies to benefit the IEEE members as well as other members of the electromagnetic community in this region.

  • 2007 IEEE Applied Electromagnetics Conference (AEMC)

    The conference will cover two SPECIAL SESSIONS entitled "New Thoughts and Challenges in Microwave Education" and "Microstrip Technology: Advances in the Last Decade". It will also include technical sessions coverring the areas of IEEE MTT, AP and EMC.


2008 International Symposium on Antennas & Propagation (ISAP)

The Organizing Committee is expecting more than 600 participants, with 450 technical papers anticipated.



Periodicals related to Microstrip

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Antennas and Propagation, IEEE Transactions on

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.


Antennas and Wireless Propagation Letters, IEEE

IEEE Antennas and Wireless Propagation Letters (AWP Letters) will be devoted to the rapid electronic publication of short manuscripts in the technical areas of Antennas and Wireless Propagation.



Most published Xplore authors for Microstrip

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Xplore Articles related to Microstrip

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Quasi-Optical Millimeter Waveguides and Components

Raj Mittra 1976 6th European Microwave Conference, 1976

In this paper we review a number of quasi-optical waveguide structures and discuss their application to millimeter-wave integrated circuits. Some novel designs for dielectric waveguides and passive components using these waveguides are described. A summary of the results of theoretical and experimental studies of these waveguides and circuits is presented.


A Compact, Wideband, Phase-Equalized Waveguide Divider/Combiner for Power Amplification

Maurizio Bozzi; Luca Perregrini; Dominic Deslandes; Ke Wu; Giuseppe Conciauro 2003 33rd European Microwave Conference, 2003

This paper presents the design of a 5-way H-plane waveguide power divider/combiner, to be used in a multi-device amplifier. The use of a fast and flexible design tool based on the BI-RME method permitted to obtain a very compact structure, performing at once the power division, the input matching and the phase equalization over the frequency band 27 ¿¿ 30 ...


A New Potential-Free Connection Circuit employing a Compact Microstrip to Slotline Transition

Matthias Weib; Reinhard Knochel 2000 30th European Microwave Conference, 2000

A new microwave potential-free connection and a compact microstrip to slotline transition are proposed and analysed in this paper. The proposed potential- free connection consists of tightly coupled slotlines which lie one upon another. As this circuit applies only transmission lines, no frequency limit exists. The bandwidth of the suggested microstrip to slotline transistion is enhanced by using half-wavelength transformers ...


Miniaturized Dual-Band and Dual-Polarized Antenna for MBAN Applications

Xiao-Qi Zhu; Yong-Xin Guo; Wen Wu IEEE Transactions on Antennas and Propagation, 2016

This paper presents a novel miniaturized antenna with a dual-band resonance covering the medical body-area network (MBAN) and a 5.8-GHz industrial scientific medical band. Owning to its stacked-patch structure, the proposed antenna generates an omnidirectional radiation pattern with vertical polarization and a broadside radiation pattern with circular polarization at the two bands, respectively, thus fulfilling the requirements for both onand ...


Folded Ring Microstrip Filter

Bal S. Virdee; Christos Grassopoulos 2003 33rd European Microwave Conference, 2003

A conventional microstrip ring resonator when folded up into a more compact structure is shown to exhibit similar characteristics to the annular-ring resonator. The folded ring resonator can resonate at identical resonant modes as the annular-ring resonator, which is designed to operate at the same fundamental mode frequency when fabricated on an identical dielectric substrate. The physical dimensions of this ...


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Educational Resources on Microstrip

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eLearning

Quasi-Optical Millimeter Waveguides and Components

Raj Mittra 1976 6th European Microwave Conference, 1976

In this paper we review a number of quasi-optical waveguide structures and discuss their application to millimeter-wave integrated circuits. Some novel designs for dielectric waveguides and passive components using these waveguides are described. A summary of the results of theoretical and experimental studies of these waveguides and circuits is presented.


A Compact, Wideband, Phase-Equalized Waveguide Divider/Combiner for Power Amplification

Maurizio Bozzi; Luca Perregrini; Dominic Deslandes; Ke Wu; Giuseppe Conciauro 2003 33rd European Microwave Conference, 2003

This paper presents the design of a 5-way H-plane waveguide power divider/combiner, to be used in a multi-device amplifier. The use of a fast and flexible design tool based on the BI-RME method permitted to obtain a very compact structure, performing at once the power division, the input matching and the phase equalization over the frequency band 27 ¿¿ 30 ...


A New Potential-Free Connection Circuit employing a Compact Microstrip to Slotline Transition

Matthias Weib; Reinhard Knochel 2000 30th European Microwave Conference, 2000

A new microwave potential-free connection and a compact microstrip to slotline transition are proposed and analysed in this paper. The proposed potential- free connection consists of tightly coupled slotlines which lie one upon another. As this circuit applies only transmission lines, no frequency limit exists. The bandwidth of the suggested microstrip to slotline transistion is enhanced by using half-wavelength transformers ...


Miniaturized Dual-Band and Dual-Polarized Antenna for MBAN Applications

Xiao-Qi Zhu; Yong-Xin Guo; Wen Wu IEEE Transactions on Antennas and Propagation, 2016

This paper presents a novel miniaturized antenna with a dual-band resonance covering the medical body-area network (MBAN) and a 5.8-GHz industrial scientific medical band. Owning to its stacked-patch structure, the proposed antenna generates an omnidirectional radiation pattern with vertical polarization and a broadside radiation pattern with circular polarization at the two bands, respectively, thus fulfilling the requirements for both onand ...


Folded Ring Microstrip Filter

Bal S. Virdee; Christos Grassopoulos 2003 33rd European Microwave Conference, 2003

A conventional microstrip ring resonator when folded up into a more compact structure is shown to exhibit similar characteristics to the annular-ring resonator. The folded ring resonator can resonate at identical resonant modes as the annular-ring resonator, which is designed to operate at the same fundamental mode frequency when fabricated on an identical dielectric substrate. The physical dimensions of this ...


More eLearning Resources

IEEE.tv Videos

No IEEE.tv Videos are currently tagged "Microstrip"

IEEE-USA E-Books

  • No title

    This book presents a step-by-step discussion of the 3D integration approach for the development of compact system-on-package (SOP) front-ends.Various examples of fully-integrated passive building blocks (cavity/microstip filters, duplexers, antennas), as well as a multilayer ceramic (LTCC) V-band transceiver front-end midule demonstrate the revolutionary effects of this approach in RF/Wireless packaging and multifunctional miniaturization. Designs covered are based on novel ideas and are presented for the first time for millimeterwave (60GHz) ultrabroadband wireless modules. Table of Contents: Introduction / Background on Technologies for Millimeter-Wave Passive Front- Ends / Three-Dimensional Packaging in Multilayer Organic Substrates / Microstrip-Type Integrated Passives / Cavity-Type Integrated Passives / Three- Dimensional Antenna Architectures / Fully Integrated Three-Dimensional Passive Front-Ends / References

  • Waveguides and Difference Equations

    This chapter contains sections titled: Introduction Waveguides Numerical derivatives Properties of difference equations TEM modes The dominant mode Higher modes Direct methods Other equations Conformal mapping Waveguides containing dielectric Microstrip transmission lines Other methods for guides The fast Fourier transform

  • Preliminary Concepts and More

    This chapter contains sections titled: Interconnections for VLSI Applications Copper Interconnections Method of Images Method of Moments Even- and Odd-Mode Capacitances Transmission Line Equations Miller's Theorem Inverse Laplace Transformation Resistive Interconnection as Ladder Network Propagation Modes in Microstrip Interconnection Slow-Wave Mode Propagation Propagation Delays Exercises References

  • Coplanar Waveguide with FiniteWidth Ground Planes

    This chapter looks at the characteristics of a conventional coplanar waveguide (CPW) and a conductor-backed coplanar waveguide (CBCPW) with finite-width top ground planes. Analytical expressions to determine the effective dielectric constant eff and characteristic impedance Z0 of a CPW with finite-width ground planes (FW-CPW) supported on a multilayer dielectric substrate are presented. A qualitative discussion of the modes that are supported by a conductor-backed CPW with top ground planes of finite width (FW-CBCPW) follows. The focus is on the dominant CPW mode and the microstrip-like mode (MSL).

  • Tables of Computer Codes

    Today, engineering problems are very complex, requiring powerful computer simulations to power them. For engineers, observable-based parameterization as well as numerically computable forms¿with rapid convergent properties if in a series¿are essential. Complex Electromagnetic Problems and Numerical Simulation Approaches, along with its companion FTP site, will show you how to take on complex electromagnetic problems and solve them in an accurate and efficient manner. Organized into two distinct parts, this comprehensive resource first introduces you to the concepts, approaches, and numerical simulation techniques that will be used throughout the book and then, in Part II, offers step-by-step guidance as to their practical, real-world applications. Self-contained chapters will enable you to find specific solutions to numerous problems. Filled with in-depth insight and expert advice, Complex Electromagnetic Problems and Numerical Simulation Approaches: Describes ground wave propagation Examines antenna systems Deals with radar cross section (RCS) modeling Explores microstrip network design with FDTD and TLM techniques Discusses electromagnetic compatibility (EMC) and bio-electromagnetics (BEM) modeling Presents radar simulation Whether you're a professional electromagnetic engineer requiring a consolidated overview of the subject or an academic/student who wishes to use powerful simulators as a learning tool, Complex Electromagnetic Problems and Numerical Simulation Approaches - with its focus on model development, model justification, and range of validity - is the right book for you.

  • Index

    Today, engineering problems are very complex, requiring powerful computer simulations to power them. For engineers, observable-based parameterization as well as numerically computable forms¿with rapid convergent properties if in a series¿are essential. Complex Electromagnetic Problems and Numerical Simulation Approaches, along with its companion FTP site, will show you how to take on complex electromagnetic problems and solve them in an accurate and efficient manner. Organized into two distinct parts, this comprehensive resource first introduces you to the concepts, approaches, and numerical simulation techniques that will be used throughout the book and then, in Part II, offers step-by-step guidance as to their practical, real-world applications. Self-contained chapters will enable you to find specific solutions to numerous problems. Filled with in-depth insight and expert advice, Complex Electromagnetic Problems and Numerical Simulation Approaches: Describes ground wave propagation Examines antenna systems Deals with radar cross section (RCS) modeling Explores microstrip network design with FDTD and TLM techniques Discusses electromagnetic compatibility (EMC) and bio-electromagnetics (BEM) modeling Presents radar simulation Whether you're a professional electromagnetic engineer requiring a consolidated overview of the subject or an academic/student who wishes to use powerful simulators as a learning tool, Complex Electromagnetic Problems and Numerical Simulation Approaches - with its focus on model development, model justification, and range of validity - is the right book for you.

  • The Modeling, Characterization, and Design of Monolithic Inductors for Silicon RF IC's

    The results of a comprehensive investigation into the characteristics and optimization of Inductors fabricated with the top-level metal of a submicron silicon VLSI process are presented. A computer program which extncts a physics-based model of microstrip components that is suitable for circuit (SPICE) simulation has been used to evaluate the effect of variations in melallization, layout geometry, and substrate parameters upon monolithic inductor performance. Three-dimensional (3-D) numerical simulations and experimental measurements of inductors were also used to benchmark the model aecuncy. It is shown in this work that low inductor Q is primarily due to the restrictions imposed by the thin interconnect metallization available in most very large scale integration (VLSI) technolocies, and that computer optimization of the inductor layout can be used to achieve a 50% improvement in component Q-factor over unoptimized designs.

  • Dual and Circularly Polarized Elements

    This chapter contains sections titled: Review of Techniques for Dual and Circularly Polarised Microstrip Antennas Analysis and Optimized Design of Single Feed Circularly Polarized Microstrip Antennas A Circularly Polarized Microstrip Antenna Using Singly-Fed Proximity Coupled Feed Dual Aperture-Coupled Microstrip Antenna for Dual or Circular Polarization Design of Wideband Circularly Polarized Aperture-Coupled Microstrip Antennas Wideband Circularly Polarized Array with Sequential Rotations and Phase Shift of Elements Gain of Circularly Polarized Arrays Composed of Linearly Polarized Elements Optimised Feeding of Dual Polarised Broadband Aperture-Coupled Printed Antenna Feed Circuits of Double-Layered Self-Diplexing Antenna for Mobile Satellite Communications Microstrip Antennas with Frequency Agility and Polarization Diversity

  • Chapter 2

    This chapter contains sections titled: Numerical Issues Regarding Finite-Difference Time-Domain Modeling of Microwave Structures Numerical Solution of Steady-State Electromagnetic Scattering Problems Using the Time-Dependent Maxwell's Equations Absorbing Boundary Conditions for the Finite-Difference Approximation of the Time-Domain Electromagnetic-Field Equations Finite-Difference Solution of Maxwell's Equations in Generalized Nonorthogonal Coordinates The Finite-Difference - Time-Domain Method and its Application to Eigenvalue Problems Calculations of the Dispersive Characteristics of Microstrips by the Time- Domain Finite Difference Method Application of the Three-Dimensional Finite-Difference Time-Domain Method to the Analysis of Planar Microstrip Circuits Accurate Computation of the Radiation from Simple Antennas Using the Finite- Difference Time-Domain Method The Use of Surface Impedance Concepts in the Finite-Difference Time-Domain Method FDTD for Nth-Order Dispersive Media FD-TD Modeling of Digital Signal Propagation in 3-D Circuits With Passive and Active Loads A Perfectly Matched Layer for the Absorption of Electromagnetic Waves Using Linear and Nonlinear Predictors to Improve the Computational Efficiency of the FD-TD Algorithm Divergence Preserving Discrete Surface Integral Methods for Maxwell's Curl Equations Using Non-orthogonal Unstructured Grids

  • Non???Periodic Synthesized Transmission Lines for Circuit Miniaturization

    Non???periodic synthesized transmission lines are realized by quasi???lumped/lumped networks without any periodicity. In this sort of designs, the synthesized line is realized by a network associated with a significant amount of electrical length (i.e., phase delay). In this chapter, a number of non???periodic synthesized transmission lines, using quasi???lumped/lumped elements in microstrip and coplanar waveguide (CPW) forms on printed circuit boards (PCBs), are introduced using the design principles. Essential building blocks in the feeding network of a phased array, including the hybrid couplers and Butler matrix, are realized by synthesized microstrip lines. A bandpass filter, based on a synthesized dual???mode ring resonator, is investigated and demonstrated. The ring resonator has more stringent restrictions on the unloaded quality factor of the line used. Coupled synthesized lines using CPW structures or lumped elements are studied and applied to realize directional couplers, Marchand baluns, and reflection???type phase shifters. Finally, the concept of vertical inductors is introduced.



Standards related to Microstrip

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Jobs related to Microstrip

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