2,986 resources related to Microstrip filters
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2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting
The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science
RWW2020 will be an international conference covering all aspects of radio and wireless. RWW2020's multidisciplinary events will bring together innovations that are happening across the broad wireless spectrum. RWS2020, this conference application, acts as the main conference for the entire RWW of events that includes the following conferences: PAWR2020, SiRF2020, WiSNet2020, and TWiOS2020 (IEEE Topical Conference on RF/microwave Power Amplifiers, IEEE Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems, IEEE Topical Conference on Wireless Sensors and Sensor Networks, and IEEE Topical Workshop on the Internet of Space IoS, respectively). In addition to traditional podium presentations and poster sessions, tracks for IEEE Distinguished Lectures, Sunday half-day workshops, Monday panels, and a demo session are planned. A RWW2020 plenary talk are a parallel IoT Summit are planned. A student competition is also planned.
The IEEE International Microwave Symposium (IMS) is the world s foremost conference covering the UHF, RF, wireless, microwave, millimeter-wave, terahertz, and optical frequencies; encompassing everything from basic technologies to components to systems including the latest RFIC, MIC, MEMS and filter technologies, advances in CAD, modeling, EM simulation and more. The IMS includes technical and interactive sessions, exhibits, student competitions, panels, workshops, tutorials, and networking events.
11th International Conference on Computational Intelligence and Communication Networks (CICN 2017) is organized to address various issues to support intelligentsolutions for society. The aim is to bring together worldwide leading researchers, developers, practitioners and educators interested in advancing the state of the art in computational intelligence and communication networks with the goal of exchanging knowledge that encompasses a broad range of disciplines among various distinct communities. It is expected that researchers will enhance collaboration across disciplines in order to support novel breakthroughs in the field.
This is a set of five conferences with a focus on wireless components, applications and systems that affect both now and our future lifestyle. The main niche of these conferences is to bring together technologists, circuit designers, system designers and entrepreneurs at a single event. It was and is the place where these worlds meet, where new processes and systems can be benchmarked against the needs of circuit designers at the bleeding edge of RF systems. This is also an area where today's design compromises can trigger tomorrow's advanced technologies, where dreams can become a reality.
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.
Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission
Part I will now contain regular papers focusing on all matters related to fundamental theory, applications, analog and digital signal processing. Part II will report on the latest significant results across all of these topic areas.
Component parts, hybrid microelectronics, materials, packaging techniques, and manufacturing technology.
EMC standards; measurement technology; undesired sources; cable/grounding; filters/shielding; equipment EMC; systems EMC; antennas and propagation; spectrum utilization; electromagnetic pulses; lightning; radiation hazards; and Walsh functions
2007 IEEE Antennas and Propagation Society International Symposium, 2007
1979 9th European Microwave Conference, 1979
1997 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference. 'Linking to the Next Century'. Proceedings, 1997
In this work, the use of microwave detectors (Schottky diodes) instead power meters is suggested. With this simple substitution, microwave measurements may achieve an easier and cheaper process. The detector specifications are described. In order to exemplify the proposed substitution, experimental results are presented and, when compared to numerical ones, a good agreement is observed. The stability and the price ...
Proceedings of 2005 International Symposium on Electrical Insulating Materials, 2005. (ISEIM 2005)., 2005
The ultra-high frequency antenna sensor is widely used for PD detecting in GIS. But the signal gained from antenna sensor is very weak and contains strong interference, and the energy loss of antenna sensor is not infinite out of the effective band, electromagnetic signal is coupled in antenna sensor at idling frequency band. So a micro-strip band-pass filter design method ...
2013 Asia-Pacific Microwave Conference Proceedings (APMC), 2013
In this paper, a filter for the ultra-wide band (UWB) ranging 3GHz ~ 10.5GHz has been designed by taking the advantage of the metamaterial Composite Right & Left-Handed Transmission-line (CRLH-TL) with a Shorted Open Gap Ring Resonator (SOGRR) structure and an inter-digital line. In order to bring the remarkable improvement in an attempt to reduce the total metamaterial cell size, ...
Microwave PCB Structure Selection Microstrip vs. Grounded Coplanar Waveguide: MicroApps 2015 - Rogers Corporation
IMS MicroApps: AWR's iFilter
PCB Fabrication Influences on Microwave Performance: MicroApps 2015 - Rogers Corporation
Micro-Apps 2013: Determining Circuit Material Dielectric Constant from Phase Measurements
Shanthi Pavan - SSCS Chip Chat Podcast, Episode 3
3D Printing for Sensor Platform Integration - Benjamin Ingis - IEEE EMBS at NIH, 2019
Zhun Fan - Mechatronic Design Automation Using Evolutionary Approaches
A 10-40GHz Frequency Quadrupler Source with Switchable Bandpass Filters and >30dBc Harmonic Rejection: RFIC Interactive Forum 2017
DIY: Replacing the Water Grid With Rainwater
V-Band Flip-Chip pHEMT Balanced Power Amplifier with CPWG-MS-CPWG Topology and CPWG Lange Couplers: RFIC Interactive Forum 2017
State-of-the art techniques for advanced vehicle dynamics control & vehicle state estimation
Single Crystal AlGaN Bulk Acoustic Wave Resonators on Silicon Substrates with High Electromechanical Coupling: RFIC Industry Showcase
One HTS Josephson Junction, An Array of Applications: Has anything come from HTS devices in the last 30 years?
Life Sciences: Surface Enhanced Raman Spectroscopy, and more
UPDATED: IEEE Collabratec User Essential Overview Part 1: Basics
Micro-Apps 2013: Frequency Planning Synthesis for Wireless Systems Design
IROS 2014 Plenary: Andrew Davison
Lighting the Way: Optical Sensors in the Life Sciences
Magnetic Materials and Magnetic Devices - Josep Fontcuberta: IEEE Magnetics Distinguished Lecture 2016
In this work, the use of microwave detectors (Schottky diodes) instead power meters is suggested. With this simple substitution, microwave measurements may achieve an easier and cheaper process. The detector specifications are described. In order to exemplify the proposed substitution, experimental results are presented and, when compared to numerical ones, a good agreement is observed. The stability and the price of the detector are some of the advantages of the suggested substitution.
The ultra-high frequency antenna sensor is widely used for PD detecting in GIS. But the signal gained from antenna sensor is very weak and contains strong interference, and the energy loss of antenna sensor is not infinite out of the effective band, electromagnetic signal is coupled in antenna sensor at idling frequency band. So a micro-strip band-pass filter design method is introduced, and a band-pass filter and amplifier unit are designed based on micro-strip line theory. The high performance amplifier and the half- distributing parameter UHF filter whose work frequency band is 300/spl sim/1000 MHz and can cover with the frequency band of the antenna sensors. Testing results show that the performance of filter and amplifier is great and can be used to detect the feeble PD signals and suppress the low frequency interferes.
In this paper, a filter for the ultra-wide band (UWB) ranging 3GHz ~ 10.5GHz has been designed by taking the advantage of the metamaterial Composite Right & Left-Handed Transmission-line (CRLH-TL) with a Shorted Open Gap Ring Resonator (SOGRR) structure and an inter-digital line. In order to bring the remarkable improvement in an attempt to reduce the total metamaterial cell size, only one cell of the SOGRR with the inter-digital line is taken. This metamaterial filter will be shown to have the size of 15mm×15mm, the fractional bandwidth over 100%, the insertion loss much less than 1dB, and an acceptable return loss.
A diplexer for use in the communication system of an autonomous vehicle is designed for operation in the UHF (240-320 MHz) and GPS (1.2-1.6GHz) dual frequency bands and with isolation of better than 80dB. A lumped element model for the diplexer is first created and simulated. Based on the lumped element model, microstrip realization is then designed and simulated. All the diplexer designs are simulated in the Agilent Advanced Design System (ADS) software and the obtained results show an insertion loss of less than 1dB and an isolation of better than 90dB.
The CPM modulation scheme allows microwave VCO phase locking to the IF signal: in this way the VCO output, provides directly the modulated RF carrier. The aim of this paper is to suggest the use of the FR4 as microwave substrate to be able to reduce strongly the cost relative to the VCO that, taking into account the above thought, become determinant. By using the multilayer printed circuit board, the microwave structures (microstrip, stripline, matching networks) and the low frequency circuits (voltage regulator. alarms, loop filter) can be achieved overworking the same substrate, resulting in a very low cost structure up to 16 GHz. Moreover it is very important to stress that it is possible to exploit the SMT technology.
A compact ultra-wideband (UWB) bandpass filter with notched band is proposed using the microstrip/coplanar waveguide (CPW) composition structure and quarter wavelength (λ/4) embedded CPW resonator in this paper. Basic quasi- elliptic response and multi-mode UWB operation are achieved through a λ/4 CPW detached-mode resonator (DMR) and broadside-coupled transitions from microstrip to CPW. To avoid the interferences in the UWB passband, two identical λ/4 CPW resonators embedded in the DMR are employed to obtain a narrow notched band. To further improve the selectivity, two microstrip short- stubs are introduced to provide an additional observable transmission zero at 1.86 GHz, which leads to enhanced roll-off characteristic at the lower end of the passband. As such, the proposed filter exhibits a 10 dB notched band fractional bandwidth (FBW) smaller than 2.26% and a competitive attenuation slope with 94.34 dB/GHz in the lower and 67.92 dB/GHz in the upper transition bands, respectively.
In this paper it will be shown how the method of lines can be adapted to the analysis of microstrip filters. The filters consist of a dielectric lossy resonator of arbitrary shape excited by a microstrip line. Field distributions and scattering parameters are presented.<<ETX>>
An LTCC test panel including various mm-wave test circuits has been designed and manufactured using a recently developed screen printing process (Thales Microelectronics) having a highly optimised resolution, here evaluated using a minimum microstrip line width/gap of 2 mil (50.8 /spl mu/m). In this paper we report on a 60 GHz microstrip coupled lines bandpass filter manufactured on a 3.7 mil (94.0 /spl mu/m) thick Ferro A6S substrate using a minimum line gap of 2 mil. The electromagnetic effects caused by the top conductor recess were taken into account using direct full-wave simulations (Ansoft HFSS) but also by a circuit simulation methodology based on the use of effective relative permittivity and substrate height parameters. Preliminary measurement results show a 3 dB bandwidth of approximately 5 GHz, a passband insertion loss of 4 dB and a center frequency slightly above the simulated value. This bandpass filter could e.g. serve as an image rejection filter together with the 60 GHz WLAN chipset where it would demonstrate a 55 GHz image suppression of approximately 20 dB.
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