Variability Analysis of T Network Impedance Matching

Harmonic rejection ability and reflection coefficient are the most important factors in the design of impedance matching network. However, stability of impedance matching should be taken into account in applications existing load impedance variation and component deviation due to tolerance and process variation. This paper investigates variability of Pi network impedance matching analytically. The relationships between resulting reflection coefficient with component deviation and load impedance variation are theoretically derived on the basis of Q-based design method. The deviation from perfect match due to component deviation is proportional to quality factor. Higher quality factor probably means poorer quality in terms of variability. The resulting reflection coefficient caused by load impedance variation increases rapidly when the load reflection coefficient is larger than 0.66. A small variation in the load impedance will cause a large deviation from perfect match when the impedance difference between load and source is quite large.

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Overcoming the Realization Problems of Wideband Matching Circuits

Infocommunications journal ◽

10.36244/icj.2018.4.5 ◽

2018 ◽

pp. 31-36

Author(s):

Balázs Matolcsy ◽

Attila Zólomy

Keyword(s):

Design Process ◽

Circuit Simulation ◽

Impedance Matching ◽

Microwave Circuit ◽

Design Rules ◽

Analytical Design ◽

Calculation Technique ◽

Matching Networks ◽

Practical Design

During the analytical design process of wideband impedance matching major problems may arise, that might lead to non-realizable matching networks, preventing the successful impedance matching. In this paper two practical design rules and a simplified equation is presented, supporting the design of physically realizable impedance matching networks. The design rules and calculation technique introduced by this paper is summarized, and validated by microwave circuit simulation examples.

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New design method of impedance matching networks based on tapered lines using generalized superellipses

2017 IEEE MTT-S International Microwave Symposium (IMS) ◽

10.1109/mwsym.2017.8058731 ◽

2017 ◽

Author(s):

Santiago Cogollos ◽

Joaquin Vague ◽

Vicente E. Boria ◽

Jorge D. Martinez

Keyword(s):

Design Method ◽

Impedance Matching ◽

Matching Networks

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Design method for impedance matching networks

IEE Proceedings - Circuits Devices and Systems ◽

10.1049/ip-cds:19960566 ◽

1996 ◽

Vol 143 (4) ◽

pp. 186 ◽

Cited By ~ 31

Author(s):

Y. Sun ◽

J.K. Fidler

Keyword(s):

Design Method ◽

Impedance Matching ◽

Matching Networks

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Development of the design method for the optimal design of the Neutron Converter experimental plant

CPT2020 The 8th International Scientific Conference on Computing in Physics and Technology Proceedings ◽

10.30987/conferencearticle_5fce2773381190.97192388 ◽

2020 ◽

Author(s):

Timur Smetani ◽

Elizaveta Gureva ◽

Vyacheslav Andreev ◽

Natalya Tarasova ◽

Nikolai Andree

Keyword(s):

Optimal Design ◽

Flux Density ◽

Design Process ◽

Design Method ◽

Fast Neutrons ◽

Experimental Plant ◽

Plant Design ◽

State Technical ◽

Research Organizations ◽

Neutron Converter

The article discusses methods for optimizing the design of the Neutron Converter research plant design with parameters that are most suitable for a particular consumer. 38 similar plant structures with different materials and sources were calculated, on the basis of which the most optimal options were found. As part of the interaction between OKBM Afrikantov JSC and the Nizhny Novgorod State Technical University named after R. E. Alekseev, the Neutron Converter research plant was designed and assembled. The universal neutron converter is a device for converting a stream of fast neutrons emitted by isotopic sources into a "standardized" value of flux density with known parameters in the volume of the central part of the product, which is the working part of the universal neutron converter. To supply neutron converters to other customer organizations (universities, research organizations and collective centers), it is necessary to take into account the experience of operating an existing facility, as well as rationalize the design process of each specific instance in accordance with the requirements of the customer.

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Optimum power transfer in RF front end systems using adaptive impedance matching technique

Scientific Reports ◽

10.1038/s41598-021-91355-4 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Mohammad Alibakhshikenari ◽

Bal S. Virdee ◽

Leyre Azpilicueta ◽

Chan H. See ◽

Raed Abd-Alhameed ◽

...

Keyword(s):

Impedance Matching ◽

Adaptive Antenna ◽

Power Transfer ◽

Control Loops ◽

Matching Networks ◽

Front End ◽

Rf Front End ◽

Matching Technique ◽

Digital Circuitry ◽

Communications System

AbstractMatching the antenna’s impedance to the RF-front-end of a wireless communications system is challenging as the impedance varies with its surround environment. Autonomously matching the antenna to the RF-front-end is therefore essential to optimize power transfer and thereby maintain the antenna’s radiation efficiency. This paper presents a theoretical technique for automatically tuning an LC impedance matching network that compensates antenna mismatch presented to the RF-front-end. The proposed technique converges to a matching point without the need of complex mathematical modelling of the system comprising of non-linear control elements. Digital circuitry is used to implement the required matching circuit. Reliable convergence is achieved within the tuning range of the LC-network using control-loops that can independently control the LC impedance. An algorithm based on the proposed technique was used to verify its effectiveness with various antenna loads. Mismatch error of the technique is less than 0.2%. The technique enables speedy convergence (< 5 µs) and is highly accurate for autonomous adaptive antenna matching networks.

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Development of Optimal Design Method for Steel Double-Beam Floor System Considering Rotational Constraints

Applied Sciences ◽

10.3390/app11073266 ◽

2021 ◽

Vol 11 (7) ◽

pp. 3266

Author(s):

Insub Choi ◽

Dongwon Kim ◽

Junhee Kim

Keyword(s):

Optimal Design ◽

Design Process ◽

Design Method ◽

Steel Beams ◽

High Gravity ◽

Double Beam ◽

Iterative Analysis ◽

Floor Systems ◽

Optimal Design Method ◽

Floor System

Under high gravity loads, steel double-beam floor systems need to be reinforced by beam-end concrete panels to reduce the material quantity since rotational constraints from the concrete panel can decrease the moment demand by inducing a negative moment at the ends of the beams. However, the optimal design process for the material quantity of steel beams requires a time-consuming iterative analysis for the entire floor system while especially keeping in consideration the rotational constraints in composite connections between the concrete panel and steel beams. This study aimed to develop an optimal design method with the LM (Length-Moment) index for the steel double-beam floor system to minimize material quantity without the iterative design process. The LM index is an indicator that can select a minimum cross-section of the steel beams in consideration of the flexural strength by lateral-torsional buckling. To verify the proposed design method, the material quantities between the proposed and code-based design methods were compared at various gravity loads. The proposed design method successfully optimized the material quantity of the steel double-beam floor systems without the iterative analysis by simply choosing the LM index of the steel beams that can minimize objective function while satisfying the safety-related constraint conditions. In particular, under the high gravity loads, the proposed design method was superb at providing a quantity-optimized design option. Thus, the proposed optimal design method can be an alternative for designing the steel double-beam floor system.

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Selectivity and in-band impedance enhancement of a compact slot antenna with defected ground structures

International Journal of Microwave and Wireless Technologies ◽

10.1017/s1759078719000734 ◽

2019 ◽

Vol 11 (10) ◽

pp. 1010-1016

Author(s):

Hailong Yang ◽

Xiaoli Xi ◽

Lili Wang ◽

Yuchen Zhao ◽

Xiaomin Shi

Keyword(s):

Reflection Coefficient ◽

Impedance Matching ◽

Ultra Wideband ◽

Band Edge ◽

Slot Antenna ◽

Defected Ground Structure ◽

Pass Filter ◽

Low Pass Filter ◽

Uwb Antennas ◽

Low Pass

AbstractIn this study, a new ultra-wideband (UWB) band-edge selectivity antenna with a modified radiation slot using defected ground structure (DGS) is presented to obtain bandpass filtering reflection coefficient and gain performance. The well-designed DGS is designed on backside metallic of the substrate and can be seen as a low-pass filter that provides a good roll-off at a higher frequency. By connecting the DGS and the stepped slot and making them merge with each other, good cut-off property in the upper passband and better in-band impedance characteristics are obtained. Measured results show that the proposed design not only shows good band-edge selectivity in reflection coefficient and gain performance but also has a good impedance matching of −13.5 dB reflection coefficients and a good radiation efficiency of 90% in the operating frequencies. The measured bandwidth defined with the reflection coefficient less than −10 dB is from 3.1–11.2 GHz. Furthermore, the size of the filtering UWB antenna is 22 mm × 12 mm, which is smaller than many individual UWB antennas and UWB filters.

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Impact of Secondary Flow on the Accuracy of Simplified Design Methods for Steam Turbine Stages

Volume 6: Oil and Gas Applications; Concentrating Solar Power Plants; Steam Turbines; Wind Energy ◽

10.1115/gt2012-69839 ◽

2012 ◽

Cited By ~ 1

Author(s):

Jan Schumann ◽

Ulrich Harbecke ◽

Daniel Sahnen ◽

Thomas Polklas ◽

Peter Jeschke ◽

...

Keyword(s):

Secondary Flow ◽

Steam Turbine ◽

Design Process ◽

Design Method ◽

Computing Time ◽

Leading Edge ◽

Design Methods ◽

Preliminary Design ◽

Line Design ◽

Radial Equilibrium

The subject of the presented paper is the validation of a design method for HP and IP steam turbine stages. Common design processes have been operating with simplified design methods in order to quickly obtain feasible stage designs. Therefore, inaccuracies due to assumptions in the underlying methods have to be accepted. The focus of this work is to quantify the inaccuracy of a simplified design method compared to 3D Computational Fluid Dynamics (CFD) simulations. Short computing time is very convenient in preliminary design; therefore, common design methods work with a large degree of simplification. The origin of the presented analysis is a mean line design process, dealing with repeating stage conditions. Two features of the preliminary design are the stage efficiency, based on loss correlations, and the mechanical strength, obtained by using the beam theory. Due to these simplifications, only a few input parameters are necessary to define the primal stage geometry and hence, the optimal design can easily be found. In addition, by using an implemented law to take the radial equilibrium into account, the appropriate twist of the blading can be defined. However, in comparison to the real radial distribution of flow angles, this method implies inaccuracies, especially in regions of secondary flow. In these regions, twisted blades, developed by using the simplified radial equilibrium, will be exposed to a three-dimensional flow, which is not considered in the design process. The analyzed design cases show that discrepancies at the hub and shroud section do exist, but have minor effects. Even the shroud section, with its thinner leading-edge, is not vulnerable to these unanticipated flow angles.

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Improved Low-Profile Helical Antenna Design for INMARSAT Applications

International Journal of Antennas and Propagation ◽

10.1155/2012/829371 ◽

2012 ◽

Vol 2012 ◽

pp. 1-5 ◽

Cited By ~ 4

Author(s):

Shiqiang Fu ◽

Yuan Cao ◽

Yue Zhou ◽

Shaojun Fang

Keyword(s):

Pitch Angle ◽

Satellite Communication ◽

Design Method ◽

Impedance Matching ◽

Axial Ratio ◽

Antenna Element ◽

Helical Antenna ◽

Copper Strip ◽

Antenna Structure ◽

Low Profile

A new low-profile variable pitch angle cylindrical helical antenna employing a copper strip as impedance transformer is proposed in this paper. Under the circumstance of a limited antenna height, the circular polarization performance of the antenna has been enhanced by changing the pitch angle and the input impedance matching has been improved by adjusting the copper strip match stub. The design method of the proposed antenna is given. The optimal antenna structure for INMARSAT application has been fabricated and measured. The measured results show that in the whole maritime satellite communication work band the VSWR is less than 1.2, its antenna gain is higher than 9 dBi, and the axial ratio is lower than 2.5 dB. The experimental results have a good agreement with the simulations. The proposed antenna is compact and easy tuning. It provides a promising antenna element for maritime satellite communication applications.

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