Relevant bibliographies by topics / Line impedance stabilization network

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Academic literature on the topic 'Line impedance stabilization network'

Author: Grafiati

Published: 4 June 2021

Last updated: 4 February 2022

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Journal articles on the topic "Line impedance stabilization network"

Zhu, Zhibo, Yang Zhao, Wei Yan, Xingfa Liu, and Ming Ju. "Modeling of line impedance stabilization network impedance characteristic based on genetic algorithm." Microelectronics Journal 113 (July 2021): 105095. http://dx.doi.org/10.1016/j.mejo.2021.105095.

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Ibuchi, Takaaki, Shunji Mori, and Tsuyoshi Funaki. "Experimental evaluation of mutual coupling influence on the isolation characteristics of a dual-port v-type line impedance stabilization network." IEEE Electromagnetic Compatibility Magazine 7, no. 1 (2018): 39–45. http://dx.doi.org/10.1109/memc.0.8339540.

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Slimani, Helima, Abdelhakim Zeghoudi, Abdelber Bendaoud, Abdeldjalil Reguig, Baghdadi Benazza, and Nassireddine Benhadda. "Experimental Measurement of Conducted Emissions Generated by Static Converters in Common and Differential Modes." European Journal of Electrical Engineering 23, no. 3 (June 21, 2021): 273–79. http://dx.doi.org/10.18280/ejee.230312.

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The commutation of semiconductors and their interactions with parasitic elements linked to the environment is known to be the main source of interferences conducted in power electronic converters. Thus, identifying these sources of interferences in commutation cells and determining the level of these conducted emissions generated in energy conversion systems presents a major challenge for designers. In this work, a study of the electromagnetic interferences (EMI) generated by the association of serial rectifier-chopper connected to a Line Impedance Stabilization Network (LISN) is proposed, in which a determination of these interferences is presented in both common and differential modes. All simulations are carried out using the LT-spice software and the results obtained are validated by experimental measurements realized at APELEC laboratory (University of Sidi Bel-Abbes, Algeria).

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Stepins, Deniss. "Conducted EMI of Switching Frequency Modulated Boost Converter." Electrical, Control and Communication Engineering 3, no. 1 (August 1, 2013): 12–18. http://dx.doi.org/10.2478/ecce-2013-0009.

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Abstract In this paper conducted electromagnetic interference (EMI) of boost converter with switching frequency modulation (SFM) is theoretically analyzed in details. In the analysis line impedance stabilization network parameters, power inductor and input filtering capacitor parameters are taken into account. The analysis shows that the conducted EMI attenuation due to the use of SFM depends not only on modulation index as it is assumed in numerous research papers, but also on central switching frequency. Useful expressions to numerically calculate SFM boost converter conducted EMI spectrum and attenuation due to the use of triangular and sawtooth modulation waveforms are derived. Additionally experimental verification of the theoretical results is performed using a superheterodyne spectrum analyzer. Moreover a procedure for the choice of optimum SFM parameters (modulation waveform, frequency deviation and modulation frequency) to get maximum conducted EMI attenuation is proposed.

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Wan, Lu, Abduselam Hamid Beshir, Xinglong Wu, Xiaokang Liu, Flavia Grassi, Giordano Spadacini, Sergio Amedeo Pignari, Michele Zanoni, Liliana Tenti, and Riccardo Chiumeo. "Black-Box Modelling of Low-Switching-Frequency Power Inverters for EMC Analyses in Renewable Power Systems." Energies 14, no. 12 (June 9, 2021): 3413. http://dx.doi.org/10.3390/en14123413.

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Electromagnetic interference (EMI) from renewable power systems to the grid attracts more attention especially in the low-frequency range, due to the low switching frequency of high-power inverters. It is significantly important to derive EMI models of power inverters as well as to develop strategies to suppress the related conducted emissions. In this work, black-box modelling is applied to a three-phase inverter system, by implementing an alternative procedure to identify the parameters describing the active part of the model. Besides, two limitations of black-box modelling are investigated. The first regards the need for the system to satisfy the linear and time-invariant (LTI) assumption. The influence of this assumption on prediction accuracy is analysed with reference to the zero, positive and negative sequence decomposition. It is showing that predictions for the positive/negative sequence are highly influenced by this assumption, unlike those for the zero sequence. The second limitation is related to the possible variation of the mains impedance which is not satisfactorily stabilized at a low frequency outside the operating frequency range of standard line impedance stabilization networks.

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Wang, Yi, Han Tang, Wen Li Chen, Xing Zhe Hou, Hong Liang Sun, and Kai Bo Luo. "Research on the Measurement of Household Appliance Impedance Characteristic." Advanced Materials Research 986-987 (July 2014): 1574–78. http://dx.doi.org/10.4028/www.scientific.net/amr.986-987.1574.

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Impedance of power line channel is the most important factor for power line communication. All kinds of household appliances randomly connect or disconnect from the network, which give rise to impedance variation on power line channel. The mismatch of impedance would reduce the performance of the signal transmission. The power network is mixed with lines and loads. In order to investigate the main factors that affect power network impedance, this paper proposed a method to measure the impedance of active household appliances. Some household appliances are measured with this method, and the result shows that this method can measure the impedance effictively, which helps the study on the impedance charicteristics.

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Jung, Sungchan, and Youngoo Yang. "Miniaturized branch-line hybrid coupler with broadband impedance matching network." Journal of Electromagnetic Waves and Applications 27, no. 10 (May 31, 2013): 1230–37. http://dx.doi.org/10.1080/09205071.2013.805168.

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Reynoso-Hernandez, J. Apolinar, M. A. Pulido-Gaytan, R. Cuesta, J. R. Loo-Yau, and M. C. Maya-Sanchez. "Transmission Line Impedance Characterization Using an Uncalibrated Vector Network Analyzer." IEEE Microwave and Wireless Components Letters 30, no. 5 (May 2020): 528–30. http://dx.doi.org/10.1109/lmwc.2020.2984377.

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Hallak, George, Christoph Niess, and Gerd Bumiller. "Accurate Low Access Impedance Measurements With Separated Load Impedance Measurements on the Power-Line Network." IEEE Transactions on Instrumentation and Measurement 67, no. 10 (October 2018): 2282–93. http://dx.doi.org/10.1109/tim.2018.2814138.

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Anyaka, Boniface Onyemaechi, and Innocent Onyebuchi Ozioko. "Transmission line short circuit analysis by impedance matrix method." International Journal of Electrical and Computer Engineering (IJECE) 10, no. 2 (April 1, 2020): 1712. http://dx.doi.org/10.11591/ijece.v10i2.pp1712-1721.

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Fault analysis is the process of determining the magnitude of fault voltage and current during the occurrence of different types of fault in electrical power system. Transmission line fault analysis is usually done for both symmetrical and unsymmetrical faults. Symmetrical faults are called three-phase balance fault while unsymmetrical faults include: single line-to-ground, line-to-line, and double line-to-ground faults. In this research, bus impedance matrix method for fault analysis is presented. Bus impedance matrix approach has several advantages over Thevenin’s equivalent method and other conventional approaches. This is because the off-diagonal elements represent the transfer impedance of the power system network and helps in calculating the branch fault currents during a fault. Analytical and simulation approaches on a single line-to-ground fault on 3-bus power system network under bolted fault condition were used for the study. Both methods were compared and result showed negligible deviation of 0.02% on the average. The fault currents under bolted condition for the single line-to-ground fault were found to be 4. 7244p.u while the bus voltage is 0. 4095p.u for buses 1 and 2 respectively and 0. 00p.u for bus 3 since the fault occurred at this bus. Therefore, there is no need of burdensomely connecting the entire three sequence network during fault analysis in electrical power system.

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Dissertations / Theses on the topic "Line impedance stabilization network"

Menke, Robert A. "A FULL SYSTEM CHARACTERIZATION OF THE MEASUREMENT UNCERTAINTY OF A CONDUCTED EMISSIONS MEASUREMENT SYSTEM." UKnowledge, 2005. http://uknowledge.uky.edu/gradschool_theses/264.

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Electromagnetic compatibility (EMC) standards for an accredited test laboratory require that the measurement uncertainty of the measuring instruments be characterized. The CISPR 16-4 standard gives guidance to the magnitude of this uncertainty, but no method of characterization. This thesis describes a method to perform this characterization on a conducted emissions measurement system, taking advantage of full system analysis techniques to reduce the uncertainty to exceptionally low levels. In addition, a framework is introduced whereby uncertainty can decomposed into its constituent parts such that the laboratory operator can identify methods to improve the systems performance.

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Matýsek, Michal. "Měření symetrického a nesymetrického rušení na napájecích vodičích." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2015. http://www.nusl.cz/ntk/nusl-221253.

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This work deals with interfering signals and noises, possibilities of their measurement, their reduction and afterwards with design of LISN. The theoretical part analyzes formation of interfering signals, their types, with possible measuring instruments for each type of these signals and their properties. In framework of practical part LISN for long-term load of 5A, frequency range from 150 kHz to 30 MHz, with possibility to measure symmetrical and asymmetrical noise separately and also with possibility to switch to normal mode of LISN was developed. For better results LISN was realized as two stage LC filter.

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Unlu, Mehmet. "An Adjustable Impedance Matching Network Using Rf Mems Technology." Master's thesis, METU, 2003. http://etd.lib.metu.edu.tr/upload/1124676/index.pdf.

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This thesis presents design, modeling, and fabrication of an RF MEMS adjustable impedance matching network. The device employs the basic triple stub matching technique for impedance matching. It has three adjustable length stubs which are implemented using capacitively loaded coplanar waveguides. The capacitive loading of the stubs are realized using the MEMS switches which are evenly distributed over the stubs. There are 40 MEMS bridges on each stub whichare separated with &
#955
/40 spacing making a total of 120 MEMS switches in the structure. The variability of the stub length is accomplished by closing the MEMS switch nearest to the required stub length, and making a virtual short circuit to ground. The device is theoretically capable of doing matching to every point on the Smith chart. The device is built on coplanar waveguide transmission lines. It has a center operating frequency of 10GHz, but because of its adjustability property it is expected to work in 1-40GHz range. It has dimensions of 8950 ×
5720µ
m2. This work is the continuation of the first national work on fabrication of RF MEMS devices. The device in this work is fabricated using the surface micromachining technology in the microelectronic facilities of Middle East Technical University.

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Alibakhshikenari, M., B. S. Virdee, P. Shukla, Y. Wang, L. Azpilicueta, M. Naser-Moghadasi, Chan H. See, et al. "Impedance Bandwidth Improvement of a Planar Antenna Based on Metamaterial-Inspired T-Matching Network." IEEE, 2021. http://hdl.handle.net/10454/18486.

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yes
In this paper a metamaterial-inspired T-matching network is directly imbedded inside the feedline of a microstrip antenna to realize optimum power transfer between the front-end of an RF wireless transceiver and the antenna. The proposed T-matching network, which is composed of an arrangement of series capacitor, shunt inductor, series capacitor, exhibits left-handed metamaterial characteristics. The matching network is first theoretically modelled to gain insight of its limitations. It was then implemented directly in the 50-Ω feedline to a standard circular patch antenna, which is an unconventional methodology. The antenna’s performance was verified through measurements. With the proposed technique there is 2.7 dBi improvement in the antenna’s radiation gain and 12% increase in the efficiency at the center frequency, and this is achieved over a significantly wider frequency range by a factor of approximately twenty. Moreover, there is good correlation between the theoretical model, method of moments simulation, and the measurement results.

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Wang, Jinhua. "A Wide Input Power Line Energy Harvesting Circuit For Wireless Sensor Nodes." Thesis, Virginia Tech, 2021. http://hdl.handle.net/10919/103426.

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Massive deployment of wireless IoT (Internet of Things) devices makes replacement or recharge of batteries expensive and impractical for some applications. Energy harvesting is a promising solution, and various designs are proposed to harvest power from ambient resources including thermal, vibrational, solar, wind, and RF sources. Among these ambient resources, AC powerlines are a stable energy source in an urban environment. Many researchers investigated methods to exploit this stable source of energy to power wireless IoT devices. The proposed circuit aims to harvest energy from AC powerlines with a wide input range of from 10 to 50 A. The proposed system includes a wake-up circuit and is capable of cold-start. A buck-boost converter operating in DCM is adopted for impedance matching, where the impedance is rather independent of the operation conditions. So, the proposed system can be applied to various types of wireless sensor nodes with different internal impedances. Experimental results show that the proposed system achieves an efficiency of 80.99% under the powerline current of 50 A.
M.S.
Nowadays, with the magnificent growth of IoT devices, a reliable, and efficient energy supply system becomes more and more important, because, for some applications, battery replacement is very expensive and sometimes even impossible. At this time, a well-designed self-contained energy harvesting system is a good solution. The energy harvesting system can extend the service life of the IoT devices and reduce the frequency of charging or checking the device. In this work, the proposed circuit aims to harvest energy from the AC power lines, and the harvested power intends to power wireless sensor nodes (WSNs). By utilizing the efficient and self-contained EH system, WSNs can be used to monitor the temperature, pressure, noise level and humidity etc. The proposed energy harvesting circuit was implemented with discrete components on a printed circuit board (PCB). Under a power line current of 50 A @ 50 Hz, the proposed energy harvesting circuit can harvest 156.6 mW, with a peak efficiency of 80.99 %.

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Benedik, Christopher. "Modeling and Minimization of Integrated Circuit Packaging Parasitics at Radio Frequencies." Wright State University / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=wright1376605018.

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Ait, ou kharraz Mariam. "Caractérisation du réseau basse tension français dans la bande de fréquence utilisée par les courants porteurs en ligne [9-500kHz] en bande étroite." Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLC029.

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Ce travail est une étude de caractérisation de différents composants du réseau basse tension (BT) français dans la bande de fréquence utilisée par les courants porteurs en ligne en bande étroite entre 9 kHz et 500 kHz. L’objectif est de permettre une compréhension approfondie de la propagation du signal CPL dans le réseau BT français. L’approche ascendante est choisie. Elle consiste en la caractérisation du réseau à partir de la caractérisation de chaque composant le constituant. Deux composants essentiels du réseau BT ont été caractérisés : les câbles d’énergie et les installations des clients. Dans la première partie, différentes technologies de câbles de distribution et de branchement ont été caractérisées expérimentalement. Deux modèles ont été choisis, un premier modèle dit ligne simple (LS) qui ne prend pas en compte le couplage et un deuxième modèle dit ligne couplée (LC) plus complet qui prend en compte le couplage inductif et capacitif entre les lignes de transmission des câbles. Dans la deuxième partie, on s’est intéressé à l’obtention des impédances d’entrée des installations des clients vues par le réseau BT. Ces impédances ont été obtenues à partir de la caractérisation du câble électrique domestique ainsi que celle de différents appareils domestiques parmi les plus présents dans les installations. Pour ces différentes caractérisations, trois méthodes expérimentales ont été conçues et mises au point. Une étude paramétrique a été réalisé pour évaluer l’influence des longueurs des câbles ainsi que les valeurs des impédances connectées aux extrémités des lignes de transmission de ces câbles sur l’atténuation, le couplage et l’impédance d’accès
This work presents the characterization of different components of the French Low Voltage (LV) network in the frequency band used by the narrowband power line communication (PLC) between 9 kHz and 500 kHz. The aim of this work is to provide a deeper understanding of the propagation of the PLC signal in the French LV network. For this, the bottom-up approach is used. This approach consists in LV network characterization starting from the characterization of each component of this LV network. Two essential components of the LV network have been characterized: energy cables and customer installations. In the first part, different distribution and connection cable technologies have been experimentally characterized.Two models have been chosen: a first model called LS consisting on the characterization of cables without taking into account the coupling and a second one more complete called LC which, takes into account the inductive and capacitive coupling between the transmission lines of the cables. In the second part, the work focused on obtaining the input impedance of the customer installations seen by the LV network. These impedances were obtained from the characterization of the domestic electrical cable as well as various domestic appliances among the most present in the installations. Finally, the results of both parts allowed to make a parametric study of the influence of cable lengths and the impedance values connected to the ends of the transmission lines of these cables on attenuation, coupling and access impedances

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Janse, van Rensburg Christo. "A SiGe BiCMOS LNA for mm-wave applications." Diss., University of Pretoria, 2012. http://hdl.handle.net/2263/26501.

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A 5 GHz continuous unlicensed bandwidth is available at millimeter-wave (mm-wave) frequencies around 60 GHz and offers the prospect for multi gigabit wireless applications. The inherent atmospheric attenuation at 60 GHz due to oxygen absorption makes the frequency range ideal for short distance communication networks. For these mm-wave wireless networks, the low noise amplifier (LNA) is a critical subsystem determining the receiver performance i.e., the noise figure (NF) and receiver sensitivity. It however proves challenging to realise high performance mm-wave LNAs in a silicon (Si) complementary metal-oxide semiconductor (CMOS) technology. The mm-wave passive devices, specifically on-chip inductors, experience high propagation loss due to the conductivity of the Si substrate at mm-wave frequencies, degrading the performance of the LNA and subsequently the performance of the receiver architecture. The research is aimed at realising a high performance mm-wave LNA in a Si BiCMOS technology. The focal points are firstly, the fundamental understanding of the various forms of losses passive inductors experience and the techniques to address these issues, and secondly, whether the performance of mm-wave passive inductors can be improved by means of geometry optimising. An associated hypothesis is formulated, where the research outcome results in a preferred passive inductor and formulates an optimised passive inductor for mm-wave applications. The performance of the mm-wave inductor is evaluated using the quality factor (Q-factor) as a figure of merit. An increased inductor Q-factor translates to improved LNA input and output matching performance and contributes to the lowering of the LNA NF. The passive inductors are designed and simulated in a 2.5D electromagnetic (EM) simulator. The electrical characteristics of the passive structures are exported to a SPICE netlist which is included in a circuit simulator to evaluate and investigate the LNA performance. Two LNAs are designed and prototyped using the 13μ-m SiGe BiCMOS process from IBM as part of the experimental process to validate the hypothesis. One LNA implements the preferred inductor structures as a benchmark, while the second LNA, identical to the first, replaces one inductor with the optimised inductor. Experimental verification allows complete characterization of the passive inductors and the performance of the LNAs to prove the hypothesis. According to the author's knowledge, the slow-wave coplanar waveguide (S-CPW) achieves a higher Q-factor than microstrip and coplanar waveguide (CPW) transmission lines at mm-wave frequencies implemented for the 130 nm SiGe BiCMOS technology node. In literature, specific S-CPW transmission line geometry parameters have previously been investigated, but this work optimises the signal-to-ground spacing of the S-CPW transmission lines without changing the characteristic impedance of the lines. Optimising the S-CPW transmission line for 60 GHz increases the Q-factor from 38 to 50 in simulation, a 32 % improvement, and from 8 to 10 in measurements. Furthermore, replacing only one inductor in the output matching network of the LNA with the higher Q-factor inductor, improves the input and output matching performance of the LNA, resulting in a 5 dB input and output reflection coefficient improvement. Although a 5 dB improvement in matching performance is obtained, the resultant noise and gain performance show no significant improvement. The single stage LNAs achieve a simulated gain and NF of 13 dB and 5.3 dB respectively, and dissipate 6 mW from the 1.5 V supply. The LNA focused to attain high gain and a low NF, trading off linearity and as a result obtained poor 1 dB compression of -21.7 dBm. The LNA results are not state of the art but are comparable to SiGe BiCMOS LNAs presented in literature, achieving similar gain, NF and power dissipation figures.
Dissertation (MEng)--University of Pretoria, 2012.
Electrical, Electronic and Computer Engineering
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Jalboub, Mohamed K., Haile S. Rajamani, D. T. W. Liang, Raed A. Abd-Alhameed, and Abdel-Baset M. I. Ihbal. "Investigation of Voltage Stability Indices to Identify Weakest Bus (TBC)." 2010. http://hdl.handle.net/10454/4803.

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yes
This paper proposes a new index to determine the static voltage stability of the load buses in a power network for certain operating conditions and hence identifies load buses which are close to voltage collapse. The proposed index is formulated from the quadratic equation derived from a two-bus network and is computed using the apparent power and the line impedance. The proposed index shows how far the load buses from their voltage stability limit and hence the most sensitive bus can be identified according to maximum loadability. 14 bus IEEE reliability test system is used to study the performance of the proposed index for its validity. A comparison is also made between proposed index and some other indices found in the literature. The results are discussed and key conclusion drawn.

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Book chapters on the topic "Line impedance stabilization network"

Ang, Ji Hua, Chi Keong Goh, Eu Jin Teoh, and Kay Chen Tan. "Designing a Recurrent Neural Network-based Controller for Gyro-Mirror Line-of-Sight Stabilization System using an Artificial Immune Algorithm." In Advances in Evolutionary Computing for System Design, 189–209. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-72377-6_8.

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Ogbodo, Eugene A. "Implementations of ACJ Technique in Different Four-Port Filter Networks." In Handbook of Research on 5G Networks and Advancements in Computing, Electronics, and Electrical Engineering, 281–99. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-6992-4.ch011.

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This chapter proposes the use of asynchronously coupled-resonator junctions (ACJ) in the design of a multi-input multi-output (MIMO) filtering network and a masthead combiner (MHC). By employing the resonator junctions, miniaturised circuits are achieved without using any transmission-line-based impedance matching circuits. The main challenge in the designs is the control and implementation of the external couplings at the common ports of this all-resonator-based MIMO filtering network and MHC. Both devices are four ports-based with the MIMO filtering network operating at 1.8, 2.1, and 2.6 GHz, while the MHC operates at the two channels of 1.8 and 2.1 GHz. The demonstrated designs achieved fractional bandwidths of 1.764 GHz to 1.836 GHz, 2.058 GHz to 2.142 GHz, and 2.548 GHz to 2.652 GHz, respectively. Good agreements have been achieved between the measurements of the prototype devices and the simulations.

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Stephen Mulholland, Robert. "Internal and External Radiofrequency Assisted Lipo-Coagulation (RFAL) in the Control of Soft Tissue Contraction during Liposuction: Part 1 “Inside Out” Thermal Tissue Tightening." In Enhanced Liposuction - New Perspectives and Techniques [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.97378.

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Radiofrequency Assisted Lipo-coagulation (RFAL) BodyTite is a contact, impedance, internal and external thermal regulation controlled, internal, minimally invasive, non-excisional procedure providing soft tissue lipo-coagulation and contraction that has been used for over 10 years to optimize skin and soft tissue contraction during liposuction procedures. The device deploys a bipolar applicator inserted into the liposuction zone. The internal, coated, electrode is positively charged and emits a coagulative, ablative injury that results in adipose liquification and Fibroseptal Network (FSN) contraction. The RF flows from the internal electrode after ablation and coagulation up to the external negatively charged return electrode moving on the skin, which heats and tightens the papillary dermis non-ablatively. The body areas that most benefit from this BodyTite technology and procedure include those areas most in need of non-excision contraction include the abdomen, upper arms, inner thighs, bra-line, neck and jaw line. Studies, show, that the combination of BodyTite internal thermal coagulation and external Morpheus8 (see Part 2) at the time of liposuction can result in 40–70% area skin contraction, greatly improving the soft tissue contours and Body shaping outcomes following lipo-contouring procedures.

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Conference papers on the topic "Line impedance stabilization network"

Sun, Yi, Xiaodong Zhang, W. Chien, C. H. Sun, and C. C. Chiu. "Development of a new line impedance stabilization network system." 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.2009.5355743.

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Abinaya, A. Backia, and S. Arokia Magdaline. "Design & analysis of line impedance stabilization network using RLC components for ITE." In 2017 4th International Conference on Innovations in Information, Embedded and Communication Systems (ICIIECS). IEEE, 2017. http://dx.doi.org/10.1109/iciiecs.2017.8275974.

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Mitalkumar, Ladani, Nisha P.V., and Sindhu T.K. "Design of a Modified Three Phase Line Impedance Stabilization Network for Conducted Emission Test." In 2018 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES). IEEE, 2018. http://dx.doi.org/10.1109/pedes.2018.8707559.

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Sakulhirirak, D., V. Tarateeraseth, and W. Khan-ngern. "The Analysis and Design of Line Impedance Stabilization Network for an In-house Laboratory." In 2006 4th Asia-Pacific Conference on Environmental Electromagnetics. IEEE, 2006. http://dx.doi.org/10.1109/ceem.2006.257943.

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Kouchaki, Alireza, and Morten Nymand. "LCL filter design for three-phase two-level power factor correction using line impedance stabilization network." In 2016 IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE, 2016. http://dx.doi.org/10.1109/apec.2016.7468199.

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Tarateeraseth, Vuttipon. "Design of three-phase line impedance stabilization networks for EMC pre-compliance testing laboratories." In 2013 10th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON 2013). IEEE, 2013. http://dx.doi.org/10.1109/ecticon.2013.6559466.

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Sakulhirirak, D., V. Tarateeraseth, W. Khan-ngern, and N. Yoothanom. "Design of High Performance and Low Cost Line Impedance Stabilization Network for University Power Electronics and EMC Laboratories." In 2007 7th International Conference on Power Electronics and Drive Systems. IEEE, 2007. http://dx.doi.org/10.1109/peds.2007.4487715.

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Ananda, Wisnu, Seto Ayom Cahyadi, Irwan Inayaturohman, and Deny Hamdani. "The effect of the grounding condition of line impedance stabilization network on the measurement validity of conducted emission parameter." In 2017 International Conference on High-Voltage Engineering and Power Systems (ICHVEPS). IEEE, 2017. http://dx.doi.org/10.1109/ichveps.2017.8225898.

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Ales, A., F. Tahar Belkacem, and D. Moussaoui. "Laboratory Line Impedance Stabilisation Network: Experimental studies." In 2011 10th International Conference on Environment and Electrical Engineering (EEEIC). IEEE, 2011. http://dx.doi.org/10.1109/eeeic.2011.5874774.

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Solak, Krzysztof, Justyna Herlender, and Jan Izykowski. "Transmission line impedance-differential protection with improved stabilization for external fault cases." In 2018 19th International Scientific Conference on Electric Power Engineering (EPE). IEEE, 2018. http://dx.doi.org/10.1109/epe.2018.8396003.

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Contents

Academic literature on the topic 'Line impedance stabilization network'

Create a spot-on reference in APA, MLA, Chicago, Harvard, and other styles

Journal articles on the topic "Line impedance stabilization network"

Dissertations / Theses on the topic "Line impedance stabilization network"

Book chapters on the topic "Line impedance stabilization network"

Conference papers on the topic "Line impedance stabilization network"