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Academic literature on the topic 'Inductive Voltage Transformer'

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Published: 4 June 2021

Last updated: 6 February 2022

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Journal articles on the topic "Inductive Voltage Transformer"

Kaczmarek, Michał, and Dariusz Brodecki. "Transformation of Transient Overvoltages by Inductive Voltage Transformers." Sensors 21, no. 12 (June 17, 2021): 4167. http://dx.doi.org/10.3390/s21124167.

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Overvoltage transients occur after any type of switching activity in a power network, such as breaker operation, fault occurrence/clearance and rapid load change. This distortion of voltage is transformed to the secondary circuit of a voltage transformer. The maximum values of such impulses may many times exceed the rated value of its secondary voltage. This can lead to malfunction of measuring or protection devices connected to the secondary circuit of a voltage transformer and even their damage. The paper presents the application of determined values of ratio error at harmonics of the inductive voltage of the transformer to predict the value of transformed slow-front transient overvoltage to their secondary circuits. This will help to prevent malfunction of measuring or protection devices connected to the secondary side of the voltage transformer and increase their safety of operation. The inductive voltage transformer equivalent circuit for transformation of higher frequency components of distorted voltage must be extended with internal capacitances of windings. This is caused by the fact that the resonance phenomenon of the slow-front transient overvoltage results from leakage inductance and capacitance of primary winding, not from the magnetic core. Therefore, this behaviour is independent from the value of the applied voltage.

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Trkulja, Bojan, Ana Drandić, Viktor Milardić, and Igor Žiger. "Evaluation of Methodology for Lightning Impulse Voltage Distribution over High-Voltage Windings of Inductive Voltage Transformers." Energies 14, no. 16 (August 20, 2021): 5144. http://dx.doi.org/10.3390/en14165144.

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Knowledge of lightning impulse (LI) voltage distribution over transformer windings during the design stage of the transformer is very important. Specific design differences in inductive voltage transformers make the transient analysis approach different to the approach to the power transformers. In this paper, a methodology for acquiring lightning impulse voltage distribution over high-voltage (HV) winding of inductive voltage transformers is presented and evaluated. Resistance, inductance, and capacitance matrices are calculated using the integral and boundary element methods (BEM) approach. Additionally, in order to improve the capacitance matrix solver, adaptive cross approximation (ACA) is applied. These parameters are then used to solve the equivalent circuit model in time domain. In order to evaluate the methodology, an experimental and numerical investigation of the layer discretisation, iron core influence, and accuracy of the proposed methodology is performed. The comparison of numerical results with measurements confirms the validity of the methodology.

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Liang, Ji Chong, Tian Zheng Wang, Kang Ning Wang, and Jun Hao Li. "The Simulation Study of Transformer Inductive Oscillating Switching Impulse Voltage Generation." Applied Mechanics and Materials 492 (January 2014): 169–72. http://dx.doi.org/10.4028/www.scientific.net/amm.492.169.

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According to IEC60060-1, IEC60060-2 requirements, the large transformer should take impulse voltage test in site. However, this test is not performed in the field for the impulse voltage generator huge and difficult to operate. To solve this problem, IEC60060-3 propose using oscillating impulse voltage for equipment on-site impulse withstand voltage test. Oscillating impulse voltage has higher generation efficiency and close to the actual voltage waveform that electrical equipment bear. For the transformer, the oscillating impulse voltage can generated through inductive method. In order to study the generation of oscillating impulse voltage through inductive method for transformer, the simulation circuit is established using ATP soft and the oscillating switching impulse voltage characteristics is studied in this paper. The result show that the oscillating switching impulse voltage waveform that accordance with IEC requirements can be generated through inductive method for transformer.

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Kumrey, G. R., and S. K. Mahobia. "STUDY AND DESIGN OF SINGLE PHASE CONVERTER USING OF SINGLE PHASE TRANSFORMER." International Journal of Research -GRANTHAALAYAH 4, no. 8 (August 31, 2016): 46–51. http://dx.doi.org/10.29121/granthaalayah.v4.i8.2016.2562.

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The field of electrical transformer are most important equipment which is use to convert ac voltage or current like lower to higher , higher to lower without change in the frequency . its primary side and secondary side are isolate from each other and it can higher or lower voltage level the apparent value of electrical passive element like inductive , resistive . It use to transfer electrical energy for long distance with higher voltage level .the electrical power transmission,distribution through transformer for factories and home . AC supply can easily generated by a convenient voltage and transformed into much higher voltage for transmission and distribution purpose.

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Wang, Quan, Huan Wang, and Qiong Xiang. "Design and Calibration of Inductive Current Transformer." Advanced Materials Research 860-863 (December 2013): 2261–65. http://dx.doi.org/10.4028/www.scientific.net/amr.860-863.2261.

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In this paper, the design principle of inductive current transformer is introduced at first. Then an inductive current transformer is produced by applying the structure of two-stage inductive voltage divider. And finally, the error of the sample machine is given through examine test, and the suggestion for improving the machine is given based on the data. The data from the sample machine shows that: without compensation winding, the error level of 1200 ampere-turn of inductive current transformer can reach 0.1 level, after adding the compensation winding, it can reach 0.02 level. The design and data have laid a foundation for the future design of inductive current transformer with higher level of accuracy.

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Mingotti, Alessandro, Lorenzo Bartolomei, Lorenzo Peretto, and Roberto Tinarelli. "On the Long-Period Accuracy Behavior of Inductive and Low-Power Instrument Transformers." Sensors 20, no. 20 (October 14, 2020): 5810. http://dx.doi.org/10.3390/s20205810.

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The accuracy evaluation of instrument transformers is always a key task when proper control and management of the power network is required. In particular, accuracy becomes a critical aspect when the grid or the instrumentation itself is operating at conditions different from the rated ones. However, before focusing on the above non-rated conditions, it is important to fully understand the instrument transformer behavior at rated conditions. To this end, this work analyzed the accuracy behavior of legacy, inductive, and low-power voltage transformers over long periods of time. The aim was to find patterns and correlations that may be of help during the modelling or the output prediction of voltage transformers. From the results, the main differences between low-power and inductive voltage transformers were pointed out and described in detail.

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Avdeev, Boris, Aleksei Vyngra, and Sergei Chernyi. "Improving the Electricity Quality by Means of a Single-Phase Solid-State Transformer." Designs 4, no. 3 (September 11, 2020): 35. http://dx.doi.org/10.3390/designs4030035.

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The paper describes the use of a single-phase three-stage solid-state transformer in networks with non-sinusoidal voltages in order to improve the quality of electricity. An active-inductive load was chosen as the load. The solid-state transformer was simulated by the Matlab/Simulink software. Its performance was analyzed and the parameters for optimal performance were specified. The voltage and current graphs on the load and their spectral analysis are given. Total harmonic distortion was evaluated for current and voltage. As a comparison, the operation of a classic transformer was simulated. Modeling shows that solid-state transformer copes with improving the quality of electricity better than a classical transformer. In addition to improving the quality of the load current, the solid-state transformer protects the consumer from overvoltage, voltage dips, and other transient phenomena, due to the accumulated supply of electricity in the capacitors of the DC-Bus.

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Lesniewska, Elzbieta, Michal Kaczmarek, and Ernest Stano. "3D Electromagnetic Field Analysis Applied to Evaluate the Accuracy of a Voltage Transformer under Distorted Voltage." Energies 14, no. 1 (December 29, 2020): 136. http://dx.doi.org/10.3390/en14010136.

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Voltage transformers (VTs) are an important element of the measuring system that allows measuring the energy flow in medium and high voltage networks. Additional problems with the accuracy of the measurement introduced by the appearance of sources and nonlinear receivers cause deformation of the voltage shape in the energy system. Due to the high metrological requirements, the design of voltage transformers requires high accuracy (for class 0.2 ΔU ≤ 0.2, phase displacement ≤10 min), which is not possible with the use of analytical methods using approximate models. Therefore, only the application of numerical modeling by the finite element method, taking into account real three-dimensional phenomena, allows achieving high modeling accuracy. The article concerns the phenomenon of the influence of voltage higher harmonics of supply voltage on the accuracy (up to the 100th harmonic) of the measuring inductive voltage transformer (IVT). The applied modeling method takes into account the phenomena in the transformer core and the circuit equations resulting from the winding arrangement, which allows for the study of the deformation voltage transformation. Experimental tests on a real model to evaluate the method used were necessary. The article presents simulations for a model transformer, and results have been confirmed by experimental tests.

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Gusenkov, A. V., V. D. Lebedev, S. N. Litvinov, S. A. Slovesny, and A. A. Yablokov. "Experimental determination of partial discharges in a model of a digital instrument transformer by differential method." Vestnik IGEU, no. 2 (2019): 32–42. http://dx.doi.org/10.17588/2072-2672.2019.2.032-042.

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Power facilities are now implementing the concept of smart grid and its essential elements – high-voltage digital current and voltage transformers. However, the implementation of digital technologies is slowed down by the lack of operation experience and reliability indicators. One of the main causes of high-voltage equipment failures is insulation damage. The most informative parameters determined by insulation evaluation are partial discharge characteristics. There are rated values of these characteristics for rotating electrical machines and power transformers measured by external equipment. But the existing method of partial discharge analysis cannot be applied to digital current and voltage transformers as there are no criteria for tripping of the innovative equipment with comprehensive insulation. All this urges us to study the possibility to determine experimentally the characteristics of partial discharges in the insulation of digital current and voltage transformers by using embedded inductive sensors in order to develop a method for condition monitoring of digital current and voltage transformers and improving of their reliability. In this work, we have used a model of digital current and voltage transformers, a high-voltage test unit, a digital multi-input oscciloscope and inductive sensors. The experiment includes: detecting partial discharges in the model of digital current and voltage transformers by the external bridge connection, recording the voltage at which partial discharges occur in the simulated fault area, measuring the corresponding value of the apparent charge of the partial discharge, detecting partial discharges in the model of digital current and voltage transformers by a differential method with the help of embedded inductive sensors. The characteristics of partial discharges in the simulated fault area have been experimentally determined on a model of digital current and voltage transformers. The pulse voltage on the embedded inductive sensor corresponding to the apparent charge of 80 pC was equal to 600 mV at the test voltage of 2,7 kV. Embedded inductive sensors allow implementing the method of insulation condition monitoring for digital current and voltage transformers in accordance with the partial discharge characteristics both at the stages of production and operation extending the potential of the electronic (microprocessor) module and increasing the reliability of digital current and voltage transformers.

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Mikolajewski, Miroslaw. "A Transformer Class E Amplifier." Archives of Electrical Engineering 63, no. 4 (December 11, 2014): 621–33. http://dx.doi.org/10.2478/aee-2014-0043.

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Abstract In a high-efficiency Class E ZVS resonant amplifier a matching and isolation transformer can replace some or even all inductive components of the amplifier thus simplifying the circuit and reducing its cost. In the paper a theoretical analysis, a design example and its experimental verification for a transformer Class E amplifier are presented. In the experimental amplifier with a transformer as the only inductive component in the circuit high efficiency ηMAX = 0.95 was achieved for supply voltage VI = 36 V, maximum output power POMAX = 100 W and the switching frequency f = 300 kHz. Measured parameters and waveforms showed a good agreement with theoretical predictions. Moreover, the relative bandwidth of the switching frequency was only 19% to obtain output power control from 4.8 W to POMAX with efficiency not less than 0.9 in the regulation range.

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Dissertations / Theses on the topic "Inductive Voltage Transformer"

Camargo, Matheus de Castro. "Metodologia para modelagem de transformadores de potencial indutivo e capacitivos para estudos de transitórios em altas frequências." Universidade Federal de Santa Maria, 2015. http://repositorio.ufsm.br/handle/1/8577.

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This dissertation proposes a modeling methodology for Inductive and Capacitive Voltage Transformers (IVT and CVT) for high-frequency electrical transients analysis, up to 3 MHz. The model construction starts from the VT s sweep frequency test, carried out by a commercial Sweep Frequency Response Analyzer (SFRA) with special connections, in order to obtain its short-circuit Admittance Matrix. The SFRA is designed for another purpose, to detect displacement of windings or fault in the magnetic core of power transformers based on voltage transfer analysis. Therefore, due to this fact, the measured data needs to be corrected and recalculated, through and external routine, to adequately represent the proper and mutual admittance values of the Matrix. After its correction, the Admittance Matrix serves as input data to the Matrix Fitting method, a frequency-response approximation tool by means of modified rational functions, which is part of the Vector Fitting (VF) routine, freely available for non-commercial purposes in MATLAB®. The results are an approximated rational function, in state-space or pole-residue model, and a RLC equivalent network proper to be used in electromagnetic transients analysis software, such as the Alternative Transients Program (ATP). The models validation is accomplished based on the comparison between the transient responses of the created model, through simulation in ATP/EMTP, and the IVTs and CVTs laboratory tests when both are submitted to a step function excitation.
Esta dissertação propõe uma metodologia para a modelagem de Transformadores de Potencial Indutivos (TPIs) e Capacitivos (TPCs) para estudos de transitórios eletromagnéticos em altas frequências, na ordem de até 3 MHz. A obtenção dos modelos inicia através do ensaio de varredura em frequência dos TPs utilizando um Sweep Frequency Response Analyzer (SFRA) comercial por meio de conexões especiais de modo a obter as Matrizes de Admitâncias de curto-circuito. Os fabricantes do SFRA projetaram este equipamento com outro objetivo, o da realização de estudos de transferência de tensão, para detectar possíveis deformações mecânicas ou falhas internas em transformadores de potência. Desse modo, os dados obtidos dessa medição necessitam ser corrigidos e recalculados, através de uma rotina externa, a fim de representar adequadamente os valores das admitâncias próprias e mútuas desta Matriz. Uma vez corrigida, essa Matriz de Admitâncias servirá como entrada para inicializar o método do Ajuste Matricial (Matrix Fitting), que é uma ferramenta fundamental para aproximação da resposta em frequência por funções racionais modificadas que integra a rotina de Ajuste Vetorial, disponível livremente para fins não comerciais no MATLAB®. Como resultado, são obtidas sua função racional aproximada, em modelos de espaço de estados ou de polo-resíduo, e uma rede RLC equivalente complexa, propícia para o uso direto em programas de análises de transitórios eletromagnéticos, como o Alternative Transients Program (ATP). A validade dos modelos criados foi verificada por meio da comparação das respostas transitórias dos equivalentes gerados, através de simulações no EMTP/ATP, com os ensaios feitos em laboratório e em campo em TPIs e TPCs quando submetidos a uma excitação com uma função degrau.

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Makowski, Nathanael Jared. "Proposal and Analysis of Demagnetization Methods of High Voltage Power System Transformers and Design of an Instrument to Automate the Demagnetization Process." PDXScholar, 2011. https://pdxscholar.library.pdx.edu/open_access_etds/431.

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Present demagnetization methods for large power system transformers are time consuming and can be dangerous to persons performing demagnetization. The work of this thesis was to develop improved demagnetization methods and to construct an automated instrument that would implement the methods developed. One previously developed method was analyzed for effectiveness. Then, two new methods for demagnetization were developed and also analyzed for effectiveness. An automated test instrument prototype was redesigned to be able to accommodate these methods and to improve the safety of the user. The previously developed method attempts demagnetization based on current flow behavior characteristics. The first new method is a magnetic flux estimation based on saturation time. The second new method is also based on measuring saturation time, modified to account for the variable voltage loss due to wire resistance. The second of the two new methods developed proved to be the most effective for demagnetization and was able to demagnetize a transformer within an error margin of 2%. The instrument designed to perform the demagnetization with this new routine is now in early production stages for an expanded field trial with transformer maintenance teams.

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Trachta, Jiří. "Optimalizace provozu indukční pece ve slévárně Vsetín." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2011. http://www.nusl.cz/ntk/nusl-219082.

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The aim of this work is optimalisation of induction furnace in foundry for company PROMET FOUNDRY a.s. The company has two induction furnances. There are installed as identical construction. They have 2 modes of operation. First mode is founding and second mode is mode, where is temperature in maintain mode. Only one induction furnance can work in the founding mode at a time though. Inducion furnances are in the single-phase connection and they cause unbalance in the distribution network. Near the foundry there is a small network area whitch it is operated by company Zásobování teplem Vsetín a.s. The consumption of electrical energy in foundry so big, that in the year 2009 was made elaborate for Zásobování teplem Vsetín a.s. It was write at Laboratoře diagnostiky výkonů (Laboratory of performance diagnostics), which is a part of Electrotechnic Department at Technical Univarsity of Ostrava. The ordered study was named “Verification of causes of increased reactive energy consumption during transition from electricity delivery to electricity consumption”. The conclusion of this assignment confirms that in distribution network in the Jiráskova area in Vsetín there is unbalance of electrical energy and there is high part of reactive power. The next conclusion is crucial to find the customer who made the unbalance and to set relevant remedy. The last step will be the identification whether such device can actually be effectively balanced. It was subsequently proved that the Promet Foundry was causing the unbalance and that balanced consumption would be reasonable. Promet Foundry thus addressed Autel a.s. company with an inquiry to make a study of removing the causes of the unbalance which is caused by current induction furnaces operation at a minimum possible cost, least possible influence on the performance and minimum construction changes concerning the building. In this thesis there will be some topics. The result of which will be introducing of used heating technology, introducing of company and of effective plant performance and subsequent suggestions of possible unbalance removal or reactive power decrease. Several ways which are being implemented in the industry in order to balance consumption will be described. A suitable balancing plant will be subsequently chosen and its parameters will be calculated.

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Cipín, Radoslav. "Matematické modely transformátorů a asynchronních motorů." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2008. http://www.nusl.cz/ntk/nusl-217586.

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The fist part of this work is dealt with the construction of the mathematical models of voltage and current transformers. There are created and simulated models of voltage and current transformer with the nonlinear magnetization characteristics. The second part of this work is dealt with equivalent circuit of the induction motor in the form of Gamma-circuit. The speed-torque characteristic and the dependence of stator current on the slip are calculated from this equivalent circuit. The third part of this work is dealt with electromagnetic design of the alternating current machines by the help of a classic way and a new way.

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Books on the topic "Inductive Voltage Transformer"

Bayo, Benson. Current-chopping on switching out inductive circuits: The investigationof resulting over voltages when switching out inductive circuits such as unloaded transformers or shunt reactors---. Bradford, 1987.

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Book chapters on the topic "Inductive Voltage Transformer"

Konta, Ivan, Dijana Papić, Dalibor Filipović-Grčić, and Danijel Brezak. "Line Discharge Capability of Inductive Voltage and Combined Transformers." In Lecture Notes in Electrical Engineering, 227–40. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5600-5_18.

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Bevitori, P., and A. Ravaioli. "Assessment of Magnetic Induction Levels Near Middle and Low Voltage Distribution Transformers." In Electricity and Magnetism in Biology and Medicine, 339–41. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4867-6_78.

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Conference papers on the topic "Inductive Voltage Transformer"

Ngurah Satriyadi Hernanda, I. Gusti, I. Made Yulistya Negara, Dimas Anton Asfani, Daniar Fahmi, Mochamad Rizky Ramadhan, and Bonifacius Kevin Yegar Sahaduta. "Study of Ferroresonance in 150 kV High Voltage Inductive Voltage Transformer." In 2020 International Seminar on Intelligent Technology and Its Applications (ISITIA). IEEE, 2020. http://dx.doi.org/10.1109/isitia49792.2020.9163702.

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Jahagirdar, Aishwarya, Archana Thosar, and V. P. Dhote. "Study of High Voltage Inductive Voltage Transformer for Transients and Ferroresonance." In 2018 International Conference on Power, Energy, Control and Transmission Systems (ICPECTS). IEEE, 2018. http://dx.doi.org/10.1109/icpects.2018.8521570.

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Poornima, S., L. Sathyanandan, and C. Pugazhendhi Sugumaran. "Ferroresonance Mitigation in an Inductive Voltage Transformer Using Memristor Emulator." In 2019 International Conference on High Voltage Engineering and Technology (ICHVET). IEEE, 2019. http://dx.doi.org/10.1109/ichvet.2019.8724287.

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Kaczmarek, M., and S. Jama. "Accuracy of inductive voltage transformer in the presence of voltage high harmonics." In 2014 International Conference on High Voltage Engineering and Application (ICHVE). IEEE, 2014. http://dx.doi.org/10.1109/ichve.2014.7035462.

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Tu, Zhuolin, Kefu Liu, Yu Lei, and Jian Qiu. "A new triggering technology based on inductive transformer for LTD switches." In 2012 IEEE International Power Modulator and High Voltage Conference (IPMHVC). IEEE, 2012. http://dx.doi.org/10.1109/ipmhvc.2012.6518715.

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Buchhagen, Christoph, Arne Pawellek, Lutz Hofmann, and Holger Daumling. "Analysis of an inductive medium voltage transformer with compensated first natural frequency." In 2013 IEEE Power & Energy Society General Meeting. IEEE, 2013. http://dx.doi.org/10.1109/pesmg.2013.6672839.

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Faifer, Marco, Christian Laurano, Roberto Ottoboni, Sergio Toscani, and Michele Zanoni. "Behavioral Modeling of an Inductive Voltage Transformer: Comparison Between X-Parameters and Simplified Volterra Approaches." In 2019 IEEE International Instrumentation and Measurement Technology Conference (I2MTC). IEEE, 2019. http://dx.doi.org/10.1109/i2mtc.2019.8826952.

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Miiura, Yushi, Satoshi Ojika, and Tomofumi Ise. "Voltage control of inductive contactless power transfer system with coaxial coreless transformer for DC power distribution." In 2014 International Power Electronics Conference (IPEC-Hiroshima 2014 ECCE-ASIA). IEEE, 2014. http://dx.doi.org/10.1109/ipec.2014.6869773.

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Morimoto, T. "A novel voltage source PWM DC-DC converter using transformer parasitic inductive components-assisted soft-commutation scheme." In 8th International Conference on Power Electronics and Variable Speed Drives. IEE, 2000. http://dx.doi.org/10.1049/cp:20000227.

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Djokic, Branislav. "Calibration of 10∶−1 inductive voltage dividers by Thompson's method using an electronically-enhanced three-stage calibrating transformer." In 2012 Conference on Precision Electromagnetic Measurements (CPEM 2012). IEEE, 2012. http://dx.doi.org/10.1109/cpem.2012.6251022.

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Academic literature on the topic 'Inductive Voltage Transformer'

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Journal articles on the topic "Inductive Voltage Transformer"

Dissertations / Theses on the topic "Inductive Voltage Transformer"

Books on the topic "Inductive Voltage Transformer"

Book chapters on the topic "Inductive Voltage Transformer"

Conference papers on the topic "Inductive Voltage Transformer"