Relevant bibliographies by topics / Modelling of resonant converter

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Academic literature on the topic 'Modelling of resonant converter'

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Published: 4 June 2021
Last updated: 13 February 2022

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Journal articles on the topic "Modelling of resonant converter"

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Chiu, H. K., Agileswari K. Ramasamy, Nadia M. L. Tan, and Matthew Y. W. Teow. "Modelling of a Two-Stage Bidirectional AC-DC Converter using Wavelet Modulation." International Journal of Power Electronics and Drive Systems (IJPEDS) 9, no. 3 (September 1, 2018): 1006. http://dx.doi.org/10.11591/ijpeds.v9.i3.pp1006-1015.

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<span lang="EN-US">In this paper, a Wavelet modulated isolated two-stage three-phase bidirectional AC-DC converter is proposed for electric vehicle (EV) charging systems. Half-bridge resonant CLLC converter is proposed due to its high efficiency, wide gain range, galvanic isolation and bidirectional power flow. Wavelet modulation technique is used for three-phase six leg AC-DC converter due to its benefits of high DC component and lower harmonic contents. The proposed two-stage converter is developed and simulated in MATLAB Simulink environment. The contribution of this paper is on the implementation and performance analysis of Wavelet modulation in bidirectional AC-DC converters. The results show that Wavelet modulation is suitable to be implemented for the proposed bidirectional converter. The performance of the proposed converter delivers very low output voltage ripple and total harmonic distortion output current of less than 10% which is within the expected results.</span>
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TAUFIK, TAUFIK, ANGEL ALEJANDRO POLLERI, MAKBUL ANWARI, and MOHAMMAD TAUFIK. "MODELING OF PARALLELED SERIES-LOADED-RESONANT CONVERTER WITH PHASE SHIFTING CONTROL." International Journal of Modeling, Simulation, and Scientific Computing 02, no. 03 (September 2011): 259–75. http://dx.doi.org/10.1142/s1793962311000463.

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One topology widely known for use in high-voltage high-power converter in medical equipment is the Series Loaded Resonant (SLR) converter. As the power level required by medical equipment increases, there is a need to parallel the SLR converter for improved efficiency and performance. This paper presents the development of a circuit model for paralleled SLR converter to aid circuit designers evaluate circuit performance before the actual hardware is implemented. Each section of the circuit is modeled individually using sinusoidal approximation and circuit network methods. The derived model is then extended to include the parallel connection of the converter. The validity of the model is then tested by using computer simulation and hardware setup to demonstrate the converter's switching waveforms, output voltage and efficiency. Results from both simulation and hardware show good agreement, which demonstrate the validity of the derived model and its usefulness in the initial design of the converter.
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Farias Martins, Lais, David Stone, and Martin Foster. "Modelling of phase-shift modulated bidirectional CLLC resonant converter." IET Power Electronics 13, no. 12 (September 16, 2020): 2628–37. http://dx.doi.org/10.1049/iet-pel.2018.5672.

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CHOI, HYUN CHIL, GUN WOO MOON, and MYUNG JOONG YOUN. "Small signal modelling for the PWM series resonant converter." International Journal of Electronics 75, no. 5 (November 1993): 985–97. http://dx.doi.org/10.1080/00207219308907177.

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Li, Sen, and Babak Fahimi. "State‐space modelling of LLC resonant half‐bridge DC–DC converter." IET Power Electronics 13, no. 8 (June 2020): 1583–92. http://dx.doi.org/10.1049/iet-pel.2019.1503.

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Fehér, Áron, and Dénes Nimród Kutasi. "Modelling and Control of Bounded Hybrid Systems in Power Electronics." Acta Universitatis Sapientiae Electrical and Mechanical Engineering 9, no. 1 (December 1, 2017): 33–42. http://dx.doi.org/10.1515/auseme-2017-0008.

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Abstract In this work, an explicit Model Predictive Control algorithm is devised and compared to classical control algorithms applied to a series resonant DC/DC converter circuit. In the first part, a model of the converter as a hybrid system is created and studied. In the second part, the predictive algorithm is applied and tested on the model. Finally, the designed control algorithm is compared to classical PI and sliding mode controllers.
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Renzi, E. "Hydroelectromechanical modelling of a piezoelectric wave energy converter." Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 472, no. 2195 (November 2016): 20160715. http://dx.doi.org/10.1098/rspa.2016.0715.

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We investigate the hydroelectromechanical-coupled dynamics of a piezoelectric wave energy converter. The converter is made of a flexible bimorph plate, clamped at its ends and forced to motion by incident ocean surface waves. The piezoceramic layers are connected in series and transform the elastic motion of the plate into useful electricity by means of the piezoelectric effect. By using a distributed-parameter analytical approach, we couple the linear piezoelectric constitutive equations for the plate with the potential-flow equations for the surface water waves. The resulting system of governing partial differential equations yields a new hydroelectromechanical dispersion relation, whose complex roots are determined with a numerical approach. The effect of the piezoelectric coupling in the hydroelastic domain generates a system of short- and long-crested weakly damped progressive waves travelling along the plate. We show that the short-crested flexural wave component gives a dominant contribution to the generated power. We determine the hydroelectromechanical resonant periods of the device, at which the power output is significant.
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Laouamri, K., J. P. Ferrieux, S. Catellani, and J. Barbaroux. "Application of axisymmetric modelling to integrated LCT structure of series-resonant converter." European Transactions on Electrical Power 14, no. 4 (July 2004): 247–59. http://dx.doi.org/10.1002/etep.20.

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Szabo, A., E. S. Ward, P. G. Holmes, and M. Kansara. "Mathematical modelling of quasi-resonant converters." Electronics Letters 31, no. 24 (November 23, 1995): 2057–58. http://dx.doi.org/10.1049/el:19951427.

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Chen, Yu-Hsing, Catalin Gabriel Dincan, Philip Kjær, Claus Leth Bak, Xiongfei Wang, Carlos Enrique Imbaquingo, Eduard Sarrà, Nicola Isernia, and Alberto Tonellotto. "Model-Based Control Design of Series Resonant Converter Based on the Discrete Time Domain Modelling Approach for DC Wind Turbine." Journal of Renewable Energy 2018 (December 2, 2018): 1–18. http://dx.doi.org/10.1155/2018/7898679.

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This paper focuses on the modelling of the series resonant converter proposed as a DC/DC converter for DC wind turbines. The closed-loop control design based on the discrete time domain modelling technique for the converter (named SRC#) operated in continuous-conduction mode (CCM) is investigated. To facilitate dynamic analysis and design of control structure, the design process includes derivation of linearized state-space equations, design of closed-loop control structure, and design of gain scheduling controller. The analytical results of system are verified in z-domain by comparison of circuit simulator response (in PLECS™) to changes in pulse frequency and disturbances in input and output voltages and show a good agreement. Furthermore, the test results also give enough supporting arguments to proposed control design.
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Dissertations / Theses on the topic "Modelling of resonant converter"

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Panov, Vasil. "LLC resonant converter modelling." Thesis, University of British Columbia, 2014. http://hdl.handle.net/2429/46521.

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Many of today's power converters use pulse-width modulation(PWM) techniques to regulate the circulating currents and voltages. A significant problem with most dc-dc converters is the increased power loss during switching. These devices typically operate in hard-switching mode which results in switching losses. Resonant converters have been used to minimize or even eliminate this problem. Although LLC resonant converters have shown significant gains in terms of efficiency, their modeling is still a challenge. LLC converters are designed to function in a specific mode and region of operation. It has been difficult to design a stable and robust controller with consistent bandwidth and disturbance rejection for every application. The complexity of the control design is magnified when the LLC converters are controlled using embedded digital control techniques. Recent developments in micro-controllers, including processing speed, power, and memory management, make possible the use of innovative non-linear or adaptive control algorithms, in order to produce high performance LLC circuits. Accurate modeling of the hardware is the key to an effective solution. This thesis presents several modeling techniques of the LLC resonant converter. Previous research is discussed and relevant techniques are used as reference for deriving the models presented here. A new approach will be used to describe the characteristics of the LLC within the operating region. This approach is derived using the method of Least Squares of errors. The method estimates the coefficients of the plant transfer function, which then help to calculate control coefficients in the instantaneous operating condition of the LLC resonant power converter.
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Kolachina, Srinivasa Kranthi Kiran, and Nishu Reddy. "Modelling and Simulation of a Resonant Converter." Thesis, Blekinge Tekniska Högskola, Institutionen för tillämpad signalbehandling, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-3374.

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This thesis is a part of collaborated project between Alstom and Blekinge Institute of Technology. In this thesis a fifth order non- linear Hamilton observer is applied on a series resonant converter. Two models for individual modes are given for a resonant power converter, one is suitable for simulation and other is suitable for simulation and analysis. The circuit is run in eight modes. A switched model of a fifth order DC/DC converter consisting of eight different switching modes has been derived and the performance of the circuit is studied under several conditions by simulation.
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Cheng, Brian Cheak Shing. "Modelling and control of the LLC resonant converter." Thesis, University of British Columbia, 2012. http://hdl.handle.net/2429/43729.

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To achieve certain objectives and specifications such as output voltage regulation, any power electronics converter must be coupled with a feedback control system. Therefore, a topic of considerable interest is the design and implementation of control systems for the LLC resonant converter. Additionally, with the current trend of smaller, more cost effective and reliable digital signal processors, the implementation of digital feedback control systems has garnered plenty of interest from academia as well as industry. Therefore, the scope of this thesis is to develop a digital control algorithm for the LLC resonant converter. For output voltage regulation, the LLC resonant converter varies its switching frequency to manipulate the voltage gain observed at the output. Thus, the plant of the control system is represented by the small signal control-to-output transfer function, and is given by P(s) =V_o/f. The difficulty in designing compensators for the LLC resonant converter is the lack of known transfer functions which describe the dynamics of the control-to-output transfer function. Thus, the main contribution of this thesis is a novel derivation of the small signal control-to-output transfer function. The derivation model proposes that the inclusion of the third and fifth harmonic frequencies, in addition to the fundamental frequency, is required to fully capture the dynamics of the LLC resonant converter. Additionally, the effect of higher order sideband frequencies is also considered, and included in the model. In this thesis, a detailed analysis of the control-to-output transfer function is presented, and based on the results, a digital compensator was implemented in MATLAB. The compensator's functionality was then verified in simulation. A comparison of the derivation model and the prototype model (based on bench measurements) showed that the derivation model is a good approximation of the true system dynamics. It was therefore concluded that both the bench measurement model and the derivation model could be used to design a z-domain digital compensator for a digital negative feedback control system. By using the derivation model, the main advantages are reduced computational power and the requirement for a physical prototype model is diminished.
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Bansal, Gurvinder Singh. "Modelling and analysis of quasi-resonant and square wave converter topologies." Thesis, University of Brighton, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.309174.

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Szabo, Adrian. "The modelling of quasi-resonant and multi-resonant boost converters." Thesis, Nottingham Trent University, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.245100.

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Baha, B. "Control and modelling of quasi-resonant converters." Thesis, University of Brighton, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.343606.

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Ang, Yong-Ann. "Modelling, analysis and design of LCLC resonant power converters." Thesis, University of Sheffield, 2006. http://etheses.whiterose.ac.uk/15027/.

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The thesis investigates the modelling, analysis, design and control of 4th -order LCLC resonant power converters. Both voltage-output and current-output variants, are considered. Key research outcomes are the derivation of new frequency- and time-domain models of the converters, based on normalised component ratios, and including the effects that parasitic elements have on circuit behaviour, and a detailed account of multi-resonant characteristics; extensions to the use of cyclicmode modelling methods for application to LCLC converters, to provide rapid steady-state analysis, thereby facilitating the use of the derived methodologies as part of an interactive design tool; the formulation of analytical methods to predict the electrical stresses on tank components-an important consideration when designing resonant converters, as they are often higher than for hard-switched converter counterparts; the characterisation of both continuous and discontinuous modes of operation and the boundary conditions that separate them; and a substantial treatment of the modelling, analysis and design of LCLC converters that can provide multiple regulated outputs by the integrated control of both excitation frequency and pulse-width-modulation. The proposed methodologies are employed, for validation purposes, in the realisation of two proof-of concept demonstrator converters. The first, to satisfy the requirements for delivering 65V (rms) to an electrode-less, SW, fluorescent lamp, to improve energy efficiency and lifetime, and operating at a nominal frequency of 2.65 MHz, is used to demonstrate capacitively-coupled operation through the lamp tube, thereby mitigating the normally detrimental effects of excitation via the electrodes. The second prototype considers the realization of an LCLC resonant power supply that can provide multiple regulated outputs without the need for post-regulation circuitry. The two outputs of the supply are independently, closed-loop regulated, to provide asymmetrical output voltage distributions, using a combination of frequency- and duty-control. Although, an analysis of the supply shows that the behaviour is extremely complex, due, in particular, to the highly non-linear interaction between the mUltiple outputs and parasitic inductances, and rectifier, an analysis to provide optimum performance characteristics, is proposed. Moreover, a PICIFPGA-based digital controller is developed that allows control of the transient performance of both outputs under start-up and steady-state conditions.
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Ghahderijani, Mohammad Moradi. "Dynamic modelling and control schemes for current-source resonant converters." Doctoral thesis, Universitat Politècnica de Catalunya, 2018. http://hdl.handle.net/10803/481978.

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This thesis focuses on the control methods applied to current source resonant converters, especially in two different applications of switching power supplies and wire-less power transfer systems. In fact, the existing applications are mostly working with voltage source resonant converters. For voltage-source resonant converters, many control strategies have been analyzed and investigated, turning this into a mature technology nowadays. The current-source resonant converter is an alternative solution as they offer well-known advantages such as non-pulsating input current, low stress for switches, simple driving circuitry, and short circuit protection capabilities. However, there is an obvious lack of control methods applicable to current-source resonant converters. In addition, obtaining an appropriate dynamic model to be used in control design is the other challenging issue in this field. Hence, the objectives of this thesis are used to fill these gaps. The proposed control schemes are: - Frequency modulation control scheme applied to a DC/DC current-source parallel resonant converter. - Sliding mode control scheme with amplitude modulation applied to a DC/DC current-source parallel resonant converter. - A control scheme for a multiple-output DC/DC current-source parallel resonant converter. - A communication-less control scheme for a variable air-gap wireless energy transfer system using a current-source resonant converter.
Esta tesis doctoral está centrada en los métodos de control aplicados a los convertidores resonantes con fuente de corriente, especialmente en dos aplicaciones distintas como son fuentes de alimentación conmutadas y sistemas de transferencia de energía sin hilos. De hecho, las aplicaciones existentes trabajan principalmente con convertidores alimentados mediante fuentes de tensión. Para los convertidores resonantes con fuente de tensión, se han analizado muchas estrategias de control en la literatura, lo que hace hoy en día que esta sea una tecnología madura. El convertidor resonante con fuente de corriente es una solución alternativa, que ofrece ventajas conocidas como corriente de entrada no pulsante, baja tensión para interruptores, circuitos de conducción sencillos y capacidades de protección contra cortocircuitos. Sin embargo, existe una falta evidente de métodos de control aplicables a los convertidores resonantes con fuente de corriente. Además, otro desafío en este tema es la obtención de modelos dinámicos apropiados para el diseño del control. Por lo tanto, los objetivos de esta tesis se utilizan para llenar estos vacíos. Los esquemas de control propuestos son: - Esquema de control en frecuencia aplicado a un convertidor resonante paralelo con fuente de corriente para reguladores de tensión en continua - Esquema de control en modo de deslizamiento con modulación de amplitud aplicado a un convertidor resonante paralelo con fuente de corriente para reguladores de tensión en continua. - Esquema de control para un convertidor resonante paralelo con fuente de corriente para la regulación de tensión en continua de varias salidas. - Esquema de control sin comunicaciones para un sistema de transferencia de energía sin hilos con un transformador con entrehierro variable basado en un convertidor resonante con fuente de corriente.
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Nittayarumphong, Sadachai. "Vereinfachte Methoden zur optimalen Regelung resonanter Leistungskonverter." Doctoral thesis, Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2009. http://nbn-resolving.de/urn:nbn:de:bsz:14-ds-1231866555971-93803.

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Nowadays the developments of power supplies in military, industrial or commercial applications are growing rapidly, not only to achieve the highest efficiency but also to focus on the size and weight minimization which are playing a major role in this area. Therefore, the research trends in dc-dc, ac-dc, dc-ac, ac-ac topologies are still continuously developing into the direction of new topologies, new control concepts, new materials and devices to achieve highest efficiency and smallest size. The cost per unit is also one of the most important points of power supplies. Also, with new control methods and new ways of manufacturing, for example, the cost per unit might be reduced. Also, a simplified control concept might help to avoid discrete circuits, especially, at low power levels. The last mentioned statement is demonstrated, for instance, by the concept of the Link-Switch of the company Power Integration where an extremely small number of components are necessary. With the target of minimization, this research work explores the possibility to replace conventional electromagnetic transformers considered as the most bulky devices in power supplies by piezoelectric transformers (PT) for innovative off-line power supplies. Several control methods for a load resonant converter focusing on class-E topology utilizing PT, were developed in order to investigate and to select an appropriate control method capable of improving the efficiency and reducing the size of the converter. Efficiency should be understood in this way as maximum reliability at minimum power losses. Different controllers were evaluated for optimizing the effect of disturbances of line and load variations. The ZVS condition for a wide input voltage range and a wide output load range can be achieved by a method called duty-cycle tracking. Further, with an improved design of the PT containing an auxiliary tap, the ZVS condition can be obtained by a method called turn-on synchronization. The controlled output voltage, current or power is achieved by a variable frequency control. Further, the dynamic modeling for open loop and closed loop of load resonant converters, focused on the class-E topology, was introduced. The transient behavior of the output voltage of the open loop against perturbations such as the input voltage change, the switching frequency change, and the output load change is treated by replacing the complete circuit of the class-E converter by simple equivalent circuit models. The results from the analysis of the open loop dynamic behavior are applied to modeling the closed loop class-E converter with several control methods. The methods of linearization for exact solution and heuristic approximation for the steady state analysis were purposed. These models of linearization were implemented with the controller in its topologies to investigate the sufficient accuracy of obtained results of the regulation. Besides, the linearization models were used to observe the stability condition of the proposed control loops. Finally, the evaluation of a well-known classical control such P, I, PI, PD, PID and a simplified controller for a fixed load application by matching an appropriate switching frequency according to the input voltage, into the load resonant converter, considering class-E topology, were presented. Also, the optimum design of the controller for a load resonant converter was discussed and derived
Die Entwicklung von Stromversorgungen in militärischen, industriellen und kommerziellen Anwendungen nimmt bis heute tendenziell stark zu. Nicht nur zur Erzielung höchster Wirkungsgrade, sondern auch im Hinblick auf Baugrößen- und Gewichtsminimierung, welche eine vorrangige Rolle spielen, ist diese Tendenz zu verzeichnen. Diesbezüglich gehen die Forschungstrends bei DC-DC, AC-DC, DC-AC und AC-AC Topologien in Richtung neuer Topologien, neuer Regelungskonzepte, sowie neuer Materialien und Bauelemente, um den höchsten Wirkungsgrad bei kleinster Baugröße zu erreichen. Die Gerätekosten sind ebenso ein sehr wichtiger Punkt bei Stromversorgungen. Auch durch neue Regelungsmethoden und durch neue Herstellungsverfahren können die Gerätekosten beispielsweise reduziert werden. Ebenso kann ein vereinfachtes Regelungskonzept dazu verhelfen, dass diskrete Schaltungen, speziell im unteren Leistungsbereich, vermieden werden. Letzteres wird beispielsweise beim Konzept des Link-Switch der Firma Power Integration verdeutlicht, indem extern wenige Bauelemente benötigt werden. Mit dem Ziel der Miniaturisierung wird in dieser Forschungsarbeit die Möglichkeit untersucht, konventionelle elektromagnetische Transformatoren, welche in Stromversorgungen als besonders voluminös gelten, durch piezoelektrische Transformatoren (PT) bei der Herstellung innovativer Netzstromversorgungen zu ersetzen. Verschiedene Regelungsmethoden für Lastresonanzkonverter, mit dem Fokus auf eine Klasse- E-Topologie mit PT, wurden hierzu entwickelt. Dies hatte zum Ziel, ein geeignetes Regelungsverfahren zu erarbeiten und auszuwählen, welches eine verbesserte Effizienz bei reduzierter Konverter-Baugröße aufzuweisen hat. Effizienz soll hierbei verstanden werden als maximale Zuverlässigkeit bei minimalen Leistungsverlusten. Verschiedene Reglertypen wurden entworfen um die Effekte der Störungen durch Netzspannungs-und Lastvariationen regelungstechnisch zu optimieren. Die Nullspannungsschaltungsbedingung (ZVS-Bedingung) über einen weiten Bereich der Eingangspannung und einen weiten Lastbereich kann durch einen sogenannte Duty-Cycle-Nachführung mit der Frequenz erreicht werden. Weiterhin kann durch eine verbesserte Ausführung des PT auf Basis einer Hilfsanzapfung die ZVSBedingung durch eine sogenannte Einschaltsynchronisation erreicht werden. Geregelte Ausgangsspannung, Ausgangsstrom oder Ausgangsleistung werden über eine Frequenzstellung erreicht. Die dynamische Modellierung der offenen und geschlossenen Regelschleife eines Lastresonanzkonverters, wieder im Hinblick auf die Klasse-E, wird im weiteren vorgestellt. Das transiente Verhalten der Ausgangsspannung der offenen Regelschleife gegenüber Störungen durch Eingangsspannungsänderung, durch Schaltfrequenzänderung oder durch Ausgangslaständerung, wird durch den Ersatz der Klasse-E-Schaltung durch einfache Äquivalenzmodelle behandelt. Die Ergebnisse der Analyse des Verhaltens des offenenen Regelkreises werden verwendet, um den Klasse-E-Konverter mit geschlossener Regelschleife unter Verwendung verschiedener vorgestellter Regelungsmethoden zu modellieren. Methoden der Linearisierung für die exakte Lösung und für eine heuristische Approximation der statischen Analyse des eingeschwungenen Zustands werden vorgeschlagen. Diese Methoden der Linearisierung werden zusammen mit den Reglermodellen in deren jeweilige Topologie implementiert um die ausreichende Genauigkeit der erhaltenen Resultate des Regelungsverhaltens zu beurteilen. Weiterhin werden diese Linearisierungsmodelle dazu verwendet, die Stabilitätskriterien der vorgeschlagenen Regelschleife zu überwachen. Schlussendlich wird die Bestimmung der bekannten klassischen Regler (P, I, PI, PD, PID), sowie eines vereinfachten Konstantlaststellers durch geeignete Anpassung der Schaltfrequenz an die Eingangsspannung, für Lastresonanzkonverter, wieder mit Blick auf die Klasse-E, vorgestellt. Außerdem wird der optimierte Reglerentwurf für Lastresonanzkonverter diskutiert und abgeleitet
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Engström, Jens. "Hydrodynamic Modelling for a Point Absorbing Wave Energy Converter." Doctoral thesis, Uppsala universitet, Elektricitetslära, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-160319.

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Surface gravity waves in the world’s oceans contain a renewable source of free power on the order of terawatts that has to this date not been commercially utilized. The division of Electricity at Uppsala University is developing a technology to harvest this energy. The technology is a point absorber type wave energy converter based on a direct-driven linear generator placed on the sea bed connected via a line to a buoy on the surface. The work in this thesis is focused mainly on the energy transport of ocean waves and on increasing the transfer of energy from the waves to the generator and load. Potential linear wave theory is used to describe the ocean waves and to derive the hydrodynamic forces that are exerted on the buoy. Expressions for the energy transport in polychromatic waves travelling over waters of finite depth are derived and extracted from measured time series of wave elevation collected at the Lysekil test site. The results are compared to existing solutions that uses the simpler deep water approximation. A Two-Body system wave energy converter model tuned to resonance in Swedish west coast sea states is developed based on the Lysekil project concept. The first indicative results are derived by using a linear resistive load. The concept is further extended by a coupled hydrodynamic and electromagnetic model with two more realistic non-linear load conditions. Results show that the use of the deep water approximation gives a too low energy transport in the time averaged as well as in the total instantaneous energy transport. Around the resonance frequency, a Two-Body System gives a power capture ratio of up to 80 percent. For more energetic sea states the power capture ratio decreases rapidly, indicating a smoother power output. The currents in the generator when using the Two-Body system is shown to be more evenly distributed compared to the conventional system, indicating a better utilization of the electrical equipment. Although the resonant nature of the system makes it sensitive to the shape of the wave spectrum, results indicate a threefold increase in annual power production compared to the conventional system.
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Books on the topic "Modelling of resonant converter"

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Mollov, Stefan Vassilev. Modelling, control and applications fo the modified series-parallel resonant converter. Birmingham: University of Birmingham, 2000.

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Rowley, Anna Kaspartian. A New Zero-Voltage-Mode Resonant Converter. Uxbridge: Brunel University, 1986.

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Xu, Dianguo, Yueshi Guan, Yijie Wang, and Xiangjun Zhang. Multi-MHz High Frequency Resonant DC-DC Power Converter. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-7424-5.

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Lee, Tony. Characterization and snubbing of a bidirectional MCT in a resonant AC link converter. [Washington, DC: National Aeronautics and Space Administration, 1993.

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Pollock, Helen. A series-parallel load-resonant converter for a controlled-current arc-welding power supply. [s.l.]: typescript, 1996.

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Hunt, R. A. Modelling and analysis of resonant systems for electrical power generation. Manchester: UMIST, 1997.

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Sun, Sheng. Modelling and control of a series dual bridge GTO voltage source converter. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1993.

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Gonzalez-Longatt, Francisco M., and José Luis Rueda Torres, eds. Modelling and Simulation of Power Electronic Converter Dominated Power Systems in PowerFactory. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-54124-8.

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Bansal, Gurvinder Singh. Modelling and analysis of quasi-resonant and square wave converter topologies. 1995.

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Baha, Bahawodin. Control and modelling of quasi-resonant converters. 2001.

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Book chapters on the topic "Modelling of resonant converter"

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Barbi, Ivo, and Fabiana Pöttker. "Series Resonant Converter." In Power Systems, 33–69. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-96178-1_2.

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Barbi, Ivo, and Fabiana Pöttker. "LLC Resonant Converter." In Power Systems, 141–86. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-96178-1_6.

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Barbi, Ivo, and Fabiana Pöttker. "Series Resonant Converter Operating Above the Resonant Frequency." In Power Systems, 115–39. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-96178-1_5.

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Rameshkumar, A., and S. Arumugam. "PI Control of Quasi-resonant Buck Converter." In Mobile Communication and Power Engineering, 477–85. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-35864-7_73.

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Barbi, Ivo, and Fabiana Pöttker. "Half Bridge CVC-PWM Series Resonant Converter." In Power Systems, 93–113. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-96178-1_4.

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Yuan, Shiying, Zhe Tang, Jiyun Tian, and Hui Cao. "A Resonant Push–Pull DC–DC Converter." In Lecture Notes in Electrical Engineering, 67–78. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-7986-3_8.

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Xu, Dianguo, Yueshi Guan, Yijie Wang, and Xiangjun Zhang. "Resonant Inverter in Multi-MHz DC–DC Converter." In CPSS Power Electronics Series, 5–18. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-7424-5_2.

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Xu, Dianguo, Yueshi Guan, Yijie Wang, and Xiangjun Zhang. "Resonant Rectifier in Multi-MHz DC–DC Converter." In CPSS Power Electronics Series, 19–36. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-7424-5_3.

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Guxun, Zhang. "Serial/Parallel Resonant Converter (SPRC) In ESP Power." In Electrostatic Precipitation, 323–27. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-89251-9_63.

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Barbi, Ivo, and Fabiana Pöttker. "Half Bridge Capacitor Voltage-Clamped Series Resonant Converter." In Power Systems, 71–92. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-96178-1_3.

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Conference papers on the topic "Modelling of resonant converter"

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"Resonant converter control and modelling design methods for resonant converter." In 2004 IEEE 35th Annual Power Electronics Specialists Conference (IEEE Cat. No.04CH37551). IEEE, 2004. http://dx.doi.org/10.1109/pesc.2004.1355500.

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Hinov, Nikolay, and Tzvety Hranov. "Modelling parallel-loaded resonant converter." In 2017 40th International Spring Seminar on Electronics Technology (ISSE). IEEE, 2017. http://dx.doi.org/10.1109/isse.2017.8001005.

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Polleri, Alejandro, Taufik, and Makbul Anwari. "Modeling and Simulation of Paralleled Series-Loaded-Resonant Converter." In 2008 Second Asia International Conference on Modelling & Simulation (AMS). IEEE, 2008. http://dx.doi.org/10.1109/ams.2008.86.

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Martins, Lais Farias, David Stone, and Martin Foster. "Modelling of Bidirectional CLLC Resonant Converter Operating under Frequency Modulation." In 2019 IEEE Energy Conversion Congress and Exposition (ECCE). IEEE, 2019. http://dx.doi.org/10.1109/ecce.2019.8913203.

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Witulski, Arthur F., and Robert W. Erickson. "Small signal ac equivalent circuit modelling of the series resonant converter." In 1987 IEEE Power Electronics Specialists Conference. IEEE, 1987. http://dx.doi.org/10.1109/pesc.1987.7077243.

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Prazenica, Michal, Slavomir Kascak, Juraj Koscelnik, and Ivan Lovas. "Modelling of Dynamical Properties of a Resonant Converter under Step Frequence- and Loaded Converter Changes." In 2015 International Conference on Modeling, Simulation and Applied Mathematics. Paris, France: Atlantis Press, 2015. http://dx.doi.org/10.2991/msam-15.2015.32.

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Gould, C. "State-variable modelling of CLL resonant converters." In Second IEE International Conference on Power Electronics, Machines and Drives. IEE, 2004. http://dx.doi.org/10.1049/cp:20040287.

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Hahn, Christoph, and Peter Lehn. "Modelling and control design for a high power resonant DC-DC converter." In 2011 IEEE 4th International Conference on Utility and Cloud Computing (UCC 2011). IEEE, 2011. http://dx.doi.org/10.1109/ucc.2011.6403802.

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Hahn, Christoph, and Peter Lehn. "Modelling and Control Design for a High Power Resonant DC-DC Converter." In 2012 IEEE/PES Transmission & Distribution Conference & Exposition: Latin America. IEEE, 2012. http://dx.doi.org/10.1109/tdc-la.2012.6401829.

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Forsyth, A. J. "Comparison of small-signal modelling techniques for the series-parallel resonant converter." In Proceedings of 5th International Conference on Power Electronics and Variable-Speed Drives. IEE, 1994. http://dx.doi.org/10.1049/cp:19940976.

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Reports on the topic "Modelling of resonant converter"

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Fathimulla, Ayub. Ultra-High-Speed A/D Converter Based on Resonant-Tunneling Diodes. Fort Belvoir, VA: Defense Technical Information Center, January 1995. http://dx.doi.org/10.21236/ada298951.

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Hirsekorn, M., P. P. Delsanto, N. K. Batra, and P. Matic. Modelling and Simulation of Acoustic Wave Propagation in Locally Resonant Sonic Materials. Fort Belvoir, VA: Defense Technical Information Center, January 2002. http://dx.doi.org/10.21236/ada525809.

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Ciezki, John G., and Robert W. Ashton. Analysis of a PWM Resonant Buck Chopper for Use as a Ship Service Converter Module. Fort Belvoir, VA: Defense Technical Information Center, January 1999. http://dx.doi.org/10.21236/ada361136.

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