Relevant bibliographies by topics / AC/DC/AC Converter

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
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Academic literature on the topic 'AC/DC/AC Converter'

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Published: 31 August 2024

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Journal articles on the topic "AC/DC/AC Converter"

1

Fang, Lin Luo. "DC-Modulated AC/AC Converters." Applied Mechanics and Materials 341-342 (July 2013): 1317–25. http://dx.doi.org/10.4028/www.scientific.net/amm.341-342.1317.

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Traditional methods of AC/AC converters have general drawbacks: output voltage is lower than input voltage, the input side THD is poor and output voltage frequency is lower than input voltage frequency by using voltage regulation method and cycloconverters. We introduce the novel approach - DC-modulated AC/AC converters in this paper, which successfully overcomes the drawbacks. Simulation and experimental results of the DC-modulated AC/AC converter are the evidences to verify our design. These methods will be very widely used in industrial applications.
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Ma, Dajun. "Multiport AC-AC-DC Converter for SNOP With One Medium-Frequency Transformer." CPSS Transactions on Power Electronics and Applications 7, no. 4 (December 2022): 374–85. http://dx.doi.org/10.24295/cpsstpea.2022.00034.

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With the access of increased renewable energy sources, the conventional AC distribution network is hard to flexibly adjust the line voltage and power flow. Therefore, the soft normally open point (SNOP) is applied to increase the flexibility of AC distribution network. The existing converters for SNOP use many submodules (SMs) and passive components, which have the poor economy. On this basis, a multiport AC-AC-DC converter for SNOP with one medium-frequency transformer (MFT) is proposed in this paper. The proposed multiport AC-AC-DC converter is based on the back-to-back (BTB) cascaded H-bridge (CHB) converter structure, and uses several LC resonant circuits and one MFT to replace the multiple DC-DC converters in the existing BTB CHB converters. Therefore, many SMs and passive components can be saved. Moreover, the voltages at multiple AC and DC ports of proposed multiport AC-AC-DC converter are completely decoupled, and the multiple AC and DC systems can be adjusted independently. The detailed circuit structure, control principle and design procedure of multiport AC-AC-DC converter are introduced in this paper. Finally, the simulation and experimental results verify the effectiveness of multiport AC-AC-DC converter.
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Barrios, Manuel A., Víctor Cárdenas, Jose M. Sandoval, Josep M. Guerrero, and Juan C. Vasquez. "A Cascaded DC-AC-AC Grid-Tied Converter for PV Plants with AC-Link." Electronics 10, no. 4 (February 8, 2021): 409. http://dx.doi.org/10.3390/electronics10040409.

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Cascaded multilevel converters based on medium-frequency (MF) AC-links have been proposed as alternatives to the traditional low-voltage inverter, which uses a bulky low-frequency transformer step-up voltage to medium voltage (MV) levels. In this paper, a three-phase cascaded DC-AC-AC converter with AC-link for medium-voltage applications is proposed. Three stages integrate each DC-AC-AC converter (cell): a MF square voltage generator; a MF transformer with four windings; and an AC-AC converter. Then, k DC-AC-AC converters are cascaded to generate the multilevel topology. This converter’s topological structure avoids the per-phase imbalance; this simplifies the control and reduces the problem only to solve the per-cell unbalance. Two sets of simulations were performed to verify the converter’s operation (off-grid and grid-connected modes). Finally, the papers present two reduced preliminary laboratory prototypes, one validating the cascaded configuration and the other validating the three-phase configuration.
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Antar, Rakan K. "Speed Control of DC Motor using AC/AC/DC Converter Based on Intelligent Techniques." Tikrit Journal of Engineering Sciences 16, no. 2 (June 30, 2009): 11–19. http://dx.doi.org/10.25130/tjes.16.2.02.

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This paper describes the application of ac/ac/dc and ac/dc converters to control the speed of a separately excited DC motor. Artificial neural network and PI controller are trained to select the desired values of firing angles for triggering thyristors of the ac/ac/dc and ac/dc bridge converters in order to control the speed of the dc motor at a desired value with constant and different load torques in order to obtain the best speed response. Simulation results show that the rising time for ac/dc and ac/ac/dc converters at 250rpm are reduced about 79% and 89% respectively, while delay time it reduced about 69% and 64% respectively. Therefore, speed response of the dc motor is more efficient for closed loop system compared with open loop also the response of ac/ac/dc converter is better than ac/dc converter.
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Lin, B. R., and H. H. Lu. "Multilevel AC/DC/AC converter for AC drives." IEE Proceedings - Electric Power Applications 146, no. 4 (1999): 397. http://dx.doi.org/10.1049/ip-epa:19990253.

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Suryadi, Aris, Purwandito Tulus Asmoro, and Agus Sofwan. "Design and Simulation Converter with Buck-boost Converter as The Voltage Stabilizer." International Journal of Electrical, Energy and Power System Engineering 3, no. 3 (October 12, 2020): 77–81. http://dx.doi.org/10.31258/ijeepse.3.3.77-81.

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Buck-boost Converter is the device with the function to convert DC Voltage input to the setpoint DC Voltage output. Buck-boost converter can be used for regulating unstable voltage became a stable voltage by the user’s needs. Using a Buck-boost Converter in the research is about how to apply a Buck-boost Converter of the AC to AC Converter device, AC to AC Converter is the device to convert AC voltage to AC Voltage where the voltage can be modified. In the research, the input Voltage of AC to AC Converter is unstable, so that the output Voltage is unstable too in the range of 190 V to 250 V. To solve this problem, that the Buck-boost can be installed to AC to AC Converter, it is useful to keep output Voltage stable even though the input Voltage is unstable. The AC to AC Converter device in this research consist of Rectifier, Buck-boost Converter, and Inverter. The experiment result of this research show that unstable AC input Voltage, 190 V to 250 V from the source after passing a Rectifier, became an unstable DC input Voltage, then be regulated by Buck-boost Converter became a stable DC Voltage, and then after passing the Inverter, a stable DC Voltage is converted became a stable AC Voltage, corresponding with the set point. For further development, AC to AC Converter combined with Buck-boost Converter can be applied to maintain a standard of Voltage 220 V AC from the sources to keep it stable.
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Burlaka, V. V., S. V. Gulakov, A. Y. Golovin, and D. S. Mironenko. "UNIVERSAL BIDIRECTIONAL DC-AC CONVERTER." IZVESTIYA SFedU. ENGINEERING SCIENCES, no. 5 (November 12, 2023): 204–13. http://dx.doi.org/10.18522/2311-3103-2023-5-204-213.

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Biswas, Shuvra Prokash, Md Shihab Uddin, Md Rabiul Islam, Sudipto Mondal, and Joysree Nath. "A Direct Single-Phase to Three-Phase AC/AC Power Converter." Electronics 11, no. 24 (December 16, 2022): 4213. http://dx.doi.org/10.3390/electronics11244213.

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The traditional DC-link indirect AC/AC power converters (AC/DC/AC converters) employ two-stage power conversion, which increases the circuit complexity along with gate driving challenges, placing an excessive burden on the processor while implementing complex switching modulation techniques and leads to power conversion losses due to the use of a large amount of controlled power semiconductor switches. On the contrary, the traditional direct AC/AC voltage controllers, as well as frequency changers, suffer from high total harmonic distortion (THD) problems. In this paper, a new single-phase to three-phase AC/AC step-down power converter is proposed, which utilizes a multi-linking transformer and bilateral triode thyristors (TRIACs) as power semiconductor switches. The proposed direct AC/AC power converter employs single-stage power conversion, which mitigates the complexity of two-stage DC-link indirect AC/AC converters and traditional single-stage AC/AC frequency changers. Instead of using high-frequency pulse width modulated gate driving signals, line frequency gate pulses are used to trigger the TRIACs of the proposed AC/AC converter, which not only aids in reducing the power loss of the converter but also mitigates the cost and complexity of gate driver circuits. The proposed AC/AC converter reduces the THD of the output voltage significantly as compared to traditional direct AC/AC frequency changers. The performance of the proposed AC/AC converter is validated against RL and induction motor load in terms of overall THD and individual harmonic components through MATLAB/Simulink environment. A reduced-scale laboratory prototype is built and tested to evaluate the performance of the proposed AC/AC power converter. The experimental and simulation outcomes reveal the feasibility and excellent features of the proposed single-phase to three-phase AC/AC converter topology.
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Mudadla, Dhananjaya, Devendra Potnuru, Raavi Satish, Almoataz Y. Abdelaziz, and Adel El-Shahat. "New Class of Power Converter for Performing the Multiple Operations in a Single Converter: Universal Power Converter." Energies 15, no. 17 (August 29, 2022): 6293. http://dx.doi.org/10.3390/en15176293.

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Universal power converters (UPCs) have aroused significant attention in performing multiple operations in a single power converter. Furthermore, they contribute to economic operation and improved system performance. In this work, a new configuration of the universal power converter (UPC) was proposed by using a simple switching arrangement. It can perform different modes of operations, such as AC–DC, DC–DC, DC–AC, AC–AC, and cyclo-converter operations. In DC–DC conversion, the proposed configuration can perform buck mode, boost mode, and buck–boost mode of operations. Moreover, in DC–AC conversion, it gives better total harmonic distortion (THD). The effectiveness of the proposed configuration was verified by an extensive simulation, using MATLAB/Simulink environment. A low-power prototype circuit was designed to test the viability of the proposed circuit configuration and validated with simulation results.
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Mathew, Derick, Athira P. Ashok, and Bincy M. Mathew. "Modified Single Stage AC-AC Converter." International Journal of Power Electronics and Drive Systems (IJPEDS) 6, no. 1 (March 1, 2015): 1. http://dx.doi.org/10.11591/ijpeds.v6.i1.pp1-9.

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<p>The paper describes the single stage AC-AC converter. This converter is a good alternative to quasi direct back to back converter. This single stage converter is called Matrix Converter. Matrix converter is an array of controlled semiconductor switches that connects three phase source to the three phase load. This converter provides bidirectional power flow, sinusoidal input and output waveforms and they have no dc link storage elements. Simulation model and results presented showing Venturini control method of matrix converter.</p>
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Dissertations / Theses on the topic "AC/DC/AC Converter"

1

Mayes, Peter Richard. "A novel AC/DC bidirectional power converter." Thesis, University of Nottingham, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.239439.

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Ahmad, Khan Naveed. "Power Loss Modeling of Isolated AC/DC Converter." Thesis, KTH, Elektrisk energiomvandling, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-109717.

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Several research activities at KTH are carried out related to Isolated AC/DC converters in order to improve the design and efficiency. Concerning the improvement in the mentioned constraints, losses of the elements in the prototype converter are modeled in this thesis work. The obtained loss model is capable of calculating the losses under different circumstances. The individual contribution of losses for each element at different conditions can be obtained, which is further useful in improving the design and therefore, efficiency. The losses in different elements of the converter, including power semiconductor devices, RC-snubbers, transformer and filter inductor at different operating points can be computed by using the obtained model. The loss model is then validated by comparing the analytical results with the measurements. The results based on developed loss model show consistency with the measured losses. The comparison at different conditions shows that, the difference between measured and analytical results ranges between 10% to 20 %. The difference is due to those losses which are disregarded because of their negligible contribution. On the other hand, it is also observed that if the neglected losses are counted, the difference reduces up to 10%.
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Wang, Kunrong. "High-Frequency Quasi-Single-Stage (QSS) Isolated AC-DC and DC-AC Power Conversion." Diss., Virginia Tech, 1998. http://hdl.handle.net/10919/29394.

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The generic concept of quasi-single-stage (QSS) power conversion topology for ac-dc rectification and dc-ac inversion is proposed. The topology is reached by direct cascading and synchronized switching of two variety of buck or two variety of boost switching networks. The family of QSS power converters feature single-stage power processing without a dc-link low-pass filter, a unidirectional pulsating dc-link voltage, soft-switching capability with minimal extra commutation circuitry, simple PWM control, and high efficiency and reliability. A new soft-switched single-phase QSS bi-directional inverter/rectifier (charger) topology is derived based on the QSS power conversion concept. A simple active voltage clamp branch is used to clamp the otherwise high transient voltage on the current-fed ac side, and at the same time, to achieve zero-voltage-switching (ZVS) for the switches in the output side bridge. Seamless four-quadrant operation in the inverter mode, and rectifier operation with unity power factor in the charger (rectifier) mode are realized with the proposed uni-polar center-aligned PWM scheme. Single-stage power conversion, standard half-bridge connection of devices, soft-switching for all the power devices, low conduction loss, simple center-aligned PWM control, and high reliability and efficiency are among its salient features. Experimental results on a 3 kVA bi-directional inverter/rectifier prototype validate the reliable operation of the circuit. Other single-phase and three-phase QSS bi-directional inverters/rectifiers can be easily derived as topological extensions of the basic QSS bi-directional inverter/rectifier. A new QSS isolated three-phase zero-voltage/zero-current-switching (ZVZCS) buck PWM rectifier for high-power off-line applications is also proposed. It consists of a three-phase buck bridge switching under zero current and a phase-shift-controlled full-bridge with ZVZCS, while no intermediate dc-link is involved. Input power and displacement factor control, input current shaping, tight output voltage regulation, high-frequency transformer isolation, and soft-switching for all the power devices are realized in a unified single stage. Because of ZVZCS and single-stage power conversion, it can operate at high switching frequency while maintaining reliable operation and achieving higher efficiency than standard two-stage approaches. A family of isolated ZVZCS buck rectifiers are obtained by incorporating various ZVZCS schemes for full-bridge dc-dc converters into the basic QSS isolated buck rectifier topology. Experimental and simulation results substantiate the reliable operation and high efficiency of selected topologies. The concept of charge control (or instantaneous average current control) of three-phase buck PWM rectifiers is introduced. It controls precisely the average input phase currents to track the input phase voltages by sensing and integrating only the dc rail current, realizes six-step PWM, and features simple implementation, fast dynamic response, excellent noise immunity, and is easy to realize with analog circuitry or to integrate. One particular merit of the scheme is its capability to correct any duty-cycle distortion incurred on only one of the two active duty-cycles which often happens in the soft-switched buck rectifiers, another merit is the smooth transition of the input currents between the 60o sectors. Simulation and preliminary experimental results show that smooth operations and high quality sinusoidal input currents in the full line cycle are achieved with the control scheme.
Ph. D.
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Perera, Lasantha Bernard. "Multi Level Reinjection ac/dc Converters for HVDC." Thesis, University of Canterbury. Electrical and Computer Engineering, 2006. http://hdl.handle.net/10092/1085.

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A new concept, the multi level voltage/current reinjection ac/dc conversion, is described in this thesis. Novel voltage and current source converter configurations, based on voltage and current reinjection concepts are proposed. These converter configurations are thoroughly analyzed in their ac and dc system sides. The fundamentals of the reinjection concept is discussed briefly, which lead to the derivation of the ideal reinjection waveform for complete harmonic cancellation and approximations for practical implementation. The concept of multi level voltage reinjection VSC is demonstrated through two types of configurations, based on standard 12-pulse parallel and series connected VSC modified with reinjection bridges and transformers. Firing control strategies and steady state waveform analysis are presented and verified by EMTDC simulations. The multi level current reinjection CSC is also described using two configurations based on standard 12-pulse parallel and series connected CSC modified with associated reinjection circuitry. Firing control strategies and steady state waveform analysis are presented and verified by EMTDC simulations. Taking the advantage of zero current switching in the main bridge valves, achieved through multi level current reinjection, an advanced multi level current reinjection scheme, consisting thyristor main bridges and self-commutated reinjection circuitry is proposed. This hybrid scheme effectively incorporates self-commutated capability into a conventional thyristor converter. The ability of the main bridge valves to commutate without the assistance of a turn-off pulse or line commutating voltage under the zero current condition is explained and verified by EMTDC simulations. Finally, the applications of the MLCR-CSC are discussed in terms of a back to back HVDC link and a long distance HVDC transmission system. The power and control structures and closed loop control strategies are presented. Dynamic simulation is carried out on PSCAD/EMTDC to demonstrate the two systems ability to respond to varying active and reactive power operating conditions.
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Stejskal, Jiří. "Měnič 12V DC/230V AC." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2010. http://www.nusl.cz/ntk/nusl-218761.

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This diploma thesis describes particular parts of power inverter such as gate driver, DSC, LC filter, low power supply, DC/DC converter and four-quadrant bridge and manner of its control by digital signal controller. Inverter is designated for generating of a mobile artificial electric grid (for example in a car).
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You, Keping Electrical Engineering &amp Telecommunications Faculty of Engineering UNSW. "A new bidirectional AC-DC converter using matrix converter and Z-source converter topologies." Awarded by:University of New South Wales, 2007. http://handle.unsw.edu.au/1959.4/37450.

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This thesis proposes a new bidirectional three-phase AC-DC power converter using matrix converter and Z-source inverter topologies. Advantages of the AC-DC matrix converter are the inherently controllable power factor, the tight DC voltage regulation, the wide bandwidth with quick response to load variation, the single-stage buck-voltage AC-to-DC power conversion; advantages of the z-source inverter are the increased reliability by allowing the shoot-through between upper and lower power switches of one inverter leg, insensitivity to DC bus voltage due to the extra freedom of controlling DC-link voltage. The proposed Matrix-Z-source converter (MZC) marries up both advantages of AC-DC matrix converter and Z-source inverter. It can achieve voltage-boost DC-AC inversion capable of variable voltage variable frequency (VVVF) AC output; it can achieve voltage-buck AC-DC rectification capable of inherent control over AC current phase angle and DC output regulation with a (VVVF) AC source supply. Both foresaid performance in DC-AC inversion and AC-DC rectification can be implemented in a simple open-loop control manner. Three constraints of VSI, in the bidirectional AC-DC power conversion, are the peak AC voltages are always less than DC-link voltage, closed-loop control has to be employed when DC regulation and/or AC current phase angle control are required, and AC voltage is sensitive to the variation of the DC-link voltage in DC-AC inversion. The voltage-boost inversion and/or voltage-buck rectification of MZC overcomes the first constraint; thus MZC enables the AC machine voltage increased higher than DC-link voltage hence advantages of running AC machine at relatively high voltages are enabled. The direct DC voltage regulation and inherent AC-current-phase-angle control of MZC overcomes the second constraint in an open-loop manner; hence a simplified system design is obtained with sufficient room for the further improvement by closed-loop control schemes. The extra freedom in controlling DC-link voltage of MZC overcomes the third constraint hence a DC source voltage adaptable inverter is obtained. This thesis focuses on the study of the feasibility of the proposed MZC through theoretical analysis and experimental verification. At first, the proposed MZC is conceptually constructed by examining the quadrant operation of AC-DC matrix converter and Z-source inverter. After the examination of the operating principles of both AC-DC matrix converter and Z-source inverter, the configuration of MZC is then proposed. The MZC has two operating modes: DC-AC inversion and AC-DC rectification. Circuit analysis for both operating modes shows that the new topology does not impose critical conflict in circuit design or extra restriction in parameterization. On the contrary, one version of the proposed MZC can make full advantage of Z-source network components in both operating modes, i.e. a pair of Z-source inductor and capacitor can be used as low-pass filter in AC-DC rectification. The modulation strategy, average modeling of system, and features of critical variables for circuit design of the proposed MZC were examined for each operating mode. Simulations of the proposed MZC and its experimental verification have been presented. Analytical models of conduction and switching losses of the power-switch network in different operating mode have shown that the losses in the MZC compare favorably with conventional VSI for a range of power factor and modulation indices.
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Chewele, Youngie Klyv. "Model predictive control of AC-to-AC converter voltage regulator." Thesis, Stellenbosch : Stellenbosch University, 2014. http://hdl.handle.net/10019.1/86339.

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Thesis (MEng)--Stellenbosch University, 2014.
ENGLISH ABSTRACT: The development of fast and efficient processors, programmable devices and high power semiconductors has led to the increased use of semiconductors directly in the power supply path in order to achieve strict power quality standards. New and advanced algorithms are used in the process and calculated on-line to bring about the required fast response to voltage variations. Losses in high voltage semiconductors increase with increased operating frequencies. A balance between semiconductor power losses and power quality is achieved through control of power semiconductor switching frequencies. A predictive control algorithm to achieve high power quality and limit the power losses in the high power semiconductor switches through switching frequency control is discussed for a tap switched voltage regulator. The quality of power, voltage regulator topology and the control algorithm are discussed. Simulation results of output voltage and current are shown when the control algorithm is used to control the regulator. These results are verified by practical measurements on a synchronous buck converter.
AFRIKAANSE OPSOMMING: Die ontwikkeling van vinnige en doeltreffende verwerkers, programmeerbare toestelle en hoëdrywings halfgeleiers het gelei tot 'n groter gebruik van halfgeleiers direk in die kragtoevoer pad om streng elektriese toevoer kwaliteit standaarde te bereik. Nuwe en gevorderde algoritmes word gebruik in die proses en word aan-lyn bereken om die nodige vinnige reaksie tot spanningswisselinge te gee. Verliese in hoë-spannings halfgeleiers verhoog met hoër skakel frekwensies. 'n Balans tussen die halfgeleier drywingsverliese en spanningskwalteit is behaal deur die skakel frekwensie in ag te neem in die beheer. 'n Voorspellinde-beheer algoritme om ‘n hoë toevoerkwaliteit te bereik en die drywingsverliese in die hoëdrywingshalfgeleier te beperk, deur skakel frekwensie te beheer, is bespreek vir 'n tap-geskakelde spanning reguleerder. Die toevoerkwaliteit, spanningsreguleerder topologie en die beheer algoritme word bespreek. Simulasie resultate van die uittree-spanning en stroom word getoon wanneer die beheer algoritme gebruik word om die omsetter te beheer. Hierdie resultate is deur praktiese metings op 'n sinkrone afkapper.
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Mino, Kazuaki. "Novel hybrid unidirectional three-phase AC-DC converter systems /." [S.l.] : [s.n.], 2009. http://e-collection.ethbib.ethz.ch/show?type=diss&nr=18185.

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Daniele, Matteo. "A single-stage power factor corrected AC/DC converter." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk2/tape17/PQDD_0018/MQ39474.pdf.

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Trubitsyn, Aleksey. "High efficiency DC/AC power converter for photovoltaic applications." Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/60190.

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Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 2010.
Includes bibliographical references (p. 217-218).
This thesis presents the development of a microinverter for single-phase photovoltaic applications that is suitable for conversion from low-voltage (25-40V) DC to high voltage AC (e.g. 240VAC,RMS). The circuit topology is based on a full-bridge series resonant inverter, a high-frequency transformer, and a novel half-wave cyclo-converter. The operational characteristics are analyzed, and a multidimensional control technique is utilized to achieve high efficiency, encompassing frequency control and inverter and cyclo-converter phase shift control. An experimental prototype is demonstrated in DC/DC conversion mode for a wide range of output voltages. The proposed control strategy is shown to allow for accurate power delivery with minimal steps taken towards correction. The prototype achieves a CEC averaged efficiency of approximately 95.1%. Guidelines for optimization are presented along with experimental results which validate the method.
by Aleksey Trubitsyn.
S.M.
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Books on the topic "AC/DC/AC Converter"

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Borisavljevic, Ana. Two stage AC-DC switching converter. Ottawa: National Library of Canada, 1996.

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Séguier, Guy. Power Electronic Converters: DC-AC Conversion. Berlin, Heidelberg: Springer Berlin Heidelberg, 1993.

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Seguier, Guy. Power electronic converters: AC-DC conversion. London: North Oxford Academic, 1986.

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Séguier, Guy. Power electronic converters: AC-DC conversion. New York: McGraw-Hill, 1986.

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Séguier, Guy. Power electronic converters: DC-AC conversion. Berlin: Springer-Verlag, 1993.

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Baronian, Sofia. Analysis and design of a high-current AC-DC switching converter. Ottawa: National Library of Canada, 1996.

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K, Kokula Krishna Hari, ed. Hybrid Energy System fed ANFIS based SEPIC Converter for DC/AC Loads. Chennai, India: Association of Scientists, Developers and Faculties, 2016.

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United States. National Aeronautics and Space Administration, ed. Input-current shaped Ac-to-Dc converters: Final report. Pasadena, CA: California Institute of Technology, Power Electronics Group, 1986.

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United States. National Aeronautics and Space Administration, ed. Input-current shaped Ac-to-Dc converters: Final report. Pasadena, CA: California Institute of Technology, Power Electronics Group, 1986.

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Stergiopoulos, Fotis. Analysis and control design of the three-phase voltage-sourced AC/DC PWM converter. Birmingham: University of Birmingham, 1999.

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Book chapters on the topic "AC/DC/AC Converter"

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Sundareswaran, K. "dc/ac Converters." In Elementary Concepts of Power Electronic Drives, 301–30. Boca Raton : Taylor & Francis, 2019.: CRC Press, 2019. http://dx.doi.org/10.1201/9780429423284-11.

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Sundareswaran, K. "ac/dc Converters." In Elementary Concepts of Power Electronic Drives, 71–126. Boca Raton : Taylor & Francis, 2019.: CRC Press, 2019. http://dx.doi.org/10.1201/9780429423284-3.

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Sundareswaran, K. "ac/dc Converter-Fed dc Motor Drives." In Elementary Concepts of Power Electronic Drives, 145–92. Boca Raton : Taylor & Francis, 2019.: CRC Press, 2019. http://dx.doi.org/10.1201/9780429423284-5.

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Dokić, Branko L., and Branko Blanuša. "DC/AC Converters–Inverters." In Power Electronics, 359–94. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-09402-1_6.

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Dokić, Branko L., and Branko Blanuša. "AC/DC Converters–Rectifiers." In Power Electronics, 395–455. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-09402-1_7.

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Fadili, Abderrahim El, Vincent Van Assche, Abdelmounime El Magri, and Fouad Giri. "Backstepping Controller for DFIM with Bidirectional AC/DC/AC Converter." In AC Electric Motors Control, 253–74. Oxford, UK: John Wiley & Sons Ltd, 2013. http://dx.doi.org/10.1002/9781118574263.ch13.

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Yao, Fulai, and Yaming Yao. "Simple Usage Method of Frequency Converter and Expanding Knowledge." In Efficient Energy-Saving Control and Optimization for Multi-Unit Systems, 147–76. Singapore: Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-97-4492-3_8.

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AbstractSince AC motors do not have brushes, the vulnerable parts of DC motors, and are easy to maintain, coupled with the rapid decline in the price of frequency converters, AC speed regulation has developed rapidly.
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Bacha, Seddik, Iulian Munteanu, and Antoneta Iuliana Bratcu. "Linear Control Approaches for DC-AC and AC-DC Power Converters." In Power Electronic Converters Modeling and Control, 237–96. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-5478-5_9.

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Kumar, Anup, Mohan V. Aware, B. S. Umre, and Manoj A. Waghmare. "Single-Phase to Six-Phase (AC-DC-AC) Converter for Traction." In Proceedings of the First Mandalika International Multi-Conference on Science and Engineering 2022, MIMSE 2022 (Mechanical and Electrical), 132–40. Dordrecht: Atlantis Press International BV, 2022. http://dx.doi.org/10.2991/978-94-6463-078-7_15.

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Jasinski, Marek, Sebastian Stynski, Pawel Mlodzikowski, and Mariusz Malinowski. "AC-DC-AC Converters for Distributed Power Generation Systems." In Power Electronics for Renewable Energy Systems, Transportation and Industrial Applications, 319–64. Chichester, UK: John Wiley & Sons, Ltd, 2014. http://dx.doi.org/10.1002/9781118755525.ch11.

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Conference papers on the topic "AC/DC/AC Converter"

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Toscani, Nicola, Matteo Benvenuti, Riccardo Tagliaretti, Francesco Castelli Dezza, Vincenzo Agnetta, Mattia Amatruda, Gianluca Bruno, et al. "A Novel Modular Converter-Transformer for AC/DC, DC/AC and DC/DC HV Applications." In 2024 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM), 539–44. IEEE, 2024. http://dx.doi.org/10.1109/speedam61530.2024.10609081.

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Gautam, Shweta, Anil Kumar Yadav, and Rajesh Gupta. "AC/DC/AC converter based on parallel AC/DC and cascaded multilevel DC/AC converter." In 2012 Students Conference on Engineering and Systems (SCES). IEEE, 2012. http://dx.doi.org/10.1109/sces.2012.6199078.

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Su, Mei, Ziyi Zhao, Qi Zhu, and Hanbing Dan. "A converter based on energy injection control for AC-AC, AC-DC, DC-DC, DC-AC conversion." In 2018 13th IEEE Conference on Industrial Electronics and Applications (ICIEA). IEEE, 2018. http://dx.doi.org/10.1109/iciea.2018.8397927.

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Zhang, Jianwei, Li Li, Tingting He, Mahlagha Mahdavi Aghdam, and David G. Dorrell. "Investigation of direct matrix converter working as a versatile converter (AC/AC, AC/DC, DC/AC, DC/DC conversion) with predictive control." In IECON 2017 - 43rd Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2017. http://dx.doi.org/10.1109/iecon.2017.8216800.

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Mohamed, A., SriRajuBushanam Vanteddu, and O. Mohammed. "Protection of bi-directional AC-DC/DC-AC converter in hybrid AC/DC microgrids." In SOUTHEASTCON 2012. IEEE, 2012. http://dx.doi.org/10.1109/secon.2012.6196958.

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Toliyat, Hamid A., Anand Balakrishnan, Mahshid Amirabadi, and William Alexander. "Soft switched ac-link AC/AC and AC/DC buck-boost converter." In 2008 IEEE Power Electronics Specialists Conference - PESC 2008. IEEE, 2008. http://dx.doi.org/10.1109/pesc.2008.4592609.

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Himmelstoss, Felix A., and Karl Edelmoser. "A Topology to generate DC/DC, AC/DC, DC/AC, and AC/AC Converters." In 2021 25th International Conference on Circuits, Systems, Communications and Computers (CSCC). IEEE, 2021. http://dx.doi.org/10.1109/cscc53858.2021.00026.

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Antoniewicz, P., M. Jasinski, and M. P. Kazmierkowski. "AC/DC/AC Converter with Reduced DC Side Capacitor Value." In EUROCON 2005 - The International Conference on "Computer as a Tool". IEEE, 2005. http://dx.doi.org/10.1109/eurcon.2005.1630244.

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Abhishek, Ranitesh Gupta, and Kuldeep Sahay. "THD Reduction using Cascaded DC-AC-DC-AC Multilevel Converter." In 2023 International Conference in Advances in Power, Signal, and Information Technology (APSIT). IEEE, 2023. http://dx.doi.org/10.1109/apsit58554.2023.10201768.

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Geethalakshmi, B., P. Sanjeevikumar, and P. Dananjayan. "Performance analysis of AC-DC-AC converter as matrix converter." In 2006 India International Conference on Power Electronics (IICPE 2006). IEEE, 2006. http://dx.doi.org/10.1109/iicpe.2006.4685341.

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Reports on the topic "AC/DC/AC Converter"

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Gould, O. L. Ac-dc converter firing error detection. Office of Scientific and Technical Information (OSTI), July 1996. http://dx.doi.org/10.2172/378862.

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Chapman, Jamie. "Assessment of Potentially-Efficient DC-AC Converter Architectures". Office of Scientific and Technical Information (OSTI), April 2004. http://dx.doi.org/10.2172/824898.

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Amirabadi, Mahshid, Brad Lehman, Masih Khodabandeh, Xinmin Zhang, and Junhao Luo. A Universal Converter for DC, Single-phase AC, and Multi-phase AC Systems. Office of Scientific and Technical Information (OSTI), November 2022. http://dx.doi.org/10.2172/1994839.

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Mahabir, K., G. Verghese, J. Thottuvelil, and A. Heyman. Linear Models for Large Signal Control of High Power Factor AC-DC Converters. Fort Belvoir, VA: Defense Technical Information Center, November 1989. http://dx.doi.org/10.21236/ada458127.

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Prasad Enjeti and J.W. Howze. Development of a New Class of Low Cost, High Frequency Link Direct DC to AC Converters for Solid Oxide Fuel Cells (SOFC). Office of Scientific and Technical Information (OSTI), December 2003. http://dx.doi.org/10.2172/861667.

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Kinard, J. R., J. R. Hastings, T. E. Lipe, and C. B. Childers. AC-DC difference calibrations. Gaithersburg, MD: National Institute of Standards and Technology, 1989. http://dx.doi.org/10.6028/nist.sp.250-27.

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Wang, Bin, and Jin Tan. DC-AC Tool: Fully Automating the Acquisition of AC Power Flow Solution. Office of Scientific and Technical Information (OSTI), February 2022. http://dx.doi.org/10.2172/1844199.

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Rappleye, D., C. Zhang, K. Kondrat, and D. Roberts. Electrorefining Bismuth Using AC Superimposed DC Waveforms. Office of Scientific and Technical Information (OSTI), April 2023. http://dx.doi.org/10.2172/1987609.

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Fierro, Andy, Ken Le, David Sanabria, Ross Guttromson, Matthew Halligan, and Jane Lehr. Effects of EMP Testing on Residential DC/AC Microinverters. Office of Scientific and Technical Information (OSTI), September 2020. http://dx.doi.org/10.2172/1670521.

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Stovall, J. P., J. P. Bowles, C. C. Diemond, R. A. Eaton, P. A. Gnadt, S. V. Heyer, R. H. Lasseter, M. A. Lebow, W. F. Long, and J. C. McIver. Comparison of costs and benefits for dc and ac transmission. Office of Scientific and Technical Information (OSTI), February 1987. http://dx.doi.org/10.2172/6662229.

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