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11	Proposta de malha de controle de corrente do capacitor para inversor de tensão senoidal para unidade de alimentação ininterrupta alimentando cargas não lineares. / Capacitive current control loop for an UPS sinusoidal voltage source inverter feeding non linear loads. Yamada, Ronaldo Hideki 20 August 2010 (has links) O objetivo deste trabalho é analisar uma topologia de controle para a malha de tensão de um inversor para fontes de alimentação ininterruptas (UPS) com forma de onda senoidal na saída. É proposto um sistema de controle com duas malhas, uma de tensão com controlador ressonante e outra do tipo PI de corrente no qual a variável de controle é a corrente do capacitor de filtro de saída. Mais especificamente pretende-se estudar o problema de rastreamento de tensão nos inversores de UPS monofásicos, apresentando o estado da arte e uma classificação dos controladores que servem de solução para este problema específico. / This work analyses a uninterruptible power supply (UPS) inverter control scheme with sinusoidal output voltage. A two-loop control scheme is proposed; one voltage loop using a resonant controller and a PI current controller with the output capacitor filter current as control variable. A review on voltage tracking control in one-phase voltage source inverter is presented, showing the state of the art and a controller classification for this specific problem. Eletrônica de potência Fontes chaveadas Power electronics Switching power supplies
12	Fixed-frequency multi-mode multiple-output arbitrary-type DC-DC switching-mode power converters with variable-frequency control. / CUHK electronic theses & dissertations collection January 2010 (has links) Finally, a four-channel SIMO converter with direct combination but optimal switching sequence for arbitrary converter sequence and converter type is presented. The theoretical optimal 1st-order inductor waveform from this proposed control algorithm is introduced. FCL is involved in this design to realize the algorithm. Moreover, a current-modulated ramp signal, which couples to different controllers, is included to compensate the original deep correlated power stages. By using all of the proposed techniques, Measurement results show that both conduction loss and dynamic loss can be suppressed because of the optimized switching sequence. The load transient response time is around 100mus. The peak efficiency is 89% with a 2.5-V power supply. A maximum output power of 1.66W can be achieved. / Firstly, a pseudo-PWM hysteresis voltage-mode buck converter is proposed. It achieves fast transient speed by the hysteresis control, estimable switching spectrum with a locking frequency and fast mode switching between PWM and PFM depending on the loading change. Measurement results show that the recovery time under the load transient is around 5mus, which is 5 times of the switching period. The boundary of the recovery time is defined by the value of the off-chip inductor. / Switching-mode power converter (SMPC) is an important circuit block in electronic systems. In the modem SMPC system, constant frequency voltage or current-mode control technique is commonly used. However, some limitations are raised due to some preliminary settings in the design. In this thesis, the switching frequency or period is no longer a constant but a design variable. Then, an additional frequency-control loop (FCL) is introduced in order to obtain a fixed frequency operation in the steady state. Three individual designs implemented with different types of FCL are proposed to verify the concept. / Then, a four-channel SIMO converter based on FCL is developed, together with auto-phase allocation technique. This circuit not only solves the problem of imbalance loading of different channels, but it also keeps the idle period of the inductor sufficient short in the full operation region. By combining with all channel controllers, FCL makes fast load transient response without degrading the power efficiency. Moreover, linear auto converter-type adaption technique is also used, which makes the converter surviving from a wide input range and output range. Measurement results show that the proposed converter can achieve a peak efficiency of 89%, a total output power of 1.46W, a load transient response time of less than 70muS, and an idle inductor period of <10%. / Zheng, Yanqi. / Adviser: Leung Ka Nang. / Source: Dissertation Abstracts International, Volume: 73-03, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references. / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. Switching power supplies
13	Proposta de malha de controle de corrente do capacitor para inversor de tensão senoidal para unidade de alimentação ininterrupta alimentando cargas não lineares. / Capacitive current control loop for an UPS sinusoidal voltage source inverter feeding non linear loads. Ronaldo Hideki Yamada 20 August 2010 (has links) O objetivo deste trabalho é analisar uma topologia de controle para a malha de tensão de um inversor para fontes de alimentação ininterruptas (UPS) com forma de onda senoidal na saída. É proposto um sistema de controle com duas malhas, uma de tensão com controlador ressonante e outra do tipo PI de corrente no qual a variável de controle é a corrente do capacitor de filtro de saída. Mais especificamente pretende-se estudar o problema de rastreamento de tensão nos inversores de UPS monofásicos, apresentando o estado da arte e uma classificação dos controladores que servem de solução para este problema específico. / This work analyses a uninterruptible power supply (UPS) inverter control scheme with sinusoidal output voltage. A two-loop control scheme is proposed; one voltage loop using a resonant controller and a PI current controller with the output capacitor filter current as control variable. A review on voltage tracking control in one-phase voltage source inverter is presented, showing the state of the art and a controller classification for this specific problem. Eletrônica de potência Fontes chaveadas Power electronics Switching power supplies
14	Analysis of losses in power inductor for high-frequency switching power converters Chung, Hok-Yan. January 2001 (has links) Thesis (M. Phil.)--University of Hong Kong, 2001.
15	Systematic analysis of switching power converters for long operation life Pang, Hon-man., 彭漢文. January 2010 (has links) published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy Electric current converters. Semiconductor switches. Switching power supplies.
16	Analysis of losses in power inductor for high-frequency switching power converters 鐘學仁, Chung, Hok-Yan. January 2001 (has links) published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy Electric inductors. Electric current converters. Switching power supplies.
17	Digital control of a series-loaded resonant converter : a thesis submitted in partial fulfilment of the requirements for the degree of Master of Engineering in Electrical and Electronic Engineering at the University of Canterbury, Christchurch, New Zealand / Chang, Yu-kun. January 1900 (has links) Thesis (M.E.)--University of Canterbury, 2006. / Typescript (photocopy). "March 2006." Includes bibliographical references (p. [83]-84). Also available via the World Wide Web.
18	Mitigating interference from switch-mode power supplies in sampling receivers Slamdien, Muammar January 2017 (has links) Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2017. / This thesis reports on the research and development of techniques applied to mitigate interference from switch-mode power supplies in sampling receivers and also more specifically for FMCW radar receiver applications. During the system testing phase of an FMCW Radar at Reutech Radar Systems (RRS), it was found that a large false target was emerging on the Range-Doppler Map (RDM). It was concluded that the problem was originating from interference caused by the switch-mode power supplies (SMPS), which supply DC power to the radar receiver subsystem. This then created the need for a new DC power supply, which is able to minimize the interference, as well as, mitigate the effects of the interference caused by the switching of the power supply. The mitigation techniques and power supply development was divided four main sections, namely, research, simulation, design and evaluation. The research involved obtaining background information on sampling receivers, sampling theory, Range-Doppler Processing, switch-mode power supplies, their effects and mitigation thereof. In the simulation phase, the research was utilised to simulate the various interference mitigation techniques. A power supply PCB was then designed in the design phase to practically illustrate the techniques being utilised. Lastly, during evaluation, this PCB was evaluated against the criteria set out in the research phase. The results demonstrated that the technique of synchronising the PWM clock to the Sampling frequency and SRF yielded a significant reduction in the SMPS noise on the Range-Doppler Map. Switching power supplies Continuous wave radar Doppler radar
19	An investigation into sinusoidal current output switchmode converters Britz, Pierre 10 November 2011 (has links) M.Ing. / The focus of the project is on the design of a variable output current source applied in the testing of circuit breakers. The possibility of the use of high-frequency, switch mode converters for the application, will be investigated. The expectation is the improvement of the system currently in use, with the help of a power electronic converter. For the application, a 1 to 200A adjustable current source must be developed, which will be powered from the 220V, 50Hz network. A number of possible solutions to the problem will be investigated. One of the challenges of the project is that the output of the converter must be a current and not a voltage, which is normally the case. Based on mathematical calculations and practical results, the best possible solution to the problem is obtained. An optimum system is presented, which meets the desired specifications. Switching circuits Switching power supplies Electric circuits Electric current converters
20	Passive Cancellation of Common-Mode Electromagnetic Interference in Switching Power Converters Cochrane, Daniel 10 August 2001 (has links) It is well known that common-mode (CM) conducted electromagnetic interference (EMI) is caused by the common-mode current flowing through the parasitic capacitance of transistors, diodes, and transformers to ground in the power circuit. Because of the potential for interference with other systems as well as governmental regulations, it is necessary to attenuate this noise. Ordinarily this must be accomplished by using a magnetic choke on the input power lines, which can result in large penalties to the overall size, weight, and cost of the completed system. In order to lessen the requirement for this magnetic choke, there has been in recent years a desire to introduce noise cancellation techniques to the area of EMI. This text introduces a method of canceling the common-mode EMI by using a compensating transformer winding and a capacitor. Compared with active cancellation techniques, it is much simpler and requires no additional transistors and gate-drive circuitry since it merely adds a small copper winding and a small capacitor. By using this technique the size of the EMI filter can be reduced, especially for applications requiring high currents. In this thesis a survey of CM noise reduction techniques is presented, encompassing conventional and active cancellation techniques. The new method for passive noise cancellation is presented, which is then applied to families of isolated DC/DC converters, non-isolated DC/DC converters, and DC/AC inverters and motor drives. The method, results, and ramifications of this technique are presented in order of appearance. / Master of Science Switching Power Supplies Noise Reduction Noise Cancellation EMI

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