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11	A Design Methodology for a Point of Load Converter for a Distributed Power Architecture using a Normally Off Silicon Carbide Vertical Junction Field Effect Transistor as the Enabling Technology Kelley, Robin Lynn 12 May 2012 (has links) A point-of-load converter was designed for a distributed power architecture using a normally off silicon carbide (SiC) junction field effect transistor (JFET) as the enabling technology. The power supply accepts a 208-V single phase input and generates a +26 V and +10 V output for pulsed loads as well as a +5 V and -5 V auxiliary supplies for digital/control circuitry. This work focuses on the integration of the first normally off SiC JFET to allow for an efficient (≥ 93%), high power density (≥ 100 W/in3) power converter demonstrating higher switching frequency. A switching frequency of 500 kHz was achieved which more than doubles the operating frequency of a reference design with silicon MOSFETs. The power supply design described in this thesis integrates a power factor correction pre-regulator with multiple output Weinberg and flyback converters each utilizing normally off SiC JFETs. Experimental results are presented to validate the design. power supply JFET silicon carbide
12	Impulzní zdroj na rezonančním principu s kompenzací účiníku / Resonant switched-mode power supply with PFC Punar, Jan January 2020 (has links) This diploma thesis is focused on the LLC resonant power supply with power factor correction. The first part of the thesis is focused on a selection of a suitable controller for the control of this source. Here the emphasis is mainly on efficiency and EMC. The thesis also deals with the design of the scheme and the selection of suitable components. The thesis contains the design of the LLC power supply itself and also the power factor correction circuit - PFC.
13	High Frequency Transformer for Switching Mode Power Supplies Wong, Fu Keung, n/a January 2004 (has links) A power supply is an essential part of all electronic devices. A switching mode power supply is a light weight power solution for most modern electronic equipment. The high frequency transformer is the backbone of modern switched mode power supplies. The skin effect and proximity effects are major problems in high frequency transformer design, because of induced eddy currents. These effects can result in transformers being destroyed and losing their power transferring function at high frequencies. Therefore, eddy currents are unwanted currents in high frequency transformers. Leakage inductance and the unbalanced magnetic flux distribution are two further obstacles for the development of high frequency transformers. Winding structures of power transformers are also a critical part of transformer design and manufacture, especially for high frequency applications. A new planar transformer with a helical winding structure has been designed and can maintain the advantages of existing planar transformers and significantly reduce the eddy currents in the windings. The maximum eddy current density can be reduced to 27% of the density of the planar transformer with meander type winding structure and 33% of the density of the transformer with circular spiral winding structure at an operating frequency of 1MHz. The voltage ratio of the transformer with helical winding structure is effectively improved to 150% of the voltage ratio of the planar transformer with circular spiral coils. With the evenly distributed magnetic flux around the winding, the planar transformer with helical winding structure is excellent for high frequency switching mode power supplies in the 21st Century. power supply switched mode power supply switching mode power supply microelectronics high frequency transformers planar transformers eddy currents
14	Redundans vid manöver med hjälp av UPSpå elnätet Höglund, Jonatan January 2016 (has links) No description available. UPS Uninterruptible Power Supply Redundans Manövrering Fartyg
15	LOW-NOISE SWITCHING POWER SUPPLY CONSIDERATIONS FOR TELEMETRY ENCODER APPLICATIONS Lee, Jeffrey C., Steppler, Missy 10 1900 (has links) ITC/USA 2007 Conference Proceedings / The Forty-Third Annual International Telemetering Conference and Technical Exhibition / October 22-25, 2007 / Riviera Hotel & Convention Center, Las Vegas, Nevada / Modern telemetry systems using state of the art field programmable gate arrays (FPGAs) and signal processing components require lower voltage supplies to support various CMOS core geometries while still needing multiple higher voltage rails to support legacy interfaces. Addressing these power supply requirements efficiently requires switching power supply topologies that if left unchecked can generate high input surge currents and high levels of detrimental noise for both the sensitive analog signal processing circuitry and the power supply input source. This paper focuses on the design considerations and tradeoffs associated with implementing an efficient telemetry encoder power supply while mitigating the resulting noise effects typically associated with switching power supplies. This noise can negatively affect the power supply input source and the linear signal processing circuitry within the telemetry encoder. Power supply efficiency filtering EMI noise ripple
16	Modelling and implementation of PMW-fed asynchronous machines Abebe, K. D. January 1987 (has links) No description available. 621.3192 Power supply circuits][AC motor control
17	Mathematical modelling of fuel cells for portable devices Litster, Shawn Edward. 10 April 2008 (has links) No description available. Fuel cells
18	Statistical static timing analysis considering the impact of power supply noise in VLSI circuits Kim, Hyun Sung 02 June 2009 (has links) As semiconductor technology is scaled and voltage level is reduced, the impact of the variation in power supply has become very significant in predicting the realistic worst-case delays in integrated circuits. The analysis of power supply noise is inevitable because high correlations exist between supply voltage and delay. Supply noise analysis has often used a vector-based timing analysis approach. Finding a set of test vectors in vector-based approaches, however, is very expensive, particularly during the design phase, and becomes intractable for larger circuits in DSM technology. In this work, two novel vectorless approaches are described such that increases in circuit delay, because of power supply noise, can be efficiently, quickly estimated. Experimental results on ISCAS89 circuits reveal the accuracy and efficiency of my approaches: in s38417 benchmark circuits, errors on circuit delay distributions are less than 2%, and both of my approaches are 67 times faster than the traditional vector-based approach. Also, the results show the importance of considering care-bits, which sensitize the longest paths during the power supply noise analysis. Statistical Static Timing Analysis power supply noise
19	A reliability program for nuclear power plant emergency diesel generators / Peters, Kenneth John, January 1990 (has links) Project report (M.S.)--Virginia Polytechnic Institute and State University, 1990. / Vita. Abstract. Includes bibliographical references (leaves 123-124). Also available via the Internet.
20	2D a 3D simulace elektrických polí VN zdroje / 2D and 3D Simulation of Electric Fields of MV Source Kováč, Martin January 2011 (has links) In the master´s thesis author deals with simulations of electromagnetic fields and their applications in the electric practice at the design of electromagnetic devices. The first part of thesis deals with 3 electromagnetic field simulation softwares, their comparison and selection of the best software for the practical part of the thesis. The second part contains the practical applications of electrostatic and electromagnetic field simulation of HT power supply.

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