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Ovládací rozhraní CNC frézky / CNC milling machine driving interfaceMitáš, Daniel January 2012 (has links)
This project deals with portal-type CNC milling machine design and construction. CNC milling machine should be able to machining light metals and alloys. This document contains description of mechanical components selection, machine frame design and building, design and construction of USB motion control unit and also contains control software description and user manual.
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Univerzální napájecí zdroj s mikrokontrolérem / General-purpose power supply with microcontrollerJorda, Ivo January 2014 (has links)
The aim of this thesis is design of adjustable switched mode power supply with symmetrical output of 25 V, and switched mode power supply with fixed output voltage of 5 V. Required maximum output current of each outputs is 3 A. At the beginning of the paper function of the basic SMPS topologies is described. Next all reqiured SMPSs are designed and chosen parts of the design are simulated. In the second half of the thesis assembly and testing of PCB are described as well as functions of programs. Last chapter contains results of meassurement of power supply paramters.
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Design and Implementation of Simplified Sliding-Mode Control of PWM DC-DC Converters for CCMAl-Baidhani, Humam A. 08 June 2020 (has links)
No description available.
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The Bicycle-Powered Smartphone ChargerArntzen, Chris 01 June 2013 (has links) (PDF)
This thesis entails the design and fabrication of a smartphone charger that is powered by a bicycle dynamo hub. In addition to the design and validation of the charger prototype, this thesis involves the testing and characterization of the dynamo hub power source, the design and construction of specialized test equipment, and the design and prototyping of a handlebar-mounted case for the smartphone and charging electronics. With the intention of making the device a commercial product, price, aesthetics, and marketability are of importance to the design. An appropriate description of the charger circuit is a microcontroller-based energy management system, tailored to meet strict power demands of current smartphones. The system incorporates a switched-mode power supply, lithium polymer battery, microcontroller, and specialized protection circuitry. Prototype testing confirms that the circuit meets the charging requirements of the smartphone at bicycle speeds ranging from 7 miles per hour to as high as 55 miles per hour.
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Novel Intelligent Power Supply Using A Modified Pulse Width ModulatorDoss, Gary Richard, Jr. 01 October 2009 (has links)
No description available.
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On the Use of Light-Emitting Freewheeling/Blocking Diodes for Optical Wireless CommunicationsPawlikowski, Warren January 2019 (has links)
Integration of optical wireless communications (OWC) within switched-mode power supplies (SMPS) / Although visible light communication(VLC) systems can provide high density links
for use with IoT devices, an energy efficient, high rate method of designing a VLC
transmitter is still unclear. Present designs for transmitters such as the bias-T, designs
with switch manipulation, and interleaved converters are not commercially viable due
to costly and complex designs that sacrifice energy efficiency for data rate. A design
allowing for efficient, high rate communications, while maintaining a low cost would
allow for widespread adoption of this technology.
In this thesis, a novel approach of integrating power converters and VLC systems is
explored by replacing commutating diodes with LEDs. By leveraging switched-mode
power supply(SMPS) structures, the power dissipated within the converter may be
harnessed and used for communications. The result is a simple and energy efficient
solution capable of high rate links.
Simulation and experimental results demonstrate buck and boost SMPS topologies
that simultaneously increase energy efficiency and provide communications at SMPS
switching rate without increasing component count. / Thesis / Master of Applied Science (MASc)
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Spínané zdroje velkých výkonů - paralelní řazení zdrojů / High power switch-mode supplies - parallel connectionKadlec, Josef January 2016 (has links)
This doctoral thesis deals with the issue of high power switched-mode power supplies that are designed as modular systems. The thesis describes series, parallel and series-parallel possibility of connected converters. System can achieve extremely high output current for converters connected in parallel. For converters connected in series, the system can achieve extremely high output voltage. The main goal of this thesis is to develop so-called reconfigurable modular system. It is a system that can change converters connection of serial, parallel or series-parallel connection - during its operation. This option to change converters connection significantly extends the control range of output voltage and output current of the whole system. For all these mentioned variants of the modular system there are described and simulated suitable control schemes. The issue of interleaved PWM is described in the thesis. Output voltage ripple and current ripple equations were derived for each converters connection. These equations, which were derived either for systems with interleaved PWM or for systems without of phase shifted PWM, are also proved by simulations. Design of reconfigurable modular system with power of 9.6 kW that contains four converters was introduced in this thesis. Converters use modern transistors and diodes of SiC material. The proposed reconfigurable modular system was successfully manufactured. The measurement results are also shown in the work.
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Spínané zdroje / Switched Mode Power SuppliesŠpaněl, Petr January 2020 (has links)
This thesis deals with switched mode power supplies based on resonant principle to achieve high efficiency. Several ways of switched mode power supplies optimalisation are described as part of the work to achieve better efficiency. Priparily, the new generation of switching elements based on SiC and resonant topology are used to achieve significant switching loss minimization. The selected resonant topology is simualted in detail and then built with focus on high efficiency. The main content of the work consists in the design and realization of the switched mode power supply with selected control algorithms and their comparison. The problems associated with usage of new SiC MOSFET generation in TO-247-4L package are being solved within the design and implementation of the power source. To solve the main problems, new 3rd SiC MOSFET gate driver was developer for working with switching frequencies in hundreds of kHz and resisting very high voltage stress on the controlled transistor. The next part of the gate driver is the overcurrent protection. The overcurrent limit can be set easily by changing one component. This protection reacts very quickly in hundreds of nanoseconds, so it is capable of saving the converter even in branch failure and going to hard short circuit. The functional sample of the series resonant converter was built and revated in the work. The converter based on 3. Generation of SiC MOSFET transistors from Cree in a modern case TO-247-4L was built. For this inverter, it was also necessary to develop both the control scheme and the resonance frequency tracking to achieve accurate switching and thus achieve the use of the resonant principle of the converter to the maximum extent possible. The result of this work is up to 3 kW converter with adjustable output voltage while maintaining high efficiency up to 96%.
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Spínaný zdroj se spínáním při nulovém napětí / Switching power supply with zero voltage switchingPešl, Jiří January 2016 (has links)
Diploma thesis describes the design of an switched mode power supply with switching at zero voltage for driving the anode of Anode-layer type ion source. First aim of thesis is ion sources and specialy Anode-layer type of ion source in detail. Main aim of thesis are important aspects of the design of switching mode power supply, which comes later the detailed construction of an switched mode power supply with output voltage 2800 V at output power 2800 W.
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