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Off-line supply source 15 V / 1.5 A with a galvanic separation for a laboratory equipment
Pokorný, Vladimír ; Tománek, Radek (referee) ; Vorel, Pavel (advisor)
This bachelor's thesis deals with the design of a single-acting switching power supply for a laboratory equipment. The required parameters of the source are input voltage 230 V and frequency 50 Hz, output DC voltage 15 V, and output current at least 1.5 A. The introduction of this thesis briefly describes the operation of flyback converters. The next part is focused on the design of the high-frequency transformer and the main power part. The work continues with the designing of power components and heatsinks. The following part is the design of the control part, which will use an integrated circuit from the UC384x family, and the construction of the power supply. The conclusion of the thesis focuses on the source debugging and verification measurements.
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Maximum power transfer from thermocouple to load
Zgrebňák, Vojtech ; Novák, Lukáš (referee) ; Vyroubal, Petr (advisor)
The bachelor thesis deals with the maximum power transfer from a thermoelectric generator to a load. Thermoelectric phenomena and thermocouple are described. The thesis also describes in detail the individual MPPT algorithms and the topic of voltage regulation, especially switched mode power supplies. In the practical part, a switching regulator in SEPIC topology, built on platform Arduino Nano, is proposed. The maximum power to the load is controlled by the switching transistor using the P&O algorithm. The functionality of the regulator is verified by measuring the convergence to the MPP and the efficiency of the power transfer.
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MIG/MAG welder with switching power supply
Klejma, Michael ; Červinka, Dalibor (referee) ; Martiš, Jan (advisor)
This diploma thesis deals with design of welding power supply for MIG / MAG and MMA technique with continuous output current 120 A. The first, theoretical part is devoted to welding process technology, physical characteristics of electric arc and description of individual welding methods. The thesis also deals with the concept of power converter. The design of the switched-mode power supply is based on a full bridge topology. In order to implement advanced controls of welding power supply, the ARM Cortex M4 microprocessor was selected. Due to the large power consumption of the stepper motor for drive the welding wire, an auxiliary switched-mode power supply was also implemented. The documentation describing the realization of the welding power supply and the results of the measurements are in the last part of the thesis. The welding power supply was successfully revived and reached nominal parameters. Inert gas welding has not been tested yet, due to lack of time caused by extensive work in order to complete mechanical realization.
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High power switch-mode supplies - parallel connection
Kadlec, Josef ; Richter, Aleš (referee) ; Mindl,, Pavel (referee) ; Patočka, Miroslav (advisor)
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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AC/DC adjustable power converter 5 - 30 V / 30 A
Matýsek, Michal ; Brančík, Lubomír (referee) ; Petržela, Jiří (advisor)
This work deals with the switched mode power supplies, their possible solutions and consequently with design of a power source with given parameters. The theoretical part analyses behaviour of the switched mode power supplies. Further it contains a survey of wiring of AC/DC converters and their properties. In the framework of the practical part was developer the power AC/DC switching power supply with adjustable output voltage from 5 to 30 V and 30 A current. The source was designed as a half-bridge decreasing converter with a transformer.
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CNC milling machine driving interface
Mitáš, Daniel ; Novotný, Radovan (referee) ; Pavlík, Michal (advisor)
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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Automotive LED driver with additional functions
Vlach, Marek ; Duz, Aleksei (referee) ; Šteffan, Pavel (advisor)
In this diploma thesis, the design and construction of a LED driver with additional functions for the automotive industry is carried out to meet its requirements. The LED driver is based on the principle of DC/DC converter in H-bridge topology, which is used to supply a string of power LEDs. The combined function of the daytime running lights and position lights governed by the driver control electronics is then implemented on the LED string. Other additional functions of the driver are temperature regulation of the output current and error reporting in case of a fault condition on the LED string. A set of typical measurements on a manufactured sample including functional tests, efficiency measurements, thermal analysis and EMC testing are employed to verify the driver parameters.
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Off-line supply source 15 V / 1.5 A with a galvanic separation for a laboratory equipment
Pokorný, Vladimír ; Tománek, Radek (referee) ; Vorel, Pavel (advisor)
This bachelor's thesis deals with the design of a single-acting switching power supply for a laboratory equipment. The required parameters of the source are input voltage 230 V and frequency 50 Hz, output DC voltage 15 V, and output current at least 1.5 A. The introduction of this thesis briefly describes the operation of flyback converters. The next part is focused on the design of the high-frequency transformer and the main power part. The work continues with the designing of power components and heatsinks. The following part is the design of the control part, which will use an integrated circuit from the UC384x family, and the construction of the power supply. The conclusion of the thesis focuses on the source debugging and verification measurements.
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Maximum power transfer from thermocouple to load
Zgrebňák, Vojtech ; Novák, Lukáš (referee) ; Vyroubal, Petr (advisor)
The bachelor thesis deals with the maximum power transfer from a thermoelectric generator to a load. Thermoelectric phenomena and thermocouple are described. The thesis also describes in detail the individual MPPT algorithms and the topic of voltage regulation, especially switched mode power supplies. In the practical part, a switching regulator in SEPIC topology, built on platform Arduino Nano, is proposed. The maximum power to the load is controlled by the switching transistor using the P&O algorithm. The functionality of the regulator is verified by measuring the convergence to the MPP and the efficiency of the power transfer.
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MIG/MAG welder with switching power supply
Klejma, Michael ; Červinka, Dalibor (referee) ; Martiš, Jan (advisor)
This diploma thesis deals with design of welding power supply for MIG / MAG and MMA technique with continuous output current 120 A. The first, theoretical part is devoted to welding process technology, physical characteristics of electric arc and description of individual welding methods. The thesis also deals with the concept of power converter. The design of the switched-mode power supply is based on a full bridge topology. In order to implement advanced controls of welding power supply, the ARM Cortex M4 microprocessor was selected. Due to the large power consumption of the stepper motor for drive the welding wire, an auxiliary switched-mode power supply was also implemented. The documentation describing the realization of the welding power supply and the results of the measurements are in the last part of the thesis. The welding power supply was successfully revived and reached nominal parameters. Inert gas welding has not been tested yet, due to lack of time caused by extensive work in order to complete mechanical realization.
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