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High voltage power supply for dielectric strength
Klejma, Michael ; Červinka, Dalibor (referee) ; Martiš, Jan (advisor)
This thesis deals with a choice of proper solution of high votlage source with regulated DC output in range of 0 – 50 kV. Source will be used for testing of electrical insulators, with function of displaying voltage at which breakdown of the insulator occured. Due to low output current up to 1 mA it is possible to use a cascade voltage multiplier as suitable solution. The voltage multiplier is powered by switching-mode power supply with high voltage pulse transformer. The inverter uses single-acting innovative topology that enables a supply of alternating current to the voltage multiplier. This solution is simple, but an analysis of operation is difficult, as will be described in details in this thesis. Realization and testing of the source has been successfully done, but the source had problems with its own EMC. After debugging, requested parameters have been achieved.
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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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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 voltage power supply for dielectric strength
Klejma, Michael ; Červinka, Dalibor (referee) ; Martiš, Jan (advisor)
This thesis deals with a choice of proper solution of high votlage source with regulated DC output in range of 0 – 50 kV. Source will be used for testing of electrical insulators, with function of displaying voltage at which breakdown of the insulator occured. Due to low output current up to 1 mA it is possible to use a cascade voltage multiplier as suitable solution. The voltage multiplier is powered by switching-mode power supply with high voltage pulse transformer. The inverter uses single-acting innovative topology that enables a supply of alternating current to the voltage multiplier. This solution is simple, but an analysis of operation is difficult, as will be described in details in this thesis. Realization and testing of the source has been successfully done, but the source had problems with its own EMC. After debugging, requested parameters have been achieved.
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