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Simulation of toroid coils in Ansoft Maxwell 3D
Daněk, Michal ; Pfeifer, Václav (referee) ; Hanák, Pavel (advisor)
The master thesis is focused on the simulation of the toroid coils in Ansoft Maxwell 3D software, which uses finite element method for electromagnetic field simulation. Firstly the process creation of the geometric model toroid coil with seventy-five threaded is presented. It is necessary to debug this model and prepare it for the mesh generation. Physical properties are assign to this model and it gives rise to the physical model. We will set boundaries, excitation current, core material, winding material and the parameters for the mesh generations. New material Kashke K4000 will be created in the materials library and subsequently we will define its BH curve on the basis of datasheet. Analysis is made in two modes. Direct currents (7,5A; 10A; 15A; 20A; 25A) and (non)linear materials are used in magnetostatic solution. Toroid coil is excited by current pulse in transient solution. In Ansoft Maxwell Circuit editor a source which generates current pulse will be created. This excitation will be assigned to the toroid coil as an extern source through a terminal. Core material is linear in the case of transient analysis, because Ansoft Maxwell 3D doesn´t allow to use nonlinear material in this solution. Settings are different in transient and in magnetostatic analysis. End time and time step are entered to solve this task in transient analysis. Time points are entered too. Flux density and electromagnetic field strength are calculated in these time points and later it will be possible to view the results. Calculated fields are shown as the pictures in this thesis. The procedure how to use a field calculator in the postprocessing is given as well. The achievements are summarized in the conclusion.
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Automated xylophone
Seidler, David ; Šťastná, Dagmar (referee) ; Haupt, Jaromír (advisor)
Cílem tohoto semestrálního projektu je navrhnout obvod schopný ovládání xylofonu. Dále projekt zkoumá možnosti začlenění uživatelského vstupu a jeho následného zpracování. V projektu jsou zvažovány alternativy k jednotlivým částem obvodu a k programu.
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Magnetic fields for biomedical experiments
Otýpka, Jan ; Cipín, Radoslav (referee) ; Patočka, Miroslav (advisor)
In this work deals with magnetic fields for use in biomedicine. This solution involves the choice of the correct geometric arrangement of coils for generating magnetic field with a homogeneous distribution of magnetic induction of the widest possible area. The paper compares thre traditional types of coils, solenoid, toroid and Helmholtz coil. For Helmholtz and solenoid coil and is then carried out an analysis of the magnetic flux density in the inner space. Next part is devoted to electrical resonance in the LC circuit. This is then utilized for the development of pulsed magnetic field in the Helmholtz coil. It summarizes the theoretical and practical knowledge to design and construction of resonant converters. The end is devoted to the measurement of circuit parameters and verification of theoretical knowledge.
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Model of conveyor of boxes
Sodomka, Petr ; Jirgl, Miroslav (referee) ; Štohl, Radek (advisor)
The first part of the thesis is focused on a belt carrier model blueprint. The next part contains the list of all the parts needed to construct the model. The realisation of the model (mechanic-wise and electric-wise) is described in a special section. A familiarisation with the PLC from Rockwell Automation company follows. The last part of the thesis is focused on the creation of a model example in a development environment of RSLogix 5000, and the launching and creating of the model.
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Dynamic analysis and prototyping of coilgun
Militký, Ondřej ; Musil, Filip (referee) ; Rubeš, Ondřej (advisor)
This thesis deals with the description of the Gaussian rifle principle. It describes the physical principle, on which the device works, the design of the structure and its advantages and limitations. Furthermore, a computational model is created in the Matlab Simulink environment, which simulates the behavior of a projectile during a shot. Based on this model, a prototype Gaussian rifle is designed and constructed. The prototype is then tested and compared with a computational model to determine the overall effectiveness of the created rifle.
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Electronic Xylophone
Čížek, Petr ; Vojáček, Zdeněk (referee) ; Marada, Tomáš (advisor)
The aim of this bachelor thesis is to design and create a working electronic xylophone which could be controlled by a programmable logic controller or by an Arduino based board. The finished xylophone could be used for promotional purposes of the faculty.
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Device for mechanical loading of samples
Rachůnek, Radek ; Zuth, Daniel (referee) ; Huzlík, Rostislav (advisor)
The aim of this work is to design and construct a device that will allow loading of the sample during irradiation at the tomographic test. The first part deals with the description of electromagnetism and the elements that use it to induce motion. Furthermore, the work describe similar devices used for the same purposes and a brief description of the electronic components utilized for the operation of the device. The conclusion is devoted to the design, manufacture and commissioning of equipment for mechanical loading of samples
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Automated xylophone
Seidler, David ; Šťastná, Dagmar (referee) ; Haupt, Jaromír (advisor)
Cílem tohoto semestrálního projektu je navrhnout obvod schopný ovládání xylofonu. Dále projekt zkoumá možnosti začlenění uživatelského vstupu a jeho následného zpracování. V projektu jsou zvažovány alternativy k jednotlivým částem obvodu a k programu.
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Sensorless position control of solenoid valve
Piňos, Matěj ; Chalupa, Jan (referee) ; Grepl, Robert (advisor)
This thesis deals with position control of movable solenoid core without using a distance sensor. There are several methods of sensorless position estimation presented in theoretical part. The method based on measurement of ripple current is chosen for experiments. Firstly, it is verified by simulations with mathematical model of solenoid. After that, the experiment is created. The goal is position control based on sensorless method.
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