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Stepper motor driver with feedback for positioning platform
Doležel, Michael ; Král, Vojtěch (referee) ; Barcík, Peter (advisor)
Tato bakalářská práce se zabývá návrhem a stavbou uzavřené regulační soustavy pro výšku a azimut optomechanické platformy. Cílem je porovnat rotační senzory a následně navrhnout kontroler pro krokový motor. Prototyp regulačního systému byl postaven s využitím platformy Arduino, řadiče krokového motoru DRV8825, krokového motoru NEMA-17 a hallového senzoru AEAT-9922 pro měření rotace. Prototyp dokáže otáčet krokovým motorem s rozlišením 0.056°, což je maximální přesnost řadiče DRV8825 při použití mikrokrokování 1/32. Deska finálního řadiče byla přepracována tak, aby zahrnovala rozhraní SPI-4 pro hallový senzor AEAT-9922. Deska obsahuje řadič krokového motoru L6470H s mikrokrokováním 1/128 a má rozlišení 0.014°.
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Design equipment for measurement the surface wettability
Šubrt, Kamil ; Andrš, Ondřej (referee) ; Houška, Pavel (advisor)
This paper describes the design of equipment for measuring the wettability of surfaces. Surface wettability is determined by analyzing the profile drops, in an image taken with a digital camera. After the equipment is required to automatically find and focus the analyzed drops, taking the image, measuring wettability and save the image analysis, including measurement results to a file for subsequent offline analysis and archiving. The proposed facility is designed as a three-axis manipulator. For the driving the axes are chosen stepper motors. A key factor in achieving the highest possible speed measurement is very smooth movement of the manipulator, which is achieved by controlling of motors in microstepping mode with very high resolution. Software entire system is designed in the NI LabVIEW development environment for image processing was used module NI Vision.
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Small Rotarz Turntable's Design
Škubal, Karel ; Cejpek, Zdeněk (referee) ; Matoušek, Radomil (advisor)
The aim of this bachelor's thesis is the design, its implementation, and subsequent commissioning of a rotary table. The main goal is to produce a small rotary table that can be used in the robotics laboratory for pick and place applications and possibly for other tasks, for example 3D scanning. The first part of the thesis is focused on description of different types of rotary tables, and individual selected components. Based on this, a table model is then designed and constructed.
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Testing parameters of stepper motors at different microstepping mode
Műller, Jakub ; Chalupa, Jan (referee) ; Klimeš, David (advisor)
This thesis deals with design and construction of test equipment that allows measurements of basic parameters of stepper motors. The first part is devoted to the search about the principle of operation of the hybrid stepper motor. For the analysis engine has been used a mathematical simulation model with real parameters in Matlab/Simulink. The next section is the design of mechanical and electronic form of the test facility with a description of the components used. The last part of this work is focused on measuring the excitation currents and measuring loss of steps at various control modes and microstepping.
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Computerized Weapon Live Test
Venhoda, Jaroslav ; Kubíček, Michal (referee) ; Frýza, Tomáš (advisor)
The master thesis deals with the design of device used for gun prototypes testing purposes. It aims at electrical part of the design which controls a stepper motor which through mechanical gear initiates trigger of tested prototype periodically. The core of design consists of the DRV8711 integrated circuit which controls a stepper motor. The integrated circuit is using the microstepping driving technique. The main logic of designed device is controlled by PIC32 microcontroller unit which also communicates with PC through USB bus.
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Small Rotarz Turntable's Design
Škubal, Karel ; Cejpek, Zdeněk (referee) ; Matoušek, Radomil (advisor)
The aim of this bachelor's thesis is the design, its implementation, and subsequent commissioning of a rotary table. The main goal is to produce a small rotary table that can be used in the robotics laboratory for pick and place applications and possibly for other tasks, for example 3D scanning. The first part of the thesis is focused on description of different types of rotary tables, and individual selected components. Based on this, a table model is then designed and constructed.
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Computerized Weapon Live Test
Venhoda, Jaroslav ; Kubíček, Michal (referee) ; Frýza, Tomáš (advisor)
The master thesis deals with the design of device used for gun prototypes testing purposes. It aims at electrical part of the design which controls a stepper motor which through mechanical gear initiates trigger of tested prototype periodically. The core of design consists of the DRV8711 integrated circuit which controls a stepper motor. The integrated circuit is using the microstepping driving technique. The main logic of designed device is controlled by PIC32 microcontroller unit which also communicates with PC through USB bus.
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Design equipment for measurement the surface wettability
Šubrt, Kamil ; Andrš, Ondřej (referee) ; Houška, Pavel (advisor)
This paper describes the design of equipment for measuring the wettability of surfaces. Surface wettability is determined by analyzing the profile drops, in an image taken with a digital camera. After the equipment is required to automatically find and focus the analyzed drops, taking the image, measuring wettability and save the image analysis, including measurement results to a file for subsequent offline analysis and archiving. The proposed facility is designed as a three-axis manipulator. For the driving the axes are chosen stepper motors. A key factor in achieving the highest possible speed measurement is very smooth movement of the manipulator, which is achieved by controlling of motors in microstepping mode with very high resolution. Software entire system is designed in the NI LabVIEW development environment for image processing was used module NI Vision.
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Testing parameters of stepper motors at different microstepping mode
Műller, Jakub ; Chalupa, Jan (referee) ; Klimeš, David (advisor)
This thesis deals with design and construction of test equipment that allows measurements of basic parameters of stepper motors. The first part is devoted to the search about the principle of operation of the hybrid stepper motor. For the analysis engine has been used a mathematical simulation model with real parameters in Matlab/Simulink. The next section is the design of mechanical and electronic form of the test facility with a description of the components used. The last part of this work is focused on measuring the excitation currents and measuring loss of steps at various control modes and microstepping.
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