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Decentralized Control of a Portal Crane by Means of PLC SIMATIC
Ribka, Jan ; Sobotka, Milan (referee) ; Pásek, Jan (advisor)
This master’s thesis deals with a total concept of decentralized control system for process control by means of PLC SIMATIC. This concept is demonstrated on a model of a portal crane in the introductory chapter. The second chapter is focused on industrial communication network PROFIBUS. Different types of this network and ways of communication are described. The third chapter is concerned with industrial communication network PROFINET (Industrial Ethernet). Different types of this network and ways of communication techniques are described. The next chapter presents components of Siemens company, which are necessary for creation of demanded control system. The following part describes the programming facilities for STEP 7 programs - Simatic Manager, Micro/WIN and WinCC flexible. It contains creation of the control system including communications on the networks.
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HMI for beverage filling machines
Mládek, Ondřej ; Sobotka, Milan (referee) ; Pásek, Jan (advisor)
The aim of my work is to create an application for control and visualization of beverage line. This work describes the advantages that automation brings into production. There is a description for worldwide used visualization programs InTouch, WinCC, Reliance 4 and Control Web. For completeness there are described Siemens visualization panels. New faceplate type objects were created in the program environment of WinCC flexible 2008 Standard for the individual machines of the line. Faceplates are used in visualization for 19" touch panel. Simulations is created in STEP 7 program. Data are collected in the .csv files. After that they are modified through the VBA macro.
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Transfer and utilization of process data (PLC) in production control system
Kupčík, Michal ; Michal, Novotný (referee) ; Pásek, Jan (advisor)
This work explains to reader the difficulty of production scheduling and why is much advantageous using proper system for this work. Next he reads about complexity of production management and about necessity of linkage between all levels of company’s IT systems. We are going to use three different approaches for getting Siemens controller’s data out and for two of them we are going to describe general procedure, how we gets a data files, which are openable in classic table processor like MS Excel and which contain user’s choosen variables including their actual values. Finally reader will be familiarized with SimRead program, which serves for reading variable’s values in combination with Simatic standart communication blocks.
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Simulator of production lines
Viták, Jan ; Kaczmarczyk, Václav (referee) ; Pásek, Jan (advisor)
The aim of this master’s thesis Simulator of Production Lines is to design a concept of the simulator of conveyor production lines with focus on testing control software for PLC and to implement this simulator. The thesis includes description of ready to use solutions available on the market, description of PLC control algorithm to be tested, designed concept of the simulator, description of the implemented software, demonstration of the simulator on a specific task and evaluation of its capabilities.
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HMI application in S88 standard for cleaning station in food industry
Adamec, David ; Slezák, Petr (referee) ; Pásek, Jan (advisor)
The main theme of this thesis is creating HMI applications for a program written in standard S88 with trying of function control system. The introductory section is devoted to the standard S88 with introduction of the main concepts and description of design control system. Other parts are devoted to the description of the CIP station, a program description and requirements for HMI and introduction of HMI performance. The last part deals with the testing functions of the control system in simulation.
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HMI application for PLC
Kořínek, Josef ; Pásek, Jan (referee) ; Arm, Jakub (advisor)
The aim of this work is to create a human-machine interface. In the theoretical part, the thesis deals with the rules and recommendations for the design of high user-friendly HMI. Next, the suitable hardware in the form of single-board computers and touch screens is addressed. Furthermore, the possible software like libraries for communication with PLCs and libraries for creating a graphical environment are covered. Finally, the concept of the human-machine interface is presented. In the practical part, the thesis deals with the connection of PLC PFC200 from Wago to the laboratory model Kmeny. Additionally, the program in the Codesys for control the model is created. Then, the created HMI application is described that is built using the chosen GLG Toolkit framework and the Libmodbus library. Furthermore, the implementation into the chosen signel-board computer Raspberry Pi 2 is outlined. Finally, some of the key parameters of the created system are evaluated.
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