Learning outcomes |
I-Control Systems Understand the theoretical and practical bases of Control Systems Theory Determine mathematical representations of physical and control systems Know how to apply control, feedback and stability techniques and how to design controllers and control systems
II-Automation Obtain knowledge about Industrial Automation, particularly about industrial processes Identify the devices employed in process control systems (Programmable Logic Controller – PLC, networks, sensors, actuators) Understand PLC programming languages Know how to change control parameters in PLCs Supervise industrial automation systems Skills: Ability to actively contribute to this area, assisting in further development or progress of control and automation solutions. Integration in industrial and business environments in the fields of industrial automation and control, as well as in research teams, raising awareness and interest by the scientific method, by innovation and entrepreneurship
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Main Bibliography |
Professor notes Module I - Control K. Ogata, Modern Control Engineering, 5th Ed, Prentice Hall Inc, 2009 N. Nise, Control Systems Engineering, 6th Ed, Wiley, 2010 F. Golnaraghi, B. C. Kuo, Automatic Control Systems, 9th Ed, Wiley, 2009 Barrientos, Antonio, et al. Control de sistemas Continuos: Problemas Resueltos. 1996. Module II - Automation -P.D. Gaspar, S. Mariano, Apontamentos de Automação Industrial-Introdução à Automação, UBI, 2008. -P.D. Gaspar, S. Mariano, Apontamentos de Automação Industrial-Introdução aos PLC Twido, UBI, 2008. F. Petruzella, Programmable Logic Controllers 4th Ed, McGraw-Hill Education, 2010 -A. Francisco, Autómatos Programáveis, 4ª ed., ETEP, 2009. -L.A. Bryan; E.A. Bryan, Programmable controllers, Theory and Implementation, 2nd ed, Amer Technical Pub, 2003. J. Stenerson, Fundamentals of Programmable Logic Controllers, Sensors & Communications, 3rd Ed, Prentice Hal
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