Class Automation and Control

In this UC it is intended that students are able to Analyze the use of different automation components such as PLC's, robots, numerical control system, flexible manufacturing cells, CIM concept and industrial networks. Carry out simple control programs for automation systems Development of simple user interfaces (HMI) using SCADA systems. This UC has as its main area of intervention the industry in its various aspects

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INTRODUCTION MODELIZATION OF INDUSTRIAL SYSTEMS Object Oriented Language, Grafcet, Petri Nets AUTOMATION SYSTEMS - Numerical Control, DNC, CNC, Adaptive Machining Control, INDUSTRIAL ROBOTICS - Definition, robot anatomy, robot configurations, robot control systems, control type classification, intelligent robots, robot industry applications, robot work cell design, material handling, processing, assembly and inspection. FLEXIBLE MANUFACTURING CELLS - FMS, components of an FMS, types of FMS, FMS workstations. MATERIAL HANDLING AND STORAGE SYSTEMS - Configuration, handling equipment, computer control system, FMS planning. COMPUTER INTEGRATED MANUFACTURE - CIM - Computer Intregrated Manufacturing, product design, production equipment, production processes. INDUSTRIAL NETWORKS - Architectures, technologies, protocols. FUTURE FACTORY

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Juan R. Pimentel, ¿Communication Networks For Manufacturing¿, Prentice-Hall. William Schweber, ¿Electronic Comunication Systems¿, Prentice-Hall, 1998 Mikell P. Groover, (1987),¿Automation, Production Systems, And Computer Integrated Manufacturing¿,Prentice-Hal