Erasmus ECTS Information Package

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Erasmus ECTS Information Package Faculty of EEEA 3173 Computer Control Systems - Project ECTS credits: 4 Weekly classes: 0lec+0sem+0labs+2ps+3cp Assessment: Type of exam: defence of a project Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Plamen Ivanov Daskalov, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 668, E-mail: daskalov@uni-ruse.bg Abstract: The project aims to equip the students with practical experience in the application of the knowledge of computer science and programming. The project helps the students to develop skills for solving technical problems independently. Course content: The project topics concern measurement systems and control systems. The project tasks are closely connected with hardware development of single-chip processor systems. Some tasks about systems software are considered too. Teaching and assessment: The project is carried out in the following sequence: assigning of a project, studying of literature, designing the electrical schemes and software, finalizing and defence of a report. The students carry out practical exercises once a week at the lab and consultations are provided about 3 hours per semester. The final project assessment is based on the quality of the report. 3174 Practice 2 ECTS credits: 3 Weekly classes: 0l + 0s + 0lab + 30p Assessment: colloquium Type of exam: oral Methodology management: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Valentin Bogdanov Stoyanov, PhD, Department of Automatics and Mechatronics, phone: 082 888 372; E-mail: vstojanov@uni-ruse.bg 2. Principal Assistant Nikolay Petkov Valov, Department of Automatics and Mechatronics, phone: 082 888 266; E-mail: npvalov@uni-ruse.bg Annotation: The main goals of this course are to improve the knowledge and skills of the students of the Department of Automatics and Mechatronics, which they got from the classes based in RU “Angel Kantchev” and to acquire and learn new, specific knowledge and skills in a real-life companies and organizations, involved in designing, development, production, operation and maintenance of automation systems, computer and office electronics and more. Syllabus contents: Production process of the factory or organization. Structure, tasks and organization of the work of different departments of the enterprise or organization. Structure, characteristics and parameters of the automation systems. Architecture, software programming, Input/output devices and abilities for expansion/updating and upgrading of computer systems. Teaching and learning methods: Training placement for the students takes place in enterprises, companies, organizations with well-organized and modern industries or in companies and organizations which have signed a special contract with the department for practical training. The final grade is based on the review of the documentation gathered by the student during his work and training; discussions with the student and the head of the department in which was the training about the objectives achieved and acquired skills. 135
Erasmus ECTS Information Package Faculty of EEEA 3175 Computer Control Systems - 2 ECTS credits: 6 Weekly classes: 3lec + 0sem + 2labs + 0ps + 1ca Assessment: exam Type of exam: written Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Plamen Ivanov Daskalov, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 668, E-mail: daskalov@uni-ruse.bg Abstract: Basic intelligence about the architecture, technical data and operation of programmable logic controllers (PLC) are given in the course. The basic structure and operation of the main input-output PLC modules are considered in details. Specially attention is devoted to PLC programming and use of advanced graphic programming languages. Course prerequisites include Computer Control Systems-1, Microprocessor technics, Programming and Computer Control Systems – Course project. Course content: System architecture and functions of PLC. Analog input/output modules. Digital input/output modules. Basic PLC communications, interfaces and protocols. PLC software structure. Textual and graphics PLC IEC 61131-3 programming languages. Ladder and Grafcet diagrams. Teaching and assessment: The available technical teaching devices are used during the lectures. Laboratory exercises are organized and carried out in a teaching laboratory. Students are provided with user manuals for their preparation. Before the laboratory classes, the lecturer checks the students’ knowledge of the material to be worked on. The results of experiments and software developments are entered in individual reports. Final evaluation is based on the assessment of the laboratory exercises and a written exam. 3176 Industrial Communication Networks of Computer Control Systems ECTS credits: 6 Weekly classes: 3lec + 0sem + 0labs + 2ps + 1ca Assessment: exam Type of exam: written Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Plamen Ivanov Daskalov, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 747, E-mail: daskalov@uni-ruse.bg Abstract: Basic concepts concerning the architecture, communication standards and protocols of industrial communication networks are given in the course. Network topologies, models and transmission methods are considered in details. Specially attention is devoted to field-level and information level industrial networks. Course prerequisites include knowledge of Computer Control Systems-2 and Distributed Measurement Systems. Course content: Structure and architecture of computer control systems with industrial communication networks. Network models, standards and specifications. Open System Interconnect (OSI) network model. Network transmission methods. Media access methods - CSMA/CD, CSMS/CA, Token Passing, Demand Priority and CTDMA. Structure and basic characteristics of field-level industrial communication networks. Basic features of information level industrial networks. Network protocols ARP, TCP/IP and UDP. Basic OPC architectures and interfaces. Teaching and assessment: The available technical teaching aids are used during the lectures. Laboratory exercises are organized and carried out in teaching laboratory. Students are provided with user manuals for their preparation. Before classes, the students’ knowledge is examined. The results of the experiments and software developments are entered in individual reports. Final evaluation is based on the assessment of the laboratory exercises and a written exam. 136
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