Electronics and Telecommunication Engineering - Vishwakarma ...
Electronics and Telecommunication Engineering - Vishwakarma ... Electronics and Telecommunication Engineering - Vishwakarma ...
Bansilal Ramnath Agarwal Charitable Trust’s Vishwakarma Institute of Technology, Pune – 411 037 Department of Electronics and Telecommunication Engineering FF No.: 654 Credits: 03 EC 42109:: Electronic Automation Teaching Scheme: - Theory 3 Hrs/Week Prerequisites: Basics of control system, Op-Amp, and PLC Objectives: To understand • Hierarchy of automation • Automation tools • Controller principles • Mapping with PEOs:1,3,6,8,9 Unit I Unit Name: Introduction to Industrial Automation (6 Hrs) A. Introduction and Architecture of automation, Types, pyramid of automation, advantages and disadvantages, Advanced functions, Approach to automation, Manual labor, and control levels. B. Industrial Safety legislations and regulations, Safety by design. Unit II Unit Name: Automation Tools (8 Hrs) A. PLC- Architecture, Justification for use of PLC, Communication networking of PLC, Ladder programming. HMI- Functions, alarming modes, type of display-graphic, trend, group, detail. DCCS-advantages of decentralized control system, architecture, hierarchy, SCADA- Architecture, functions of key elements of SCADA, applications. B. Intelligent sensors in industrial and process automation, MEMS. Communication networking protocols in automation. Unit III Unit Name: Controller Principles B. Interacting and non-interacting PID controller. Structure & Syllabus of B.E (E&TC) Program – Pattern ‘C11’, Rev01, dt. 2/4/2011 74 (10 Hrs) A. Control system parameters, on-off, two position, and multi-position controllers, Proportional, Derivative, and Integral controllers, PI, PD, PID controllers, analog representation of composite controller, Stability concepts, Controller tuning, Controller configurations, Fuzzy controller in control applications- concepts, membership functions, fuzzy inference, defuzzfication methods, Fuzzy controller in automation.
Bansilal Ramnath Agarwal Charitable Trust’s Vishwakarma Institute of Technology, Pune – 411 037 Department of Electronics and Telecommunication Engineering Unit IV Unit Name: Digital Controllers (8 Hrs) A. Introduction of digital controllers, Models of A/D and D/A converters, Types of digital controller- recursive, non-recursive, Realization of digital PID controller- digital temperature control system, non-interacting velocity algorithm, digital position control system. B. Study of Model based controller, adaptive controller Unit V Unit Name: Automation Applications (8 Hrs) A. Building automation system- Building management system, HVAC control, wireless networking, Building control network. Railway signaling- Detection of trains, need of signaling, release of locking, Implementation of railway signaling, PES in railway signaling. High speed rail signaling system, Automotive Electronics- navigation/driver guide system, ECU, vehicle communication standards, safety. B. Networking protocols in BAS and vehicles. Outcome: Students will be able to • Design controller for automation application • Design industrial automation system Text Books 1. C. D. Johnson - Process Control Instrumentation 2. M. Gopal - Digital Control and state variable methods Reference Books 1. Ogata - Modern Control Systems 2. Bela Liptak -Handbook of Process Control Structure & Syllabus of B.E (E&TC) Program – Pattern ‘C11’, Rev01, dt. 2/4/2011 75
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Bansilal Ramnath Agarwal Charitable Trust’s<br />
<strong>Vishwakarma</strong> Institute of Technology, Pune – 411 037<br />
Department of <strong>Electronics</strong> <strong>and</strong> <strong>Telecommunication</strong> <strong>Engineering</strong><br />
FF No.: 654<br />
Credits: 03<br />
EC 42109:: Electronic Automation<br />
Teaching Scheme: - Theory 3 Hrs/Week<br />
Prerequisites: Basics of control system, Op-Amp, <strong>and</strong> PLC<br />
Objectives: To underst<strong>and</strong><br />
• Hierarchy of automation<br />
• Automation tools<br />
• Controller principles<br />
• Mapping with PEOs:1,3,6,8,9<br />
Unit I<br />
Unit Name: Introduction to Industrial Automation<br />
(6 Hrs)<br />
A. Introduction <strong>and</strong> Architecture of automation, Types, pyramid of automation,<br />
advantages <strong>and</strong> disadvantages, Advanced functions, Approach to automation, Manual<br />
labor, <strong>and</strong> control levels.<br />
B. Industrial Safety legislations <strong>and</strong> regulations, Safety by design.<br />
Unit II<br />
Unit Name: Automation Tools<br />
(8 Hrs)<br />
A. PLC- Architecture, Justification for use of PLC, Communication networking of PLC,<br />
Ladder programming. HMI- Functions, alarming modes, type of display-graphic, trend,<br />
group, detail. DCCS-advantages of decentralized control system, architecture, hierarchy,<br />
SCADA- Architecture, functions of key elements of SCADA, applications.<br />
B. Intelligent sensors in industrial <strong>and</strong> process automation, MEMS. Communication<br />
networking protocols in automation.<br />
Unit III<br />
Unit Name: Controller Principles<br />
B. Interacting <strong>and</strong> non-interacting PID controller.<br />
Structure & Syllabus of B.E (E&TC) Program – Pattern ‘C11’, Rev01, dt. 2/4/2011<br />
74<br />
(10 Hrs)<br />
A. Control system parameters, on-off, two position, <strong>and</strong> multi-position controllers,<br />
Proportional, Derivative, <strong>and</strong> Integral controllers, PI, PD, PID controllers, analog<br />
representation of composite controller, Stability concepts, Controller tuning, Controller<br />
configurations, Fuzzy controller in control applications- concepts, membership<br />
functions, fuzzy inference, defuzzfication methods, Fuzzy controller in automation.