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हेलो स्टूडेंट्स आज के इस पोस्ट में हम आपको इलेक्ट्रिकल इंजीनियरिंग ब्रांच के 5th सेमेस्टर का सिलेबस के बारे में बताने वाले है। और साथ ही में हम आपको अपने टेलीग्राम चैनल पर केवल 5th semester के लिए एक अलग से pdf भी प्रोवाइड करने वाले है जिसमे केवल इलेक्ट्रिकल के 5th सेमेस्टर का ही सिलेबस होगा।
5th Semester 2020
Syllabus ( पाठ्यक्रम )
5.1 Industrial Management and Entrepreneurship Devlopment
1. Introduction (04 Periods)
1.1 Concept /Meaning and its need
1.2 Qualities and functions of entrepreneur and barriers in entrepreneurship
1.3 Sole proprietorship and partnership forms and other forms of business organisations
1.4 Schemes of assistance by entrepreneurial support agencies at National, State, District –level, organisation: NSIC, NRDC, DC, MSME, SIDBI, NABARD, NIESBUD, HARDICON Ltd., Commercial Banks, SFC’s TCO, KVIB, DIC, Technology Business Incubators (TBI) and Science and Technology Entrepreneur Parks
2. Market Survey and Opportunity Identification/Ideation (04 Periods)
2.1 Scanning of the business environment
2.2 Salient features of National and Haryana State industrial policies and resultant business opportunities
2.3 Types and conduct of market survey
2.4 Assessment of demand and supply in potential areas of growth
2.5 Identifying business opportunity
2.6 Considerations in product selection
2.7 Converting an idea into a business opportunity
3. Project report Preparation (06 Periods)
3.1 Preliminary project report
3.2 Detailed project report including technical, economic and market feasibility
3.3 Common errors in project report preparations
3.4 Exercises on preparation of project report
3.5 Sample project report
4. Introduction to Management (06 Periods)
4.1 Definitions and importance of management
4.2 Functions of management: Importance and process of planning, organising, staffing, directing and controlling
4.3 Principles of management (Henri Fayol, F.W. Taylor)
4.4 Concept and structure of an organisation
4.5 Types of industrial organisations and their advantages
4.6 Line organisation, staff organisation
4.7 Line and staff organisation
4.8 Functional Organisation
5. Leadership and Motivation (08 Periods)
5.1 Leadership: Definition and Need, Qualities and functions of a leader, Manager Vs leader, Types of leadership, Case studies of great leaders
5.2 Motivation: Definition and characteristics, Importance of self motivation, Factors affecting motivation, Theories of motivation (Maslow, Herzberg, Douglas, McGregor)
6. Management Scope in Different Areas (14 Periods)
6.1 Human Resource Management: Introduction and objective, Introduction to Man power planning, recruitment and selection, Introduction to performance appraisal methods
6.2 Material and Store Management: Introduction functions, and objectives, ABC Analysis and EOQ
6.3 Marketing and sales: Introduction, importance, and its functions, Physical distribution, Introduction to promotion mix, Sales promotion
6.4 Financial Management: Introductions, importance and its functions, knowledge of income tax, sales tax, excise duty, custom duty, VAT, GST
7. Work Culture (08 Periods)
7.1Introduction and importance of Healthy Work Culture in organization
7.2Components of Culture
7.3Importance of attitude, values and behavior
7.4Behavioural Science – Individual and group behavior.
7.5Professional ethics – Concept and need of Professional Ethics and human values.
8. Basic of Accounting and Finance (10 Periods)
8.1Basic of Accounting: Meaning and definition of accounting, Double entry system of book keeping, Trading account, PLA account and balance sheet of a company
8.2Objectives of Financial Management: Profit Maximization v/s Wealth Maximization
9. Miscellaneous Topics (10 Periods)
9.1Total Quality Management (TQM): Statistical process control, Total employees Involvement, Just in time (JIT)
9.2Intellectual Property Right (IPR) : Introduction, definition and its importance, Infringement related to patents, copy right, trade mark
5.2 SWITCHGEAR AND PROTECTION
1.Faults (15 Periods)
Types of faults, three phase symeterical faults, effects of faults on system reliability and stability, abnormalities, short circuits and their effects, representation of fault conditions through single line diagrams
2. Switchgear (24 Periods)
2.1Purpose of protective gear, characteristics of a protection system.
2.2Classification of fuses H.V. Fuses, application and working, grading and co-ordination L.V. fuses, selection of fuses, characteristics
2.3Isolators and switches, outdoor isolators, functions, air break switches, braking capacity of switches.
2.4Circuit breakers :- requirements of circuit breakers, definition of terms associated with circuit-breakers, reasons for arc formation, principles of arc extinction, types of circuit-breakers, comparison with oil circuit breaker, classification, rating of circuit breakers, working of different types of air and oil circuit breakers, specification of circuit breakers, maintenance schedule, SF-6 and Vacuum circuit breakers.
2.5Relays:Requirement of relays, operation principles, induction type over current, directional over current, differential, percentage differential relays working, applications and characteristics, basic principles of static relays. Introduction too distance relay.
3. Protective Schemes (15 Periods)
3.1Protection of alternators, stator faults, rotor faults, mechanical conditions, external faults – their reasons, effect and protections used.
3.2Protection of power transformer: types of faults, its effects, types of proective schemes over current, earth fault, differential protection, Buckholtz devices, winding temp. protection.
3.3Motor protection: types of faults and protection in motors, thermal relays, protection of small motors, under voltage protection.
3.4Protection of feeders: radial, parallel and ring feeders protection, directional time and current graded schemes, differential protection.
4. Protection Against Over Voltages (15 Periods)
Causes of over voltages, travelling waves earth wire, protective zone, lightening arrestors, space-gap and electrolytic arrestors, surge absorber, location and rating of lighening arrestors. Thyrite lightening arrestor.
5. Different Type of Sub-stations (15 Periods)
5.1Layout, single line diagram, busbar arrangement, equipment, their fuctions, accessories, study of protective schemes, batteries and their maintenance, operation of small sub-stations.
5.2Reactors: types of reactors, busbar reactor, tuning reactor, arc-supression reactor, connection of reactors in power stations, uses of reactors.
5.3Neutralgrounding:- types of grounding solid grounding, reactance grounding, arc suppression, coil grounding, choice of method of neutral earthing, grounding of sub-stations, grounding of line structure and substation equipment.
5.4Concept of G.I.S. (Gas Insulated Substation)
5.3 PLC, MICRO CONTROLLER & SCADA
1. Introduction (24 Periods)
Concept of PLC, building block of PLC, function of various blocks, limitation of relays, advantage of PLC over electromagnetic relays, different programming languages, PLC manufacturer, working of PLC, basic operation and principles of PLC, architectural details.
2. Instruction Set (20 Periods)
2.1Basic instructions like latch, master control self holding relays, timer instruction like retentive timers, resetting of timers, counter instructions like up counter, resetting of counters.
2.2LadderDiagram Programming : programming based on basic instructions, timer, counter, sequencer, and comparison instructions using ladder program.
3. Microcontroller series (MCS)-51 over view (20 Periods)
Pin details, I/O ports structure, memory organisation, special function registers instruction set, addressing modes, timers operation, serial port operation, interrupts.
4. Assembly language programming (10 Periods)
Assemblers and Compilers, assembler directives, design and interface. Examples like: keypad interface, 7- segment interface, LCD, Stepper motor , A/D, D/A , RTC interface, introduction of PIC microcontrollers.
5. SCADA (10 Periods)
Introduction, role of SCADA in dispatch centre, operator console, VDUs, types of communication channels in SCADA systems, RTUs, MTUs, data loggers, report generation, report analysis and actions.
5.4 ELECTRICAL MACHINES – II
1.3 Phase Induction Motors (25 Periods)
1.1 Production of rotating magnetic field in 3 phase winding.
1.2 Salient constructional features of squirrel cage and slip ring 3-phase induction motors
1.3 Principle of operation, slip and its significance
1.4 Locking of rotor and stator fields
1.5 Rotor resistance, inductance, emf and current
1.6 Relationship between rotor copper losses, slip and rotor input power.
1.7 Power flow diagram of an induction motor
1.8 Factors determining the torque
1.9 Torque-slip curve, stable and unstable zones
1.10 Effect of rotor resistance upon the torque slip curve
1.11 Double cage rotor motor and its applications
1.12 Starting of 3-phase induction motors, DOL, star-delta, auto transformer starter.
1.13 Causes of low power factor of induction motors
1.14 Testing of 3-phase motor on no load and blocked rotor test and to find efficiency
1.15 Method of Speed control of induction motor
1.16 Harmonics and its effects, cogging and crawling in Induction Motors.
1.17 Specifications and ratings of induction motors.
2. Single Phase Motors (18 Periods)
2.1 Single phase induction motors; Construction characteristics, specifications and applications.
2.2 Nature of field produced in single phase induction motor-double revolving field theory.
2.3 Split phase induction motor
2.3.1 Capacitor start, capacitor run, capacitor start and run motor
2.3.2 Shaded pole motor
2.4 Alternating current series motor and universal motors, construction,working principle and operation, application.
2.5 Single phase synchronous motor
2.5.1 Reluctance motor
2.5.2 Hysteresis motor
3 Synchronous Machines (25 periods)
3.1 Main constructional features of synchronous machine including commutator and brushless excitation system
3.2 Generation of three phase emf
3.3 Concept of distribution factor and coil span factor and emf equationArmature reaction at unity, lag and lead power factor
3.4 Equivalent circuit diagram of synchronous machine
3.5 Concept of voltage regulation. Determination of voltage regulation by synchronous impedance method.
3.6 Operation of single synchronous machine independently supplying a load.
3.7 Concept of infinite bus bar. Need and necessary conditions of parallel operation of alternators, synchronizing an alternator (Synchroscope method) with the bus bars
3.8 Operation of synchronous machine as a motor –its starting methods
3.9 Effect of change in excitation of a synchronous motor, V curve, Concept of synchronous condenser.
3.10 Concept and cause of hunting and its prevention
3.11 Specification, rating and cooling of synchronous machines
3.12 Applications of synchronous machines
4. Special Purpose Machines (16 periods )
Construction, working principle and application of linear induction motor, stepper motor, AC Servomotor, Submersible Motor,
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