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E.G.S.PILLAY ENGINEERING COLLEGE, NAGAPATTINAMDEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERINGCOURSE CODE : GE 6252TITLE : BASIC ELECTRICAL AND ELECTRONICS ENGINEERINGSEMESTER : 02CLASS : I YEAR FACULTY NAME & DESIGNATION : V.MOHAN AP/EEEMAIL ID & MOBILE NO.:veerasamy.mohan@ 9942986674COURSE DURATION : JAN 2014 – APRIL 2014LECTURE HALL : REQUIRED TEXT BOOKS:1. Mittle N., “Basic Electrical Engineering”, Tata McGraw Hill Edition, New Delhi, 1990.2. Sedha R.S., “Applied Electronics”, S. Chand & Co., 2006.REFERENCE BOOKS:1. Muthusubramanian R, Salivahanan S and Muraleedharan K A, “Basic Electrical, Electronics and Computer Engineering”, Tata McGraw Hill, Second Edition, (2006).2. Nagsarkar T K and Sukhija M S, “Basics of Electrical Engineering”, Oxford press (2005).3. Mehta V K, “Principles of Electronics”, S.Chand & Company Ltd, (1994).4. Mahmood Nahvi and Joseph A. Edminister, “Electric Circuits”, Schaum’ Outline Series, McGraw Hill, (2002).5. Premkumar N, “Basic Electrical Engineering”, Anuradha Publishers, (2003).RESOURCESPREREQUISITE PHYSICSCOURSE OBJECTIVES & OUTCOMES:Course objectivesCourse outcomes1. To understand the basics of electrical, electronics and communication engineering.2. To analyze simple electrical circuits and machines.3. To understand the construction, characteristics and applications of semiconductor devices.4. To comprehend the operation of basic digital electronic circuits.On completion of the course students will be able to(a) Summarize the basic laws and concepts related to electrical, electronics and communication engineering.(b) Explain the construction and operation of electrical measuring instruments and electrical machines.(c) Compute the various electrical parameters of electrical circuits and machines.(d) Elucidate the construction and operation of semiconductor devices and digital circuits.(e) Explain the operation of functional blocks of various communication systems.DETAILED LESSON PLAN:UNIT I ELECTRICAL CIRCUITS & MEASURMENTS Ohm’s Law – Kirchhoff’s Laws – Steady State Solution of DC Circuits – Introduction to AC Circuits –Waveforms and RMS Value – Power and Power factor – Single Phase and Three Phase Balanced Circuits. Operating Principles of Moving Coil and Moving Iron Instruments (Ammeters and Voltmeters), Dynamometer type Watt meters and Energy meters.Session ics to be coveredText bookPage NoInstruction deliveryTesting methodInstructional ObjectiveInstructional outcomeMethodLevel1.Discussion of course objectives and outcomes, basic electrical quantities, circuit elements & sourcesR51.2 – 1.8Board & chalkKnowledgeOHT1a2.Ohms law, resistors in series and parallel connection, problems1.9 – 1.16Board & chalkAnalysisOHTTHT1 & 2a & c3.Kirchhoff’s Laws, problems1-32 – 1.42Board & chalkAnalysisOHTT11 & 2a & c4.Source transformation and mesh analysis, problems1.43 – 1.55Board & chalkAnalysisT11 & 2a & c5.Nodal analysis, problems1.61 – 1.71Board & chalkAnalysisMT1 & 2a & c6.Fundamentals of AC2.1 – 2.9Board &chalkUnderstandingOHT1a7.Problems in average and RMS values2.9 -2.19Board & chalkAnalysisTHT2a & c8.Single phase AC circuits2.22 – 2.42Board & chalkUnderstandingOHTT11a9.Power in AC circuit and problems in AC circuits2.22 – 2.42Board & chalkAnalysisT1OHT1 & 2a & c10.Three phase circuits and problems2.46 – 2.54Board & chalkAnalysisOHTT12a & c11.Measuring instruments – types, analog instruments, operating & control torques.3.1 – 3.12PPTUnderstandingTHT1b12.PMMC meters3.12 – 3.14PPTUnderstandingT11b13.MI instruments( attraction and repulsion type)3.15 -3.20PPTUnderstandingOHTT11b14.Dynamometer type wattmeter and induction type energy meter3.21 – 3.26PPTUnderstandingMTT11bUNIT II ELECTRICAL MECHANICS Construction, Principle of Operation, Basic Equations and Applications of DC Generators, DC Motors,Single Phase Transformer, single phase induction Motor.Session ics to be coveredText bookPage NoInstruction deliveryTesting methodInstructional ObjectiveInstructional outcomeMethodLevel15.Construction, Principle of Operation of DC GeneratorsR54.1 – 4.13PPTunderstandingOHTT11a & b16.Types of DC generators – Circuits, Basic Equations and Applications4.13 –4.25PPTunderstandingOHT1a & b17.Problems in DC generators4.13 – 4.26Board & chalkAnalysisT1OHT2c18.Construction, Principle of Operation of DC Motors4.27 – 4.30PPTunderstandingMTT11a & b19.Types of DC motors – Circuits, Basic Equations and Applications4.30 – 4.48PPTunderstandingMTOHT1a & b20.Problems in DC motors4.30 – 4.48Board & chalkAnalysisMT2c21.Construction, Principle of Operation of Single Phase Transformer4.48 – 4.50PPTunderstandingOHTT21a & b22.Basic Equations and Applications of Single Phase Transformer4.54– 4.70PPTunderstandingT2OHT1a & b23.Problems in Single Phase Transformer4.54– 4.70Board & chalkAnalysisT22c24.Construction, Principle of Operation of single phase induction Motor4.70 – 4.71PPTunderstandingMT1a & b25.Operation, characteristics and applications of different types of single phase induction Motor4.71 – 4.81PPTunderstandingMTT21bUNIT III SEMICONDUCTOR DEVICES AND APPLICATIONS Characteristics of PN Junction Diode – Zener Effect – Zener Diode and its Characteristics – Halfwave and Full wave Rectifiers – Voltage Regulation. Bipolar Junction Transistor – CB, CE, CC Configurations and Characteristics – Elementary Treatment of Small Signal Amplifier.Session ics to be coveredText bookChapter No. andPage NoInstruction deliveryTesting methodInstructional ObjectiveInstructional outcomeMethodLevel26.Semiconductors - IntroductionR55.1 – 5.10PPTUnderstandingOHT1a27.PN Junction Diode – construction, Characteristics and applications5.13 – 5.21PPTUnderstandingT2OHTTHT1 & 3a & d28.Avalanche and Zener breakdown.Zener Junction Diode – construction, Characteristics and applications5.23 – 5.24PPTUnderstandingTHTOHTT2MT1 & 3a & d29.Rectifiers - Halfwave and Full wave Rectifiers5.24 – 5.34PPTUnderstandingT2MT1 & 3a & d30.Voltage Regulators – types, zener regulator5.38 – 5.40PPTUnderstandingT2OHT1 & 3a & d31.Bipolar Junction Transistor – construction and operation of PNP & NPN transistors and configurations5.41 – 5.46PPTUnderstandingT2OHT1 & 3a & d32.Bipolar Junction Transistor –CB configuration5.47 – 5.50PPTUnderstandingT23 d33.Bipolar Junction Transistor –CE & CC Configurations5.50 – 5.54PPTUnderstandingT2OHT3 d34.Elementary Treatment of Small Signal Amplifier5.54 – 5.57PPTUnderstandingOHT1 & 3a & dUNIT IV DIGITAL ELECTRONICS Binary Number System – Logic Gates – Boolean Algebra – Half and Full Adders – Flip-Flops –Registers and Counters – A/D and D/A Conversion (single concepts)Unit 4: INSULATORS AND CABLESInsulators – Types – Voltage distribution in insulator string and grading – Improvement of stringefficiency – Underground cables – Constructional features of LT and HT cables – Capacitance –Dielectric stress and grading – Thermal characteristicsSession ics to be coveredText bookChapter No. andPage NoInstruction deliveryTesting methodInstructional ObjectiveInstructional outcomeMethodLevel35Number Systems and conversionsR56.1 – 6.13Board & chalkunderstandingTHT1 a36Binary numbers- compliments, addition, subtractionLogic Gates6.13 – 6.21Board & chalkunderstandingTHTMT1a37Boolean Algebra and simplification of Boolean expressions.6.22 – 6.25Board & chalkunderstandingMTTHT1a38Half and Full Adders6.26 – 6.28Board & chalkunderstandingTHTMT1 & 4a & d39Flip-Flops – RS, clocked RS and D Flip Flops6.29 – 6.32Board & chalkunderstandingORAL1 & 4a & d40Flip-Flops – JK, JKMS and T Flip Flops6.33 – 6.37Board & ChalkunderstandingORAL1 & 4a & d41Counters- types,asynchronous counters: up, down and decade counters6.38 – 6.43Board & chalkunderstandingTHTMT1 & 4a & d42Synchronous counters: up, down, decade countersRing counters:6.38 – 6.436.47Board & chalkunderstandingMT1 & 4a & d43Shift Registers6.51 – 6.53Board & chalkunderstandingORAL1 & 4a & d44ADC – SAR and Ramp types6.53 – 6.56Board & chalkunderstandingTHT1 & 4a & d45DAC – Weighted Resistor and R- 2R types6.56 – 6.59Board & chalkunderstandingMT1 & 4a & dUNIT V FUNDAMENTALS OF COMMUNICATION ENGINEERING Types of Signals: Analog and Digital Signals – Modulation and Demodulation: Principles of Amplitudeand Frequency Modulations. Communication Systems: Radio, TV, Fax, Microwave, Satellite and Optical Fiber (Block Diagram Approach only).Session ics to be coveredText bookPage NoInstruction deliveryTesting methodInstructional ObjectiveInstructional outcomeMethodLevel46.Basic communication system.Types of SignalsModulation and DemodulationTypes of modulationR57.1 – 7.5Board & chalkunderstandingMTTHT1a47.Principles ofAmplitude Modulation7.6 – 7.8Board & chalkunderstandingMTTHT1a48.Principles ofFrequency Modulation7.8 – 7.11Board & chalkunderstandingTHT1a49.Radio Communication7.15 – 7. : Transmitter and receiver7.25 – 7.34PPTUnderstandingMT1e51.Fax7.34 – 7.36PPTunderstandingTHT1e52.Microwave Communication7.36 – 7.41PPTunderstandingMTTHT1e53.Satellite Communication7.41 – 7.48PPTunderstandingMT1e54.Fiber Optics Communication7.49 – 7.55PPTunderstandingMT1ePREPARED BY REVIEWED BY ................
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