Introduction To Electronics Engineering Syllabus S1&S2 2015-16

Course No.
Course Name
L-T-P-Credits
Year of Introduction
BE101-04
INTRODUCTION TO ELECTRONICS
ENGINEERING
2-1-0-3
2015
Course Objectives
1.        To get basic idea about types, specification and common values of passive components
2.        To familiarize the working and characteristics of  diodes, transistors and MOSFETS  
3.        To understand working of diodes in circuits and in rectifiers
4.        To familiarize some measuring instruments
Syllabus
Evolution  and Impact of Electronics, Familiarization of Resistors, Capacitors, Inductors, Transformers and Electro mechanical components, Semiconductors, PN junction diode, Zener diode, LED, photo diode, Bipolar Junction Transistors: Structure, principle of operation, different configurations, load line and operating point, biasing and stabilization, Transistor as amplifier, switch, Junction Field Effect Transistors: Structure, principle of operation, characteristics MOSFET: Structure, principle of operation, characteristics, Principle of operation of Photo transistor, UJT, SCR, Diode circuits and power supplies: Series and parallel diode circuits, Half-wave & full wave rectifiers, capacitor filter, zener voltage regulator, Electronic Measurements and measuring Instruments: Performance parameters, Analog and digital multimeter, CRO, DSO, function generator, Testing of Electronic components. 
Expected outcome
Student can identify the active and passive electronic components and can design and setup simple circuits using diodes and transistors. Voltage and currents can be measured and monitored using electronic measuring instruments
References Books:
      Bell, D. A., Electronic Devices and Circuits, Oxford University Press
      Boylested, R. L. and Nashelsky, L., Electronic Devices and Circuit Theory, Pearson Education
      Kal, S., Basic Electronics: Devices, Circuits and its Fundamentals, PHI Learning
      Millman, J., Halkias, C. and Parikhu, C. D., Integrated Electronics, Tata Mc Graw Hill
      Neaman, D. A., Electronic Circuits Analysis and Design, McGraw Hill
      Sedra, A. S. and Smith, K. C., Microelectronic Circuits, Oxford University Press 
Course Plan
Module
Contents
Hours
Sem.
Exam
Marks
I
Evolution of Electronics, Impact of Electronics in industry and in society.
1
15%
Resistors, Capacitors: types, specifications. Standard values, marking, colour coding. 
3
Inductors and Transformers:  types, specifications, Principle of working. 
2

Electro mechanical components: relays and contactors.
1

II
Diodes: Intrinsic and extrinsic semiconductors, PN junction diode, barrier potential, V-I characteristics, Effect of temperature. Equivalent circuit of a diode. Piece wise linear model. 
3
15%
Specification parameters of diodes and numbering. 
1
Zener diode, Varactor diodes, characteristics, working principle of LED, photo diode, solar cell.
3

FIRST INTERNAL EXAM


III
Bipolar Junction Transistors: Structure, typical doping, Principle of operation, concept of different configurations. Detailed study of input and output characteristics of common base and common emitter configuration, current gain, comparison of three configurations. 
3
15%
Concept of load line and operating point. Need for biasing and stabilization, voltage divider biasing, Transistor as amplifier, switch, RC coupled amplifier and frequency response
3
Specification parameters of transistors and type numbering
1
IV
Junction Field Effect Transistors: Structure, principle of operation, characteristics, comparison with BJT. 
2
15%
MOSFET: Structure, principle of operation of Enhancement type


MOSFET, Current voltage characteristics, Depletion-type MOSFET. 
2

Principle of operation of Photo transistor, UJT, SCR.
3

SECOND INTERNAL EXAM


V
Diode circuits and power supplies: Series and parallel diode circuits, Clippers, Clampers, Voltage multipliers
3
20%
Half-wave and full wave (including bridge) rectifiers,  Derivation of Vrms,
Vdc, ripple factor,  peak inverse voltage, rectification efficiency in each


case, capacitor filter,  working and design of a simple zener voltage regulator.
Block diagram description of a DC Power supply, Principle of SMPS
4

VI
Electronic Measurements and measuring Instruments.
2
20%
Generalized performance parameters of instruments: error, accuracy, sensitivity, precision and resolution.
Principle and block diagram of analog and digital multimeter, Block diagram of CRO, Measurements using CRO, Lissajous patterns, Principle and block diagram of DSO, function generator. 
4
Testing of Electronic components.
1

END SEMESTER EXAM


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