2041: Basic Electronics KL Diploma Syllabus for ECE 2nd Sem 2015 Revision SITTTR

Basic Electronics detailed syllabus for Electronics & Communication Engineering (ECE) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the ECE students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Electronics & Communication Engineering 2nd Sem scheme and its subjects, do visit ECE 2nd Sem 2015 revision scheme. The detailed syllabus of basic electronics is as follows.

Basic Electronics

Course Outcomes:

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SPECIFIC OUTCOME:

MODULE I Introduction to Electronics, Passive Components.

Introduction to Electronics.
1. To distinguish principles behind Electrical and Electronic Systems.
2. To identify areas of application of electronics.
3. To compare active and passive components.
To understand the passive component.
1. To define resistance.
2. To list the specifications of resistor and their importance.
3. To explain colour coding of resistors.
4. To explain three and four digit coding of chip resistors.
5. To list the types of resistors.
6. To list the applications of fixed resistors and variable resistors in electronic circuits.
7. To find the effective resistance of series and parallel combination of resistors.
8. To define capacitance.
9. To describe the charging and discharging of capacitors.
10. To list types of capacitors – polarized (electrolytic, tantalum) and non polarized (paper, ceramic, polyester).
11. To describe ultra capacitor and chip capacitor.
12. To list the specifications of a capacitor and their importance.
13. To explain the standard representation of capacitor using numerical coding.
14. To list the uses of capacitors.
15. To find the effective capacitance of series and parallel combination of capacitors.
16. To define self and mutual inductance.
17. To list the different types of inductors and their applications.
18. To list the specification of an inductor.
19. To explain the working principle of transformers.
20. To list the types and applications of transformers.

MODULE II Semiconductors

To comprehend semiconductor physics and semiconductor diodes
1. To draw the Energy Band diagrams of conductors, insulators and semiconductors.
2. To describe intrinsic and extrinsic semiconductors.
3. To mention the majority and minority carriers in P and N type materials.
4. To explain doping.
5. To explain the formation of PN junction and depletion region.
6. To define drift and diffusion currents.
7. To define potential barrier.
8. To explain the principle of operation of PN junction diode.
9. To draw the V – I characteristics of diode.
10. To identify diode as a switch.
11. To state knee voltage, static and dynamic resistances of a PN junction diode.
12. To describe zener and avalanche breakdown
13. To list different types of diodes.
14. To explain the working of Zener diode.
15. To draw the V – I characteristics of Zener diode.
16. To explain the application of Zener diode as voltage regulator.
17. To explain the working of Varactor diode and Tunnel diode.
18. To list the applications of Varactor and Tunnel diodes.

MODULE III Diode Circuits – Rectifiers, Wave Shaping Circuits.

To understand the working of rectifier and filter circuits.
1. To define rectification.
2. To explain the working of half wave rectifier with waveforms.
3. To explain the working of full wave centre tapped rectifier with waveforms.
4. To explain the working of full wave bridge rectifier with wave forms.
5. To compute average and r.m.s values of voltages and currents for various rectifiers.
6. To define the terms TUF, rectification efficiency and ripple factor.
7. To compare half wave, centre tapped and bridge rectifiers.
8. To list different types of filter circuits.
9. To explain the working of shunt capacitor filter.
10. To explain the working of series inductor filter.
11. To explain the working of n section filter.
To understand voltage multipliers and wave shaping circuit.
1. To explain the working of half wave and full wave voltage doublers.
2. To explain the working of voltage tripler.
3. To explain the working of positive, negative, biased and combinational clipper / slicer circuits.
4. To explain the working of positive and negative diode clamper (voltage level shifting) Circuits.

MODULE IV Bipolar Junction Transistors.

To understand transistors
1. To describe the physical structure of BJT.
2. To explain the working principle of PNP and NPN transistor with symbols.
3. To explain the mechanism of current flow in transistors.
4. To identify transistor configurations.
5. To state the transistor current equation.
6. To state the effect of temperature in leakage current.
7. To explain input and output characteristics of BJT in CE and CB configurations.
8. To identify Cut off, Active and Saturation Regions in characteristic curve of CE configuration.
9. To define input and output resistances in different configurations and their comparison.
10. To define current gain in different configurations and its comparison.
11. To derive relation between a, P and y

Module I

Module II

Semiconductors & PN junction Semiconductor diode P-N junction – concept of hole, majority and minority charge carriers -formation of depletion layer in P-N junction – barrier voltage – biasing the P-N junction – forward bias, reverse bias, P-N junction diode – symbol V-I characteristics – forward and reverse characteristics – ideal characteristics – static and dynamic resistance of a diode – knee voltage – diode specifications – forward voltage, peak inverse voltage, maximum forward current, reverse saturation current – types of diodes – zener diode – symbol, operating principle, V-I characteristics – zener breakdown voltage – zener as a voltage regulator – tunnel diode – symbol, operating principle, V-I characteristics, applications – varactor diode – symbol, operating principle, V-I characteristics, applications.

Module III

Module IV –

Bipolar Junction Transistor. Bipolar junction transistors – concept, physical structure, types -pnp and npn – symbol, working principle – types of transistor configuration CE,CB,CC (only circuit diagrams) – transistor current equation – leakage current – characteristics of CE and CB configuration – input / output characteristics – identification of cut off, active and saturation regions – input and output resistance – current gain in different configurations – a, P and y – relation between a, P and y

Text Books:

Reference Books:

K Venkata Ramanan – Functional Electronics – Mc-Graw Hill Inc.
A K Maini – Electronics Projects for Beginners – Pusthak Mahal
Bernard Grob – Basic Electronics – Mc-Graw Hill Inc. – 8th Edition
Robert Boylestad, L Nashelsky – Electronic Devices and Circuit Theory – Prentice Hall
Basics of Electronics Engineering Publisher WILEY

For detailed syllabus of all other subjects of Electronics & Communication Engineering, 2015 revision curriculum do visit ECE 2nd Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.

InI KL