Basic Electronics Engineering

Lesson PlAN
Name of the Faculty : MS. PRIYANKA GAUR
Discipline : ME
Semester : 3RD
Subject : BASIC ELECTRONICS ENGINEERING (ESC-201)
Lesson Plan Duration : JULY-DEC'18
Week Theory Practical
Lecture Day Topic Practical Day Topic
1st 1 Introduction to P-N junction Diode and V-I characteristics 1 NO PRACTICAL FOR THIS SUBJECT
2 Half wave and Full-wave rectifiers
3 Capacitor filter
4 Zener diode and its characteristics,
2nd 5 Zener diode as voltage regulator. 2
6 Regulated power supply IC based on 78XX and 79XX series
7 Introduction to BJT
8 BJT input-output and transfer characteristics
3rd 9 BJT as a single stage CE amplifier 3
10 frequency response and bandwidth.
11 Introduction to operational amplifiers,
12 Op-amp input modes and parameters
4th 13 Op-amp in open loop configuration, 4
14 Op-amp with negative feedback
15 Study of practical op-amp IC 741,
16 Inverting and non-inverting amplifier
5th 17 Summing and difference amplifier 5
18 Unity gain buffer
19 Comparator
20 Integrator
6th 21 Differentiator 6
22 RC-timing circuits
23 IC 555 and its applications as astable and mono-stable multi-vibrators
24 Positive feedback
7th 25 Barkhausen's criteria for oscillation 7
26 R-C phase shift
27 Wein bridge oscillator
28 Difference between analog and digital signals
8th 29 Boolean Algebra 8
30 Basic and Universal Gates
31 Symbols
32 Truth Tables
9th 33 Logic expression 9
34 Logic Simplification using K-MAP
35 Logic Ics
36 Half and full adder/Subtracter
10th 37 Multiplexers 10
38 Demultiplexers
39 Flip-flops
40 Shift Registers
11th 41 Counters 11
42 Block Diagram of Microprecessor/Microcontroller and their applications
43 The elements of communication system
44 IEEE frequency spectrum
12th 45 Transmission media: wired and wireless 12
46 Need of modulation
47 AM and FM modulation schemes
48 Mobile communication systems: cellular concept
13th 49 Block diagram of GSM system. 13
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