Download For Theory Subjects

CH 132
Electronics and Instrumentation
Class: 2nd Mandatory
Teaching scheme: 2 hours lecture per week
Credits: 5
Course Description
The course are covered the Semiconductor diode characteristics; Load lime; Half wave and
full wave rectifiers; Filters. Power supply; Regulators
Objectives:
 To impart the basic concepts of fluid and particle mechanics
 To develop understanding about viscosity, fluid flow and machinery
Specific learning outcome



No.
explain the instrumentation principles and techniques
Define and describe the principle of the analog to digital converter (ADC) and digital to
analog converter (DAC).
Describe the basic operation of analog multi-meter, digital multi-meter, oscilloscope and
function generator.
Topic
Hours
4
4
Amplifying devices (BJT, FET) and their characteristic with LF equivalent
circuits
Single stage and multi stage RC coupled amplifiers (including types of
coupling)
Calculation of voltage gain; Impedance; Frequency response; Feedback; High
input impedance circuits.
Oscillators.
Operational amplifiers and its application; Filters; V.C.O. and PLL.
Timer and applications to systems.
5
Logic gates and basic logic circuits (SSI, MSI and basis systems ICs).
4
6
Transducers.
Cathode ray oscilloscope and multimeters (Analogue and digital). A/D and
D/A for instrumentation
Network elements: Voltages and current sources; Kirchoffs voltage and
current law
6
8
Loop and nodal analysis; Superposition theorem; Thevenin’s theorem; N orton’s
theorem; Maximum power transfer theorem
8
9
Sinusoidal steady state analysis: R, L&C elements; Power and power factor:
Phase diagram
Resonance; Mutual inductance and coefficient of coupling. Three phase
circuits: Line and phase relationship; Power measurement
6
1
2
3
3
7
10
Percentage of change: 55%
Text Books:
1. Vincent Del Toro, “Electrical Engineering Fundamentals”, Prentice Hall, Inc.
2. Cotton, H., “Advanced Electrical Technology”, Isaac Pitman & Sons.
4
6
4
4
6
8
Grading
No.
1
2
3
4
5
6
Assessment
Homework (HW), Quizzes(Q)
TEST 1
TEST 2
TEST 3
TEST 4
Final Exam (F)
Overall Total
Number
1
1
1
1
1
% each
10 %
7.5 %
7.5 %
7.5 %
7.5 %
60 %
% total
10
7.5
7.5
7.5
7.5
60
100
Dates
For Theory Subjects
Internal Continuous Assessment (Maximum Marks-40)
75% - Tests (minimum 4)
20 % - Assignments (minimum 2) such as homework, problem solving, group discussions, quiz,
seminar, term-project, software exercises, etc.
5 % - Regularity in the class
TU Examination Pattern (Maximum Marks-60)
PART A: Short answer questions (one/two sentences) 2 x 2.5 marks= 5 marks
All questions are compulsory. There should be at least one question from each module and not
more than two questions from any module.
PART B: Analytical/Problem solving questions 4 x 10 marks= 40 marks
Candidates have to answer four questions out of six. There should be at least one question from
each module and not more than two questions from any module.
PART C: Descriptive/Analytical/Problem solving questions 2 x 7.5 marks= 15 marks
Two questions from each module with choice to answer one question.