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Bangabandhu Sheikh Mujibur Rahman Science and Technology
University Gopalganj 8100, Bangladesh
Faculty of ENGINEERING
Department of Applied Physics, Electronics and Communication
Engineering
Syllabus for B. Sc. (Engg.), Session: 2015 2016
The B.Sc. (Engg.) courses in Applied Physics, Electronics and
Communication Engineering (APECE) consist of total
160 credits distributed over eight semesters in four academic
years. Each academic year will be divided into two
semesters (First and second) each having a duration of not less
than 13 weeks. There shall be final examinations at the
end of each semester. The medium of answer in the examination of
all written, laboratory and other courses will be
English. The theoretical examination of courses less than or
equal to 2 Credits shall be of 3 hours duration and courses
greater than 2 Credits shall be of 4 hours duration. An academic
schedule for the academic year shall be announced
for general notification before the start of the academic year,
on the approval of the Academic Committee. No student
shall ordinarily be admitted after the class starts.
Table-1Marks and Credits distribution in various disciplines for
B.Sc. (Engg.)
Course Type Percentage Credits
Non major 21.87 35
Major 78.13 125
Total 100 160
Table 2: First Year (Examination- 2016)
First Semester:
Course Codes Course Titles Credits Conduct hours/week
APE100 Applied Electricity, Magnetism and Network Theorem 3
3
APE102 Heat Engineering 3 3
ENG104 Technical English 2 2
ENG105 Laboratory (Experiments on the courses ENG104) 1 2
MAT104 Algebra, Trigonometry and Vector Analysis 3 3
PHY114 Applied Mechanics and Optics 3 3
PHY115 Laboratory (Experiments on the courses APE100, APE102
and
PHY114) 3 6
APE109 Viva voce 1 -
Total 19 22
Second Semester:
Course Codes Course Titles Credits Conduct hours/week
APE150 Basic Electronics 3 3
APE151 Laboratory (Experiments on the course APE150) 2 4
APE152 Engineering Drawing 1 1
ECO154 Engineering Economics 2 2
MAT156 Differential and Integral Calculus 3 3
AEC114 Physical and Inorganic Chemistry 3 3
STA156 Statistics 2 2
PHY166 Quantum Mechanics, Atomic and Nuclear Physics 3 3
PHY167 Laboratory (Experiments on the course PHY166) 1 2
APE159 Viva voce 1 -
Total 21 23
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Table 3: Second Year (Examination- 2017)
First Semester:
Course Codes Course Titles Credits Conduct hours/week
APE200 Electronic Devices and Circuits 4 4
APE202 Operating Systems and Programming with C / C++ and Java 4
4
APE210 Electrical Machine Systems and Filter 3 3
APE211 Laboratory (Experiments on the courses APE200, APE202
and APE210) 3 6
MAT206 Matrices and Differential Equations 3 3
AIS208 Industrial Management and Accountancy 2 2
APE209 Viva voce 1 -
Total 20 22
Second Semester:
Course Codes Course Titles Credits Conduct hours/week
APE250 Digital Electronics 3 3
APE252 Pulse and Switching Circuit 3 3
APE260 Instrumentation and Acoustic Engineering 2 2
APE261 Laboratory (Experiments on the courses APE250, APE252
and APE260) 3 6
LAW254 Law and Professional Ethics 2 2
MAT264 Mathematical Methods and Numerical Analysis 3 3
MAT265 Laboratory (Programming With MATLAB) 1 2
APE263 Electrical Mechanical Workshop 1 2
APE259 Viva voce 1 -
Total 19 23
Table 4: Third Year (Examination- 2018)
First Semester
Course Codes Course Titles Credits Conduct Hours/week
APE300 Electromagnetic Theory and Antenna 3 3
APE302 Communication Engineering 3 3
APE310 Basic Solid State Physics 3 3
APE312 Renewable Energy Technology 3 3
APE320 Optical Fiber Communication 3 3
APE321 Laboratory (Experiments on the courses APE300,
APE302, APE310, APE312 and APE320) 4 8
APE331 Electronic Workshop 1 2
APE319 Viva-Voce 1 -
Total 21 25
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Second Semester
Course Codes Course Titles Credits Conduct hours/week
APE350 IC Fabrication and VLSI Technology 3 3
APE352 Radio and TV Engineering 3 3
APE360 Material Science and Engineering 3 3
APE362 Telecommunication Engineering 3 3
APE370 Microprocessor, Micro Controller and Computer Peripherals
3 3
APE371 Laboratory (Experiments on the courses APE350,
APE352,
APE360 and APE362) 5 10
APE 359 Viva voce 1 -
Total 21 25
Table 5: Fourth Year (Examination - 2019)
First Semester:
Course Codes Course Titles Credits Conduct hours/week
APE400 Computer Organization and Architecture 3 3
APE402 Microwave and Satellite Communication 3 3
APE410 Data communication and Computer Networks 3 3
APE412 Geophysics 3 3
APE413 Laboratory (Experiments on the courses APE400,
APE402,
APE410 and APE412) 5 10
APE08 Field Work 1 2 Weeks
APE409 Viva-voce 1 -
Total 19 22
Second Semester:
Course Codes Course Titles Credits Conduct hours/week
APE450 Digital Signal Processing 3 3
APE452 Control Engineering 3 3
APE460 Biomedical, Analytical and Nuclear Instrumentation 3
3
APE462 Mobile Cellular communication 3 3
APE463 Laboratory (Experiments on the courses APE450,
APE452,
APE460 and APE462) 4 8
APE458 Project and Seminar 2 4
APE459 Viva voce 2 -
Total 20 24
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First Year: First Semester (Examination 2015)
APE100 Applied Electricity, Magnetism and Network Theorems
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Electrostatic and Steady Electric Current: Gauss's Law and
its application, Electric field in dielectric media, Energy in an
electrostatic field, Concept of electric current; Current density;
Resistivity and Conductivity; Electrostatic force,
Electromotive force.
2. Networks Analysis: Kirchhoff's laws; Wheatstone bridge,
Superposition theorem; Millmans theorem; Reciprocity theorem,
Thevenin's theorem, Norton's theorem, Maximum power transfer
theorem, Mesh and Node circuit analysis,
Reduction of complicated networks, T and -section network.
3. Varying Current: Circuit elements, Transients in RC, RL and
RLC circuits, Steady state sinusoidal analysis, Phasor diagrams,
and polyphase circuit.
4. Chemical Effects of Current: Faraday's laws of electrolysis,
Applications: Storage cells, Charging system, Electroplating.
Section-B
5. Magnetic Field and Its Interaction: Magnetic induction,
Magnetic force on a charge, Lorentz force, and its application in
CRT, Magnetic field of a current, Torque on a current Loop, Moving
coil galvanometer, Biot-Savart law
and its applications, Ampere's law, Measurement of electrical
quantities; Ammeter, Voltmeter, Wattmeter & other
meters.
6. Electromagnetic Induction: Faraday's law of electromagnetic
induction, Lenz's law, Induced current and voltage, Self-inductance
and mutual inductance, Inductor, Ideal transformer, Energy stored
in a magnetic field. Solving
electromagnetic circuit.
7. Alternating Current: General AC theory; AC power, Average and
RMS value of AC voltage and current, Use of complex quantities in
AC circuits, Resonant circuits, Q-value and bandwidth.
8. Thermoelectricity: Thermal electromotive forces, Seebeck
effect and Peltier effect, Laws of addition of thermal
electromotive forces, Thermoelectric equations and power, Practical
thermocouple, Illumination laws, Various kinds of
lamp.
Books Recommended:
Text Books:
1. D.R. Resnick and D. Halliday : Physics, Part-II
2. B.L. Theraza : Electrical Technology
Reference Books:
1. D. Elwell& A.J. Pointon : Classical Thermodynamics
: Concepts of Electricity and Magnetism
: Basic Electronics.
: Fundamentals of Electricity and Magnetism
: Networks, Lines and Fields
: Electric Circuits
: Physics for Scientists & Engineers.
2. A.R. Rafiqullah, A.K. Roy and M.S. Huq
3. B. Grobe
4. Arthur Kip
5. J.D. Ryder
6. J. A. Edminister
7. P.A. Tipler
APE102 Heat Engineering
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. First law of thermodynamics: Thermodynamic systems; The first
law of thermodynamics, Heat capacity, Specific heat capacity,
Consequences of first Law, Energy equation, Internal energy of
gases.
2. Second law of thermodynamics: The second law of
thermodynamics & its consequences, Entropy, Combined first law
and second law.
3. Kinetic Theory of gas: Introduction, Basic assumption,
Collisions with the walls, Equation of state of an ideal gas,
Collisions with a moving wall, The Clausius equation of state, The
van der Waals equation of state
4. Statistical Mechanics: Statistical distributions, Quantum
statistics, Maxwell-Boltzmann statistics, Fermi-Dirac statistics,
Bose-Einstein statistics.
Section-B
1. Thermal Radiation: Kirchhoffs law, Black body radiation,
Stefan's law, Wien's displacement law, Rayleigh-Jeans law, Plank's
radiation law, Experimental verification and its comparison with
others.
2. Refrigeration: Principles of refrigeration, Types of
refrigeration system, Load calculation, Uses and application in
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industry.
3. Air-conditioning: Principles of air-conditioning, Types of
air-conditioning system, Load calculation, Applications. 4. Vacuum
Technique: Production of vacuum, Exhaust pump, Rotary pump, Vapour
pump, Ion pump, Measurement of
vacuum and Vacuum gauges, Vacuum leaks and their detection.
Books Recommended:
Text Books:
1. F.W. Sears : Thermodynamics
2. N.C. Harris & E.M. Hemmerling : Introductory Applied
Physics
3. J. Yarwood : Introduction to High Vacuum.
4. A. Beiser : Concept of Modern Physics
Reference Books:
1. D.Elwell& A.J. Pointon : Classical Thermodynamics
2. R.J. Dossat : Principle of Refrigeration.
3. W.E. Severn and J.R. Fellow : Air-conditioning and
Refrigeration.
ENG104 Technical English
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
2 credits, Examination Time: 3 hours
Section-A
1. Grammar: Grammatical principles, modals, phrases &
idioms, prefixes & suffixes, sentence structures, wh &
yes/no questions, conditional sentences.
2. Vocabulary: Technical & scientific vocabulary, defining
terms. 3. Spoken English: Introduction to phonetic symbols,
dialogue, responding to particular situations, extempore
speech.
Section-B
1. Reading: Comprehension of technical & non-technical
materials-skimming, scanning, inferring & responding to
context.
2. Technical Writing: Paragraph & composition writing on
scientific & other themes, report writing, research paper
writing, library references.
3. Professional communication: Business letter, job application,
memos, quotations, tender notice.
Books Recommended:
1. John M. Lennon : Technical Writing
2. A.J. Thomson and A.V. Martinet : A Practical English
Grammar
3. A. Ashley : Oxford Handbook of Commercial Correspondence
4. J. Swales : Writing Scientific English
5. Robert J. Dixson : Complete Course in English
6. Rajendra Pal & J.S. Korlahalli : Essentials of Business
Communications
ENG105 English Laboratory
100 Marks [60% Practical, 30% Quizzes/Viva-voce, 10%
Attendance]
1 Credit, 26 Conduct hours
Audio-Visual Lab based on English Listening, Speaking
MAT104 Algebra, Trigonometry and Vector Analysis
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Algebra: Sets, De Morgan's rule, Relation & Function.
Determinants: Properties and Cramer's rule. 2. Theory of Equations:
Theorem, and relation between roots and coefficients. Solution of
cubic equations. 3. Trigonometry: De Moivre's theorem, Deduction
from De Moivre's theorem, Functions of complex Arguments 4. Series:
Gregory's series, Eulerian Series, Summation of series.
Section-B
5. Vector Addition, Multiplication & Differentiation.
6. Gradient of Scalar Function, Divergence and Curl of Vector
function.
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7. Definitions of line, Surface and Volume Integral,
8 Physical Significance of Gradient, Divergence and Curl.
Integral forms of Gradient, Divergence and Curl,
Divergence theorem, Stokes theorem, Greens theorem and Gausss
theorem.
Books Recommended:
Text Books:
1. H.S. Hall and S.R. Knight : Higher Algebra
2. B.C. Das and B.N. Mukherjee : Higher Trigonometry
3. M.R. Spiezel : Vector Analysis
Reference Books:
1. Barnside and Panton : Theory of Equations
2. Barnside and Child : Higher Algebra
3. M.A. Sattar : Higher Trigonometry
4. M.A. Sattar : Vector Analysis
PHY114 Applied Mechanics and Optics
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Motion of Particles: Linear motion of a body as function of
time, Position and velocity, Rotational motion, Relation between
linear and angular kinematics, Fly wheel; Collision problem; Simple
harmonic motion and its applications,
Compound pendulum, Damped harmonic motion, Forced oscillation
and resonance. Conservation laws in general,
Conservative forces, Non conservative force, Laws of
conservation of momentum, Motion of the center of mass,
Collision, System of variable mass.
2. Waves: Types of waves, Equation of Waves, Velocity and
Energy, Complex waves, Standing waves and resonance, Beats, Sound
waves, the Doppler effect.
3. Basic Machines and Mechanical Advantage: Basic idea about
friction, screw, wedge, lever, mechanical advantage.
Transfer of Mechanical Power: Chain and Pulley Drive,
Transmission of Power by Belt and Ropes, Gear Trains,
Can and Can Follower.
4. Elasticity & Fluid Mechanics: Hooke's Law, Different
types of elastic constants and their relations, Cantilever. Surface
tension and its measurements, Equation of continuity, Bernoulli's
theorem, Viscosity, Effects of temperature &
pressure on viscous fluid.
Section-B
5. Interference: Huygenss principle, Interference phenomena,
Young's experiment, Michaelson interferometer, Interference
involving multiple reflections, Newton's ring, Holography.
6. Diffraction: Fraunhoffer and Fresnel diffraction, Diffraction
by single slit; Diffraction gratings and its resolving power. 7.
Polarization: Polarization of light; Different types of polarized
light, Production of plane polarized light, Brewster's
Law, Nicol prism, Optical activity; Specific and molecular
rotation; Different types of optical instruments, Polarimeter.
8. Electro-magneto Optics: Zeeman Effect, Faraday effect,
Cotton-Mouton effect, Kerr Magneto-optic effect, Kerr
electro-optic effect.
Books Recommended:
Text Books:
1. F.W. Constant : Theoretical Physics
2. S.D. Mathur : Mechanics
3. R.A. Jenkins and H.E. White : Fundamental of optics
Reference Books:
1. F.A. Newman and V.H.L. Searle : The General properties of
Matter.
2. D.R. Resnik and D. Halliday : Physics Part-I and II
3. Champion and Davy : Properties of matter.
4. Morgan : Introduction to Geometrical & Physical
Optics.
5. B. Rossi : Optics.
6. R.N. Ghose : Physical Optics
7. Johnson : Optics and Optical Instruments.
8. Jacobs : Fundamentals of Optical Engineers
9. B.K. Mathur : Principle of Optics.
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APE115
100 Marks [60% Practical, 30% Quizzes/Viva-voce, 10%
Attendance]
3 Credit, 39 Conduct hours
Lab. (Experiments on the courses APE100, APE102 and PHY114)
APE109 Viva voce
1 Credit
First Year: Second Semester (Exam 2015)
APE150 Basic Electronics
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Introduction to Semiconductor: Energy bands in solids,
Valence and Conduction band, Classification of solids in terms of
energy bands, Work function, Electron emission. Intrinsic and
Extrinsic semiconductors, N and P- type
semiconductors, PN junction, Variation of Potential barrier
under forward and reverse biasing.
2. Semiconductor Diodes: PN junction diodes and their V-I
characteristics; Zener diode; Tunnel diode, Varactor diode;
Thermistor, Photodiode and LDR; Transition & Diffusion
capacity.
3. Diode Circuits: Ideal rectifier concept; Half wave and Full
wave rectifiers; Filters; Voltage regulators; Voltage doubler,
Clippers, Clampers.
4. Bipolar Junction Transistors: Working principle of PNP and
NPN transistor, Transistor as an amplifier, Common-base,
Common-emitter and Common Collector Configurations, Input and
output characteristics of CB, CE, and CC
transistor connections, Load line analysis, Operating point.
Performance of transistor operation, Cutoff and Saturation
points.
Section-B
5. Transistor Biasing & Stability: Faithful amplification,
Biasing, Stabilization, Stability factor; Methods of transistor
biasing, Design of transistor biasing circuits, Bias
compensation.
6. Single Stage Transistor Amplifiers: Graphical demonstration
of a Transistor, amplifier Practical circuit of a transistor
amplifier, Phase reversal, D.C and A.C equivalent circuits, Load
line analysis (D.C and A.C), Voltage gain, Current
gain, Power gain, Classification of amplifiers.
7. Multistage Transistor Amplifiers: Cascading CE stage,
Frequency response, Bandwidth, R-C coupled transistor amplifier,
Transformer coupled amplifier, Direct-coupled amplifier.
8. Small Signal Analysis: Low Frequency Amplifiers: Transistor
equivalent circuits; Hybrid parameters; Analysis of Common emitter,
Common base and Common collector amplifiers using h-Parameters,
Common emitter amplifier
with emitter resistor.
Books Recommended:
Text Books:
1. V.K. Mehta : Principles of Electronics.
2. Robert Boylstad & Louis Nashelsky : Electronics Device
and Circuits Theory
Reference Books:
1. S.L. Gupta & V. Kumar : Handbook of Electronics
2.J.J. Brophy : Basic Electronics for Scientists.
3. J.J. Millman & C.C. Halkias : Electronics Devices and
Circuits
4. : :
APE151
100 Marks [60% Practical, 30% Quizzes/Viva-voce, 10%
Attendance]
2 Credit, 52 Conduct hours
Laboratory (Experiments on the course APE150)
APE152 Engineering Drawing
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
1 credits, Examination Time: 3 hours
1. Introduction Orthographic Projection: Scale drawing,
Sectional view, Top and Side view, Isometric views, Missing line,
Auxiliary view, Pictorial views.
2. Drawing Standards and Practices: Interpenetrating of Surface,
Development of Surface, Machine Drawings, Technical Sketching.
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3. Introduction to computer Aided Design (CAD): Project on
Engineering Drawing and CAD using Contemporary packages in
engineering drawing.
Books Recommended:
1. Frede Rick E Giesecke, Alva Mitchell, Henry C, Ivan L Hill,
Robert O, Loving and John Thomas Dygdon: Engineering Graphics 3rd
Edition
2. Frank Zozzaora: Engineering Drawing 2nd Edition
ECO154 Engineering Economics 100 Marks [70% Exam, 20%
Quizzes/Class Tests, 10% Attendance]
2 credits, Examination Time: 3 hours
Section-A
1. Basic Concepts of Economics: Definition and subject matter of
Economics; Microeconomics vs macroeconomics; Law of Economics;
Central economic problems of every society; Different economic
systems; Economics and
Engineering.
2. Theory of Demand, Supply and Consumer Behavior: Law of
Demand; Demand schedule and demand curve; Supply law, supply
schedule and supply curve; Shift in demand and supply; Equilibrium
in the market; Elasticity
of demand and supply; Marshallian utility analysis; Total and
marginal utility; Law of diminishing marginal utility;
Law of equi-marginal utility.
3. Theory of Production and Costs: Meaning of production;
factors of production; Production possibility frontier; Law of
variable proportion; Returns to scale; isoquants; Concepts of
total, average and marginal costs, fixed and
variable costs; Isocost curve; Least cost combinations of
factors.
4. Theory of the Firm: Perfect competition and monopoly; Total,
average and marginal revenue of a firm; Average and marginal
revenue under perfect competition and monopoly; Firms Equilibrium;
Equilibrium of firm under
perfect competition and monopoly.
Section-B
5. Linear Programming and Input-Output Analysis: Meaning of
linear programming; Its components; duality of a problem in linear
programming; graphical, feasible and optimal solutions; The simplex
method; Meaning of input-
output analysis; Input-output analysis model; balance equation;
coefficient matrix; Determination of final demand
vector.
6. Basic Concepts of Macroeconomics: Growth; Unemployment;
Inflation; Philips Curve, Business cycle; Circular flow of
economics; Two, three and four sector economics.
7. National Income accounting and determination: Concepts of
GNP, GDP and national income; Methods of national income
accounting; problems of national income accounting; Keynesian model
of national income
determination; The multiplier; Effect of fiscal policy in the
Keynesian model.
8. Development Planning in Bangladesh: Need for planning in
Bangladesh; Various five year plans in Bangladesh; Development
strategies in the five year plans of Bangladesh.
Books Recommended:
1. Semuelson and Nordhous : Economics
: Economics
: Modern Economic Theory
: Advanced Economic Theory
: Various Five Year Plans
2. Byrons and Stone
3. K.K. Dewett
4. H.L. Ahuja
5. Government of Bangladesh
MAT156 Differential and Integral Calculus
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Functions: Domain, Range, Inverse function and graphs of
functions, Limits, Continuity, Indeterminate form. 2. Ordinary
Differentiation: Differentiability, Differentiation, Successive
differentiation and Leibnitz theorem. 3. a. Expansions of
functions: Rolles theorem, Mean value theorem, Taylor's and
Maclaurin's formulae.
b. Maximum and minimum of functions of one variable.
4. a. Partial Differentiation: Euler's theorem, Tangents and
normal.
b. Asymptotes.
Section-B
5. Indefinite Integrals: Method of substitution, Integration by
parts, Special trigonometric functions and rational fractions.
6. Definite Integrals: Fundamental theorem, General properties,
Evaluations of definite integrals and reduction formulas.
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7. Multiple Integrals: Determination of lengths, Areas and
Volumes.
Books Recommended:
Text Books:
Reference Books:
1. F. Ayres : Calculus
2. Joseph Edwards : Differential Calculus
3. Benjamin Williamson : Integral Calculus
4. Muhammad and Bhattacherjee : Differential Calculus
5. Muhammad and Bhattacherjee : Integral Calculus
AEC114 Physical and Inorganic Chemistry
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1 Electrochemistry: Conductors, Electrolytes and Electrolysis;
Faradays Laws of Electrolysis and their significance. Ohms law and
electrolytic conductances; Theories for electrolytic conductance
(Arrhenius & Debye-Hkel). Ionic
mobility, Kohlrauschs law, Transference Number and its
determination; Activities, activity coefficient and Debye-
Hkel limiting law. Electrochemical cells(Electrolytic and
Galvanic/Voltaic):Electrode reaction and potentials.
Reference electrodes; Reversible and concentration cells,Storage
Batteries(or accumulators).
2 Chemical Equilibrium and Kinetics: Equilibrium and Equilibrium
constants, Kc, Kp, Kx. Rate of reaction and rate constants; Le
Chatelier principle and its application. Order and molecularity of
a reaction; integrated rate expressions &
half- lives of zeroeth, first and second order reactions.
Determination of order & temperature dependence of a
reaction;
energy of activation and Arrhenius equation. Transition-state
theory of reaction rates. Characteristics of catalysis,
promoters and inhibitors.
3 Surface Chemistry and Colloids: Adsorption and sorption;
Characteristics of physical and chemical adsorptions. Fruendlich,
Langmuir and Gibbs Adsorption isotherms; The BET equation.
Crystalloids, Colloids and their
classification, preparation, properties (kinetic, colligative,
optical & electrical) and importance,=. Original pf charge
and stability of colloids (sols), Gold number; colloidal
electrolytes. Elementary idea about emulsions and gels.
Section-B
1. Atomic structure and Periodic Table: Modern concept of atomic
structure and Periodic Table; related principles and Laws.
Constitution and Periodic properties of elements (ionization
potential, electronegativity, electron affinity, atomic
and ionic radii). Grouping of elements, their properties and
uses. Isotopes and radioactivity.
2. Electronic Theory of Valency and Chemical Bonding: Different
types of bonds (ionic, covalent, co-ordinate, hydrogen and
metallic) Classification of solids on the basis of bonding and
their properties. Atomic orbitals and their
hybridization; Valency bond and Molecular orbital theories.
3. Chemistry of Transition Elements, Lanthanides and Actinides:
Definitions, electronic configurations, preparations (nuclear
transformations), general properties and uses.
Recommended Books:
Text Books:
1. R.D. Madan : Modern Inorganic Chemistry
2. M.M. Haque and M.A. Nawab : Principles of Physical
Chemistry
3. E.S. Gilreath : Fundamental Concepts in Inorganic
Chemistry
Reference Books:
1. G.M. Barrow : Physical Chemistry
2. W.J. Moore : Physical Chemistry
3. K.J. Laidler and J.H. Meiser : Physical Chemistry
4. S.R. Palit : Elementary Physical Chemistry
5. S.Z. Haider : Modern Inorganic Chemistry
6. Companion : Chemical Bonding
7. Cotton, Wilkinson & Jones : Basic Inorganic Chemistry
8. D.K. Sebera : Electronic Structure and Chemical Bonding
1. B.C. Das and B.N. Mukherjee : Differential Calculus
2. B.C. Das and B.N. Mukherjee : Integral Calculus
http://www.amazon.com/s/ref=ntt_athr_dp_sr_1?_encoding=UTF8&sort=relevancerank&search-alias=books&field-author=Benjamin%20Williamson
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STA156 Statistics
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
2 credits, Examination Time: 3 hours
Section-A
1. Analysis of statistical data: Location, Dispersion and their
measures, Skewness, Kurtosis and their measures, Moment and
Cumulants and Practical examples.
2. Probability: Concept of probability, Sample Space, Events
union and Intersection of Events. Probability of events, Loss of
probability, Conditional probabilities. Bays Theorem, Chebysecs
Inequality and Practical examples.
3. Random variables and probability Distribution: Basic
concepts, Discrete and continuous random variables, Density and
distributional functions, Mathematical expectation and variance,
Joint marginal and conditional
density functions. Conditional Expectation and conditional
variance. Moments and Cumulant generating functions.
Characteristic function. Study of Binomial Poisson, Normal and
Bivariate Normal distribution and Practical
examples.
Section-B
4. Linear Regression: Correlation, Rank correlation. Partial and
Multiple correlations Linear Regression for two Variables,
Principle of Least Squares Method, Lines of best fit, Residual
Analysis and examples.
5. Test of Significance: Basic ideas of Null hypothesis,
Alternative hypothesis, Type-I error Type-II error level of
significance Degree of freedom, Rejection region and Acceptance
region. Test of Single mean, Single variance, Two
sample means and Variances. Test for 22 contingency tables,
Independence test and practical examples.
Books Recommended:
Text Books:
1. P.G. Hoel : Introductory Statistics
2. S.G. Gupta : Fundamentals of Statistics
Reference Books:
1. A. J. B. Anderson. : Interpreting Data.
2. H. Cramer : The Elements of Probability Theory.
3. D. V. Lindley : Introduction to Probability and
Statistics
4. S. Lipschutz. : Probability
5. Mosteller, Rourke & Thomas : Probability with Statistical
Applications
6. F. L.Wolf : Elements of Probability and Statistics
7. T.H. Wonnacot & R.J.Wonnacot : Introductory
Statistics
8. Yule & M.G. Kendall. : An Introduction to the Theory of
Statistics
PHY166 Quantum Mechanics, Atomic and Nuclear Physics
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Quantum Mechanics: Limitations of classical mechanics,
Postulates of quantum mechanics, Linear operators, Eigen values,
Eigen functions, Time dependent and time independent Schrodinger's
equations, Particle in a box, Reflection
and transmission by a barrier, Tunnel effect.
2. Particle Properties of Waves: Photoelectric effect, Quantum
theory of light, X-rays, X-rays diffraction, Compton effect,
Photons and gravity.
3. Wave Properties of Particles: De Broglie waves, Wave
equations, Phase and Group velocities, Uncertainty principle and
applying the uncertainty principle.
4. Linear Harmonic Oscillator: The eigen values and eigen
functions, Annihilation and creation operators, Schrodinger
equation of hydrogen atom, The quantum number and selection rules,
Radioactive transition and Zeeman effect.
Section-B
5. Relativity: Postulates of special relativity, Time dilation,
Doppler effect, Length contraction, Twin paradox, Relativity of
mass, Mass and energy, Massless particles; Lorentz transformation,
Velocity addition.
6. Atomic Physics: Rutherford model of the atom, Alpha-particle
scattering formula, Nuclear dimensions, Electron orbits, Atomic
spectra, The Bohr atom, The energy levels and spectra; Nuclear
motion, Atomic excitation, The Pauli's
exclusion principle and its application.
-
Page 11 of 29
7. Radioactivity: Nuclear composition, some nuclear properties,
Stable nuclei, Binding energy, Radioactive decay laws, Half life
and Mean life, Radiometric dating, Radioactive series, Artificial
radioactivity, Radiation hazards, Different
types of decay.
8. Nuclear Reaction: Nuclear fission and fusion, Principles of
nuclear fission process, Characteristics of fission neutrons,
Fission reactor, Thermonuclear reaction, Nuclear fusion reaction,
and Fusion reactor.
9. Nuclear Instrumentation: GM counter, Proportional counter,
Bubble chamber, Single channel and Multi channel analyzer, Gamma
camera, machines of radio therapy, particle accelerators,
principles of radiation protection.
Books Recommended:
Text Books:
1. A. Beiser : Concepts of Modern Physics
2. N. Subrahmanyam & Brij Lal : Atomic and Nuclear
Physics
Reference Books:
1. C.W. Sherwin : Introduction to Quantum Mechanics
2. P.T. Methews : Introduction to Quantum Mechanics
3. K. Ziock : Basic Quantum Mechanics
4. H. Semont : Introduction to Atomic and Nuclear Physics
5. D. Halliday : Introduction to Nuclear Physics
6. C.M.H. Smith : A Text Book of Nuclear Physics
7. I. Kaplan : Nuclear physics
8. H. Goldstein : Classical Mechanics
PHY167
1 Credit
Laboratory (Experiment on the course PHY166)
APE159 Viva voce
Credit 1
Second Year: First Semester (Exam 2016)
APE200 Electronic Devices and Circuits
Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]
4 credits, Examination Time: 4 hours
Section-A
1. High-Frequency Response: High frequency model for CE
amplifier, CE short circuit current gain, High frequency current
gain with resistive load, High frequency response of cascaded CE
stages, Transformer coupled amplifier,
Transistor noises.
2. Feedback: Concept of Feedback: Negative feedback, Positive
feedback, Voltage feedback, Current feedback, Effect of feedback on
impedance, Gain, Bandwidth, Distortion & Stabilization.
3. Operational Amplifier: Difference amplifier, CMRR, Ideal
operational amplifier, Inverting amplifier, Non-inverting
amplifier, General purpose IC operational amplifier, Integrator,
Differentiator, Linear and non-linear applications of
operational amplifier, Comparator and Converter.
4. Oscillators: Positive feedback, Condition of oscillation, RC
phase shift oscillator, Wein bridge oscillator, Resonant circuit
oscillators, Crystal oscillator and Waveform generators.
Section-B
5. Multivibrators: Introduction to the multivibrator, The
bistablemultivibrator, The monostablemultivibrator, The
astablemultivibrator and other forms of multivibrator, Uses of
multivibrator.
6. Power Amplifiers: Classification of power amplifiers,
Collector efficiency, Transformer coupled class A amplifier;
Class-B push-pull amplifier, Class-C amplifier, Tuned amplifier,
class D, E & S amplifier.
7. Field-Effect Transistors (FET): Construction and
classification, Principle of operation, Characteristic curves,
Channel conductivity, Channel ohmic and pinch-off region,
Characteristic parameters of the FET, Effect of temperature on
FET,
Common source amplifier, Common drain amplifier, Classification
of MOSFET & UJT., CMOS
8. Optoelectronic Devices: PN photodiode, Phototransistor, Solar
cell, Photoconductive cell, Photovoltaic, Sensors, LED, LCD,
Alphanumeric display, Photo couplers, Photodiode, LDR.
Books Recommended:
Text Books:
-
Page 12 of 29
1. V. Kumar and S.L.Gupta : Handbook of Electronics
2. J. Millman and C.C.Halkias : Electronic Devices and
Circuits
Reference Books:
1. Allen Mottershead : Electronic Devices and Circuits
: Industrial Electronics.
: Electronic Test Equipment
: Basic Electronics
: Electronic Instrumentation and Measurement Technique
: Basic Electronics & Devices
2. G.K. Mithal
3. L. Klein
4. Faruqui & Maskara
5. W.D. Cooper
6. M. Cirovic
APE202 Operating System and Programming with C / C++ and
Java
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
4 credits, Examination Time: 4 hours
Section-A
1. Principles of Operating System: History of the operating
system, Operating system concepts, Operating system structure,
Introduction to process, Process scheduling, Memory management,
File system, Input/output and an
introduction to distributed operating system.
2. Hardware: Organization and architecture of PC, Motherboards
and microprocessor, Memory Unit, Primary and Secondary memory, I/O
devices, peripheral devices, BIOS, AT/XT, ISA, PCI bus
architecture.
3. C Programming Fundamentals: Constants, Variables, Keywords,
Data types, C instructions, Hierarchy of operations, Programming
structure of C.
4. Decision Making and Looping: If statements, If -else
statements, Else if statements, Nesting; While loop, For loop,
Nesting of loop, The odd loops, Break & Continue statements,
Do-while loop, Case control structure.
Section-B
5. Arrays & Functions: One dimensional array, Two
dimensional array; Array initialization, C function and its
structure, Passing values between functions, Scope rules of
function, Nesting and recursion of function, Call by
value and Call by reference, Passing array elements to a
function.
6. String Operation: Strings, Declaring and initializing string
variables, String I/O operations, Standard library string
functions, Two dimensional array of characters, Array of pointers
to string and its limitations, Concept of C
preprocessors, Structure need for structure, Declaring structure
type, Array of structure, Array within structure,
Structure within structure, Structure and functions, Structure
I/O in C: Type of I/O; Console I/O, Disk I/O, File
opening and closing, I/O redirection in DOS.
7. Pointers: Introductions to pointers, Pointer notations, Array
and pointers, Function and pointers, Linked list and dynamic memory
allocation.
8. Concepts of LOOP: Traditional structured programming, Object
oriented programming, C++ terminology; Encapsulation, Class
hierarchy, Constructor & destructor, Operator overloading,
Function overloading, Inheritance,
Virtual function & polymorphism, C++ I/O function.
9. Java Books Recommended:
Text Books:
1. H. L Capron & K. Williams : Computer & Data
Processing, The Benjamin Cumings Pub.86
2. BarryShore : Introduction to Computer Information Systems
3. Kerningham & Ritiche : Programming in C/C++
4. H. Schield : C/C++ The complete reference
Reference Books:
1. Charles S. Parker : Computer and their Applications
2. R.M. Stair : Principles of Data Processing
APE210 Electrical Machine Systems and Filter
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section A
1. Transformers: Transformer principles, Different types of
transformer, Equivalent circuit of transformer, Tests of
transformer, Voltage regulation, Efficiency of transformer.
2. DC generators: Working principles of generator, Different
types of DC generators, General voltage equation and Commutation
process, Characteristics & Applications of DC generators.
3. DC Motors: Operating differences between motors and
generators, Classification of DC Motors, DC motors characteristics,
Speed regulation, Uses of DC motors.
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Page 13 of 29
4. Alternators: Alternator construction, Rotor speed and
frequency, Armature windings, Different winding factors, EMF
generation, Alternator on load, Voltage regulation, Parallel
operation of alternators, Maximum power output.
Section B
5. AC Motors: Single and poly phase motor, Synchronous motors,
Operation characteristics of motors, Applications of motors, Other
type of AC motors.
6. Impedance Transformation and Coupled Circuits: Transformation
of impedance, Image impedance, Equivalent T network for
magnetically coupled circuits, Bandwidth of insufficiently coupled
circuits, Effect of over coupling,
Selectivity curves.
7. AC Power Transmission and Distribution: General layout of the
system, Power system and system networks, Systems of distribution,
Effect of voltage on transmission efficiency, Constants of
transmission line, Reactance of
single and three-phase lines, Corona.
8. Filters: Properties of symmetrical networks, Characteristics
impedance, Filter fundamentals, Different types of filters,
Constant - K and m - derived filters, Design conditions & uses,
Active Filters.
Books Recommended:
Text Books:
1. B.L. Theraja : Electrical Technology.
2. E. Huges : Electrical Technology
3. J. D. Ryder : Networks, Lines and Fields.
Reference Books:
1. H. Cotton : Advanced Electrical Technology
2. J.A. Edminister : Electric circuit
APE211
100 Marks [60% Practical, 30% Quizzes/Viva-voce, 10%
Attendance]
3 Credit, 39 Conduct hours
Lab. (Experiments on the courses APE200, APE202)
MAT206 Matrices and Differential Equations
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Algebra of Matrices: Adjoint, Inverse and rank of
matrix-definition, Properties and evaluation. 2. Elementary
Transformations: Echelon: Canonical and normal forms, Solution of
system of linear equations,
Consistency and solution of homogeneous and nonhomogeneous
systems by matrix method, and reduction to
equivalent system.
3. Characteristic Equation: Eigenvalues, Eigenvectors and
Caley-Hamilton theorem, Similar matrices and diagonalization.
Section-B
4. Solutions of first order and first degree and first-order and
higher degree equations with variable coefficients.
5. Solution of Higher-Order linear differential equations.
6. Differential Equations: Series solution of linear
differential equation, Series solution of second order equation
with
variable coefficients, Solutions of partial differential
equation, Lap laces equation, Poisson's equation, Helmholtz's
equation, Diffusion equation, Green's function solution,
Integral equation.
Books Recommended:
Text Books:
1. M.L. Khanna : Matrices
2 .S.L. Ross : Introduction of Ordinary Differential
Equations
Reference Books:
1 F. Ayres : Theory and problems of Matrices.
2. Moduffe : Theory of Matrices
3. F. Ayres : Differential Equations
4. B.D. Sharma : Differential Equations
5. L. Pipes : Applied Mathematics For Engineers and
Physicist
6. I.S. Sokolnikoff & R.M. Redheffer : Mathematics For
Physics and Modern Physics
-
Page 14 of 29
AIS208 Industrial Management & Accountancy
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
2 credits, 3 periods/week, Lectures: 33, Examination Time: 3
hours
Section-A
1. Industry: Types of Industry, Commerce Hindrance removed by
Commerce, Business Environment. 2. Sole Proprietorships: Features,
Advantages, Disadvantages of Sole Proprietorship, Sustainability of
Sole
proprietorships.
3. Partnership: Features, Advantages, Disadvantages, the
Partnership Contract. 4. Joint Stock Company: Characteristics,
Advantages, Disadvantages, Types, Comparison between Public and
Private Ltd Company and Formation of company.
5. Fundamentals of Management: What is management? Management
Function, Levels of Management, Management roles, Core Management
skills, Principles of Management.
6. Organizing the Business: Formal and Informal Organization,
Centralisation and Decentralization, Principles of Organizing,
Functional Structure, Product Structure, Terrestrial Structure,
Matrix Structure, Multiple Structure.
Section-B
7. Accountings: History, Scope and Nature of Accounting,
Information and Uses 8. Transaction: Meaning and Features, Double
entry System, Characteristics, Account Meaning, Classification,
Rules for Determining Debit and Credit, Accounting. Equation,
Accounting cycle.
9. Journal: Meaning, Features, Necessity, Types, Practical
Problems. 10. Ledger: Definition, Advantages, Classification,
Rules, Practical Problems. 11. Cash book: Features, Advantages,
Double and Triple Column Cash Book, Discount. 12. Trial Balance:
Meaning, Characteristics, Objects, Practical problems,Preparation
of Financial Statements. 13. Income Tax: Practices, Income Tax
Law.
Books Recommended:
Text Books:
1. M.C. Shukla : Business organization and management
2. Harold Koontz and Heinz Weihrich : Management
3. Weygandt, Kimmel and Kieso : Accounting Principles
4. Basu and Das : Practice in Accountancy
5. A.M. Mahmudur Rahman : Law and Practice of Income Tax in
Bangladesh
Reference Books:
1. Khan and Arif : Essential of Business Organization and
Management
2. May and Baker : Introduction to Business
3. W.H. Newman : Administrative Action
4. Ricky W. Griffin : Management
5. Hermanson and Associates : Accounting Principles
6. Acquilano, Chase and Davis : Fundamental of Operations
Management
APE209 Viva voce
1 Credit
Second Year: Second Semester (Exam 2016)
APE250 Digital Electronics
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Boolean Algebra and Electronic Logic Circuits: Boolean
algebra, Postulates of Boolean algebra, Boolean theorem, Number
Systems, Positive and negative number, 1's complement addition and
1's complement subtraction, 2's
complement addition and subtraction, Positive and negative BCD
numbers, Logic gates, Electronic logic gates
applications, Logic family (DTL, RTL, TTL, ECL, MOS ).
2. Minimization of Boolean Functions: Forms of Boolean
functions, Shannon's theorem, Minimization of Boolean functions
using Karnaugh map, Quine Mclusky method, Iterative consensus
method, Implementation of switching
functions (Using various gates: NOR, NAND, AND - OR-
INVERT).
3. Combinational Logic Circuits: Half adder, Full adder, CLA,
Encoder, Decoder, Multiplexer, Demultiplexer. 4. Introduction to
Sequential Logic Circuits: Difference between combinational
circuits and sequential circuits, Flip-
flops, Shift registers, Programmable Logic Array (PLA).
Section-B
-
Page 15 of 29
5. Analysis and Synthesis of Sequential Circuits: Basic models
of sequential machines, Equivalence and minimization,
Analysis and synthesis of synchronous and asynchronous
sequential circuits, Shift operation, Binary multiplication,
Binary multiplier, and Binary division, Various types of
Register.
6. Design of Sequential Circuits: Sequential machine flow chart,
Reading reduced - Dimension maps, Output- function
synthesis, Next-state-Function synthesis, State assignment,
Counter design problems, Different types of counter.
7. Memories: Semiconductor memories, Magnetic core memories.
8. Digital Instrumentation: Digital to Analog converters, Analog
to Digital converters, Digital voltmeter, Frequency
meter, Phase meter, and Digital display.
Books Recommended:
Text Books:
1. R. J. Tocci & N. S. Widmer : Digital Systems: Principles
& Applications
2. Morris Mano : Digital Logic and Computer Design
3.V. K. Jain : Switching Theory & Digital Electronics
Reference books:
1. S. C. Lee : Digital Circuit & Logic Design
2. R. P. Jain : Modern Digital Electronics
APE252 Pulse and Switching Circuits
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section A
1. Linear Wave Shaping: The high-pass and low pass RC circuits
(Sinusoidal, Step-voltage, Pulse, Square-wave, Exponential and ramp
inputs), High-pass RC circuit as a differentiator, Low-pass RC
circuit as an integrator,
Attenuator, RL circuits, RLC circuits, Ringing circuits.
2. Pulse Transformer: Pulse transformer applications,
Transformer models, Complete equivalent circuit, Rise-time response
of a transformer, The flat top of the pulse, Complete pulse
response.
3. Circuits for Generating Linear Voltage Sweeps: Simple RC
integrator, Linear sweep generators using current source, The
miller integrator, Improved miller integrator, The bootstrap sweep
generator, A practical bootstrap circuit.
4. Blocking - Oscillator Circuits: A triggered transistor
blocking oscillator (base timing and emitter-timing), An astable
transistor blocking oscillator (Diode-controlled and
RC-controlled), Application of blocking oscillator.
Section B
5. Negative-Resistance Device & Switching circuits: Negative
-resistance and trigger devices, Tunnel diode, SCR, UJT, DIAC and
TRIAC General characteristics of negative resistance devices, Types
of negative-resistance devices, Two
terminal and three terminal negative-resistance devices (NRD), A
tunnel-diode Astable oscillator, A unijunction
oscillator and SCR power control. A simple TRIAC full wave ac
controller.
6. Synchronization and Frequency Division: Pulse synchronization
of relaxation devices; Frequency division in sweep circuit,
Synchronization of blocking oscillator (stable) and
astablemultivibrator, Monostable relaxation circuit as
divider, Stability of relaxation dividers, Synchronization of a
sweep circuit with symmetrical signal; Sine wave
frequency division with sweep circuit, Sine wave synchronization
with sine wave astable multivibrator, Sinusoidal
divider using regeneration and modulation, The locked oscillator
as a divider, Synchronization of a sinusoidal oscillator
with pulses.
7. Induction and Dielectric Heating: Principles and theory of
induction heating; Applications of induction heating, Principle of
dielectric heating, Electrodes in dielectric heating, Uses,
Welding.
8. Electronic Control of Motors and Generators: Automatic speed
regulation, Controls of DC and AC motors, Synchronous motor
control.
Books Recommended:
Text Books:
1. Jacob Millman and Herbert Taub : Pulse, digital and switching
waveforms
Reference Books:
1. G.K. Mithal and A.K. Vanwasi : Pulse and digital
electronics
2. J.M. Pettit and M.M.McWhorter : Electronic switching timing
and pulse circuits
3. :
APE260 Instrumentation and Acoustic Engineering
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
2 credits, Examination Time: 3 hours
Section-A
1. Instrument Classification & Characteristics: Instrument
classification, Standards, Static Characteristics of
Instruments, Dynamic Characteristics of Instruments,
Calibration, Choice of Instruments. Measurement system
errors: Introduction, Systemic errors, Random errors, Total
measurement of system errors.
2. Instrument Calibration: Introduction, Process instrument
calibration, Standards laboratories, Validation of
standards laboratories, primary reference standards, trace
ability, Documentation un the work place.
-
Page 16 of 29
3. Instrumentation and measurements: Significance and methods of
measurements, direct and indirect method,
and standard Types of Instruments.
4. Transducers: Active and passive type, application realms of
transducer Analog Voltmeters: RMS and quasi-
responding voltmeters. Average responding voltmeters, Amplifier
driven type, D'Arsonvel types, Direct compile
type, chopper type, Potentiometric type, Accuracy and error of
analog Voltmeters.
5. Analog Ammeters: Different types of ammeters, Accuracy and
error of analog ammeters. Digital voltmeters: Stair-
case ramp type, Successive approximation type, Integrating type,
Dual slope inte-grating type, Delta pulse
modulation type.
Section-B
6. Oscilloscopes: Single beam, Dual beam, Sampling, and storage
types, Conversion of single beam to multi
beam oscilloscope. Oscilloscope measurements Digital signal
measurement, FFT measurement, Basic time
domain reflectometry.
7. Signal generators: Sine wave sources , Imperfection in sine
wave sources Frequency accuracy, frequency stability,
Amplitude accuracy, Distortion, Spurious responses, Close-in
sidebands Sweep frequency generators,
Function generators, Pulse generators, RF Signal generators,
Frequency synthesizer.
7. Analyzers: Wave analyzer, Spectrum analyzer: Bank of filters
spectrum Analyzers, FFT spectrum Analyzers, Swept
spectrum Analyzers, Network analyzers, Distortion Analyzers, RF
power measurement, RF power meter.
8. Analytical instruments: pH meter, Thermal conductivity
meters, Gas chromatography, Spectrophotometers and
Mass Spectrophotometers.
9. Grounding and Cabling Techniques: Noise, methods of noise
coupling and eliminating interference, shielding of
conductor, capacitive coupling, effect of shield on capacitive
coupling, inductive coupling, magnetic coupling,
shielding to prevent magnetic radiation, shielding a receiver
against magnetic field, and grounding.
10. Acoustic Instruments and Architectural Acoustic Design:
Microphones, Loud speaker, Architectural elements,
Measurement of reverberation time and its correction,
Reverberation theory and Optimum reverberation in auditorium,
Absorption of sound.
Reference Books:
1. Instrumentation Measurements :Ajut Feedbu, ti. B.E.
Jones.
2. Electronic Instrumentation and Heasttrem.'n; Techniques :
W.D. Copper,
3. Instrumentation Technology : B.B. Jones, Butterworths.
4. Elements of Electronic Instrumentation & Measurements :
Joseph J. Carr.
5. B.C. Nakra& K.K. Choudhury : Instrumentation Measurement
and Analysis
6. A.K. Sawhney : Electrical and Elec. Measurement and
Instruments
7. J.L. Hunter : Applied Acoustics
8. W.D. Cooper :Electronic Instrumentation and Measurement
Technique
9. S. Wolf & R.M. Smith : Student Reference Manual
10. C.S. Rangan, G.R. Sarma,& V.S. Vmani : Instrumentation
devices and systems.
11. P. Crozier : Electronic Instrumentation and measurements
12. C.L. Arora : Waves, Vibrations and Sound
APE261
100 Marks [60% Practical, 30% Quizzes/Viva-voce, 10%
Attendance]
3 Credit, 104 Conduct hours
Lab. (Experiments on the courses APE250, APE252)
LAW254 Law and Professional Ethics
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
2 credits, Examination Time: 3 hours
Section-A
1. Law: Principle of law of contract, agency, partnership, sale
of goods negotiable instruments, insurance-
2. Company law: The companies act with special reference to the
amendments and ordinances applicable to
Bangladesh. Law regarding formation, Incorporation, Management
and winding up of companies.
3. Labor Law: The scope and sources of labor law. Law in
relation to wages, hours, health, safety and other condition
to work. The legislation effecting employment in factories. The
trade union legislation arbitration, the policy of the
state in relation to labor. Elementary principle of labor
law.
Section-B
4. History and Development of Engineering Ethics: Study of
Ethics in Engineering. Applied Ethics in engineering.
Human qualities of an engineer. Obligation of an engineer to the
clients and to other engineers. Measures to be
taken in order to improve the quality of engineering
profession.
5. Ethical Expectations: Employers and Employees
inter-professional relationship, maintaining a commitment of
Ethical standards. Desired characteristics of a professional
code. Institutionalization of Ethical conduct.
Books Recommended:
-
Page 17 of 29
Text Books:
1. A.K. Sen : A Hand Book of Commercial Law
2. A.B. Siddique : The Law of Contract
3. A.A. Khan : Labour and Industrial Law
4. Emile Durkheim : Professional Ethics and Civics Morals
5. J.D. Mabboth : An Introduction to Ethics
Reference Books:
1. A. G. Maitra : Laws of Contract
2. Coopers : Outline of Industrial Law
3. A. Zulfiquar : A Text Book on the Bangladesh Labour
Act-2006
4. P. Narayanan : Intellectual Property Law
5. The Patent and Design Act, 1911
6. A. R. Khan : Business Ethics
7. M. Radar : Ethics and the Auman Community
8. G. E. Moore : Principia Ethicia
MAT264 Mathematical Methods and Numerical Analysis
75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Special Functions: Gamma and Beta functions, Bessel's
equation, Bessel functions of first and second and third kind;
recurrence relations; Legendre's differential equations and
Legendre polynomials.
2. Hermite's differential equation, Hermite & Lagrange
polynomials; Hypergeometric function and its properties; Fourier
series and Integral; Fourier and Laplace Transform.
3. Matrix Algebra: Elementary operations of matrices; Necessity
of normalization. Zero diagonal elements and positioning of size,
matrix inversion, rank of matrix, consistency of a linear system of
equations.
4. Solutions of Simultaneous Equation: Gauss-Jordan elimination
method-Direct method; Gauss-Seidel iterative method.
Section- B
5. Polynomial Interpolation: Errors in interpolation, The
Lagrange polynomials; Lagrange's interpolation formula for
unequally spaced data.
6. Numerical Integration: Trapezoidal rules; Simpson's rule;
Romberg's formula; Legendre polynomials. 7. Solution of Partial
Differential Equations: Introduction, Examples of Partial
differential equation, the approximation
of derivatives of finite differences, Parabolic Differential,
equation, Derivation of the Elliptic Differences, Laplace
equation, Iterative Method, Successive Over-relaxation and
Alternating and Direction methods.
8. Computer program for solution of numerical methods: Programs
for Trapezoidal rules, Simpsons rule, Rombergs formula, Solution of
equation by Gauss- Jordan elimination method, Matrix inversion
method.
Books Recommended:
Text Books:
1. S.S. Sastry : Methods of numerical Analysis
2. E. Balagurusamy : Numerical Methods
3. Rajput and Prakash : Mathematical Physics
4. Kuo : Computer Application of Numerical Methods
Reference Books:
1. I.S. Sokolnikoff & R.M. Redheffer : Mathematics for
Physics and Modern Engineering
2. Jeffreys and Jeffreys : Methods of Mathematical Physics
MAT265
Laboratory (Programming with MATLAB)
1 Credit
APE263 Electrical Mechanical Workshop
100 Marks [60% Practical & Report, 30% Viva Voce, 10% Class
Attendance]
1 credit, 39 conduct Hours
Electricians tools, splices, soldering, code practices.
Electrical and electronic symbols, Safety rules, electricity
rules
and electricity codes. Electrical wiring system design drawing
and estimation for residential and commercial house
wiring and Industrial installation wiring. Transformer
Construction, Grounding, earth resistance measurement using
earth resistance tester. Battery charging.
Books Recommended:
Text Books:
-
Page 18 of 29
1. Md.Rafiqul Islam : Basic Electricity
2. :
APE259 Viva voce
Credit 1
Third Year: First Semester (Exam 2017)
APE300 Electromagnetic Theory and Antenna
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section A
1. Field Equations: Field equations based on laws of Coulomb,
Ampere and Faraday; Displacement current, Maxwell's equations,
Units and dimensions of field vectors, E-H symmetry, Lorenzs lemma,
Scalar and vector potentials, Retarded
potentials.
2. Propagation of Electromagnetic Waves: Wave equations, Plane
Wave concept, Plane electromagnetic waves in Free space,
Conducting, Dielectric and Ionized media.
3. Poynting Vector: Joule heating in good conductors, intrinsic
impedance and propagation constant. 4. Reflection and Refraction of
Electromagnetic Waves: Boundary conditions, The laws of reflection
and Snell's law of
refraction, Reflection from dielectrics and conductors,
Fresnel's equations, The Brewster angle, Total reflection, Skin
effect, Phase and group velocities, Reflection and refraction in
the ionosphere.
Section B
5. Wave Guides: Rectangular and cylindrical wave guides, Cavity
resonators, Microstrip lines and their characteristics, Microwave
hybrid circuits, Scattering parameters, Wave guide Tees,
Directional couplers,
Circulators and Isolators, Phase shifter and attenuator.
6. Transmission Lines: Transmission line equations and
parameters; Transmission line configuration and formulae,
Transmission line at radio frequency; Impedance matching; Line
termination, Smith chart, S. W. R. Q and band width,
Balanced and unbalanced feeder from transmitter to antenna,
Transmission at audio frequency; Distortion less line.
7. Antenna Fundamentals: Antenna Parameters, Dipole antenna,
Current and voltage distribution, Electrical length, Radiation
resistance & patterns, Antenna tuning and coupling, Hertz and
Marconi antenna.
8. Types of Antennas: Thin Linear Antenna, Antenna arrays;
Broadcast tower antenna, Yagi antenna, Turnstile antenna, Helical,
Rhombic, Horn antenna and their uses, Loop antenna, Parabolic,
Periodic, Parasitic and Lens antenna.
Books Recommended:
Text Books:
1. D. R. Corson and P. Lorain : Introduction to Electromagnetic
Field & waves
2. J. D. Kraus : Antennas
3. S.L.Gupta and V. Kumar : Handbook of Electronics
Reference Books:
1. J.D. Ryder : Networks, Lines and Fields.
2. A.B.BrownellandR.E.Beam : Theory and Application for
Microwave.
3. J.D. Jackson : Classical Electrodynamics.
4. G. Markov : Antennas
5. Laport : Antennas
6. J Reich : Microwave Principle
8. Y. Liao : Microwave Devices and Circuits Devices
9. J.D. Kraus : Electromagnetics
10. ,
:
APE302: Communication Engineering
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section-A
1. Spectral Analysis: Fourier Series, The Sampling Function,
Response of a Linear System, Normalized Power,
Normalized Power in a Fourier Expansion, Power Spectral Density,
The Fourier Transform, Convolution,
Parsevals Theorem, Correlation between Waveforms,
Autocorrelation.
2. Random Variables and Processes: Probability, Cumulative
distribution function, Probability Density Function,
Tchebycheffs Inequality, The Gaussian Probability Density, The
Error Function, The Rayleigh Probability Density,
Correlation between random variables, the central-limitTheorem,
Random Processes, Autocorrelation, Power
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Spectral Density of a Sequence of Random Pulses, Power Spectral
Density of Digital Data, Effect of rudimentary
filters of digital data, the complimentary error function.
3. Mathematical Representation of Noise: Some sources of noise,
a frequency-domain representation of noise, spectral
components of noise, response of a narrowband filter to noise,
effect of a filter on the power spectral density of
noise, superposition of noises, mixing involving noise, linear
filtering, noise bandwidth, quadrate components of
noise, power spectral density of nc(t) and ns(t), Probability
density of nc(t) ,ns(t) and their time derivatives.
4. Information theory: Discrete message, the concept of amount
of information, average information, Entropy,
Information rate, coding to increase average information per
bit, shannons theorem, channel capacity, capacity of a
Gaussian channel, bandwidth-S/N tradeoff, use of orthogonal
signals to attain Shannons limit, efficiency of
orthogonal signal transmission
Section-B
5. Communication System and Noise Calculations: Resistor noise,
multiple resistor noise sources, networks with
reactive elements, an example, available power, noise
temperature, two ports, noise bandwidth, effective input-noise
temperature, noise figure, noise figure and equivalent noise
temperature of a cascade, an example of a receiving
system, antennas, system calculation.
6. Introduction to electronic communication: Importance of
communications in these days of computer emphasis,
Elements & types of communications systems, General
applications, The electromagnetic spectrum, Bandwidth.
7. Amplitude Modulation and Amplitude Modulation Circuits:
Amplitude modulation principles, Modulation index
& percentage of modulation, Sidebands, Bandwidth and the
frequency domain, Power distribution along spectrum,
Single-Sideband (SSB), Frequency conversion AM
modulators/demodulator, Balanced modulators, SSB circuits,
Mixers & Converters.
8. Frequency Modulation (FM) and Frequency Modulation Circuits:
FM principles, Phase Modulation,
Sidebands/Bandwidth, Modulation index (FM), FM vs AM, comparison
of characteristics, Frequency Modulators,
Phase-locked-loop, frequency synthesis with crystal oscillator,
Phase modulators, Frequency demodulator.
Reference Books:
1. Principles of Communication Systems : Herbert Taub &
Donald L. Schilling, McGraw-Hill Book Company
APE310 Basic Solid State Physics
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section A
1. Crystal structure: Concept of Solid, Unit cell, Bravis
lattice, Miller Indices, Classification of crystals, Some simple
crystal structure.
2. Elementary Diffraction Theory: Braggs law, Laue equations,
Atomic scattering and structure factor, Determination of unit cell,
Powder diffraction, Scanning Electron Microscope (SEM), Diffraction
and transmission microscope,
Neutron diffraction.
3. Crystal Binding: Types of bonding, Crystal of inert gases,
Vander Waals-London interaction, Repulsive interaction, Cohesive
energy, Ionic crystal, Electrostatic energy, Evaluation of Madelung
constant, Covalent crystal, Metal crystal,
Hydrogen bonded crystal, Surface binding energy.
4. Crystal Growth: Semiconducting materials - Group IV, III-V
and II - VI compounds, Preparation of high purity semiconductor
materials, Zone melting and other purification techniques, Growth
from the melt.
Section B
5. Electrical Conduction in Metals: Electrons in field free
crystal, Electron gas approximation, Boltzmann transport equation,
Mean free path, Temperature dependence of resistivity;
Matthiessen's rule; Structural dependence of
resistivity.
6. Conduction in Semiconductor: Semiconductors, Band model of
semiconductor, Intrinsic semiconductor, Extrinsic semiconductors,
Drift mobility, Diffusion constant, Minority carrier life time,
Hall effect, Metal-semiconductor
Conducts.
7. Super Conductivity: Books Recommended:
Text Books:
1. C. Kittel : Introduction to Solid State Physics
2. J.C. Anderson, K. D. Leaver, J.M. Alexander and R. D.
Rawlings : Materials Science
3. J. Mckelvy : Solid State & Semiconductors Physics
Reference Books:
1. L.J.Azaroff and J.J. Brophy : Electronic Process in
Materials
2. A.J. Dekker : Solid State Physics
3. L.H.Van Vlack : Elements of Materials Science and
Engineers
4. M.A. Wahab : Solid state Physics
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Page 20 of 29
5. C.M. Kachava : Solid State Physics
6. C.A. Wert and & R.M. Thomson : Physics of Solids
7. , :
APE312 Renewable Energy Technology
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 3 hours
Section A
1. Instruments: Radiation characteristics of materials:
Absorptance, Emittance, Reflectance and Selective Surfaces,
Modes of heat transfer.
2. Solar Collectors: Flat plate collectors, Concentrating
collectors, Solar distillation, Solar energy systems for
process
heating, Solar Thermal Power generation and Solar refrigeration,
Solar thermal system optimization and performance
study, Solar thermal modeling.
3. Solar Photovoltaic Energy Conversion: Solar cell fundamental,
Basic principle, Types of solar cells, P-N junction
as photovoltaic cell, Heterojunction, Schottky barrier junction,
Fabrication of solar cell, Effect of environment on
solar cells, (effect of irradiance once, and effect of
temperature), Effect of shading, Thin film solar cell, Multiple
sun
solar cells, Fabrication of photovoltaic modules and panels,
Dimension of cells, Packing efficiency of cells in
modules, Characterization of cells and modules, Organic and
polymer matrix for the fabrication of solar cell,
Nanostructure Solar cell.
4. Power Conditioning of Photovoltaic System: Batteries, Battery
charge controllers. Inverters, Maximum power
point trackers (MPPT).
5. Different types of PV system: Stand-alone PV system. Grid
-interconnection PV system and Hybrid system, Design
of PV system, Stand alone PV system sizing.
6. Other Non-conventional Energy Options: Wind, Geothermal,
OTEC, Wave energy, Biomass, MHD,
Chemical energy, Fuel cell, Nuclear fusion.
7. Energy Auditing and Energy Efficiency:
Reference Books :
1. Solar Engineering of Thermal Processor, Duffie.
2. Applied solar energy an Introduction, A.B. Bienet.
3. Review of Renewable Energy Resources, M.S. Soda, S.S. Mather,
M.A.S. Malik
4. Physics of Solar cells: From Principles to New Concepts,
Peter Wurfel, Wiley-VCH Verlag GmbH & Co. Germany.
5. Martin Green.
APE320: Optical Fiber Communication
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section - A
1. Introduction: Optical fibers; Structure, Step-index and
graded-index fibers, Modes of propagation, modal
theory for circular waveguide, Modal equations, Waveguide
equations, Power flow in optical fibers, Signal
degradation in optical fibers, Fiber attenuation, Distortion in
optical guides, Dispersions, Mode coupling.
2. Optical Sources and Detectors: Light emitting diode (LED) and
semiconductor laser diode (SLD), Structures,
Modulation capability, Transient response, Power bandwidth
product, Modal noise, Temperature Effects and reliability;
p-i-n and avalanche photo detectors, Structures, Principles of
operations.
Section-B
3. Optical modulation and detection schemes, Direct and coherent
detection receivers: configuration, operation, noise
sources, sensitivity calculation, performance curves, Optical
Amplifiers, Design of analog and digital receivers.
4. Wavelength Division Multiplexing (WDM), Dense Wavelength
Division Multiplexing (DWDM) and Optical
frequency division multiplexing (OFDM) transmission schemes.
5. Optical data coding, links, power budget. Optical data buses,
optical networks, Fiber Distributed Data Interface
(FDDI) and Synchronous Optical Network (SONET)/SDH.
Reference Books:
1. Optical Fiber Communications, Principles and Practice (2nd
edition), John M. Senior.
2. Fiber-Optic Communications Technology, Djafar K Maenbaev.
APE331 Electronic Workshop
100 Marks[60% Practical & Report, 30% Viva Voce, 10% Class
Attendance]
1 credit, 39 Conduct Hours
Introduction to formal procedures of preventive maintenance,
Circuit tracing, Troubleshooting fault repairing,
Soldering and de-soldering of electronic circuits, Design of PCB
layout, Etching.
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Page 21 of 29
Fault finding & servicing: Radio & TV, CD/VCD player,
Mobile phone, Computer, etc.
Books Recommended:
Text Books:
1. Keith Mobley, Lindley Higgins & Darrin Wikoff :
Maintenance Engineering Handbook
2. Tim Williams : The Circuit Designers Companion (2nd Ed.)
Reference Books:
1. Marcus & Levy : Elements of Radio Servicing
2. Mark I. Montrose : A Handbook for Designers
APE321
100 Marks [60% Practical, 30% Quizzes/Viva-voce, 10%
Attendance]
4 Credit, 130 Conduct hours
Laboratory (Experiments on the courses APE300, APE302, APE310
and APE312)
APE319
Viva voce, 1 Credit
Third Year: Second Semester (Examination 2017)
APE350 IC Fabrication and VLSI Technology
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section A
1. Manufacturing Wafers: Semiconductor Silicon Preparation,
Crystalline materials, Crystal orientation, Crystal
growth, Crystal and wafer quality, Wafer preparation, Wafer
slicing, Wafer making, Rough polishing, Chemical
mechanical polishing (CMP), Backside processing, Double-sided
processing, Double-sided polishing, Edge
grinding and polishing, Wafer evaluation, Oxidation, Epitaxial
layer on silicon wafer.
2. Oxidation and Basic Patterning: Silicon dioxide layer uses,
Thermal oxidation mechanism, Thermal oxidation
methods, Rapid thermal processing (RTP), High-pressure
oxidation, Oxidation processes, Postoxidation evaluation,
Anodic oxidation, Thermal nitridation. Overview of the
photomasking process, Ten step process, Basic photoresisit
chemistry, Comparison of positive and negative resists,
Photomasking process, Surface preparation, Photoresist
spinning, Soft bake.
3. Doping and Deposition: Definition of a junction, Formation of
doped region, Formation of doped region and
junction by diffusion, Diffusion process steps, Deposition,
Drive-in-oxidation, Introduction to ion implantation,
Concept of ion implantation, Ion implantation system. Chemical
vapor deposition, CVD process steps, CVD
system types, Atmospheric pressure CVD systems, LPCVD, PECVD,
VPE, MBE, MOCVD, Deposited films,
Deposited semiconductors, Epitaxial silicon, Polysilicon and
Amorphous silicon deposition, SOS and SOI,
Insulators, Dielectrics and Conductors.
4. Metallization and Packaging: Conductors-single level
metallization, Conductors-multilevel metal schemes,
Conductors, Metal film uses, Deposition methods, Vacuum pumps.
Chip characteristics, Package functions and
design, Overview of packaging operations, Packaging processes,
Package process folows, Package/bare die
strategies, Package design.
Section B
5. VLSI Technology: Introduction to CMOS Logic, The
Complementary CMOS Inverter DC Characteristics,
6. Basic CMOS Technology : Basic Long-channel device Behaviors,
The Basic 3-micron technology, Device
Scaling, Latchup, A basic n-well CMOS Process, The p-well
Process, Twin Tub Process, Silicon on Insulator, Layout
Design Rules, CMOS n-well Rules, Layer Assignments, SOI Rules,
CMOS Logic Gate Design, Typical CMOS
NAND and NOR Delays, Transistor Sizing, CMOS testing,
Manufacturing test Principles, Design Strategy for
Test, Chip-level test techniques, System-Level Test techniques,
Fabrication of IC, PIC and OEIC, Process
Integration : Bipolar IC, MOS, NMOS and CMOS Technology.
7. Manufacturing of Integrated Circuits: Management of IC
Fabrication House, Economic aspects of fabrication
industry, Yield Prediction and Yield Tracking, Yield Measurement
Points, Accumulative Wafer-Fabrication yield,
Mechanism of Yield Loss in VLSI, Assembly, Modeling of Yield
Loss, Reliability Requirement of for VLSI,
Failure Distribution and rates, Final Test yield, Scaling and
limits to miniaturization, speed-power product, Wafer
Fabrication Costs, Factory-level Automation, Statistical Process
Control, Inventory and Quality Control, ISO 9000
Certification, Line Organization.
Reference Books:
1. The Science and Engineering of Microelectronic Fabrication,
Stephen A. Campbell, Oxford University Press, 2001.
2. Fabrication Engineering at Micro and nano Scale, Stephen A.
Campbell, Oxford University Press, 2007.
3. Quirk and Serda,
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Page 22 of 29
4. Microchip Fabrication: A Practical Guide to Semiconductor
Processing, Peter Van Zant, McGraw Hill,
5. VLSI Technology, SM Sze, McGraw Hill.
6. VLSI fabrication Principles: Silicon and Gallium Arsenide,
Sorab K Gandhi, A Wiley Interscience Publication
John Wiley and Sons, Inc.
7. Integrated Circuit Fabrication Technology, David J
Elliott.
8. Gallium Arsenide Processing Technique, R.E. Williams.
9. Metal Semiconductor Contacts, E.H. Rhoderick and R.H.
Williams.
10. VLSI Handbook, Einspruch, N.J., McGraw Hill.
11. Silicon Processing. for VLSI era, Wolf & Touber.
12. Principles of CMOS Technology: A Systems Perspective, Neil H
E Weste and Kamran Eshraghian, Pearson
Education (Singapore) Pte Limited.
13. The Growth of Crystal for the Melt, I C Brice.
14. Stringfellow, MOVPE Growth.
APE352 Radio and TV Engineering
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section A
1. Propagation of Radio Wave: Surface & space wave
propagation, Sky wave through ionosphere, Theory of Eccles and
Larmer, Pulse method for measuring height and electron
concentration of ionospheric region, Chapman theory of layer
formation, Ionospheric storm, Frequency spectrum.
2. Broadcasting Transmitter: Different types of transmitter by
power & waves, Elements of transmitter stabilized master
oscillator, Frequency multipliers, Mixer exciters, R.F. power
amplifier, AM & FM transmitter, Transmitter
performance, Carrier frequency stability, Audio frequency
response. Distortion. Signal to distortion ratio.
3. Radio Receiver: Receiver classification, T. R. F. and
heterodyne receiver, Principle of AM receiver, Superheterodyne
receiver, AM demodulators, Reception and preselection, FM receiver,
FM reception, AFC circuit, Limiters, Ratio
detectors, Foster-Seely detector, Comparison of AM and FM
receiver, Noise in receiver, Noise limiting circuits. AGC
circuits, Receiver sensitivity, Cross modulation, Spurious
response converters, Detector and modulation circuits. Radio
receiver servicing, Servicing transistor receiver, Receiver
trouble shootings.
4. Standard Broadcast Stations: Components of a broadcast
system, The broadcast console, Audio levels, Frequency monitoring,
Modulation monitors, Emergency broadcast systems, Disk recording,
Playback records,
Microwave relay system, Cable relay system, Satellite relay
system, Broadcasting studio properties & design.
Section B
5. Fundamentals of TV: Transmission and reception of picture
information, Scanning, Standard scanning pattern, Synchronization,
Blanking pulses, Composite video signal, Vestigial sideband
transmission, Line of sight transmission,
TV channels.
6. TV Camera: Storage type camera tubes: Non-storage type camera
tubes; Iconoscope; Image orthicon, Vidicon, Plumbicon, CCD and CMOS
camera, Colour TV camera.
7. TV Transmitter & Receiver: Fundamentals of TV receiver,
Picture tubes, Deflection circuit, High voltage power supply,
Folded dipole with directors and reflectors for TV receiver, TV
Transmitter and TV studio design, HDTV.
8. Colour TV: Definition of Colour TV, Types of colour video
signals, Matrix circuits, Colourplexed composite video
signal, Fundamentals of colour TV receiver, Colour picture tube,
LCD and other flat panel TV receivers.
Books Recommended:
Text Books:
1.A.G. Mithal : Radio & TV Engineering
2. Robert L. Shrader : Electronic Commuication
3. R.R. Gulati : Monochrome & Color Television
4. Marcelo S. Alencar : Digital Television Systems
Reference Books:
1. S.L. Gupta and V.Kumar : Hand book of Electronics
2. Ghirardi and Johnson : Radio TV Rreceiver Circuitry and
Operation
3. K.R. Sturlen : Radio Receiver Design: Vol. 1 & II
4. K.R. Sturlen : Radio Transmitter and Receiver Design
5. Keith Henry : Radio Engineering Handbook
6. J.S. Millman and H. Taub : Pulse Digital and Switching
Waveforms
7. B. Grob : Basic TV
8. A. Schure : Basic TV
9. Fowler and Liport : Television Fundamentals
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Page 23 of 29
APE360: Materials Science and Engineering
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section - A 1. Introduction to materials. Metal and alloys,
Ceramics, Polymers and semi conducting materials-introduction
and
application as engineering materials.
2. Defects in solids. Point, line and surface defects. Diffusion
in solids.
3. Phase diagrams. Mono-component and binary systems,
non-equilibrium system, phase diagram and. application in
crystalline and non-crystalline solids.
4. Mechanical properties. Tensile strength, Yield strength,
elastic and viscoelastic properties, Creep, Stress
Relaxation and impact, Fracture behaviour. Ductile fracture,
Griffith theory, Effect of heat treatment and
temperature on properties of metals.
5. Deformation of metals. Elastic and plastic deformation, Slip,
Twin, Dislocation theory, Critical resolved shear
stress, Deformation in polycrystalline materials; Season
cracking, Bachinger's effect, Strengthening mechanics;
Work hardening recovery, Crystallization and grain growth, Cold
and hot working.
Section - B
6. Heat treatment. Iron-carbon system. Annealing, normalizing,
hardening, Critical cooling rate, Hardenability, age
hardening, surface hardening, tempering.
7. Thermal properties. High temperature materials, Materials for
cryogenic application, Thermally insulating
materials. (Specific heat, thermal conductivity, thermal
expansion).
8. Ceramic materials and polymers. Silicon structures,
Polymerism. In glass, Electrical properties of ceramic phases,
Rocks, Building stones, Refractories.
9. Polymerization mechanism: Structural properties of polymer,
Thermoplastics, Thermosets, Elastomer, Resins,
Composites, Particles and fiber reinforced composite, Composite
material including nano material.
10. Electronic properties. Magnetism, diamagnetism, Para
magnetism, Ferromagnetism, Magnetic energy, Zone
theory of solids, Zones in conductors and insulators.
Text Books:
1. Materials Science end Engineering; An Introduction W. D.
Callister, D. G. Rethwisch, 8th Edition; John Wiley and
Sons, NY,(ISBN: 978-0-470-41997-7)
Reference. Books:
1. Foundations of Materials Science and Engineering; 3rd Ed.
McGraw-Hill 2004
APE362: Telecommunication Engineering
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section A
1. Introduction: Basic concept of electricity for communication,
Electrical Signals, Transmission of electrical
signals wire pair, co-axial cable, optical fiber cable, radio
transmission; Voice and data transmission,
Impairments to voice transmission amplitude distortion, phase
distortion, noise; Simple telephone
communication, Subscribers line circuit, two-wire and four-wire
transmission, Basic switching system,
Conventional analog switching, Types of electromechanical
switches Strowger and Crossbar switch.
2. Pulse and digital signals: Pulse Amplitude Modulation (PAM),
Pulse code modulation (PCM), Delta
modulation (DM), Adaptive delta modulation (ADM), Delta-Sigma
Modulation, Differential PCM (DPCM),
Adaptive DPCM (ADPCM). Digitization of Voice; Multiplexing
techniques- TDM and FDM; Digital signal
hierarchies in telephone systems DS0, DS1, DS3, E1, E2, E3,
etc.
3. Signal Switching: Stored program control, Centralized SPC,
Distributed SPC, Software architecture,
Application software, Enhanced services, Two-stage network,
Three-stage network, n-stage network.
Concepts of TDM, Basic time division space switching, Basic time
division time switching, Time multiplexed space
switching, Time-multiplexed time switching, Combination
switching, Three-stage combination switching, n-
stage combination switching.
Section B
4. Switching Systems: Principles of common control, touch tone
dial telephone, Crosspoint technology, No. 1 ESS,
Japanese D-10, Metaconta.
5. Telephone Networks: Subscriber loop systems, Switching
hierarchy and routing, Transmission plan,
Transmission systems, Numbering plan, Charging plan, Signaling
techniques, Inchannel signaling, Common
channel signaling, Digital loop carrier versions of DSL.
6. Integrated Services Digital Network: Motivation for ISDN, New
services, Network and protocol architecture,
Transmission channels, User-network interfaces, Signaling,
Numbering and addressing, Service characterization,
Inter working, ISDN standards, Expert Systems in ISDN, Broadband
ISDN, Voice data integration. CCITT
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Page 24 of 29
Signaling System No. 7 (SS7): Overview of SS 7 architecture,
Relationship to OSI, Layer 1, 2 and 3; Signaling
network structure, Signaling performance, Numbering plan,
Signaling connection control part (SCCP), User
part.
Recommended Books:
1. Advanced Electronics communication systems Wayne Tomasi
2. Telecommunication Switching Principles, M.T. Hills
3. Telecommunication Switching Systems and Networks, T.
Viswanathan
4. Fundamentals of Telecommunications, Roger L Freeman.
APE370: Microprocessor, Microcontroller and Computer
Peripherals
100 Marks [70% Exam, 20% Quizzes/Class Tests, 10%
Attendance]
3 credits, Examination Time: 4 hours
Section - A
1. Microprocessors: Evaluation of Microprocessors, register and
accumulator based microprocessor, Microprocessor
as the CPU of microcomputers, Introduction to the Intel family
of microprocessors, General Purpose and single chip
microprocessors, Bit slice microprocessor.
2. 8086 Microprocessor: Internal organization of 8086
microprocessor, Machine cycle, Instruction execution and user
accessible registers of 8086,