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AS101
Applied Maths – I 4
2 4
Matrices – Adjoint of a matrix, Inverse of matrix, Solving homogeneous &
non-homogeneous equations, Matrices – Linear dependence and independence of
rows and column matrix, derogetory and non-derogetory matrices, Eigne values and
Eigen vectors, Differential
Equation of 1sr order 1st degree & application, Differential
Equation of higher order & application,
Differential Calculus, Successive differentiation,
Mean value theorem, Complex Numbers – Cartesian, Polar & Exponential form,
De-Moiver's theorem,
Text Book
P. N. Wartikar & J. N. Wartikar, “Elements of
Applied Mathematics”, 7th, Pune Vidyarthi Graha,1988.
B. S. Grewal, “Higher Engineering Mathematics”
.
Reference Books
Shanti Narayan,
“Differential Calculus”, Shamalal Charitable Trust, 1997.
AS102
Communication Skills
4 0 4
Communication – definition, the process, channels and media, types, barriers to communication.
Writing skills – Vocabulary building, writing
effective paragraphs, business correspondence, types of Letters.
Summarizing techniques –writing precis, reduction
of sentence length etc.
Meeting Documentation – Notices, Agendas, Minutes.
Technical report writing.
Text Book
Krishna Mohan and Banerjee, “Developing Communication Skill” McMillan India Ltd.1990.
Reference
Book
R C Sharma, “ Business Correspondence and Report
Writing” Tata Mc Graw Hill. 1991.
Sushil Bahl, “Business Communication Today”, Sage
Publication. 1996.
ET101
Electrical Engineering 4 0 4
Kirchoff's Laws; KCL, KVL and their limitations
Classification of devices of electrical circuits,
basic devices, Resistors, controlled sources, diodes, capacitors and inductors,
ideal transformers.
Basic circuit analysis methods; nodal, mesh and
modified nodal, analysis, transient analysis of RL, RC and R & C circuits.
Network Theorems; Tellegens theorem, superposition
theorem, Thevenin-Norton theorem, substitution theorem, Reciprocity theorem,
max-power transfer theorem, star-delta transformation.
Introduction to phaser diagrams, power in ac
circuits, Transformers, its types and testing, Circuits with ideal transformers.
Texts Book
K.V.V. Murthy and M. S. Kamath, “Basic Circuit
Analysis” Jaico Publishing, 1st ed., 1998.
References
W.
H. Hayt & J. E. Kemmerley “Engineering Circuit Analysis”, 4th
Ed, Int. St. McGraw Hill, 1986.
Basic Graphical Techniques, Introduction, Lettering,
Conventional lines, Standard Scales, Solid geometry:- 2D and 3D visualization
and presentation,
Standard representation of Electronic & Electrical components and
circuits like Resistors, Capacitors, Diode, Gates, transformers, flip-flop,
Centers on Drawing Sheet.
Design of Electrical, Electronic Circuit boxes, and Instrument boxes,
including front panels and its drawing.
Text Book
N.D. Bhatt, “ Engineering Drawing,
Volume 1” 30th ed Charotar Publication 1998.
GS102 Computer Skill
2 0 2
Objective:
-To be familiar with the basics of Windows
and its tools.
DOS, Windows , Documentation software like MS Office, Lotus Suite, Star Office, Internet skills.
Objective:-Students should understand the concepts of network theorems and its verifications.
Practicals should consists of the verification of the various theorems applicable to the circuit, verification of Kirchoff’s laws, charging and discharging of the capacitors, testing of the transformers.
Sources of energy, Power calculation/estimation of a particular setup, Stabilizer.
AS103
Applied Maths II
4 2 4
Partial Differentiation, Euler's theorem, Extreme
values of function of two variables – application.
Vector Algebra and Vector Differentiation – Product
of three or more vector, Gradient, divergence & applications,
Integral Calculus – Double Integral., Triple
Integral & application to area mass and volume, Differentiation under
integral sign – Error functions, Beta and Gamma functions, Properties and
duplication formula.
Text Book
P. N. Wartikar & J. N. Wartikar, “Elements of
Applied Mathematics”, 7th, Pune Vidyarthi Graha,1988.
B. S. Grewal, “Higher Engineering Mathematics”
.
Reference
Books
Shanti Narayan,
“Differential Calculus”, Shamalal Charitable Trust, 1997.
Murray
Spiegal, “Vector Analysis”, McGraw Hill, 1974
AS104 Applied Science – I
4 0 4
Structure
of Atom (Qualitative aspects only) : Bohr's model, quantum theory, Modern
quantum theory of atom, uncertainty principle, wave equation, energy levels and
quantum numbers, Paulis Exclusion principle,
distribution of electrons ,
Afbau principle, Deviation from Afbau principle, classification of elements.
Atomic
Properties: size, Ionization energy, Electron affinity, Electro negativity.
Spectroscopy
- Introduction to electromagnetic radiation, Frequency, Wavelength and wave
number. Principle of various spectroscopy.
Atomic
Structure - Rutherford Model, Bohr's Model, Molecular orbital Theory, Band
Theory of solids, Fermi level. Semiconductors & insulators. Elemental &
compound semiconductors, Intrinsic & extrinsic semiconductors
Physics
of Semiconductors – band theory, Metals semiconductors and insulators, Direct
and Indirect Semiconductors, Fermi
Level, Breakdowns.
Introduction
to Fiber Optic Communication, Optical Sources:- LED’s and Lasers, Introduction
to Few Common Lasers Like Ruby, He-Ne etc. Photo-detectors
Ultrasonic
– Magnetostrictive effect and transducers, Ferromagnetic materials,
Piezoelectric effect:- crystals, Transducer,
Applications, Cleaner Low power application; methods of testing materials.
Superconductors
- various Properties and effects, Types, London equations, BCS theory, Josephson
effect and junctions, Applications
Introduction
to Electromagnetic - Laws of Physics, Expressing in Terms of Maxwell's Equations
and various laws
Semiconductor diodes and transistors.
Text Books
Newman and Searle, “General Properties of
Matter”, Emest Benn Ltd. London, 1963
D. S. Mathur, “Elements of Properties of Matter”,
Shyamlal Charitable Trust, 10th Ed., 1969.
Indu Prakash, “ Optics “ Kishore Publishing
House, 3rd Ed., 1960.
Reference
Books
S.
O. Pillai, “Solid State Physics”,
B.
G. Streatman, “Solid Electronics”,
S.
M. Sze, “Physics & Technology, Semiconductor Devices”
S.
M. Sze, “VLSI Technology”, McGraw Hill .
ET103 Basic
Electronics
4 0 4
Modeling devices: Static characteristics of ideal two terminal and three terminal devices, small signal models of non-linear devices.
Semiconductor diodes, construction and characteristics, Static
and dynamic resistance, temperature effects, Avalanche and zener diodes. Small
signal models of diodes; some
applications of diodes.
Specification
of diodes, rectifiers ripple
factor, rectification efficiency, regulation, filters.
Bipolar
junction transistor: Construction, characteristics. BJT as amplifier, CB, CE, CC
configurations. Biasing circuits, dc analysis and stability factor, DC load line
and ac load line.
FET:-
Construction, characteristics, amplifier. CS, CD and CG configurations. Biasing.
Low
frequency small signal ac equivalent circuit of JFET amplifiers.
Text
Book
Boylstead
and Neshelasky, “Electronics Devices and Circuit,” PHI 1997.
References
Milman Grabel , “Microelectronics”, Tata Macgraw Hill. 1998
GS103 General
Engineering
4 0 4
Engineering. Mechanics
Introduction, force, system of
forces, moment of force , Virginian’s theorem. Equilibrium system for coplanar
forces, loads and its types, bending movements, shears forces and beams,
deflections.
Centroids, and Moment of Inertia of plane and
composite areas.
Friction: Laws, equilibrium of bodies, Applications.
Thermodynamics, Laws of Thermodynamics, Energy, Enthalpy, Specific Heats, Flow analysis.
Second law of Thermodynamics, Reversible and irreversible processes, Carnot theorem, Thermodynamic temperature scale, Entropy, Continuum, Macroscopic approach, Thermodynamic System, properties and equilibrium. State of a system, State diagram, path and process, modes of work, temperature and Heat.
Heat Transfer- principles, methods and properties,
Heat sink design for electronics & electrical components.
Demonstration of above concepts should be done as a
part of the subject.
Text
Book
Ballani, “Thermal Engineering”, 5th
Ed. Khanna Publication. 1994
Reference
P.K.Nag, “Thermodynamics”,
Bear and Johnson, “Engineering Mechanics”.
GS104 Technical
Presentation Skill
0 2 2
Presentation of the technical topics by the students, covered or to be covered in the syllabus. Presentation should be by a group of the students in front of the panel of the examiners. It should be in the form of audio visual presentation.
CS101 Programming
Lab
0 6 4
Detail Programming in C language, application for
link lists graphics.
ET 104 Devices Lab 0 2 2
Study and identification of electronics devices and
components, Basic construction and use
of common measuring Instruments, Characteristics of the various electronics
two terminal and three
terminal devices, study of half wave and full wave rectifier using diodes,
amplifier characteristics of transistors and FET.
GS 105
Technical Art Lab
0 4 4
Study, identification, and drawing of models of
electrical and electronics devices and components, circuits, artwork for the
electronics circuit design, PCB design and manufacturing using a software
package, building of a simple circuit, soldering and testing, Exposure to basic
hardware and computer peripherals.
Demonstration for
machines and workshops, Study of manufacturing methods, Introduction to
fabrication sheet metal works for
Instruments boxes.
Practicals supporting the course AS104
Measurement of pH, conductivity, Condometric Titration, Estimation of chloride in water, estimation of chloride in a sample of water.
Determination study of optical
fiber and determination of its properties.