Manipal Institute Of Technology-ECE 2013-2017: 2nd Sessionals Portion

The syllabus for Sessionals (16-19th April 2015) :

1.MATHS :

Fourier sine and cosine transforms and their properties and related problems
Application to solve boundary value problems using Fourier sine / cosine transforms.
Z- transforms: Introduction to Z-transforms and their properties , Z-transform of some standard functions.
Solution of difference equations using Z- transforms
Solution of simultaneous difference equations using Z- transforms
Random experiment, sample space ( finite / infinite), events, probability concepts, addition and other theorems on probability.
Basic methods of counting, problems on finite sample space
Conditional probability, independent events, partition for a finite sample space, total and Baye’s theorem, related problems.
Problems based on independent events.
Problems on one dimensional random variable
Mean and variance of a random variable and their properties.
Problems on mean and variance of a random variable, Chebyshev’s inequality
Two dimensional random variables and their properties
Problems on two dimensional random variables.
Covariance, correlation coefficient and their properties , problems

2. IC SYSTEMS :

Concept of active filter, Design of first order Low pass filter//High pass filter
Design of second and higher order Low pass filter
Design of second and higher order High pass filter Design of wide and narrow band pass filter
Design of wide and narrow band elimination filter - All pass filter (Phase shifter)
Precision half wave and full wave rectifier, Peak detector
Sample & Hold circuit, Log & Antilog amplifiers
Analog Multipliers & Dividers, Comparators
Window detector, Schmitt Trigger
Square wave generator
Triangular wave generator and Pulse generator
Pin details of 555 IC, functional diagram of 555 Timer IC, Astable multivibrator
Positive and negative edge triggered monostable multivibrator
Linear ramp Generator, FSK generator
Principles of DAC : Binary weighted type, R-2R ladder type DAC

3.MPMC:

8086

8051

Introduction to Microcontrollers, CISC and RISC Microcontrollers, and Applications of Microcontrollers.
History and Architectural features of 8051
Addressing Modes and instruction classification
Data transfer instructions
Arithmetic and logical Instructions
Branching Instructions
Byte level and Bit level instructions
Pin details and I/O Ports,
Programming of Counters and Timers
Serial I/O in 8051
Timer/Counter

4.EM WAVES :

Dipole, Energy in E field
Ohm's law, continuity equations, Boundary Conditions
Dielectrics, Boundary Conditions, Relaxation time,
Capacitance, Capacitance of coaxial cable, Capacitance two-wire transmission lines
Poisson's and Laplace's equations, solution to Laplace's equations
Magnetic field intensity, Biot-Savart's law, Ampere's law
Stoke's theorem
Flux, Flux Density, Scalar vector potentials
Magnetic vector potentials, Boundary Conditions
Faraday's law, Displacement Current, Torque
Inductance
Energy Densities

5. DDHDL :

PODEM
Fault-collapsing technique
Observability and controllability
Testing sequential circuits: sequential test methods, iterative test generator
Design-for-test(DFT) methods: DFT guidelines for combinational circuits
Critical path ,DFT methods like scan path, Boundary scan etc.
DFT methods like Signature Analysis, BILBO and BIDCO.
Types and steps involved in synthesis, Digital modeling using HDLs. Hardware Descriptive Language
VHDL modeling concepts-syntax, entities and architectures
VHDL object types, Data types: scalar data types with examples,Composite Data types with examples.
File data types with examples, Access data types with examples.
Behavioral Modeling: process statement, sequential statements-if, case, loop, next, exit, assert, wait, null
Behavioral Modeling examples of Combinational circuits - Full-adder, FullSubtractor, MUX, DEMUX, Encoder, D-FF, JKFF, State machines.
Behavioral Modeling examples of sequential circuits -, D-FF, JKFF, State machines.
Structural modeling

Manipal Institute Of Technology-ECE 2013-2017