The syllabus for Sessionals (23-25th February 2015) :
{CONFIRMED, NO CHANGES TO BE DONE}
1.MATHS :
{CONFIRMED, NO CHANGES TO BE DONE}
1.MATHS :
Numerical differentiation and Integration: Introduction to Numerical Differentiation and Integration. for y' and y" with respect to tabulated and non- tabulated values.
General Numerical integration formula ( Newton’s Cote’s formula)
Trapezoidal rule and problems.
Simpson’s & rules for numerical integration and Problems
Difference equations : Difference calculus and Difference Equations
Formation and solution of homogeneous / non – homogeneous difference equations with constant coefficients.
Linear system of equations : Iterative methods( Jacobi / Gauss – Seidel)
Relaxation method to solve linear system of equations
Eigen value problems: Eigen values and Eigen vectors of a matrix and elementary properties.
Computation of largest Eigen value of a matrix by the power method
Fourier transform : Introduction to Fourier Transform and its properties
Convolution theorem for Fourier transform and Derivation of Parseval’s Identity.
Applications to solve boundary value problems
2. IC SYSTEMS :
2. IC SYSTEMS :
Basic block diagram of OPAMP
Types of differential amplifier, Analysis using block diagram,
Characteristics of differential amplifier.
Analysis of emitter coupled differential amplifier using small signal hybrid model
Methods of improving CMRR using Constant current source
Current mirror circuit, Current Repeaters and Active Load
Circuit operation and analysis of Level Shifter & Output stage of an op.amp. Transfer
characteristics of op.amp
Measurement of op.amp parameters
Characteristics of Ideal operational amplifier, open loop and closed loop operation of operational
amplifier
Inverting operational amplifier, non-inverting operational amplifier.
Input resistance, output resistance and bandwidth
Sign changer, scale changer, summing amplifier, adder,, voltage follower
Op. amp. Integrator
Op. amp. Differentiator
I – V Converter. V – I converter with floating load,
V – I converter with grounded load, Difference amplifier.
Instrumentation amplifier and Bridge amplifier
3.MPMC:
Introduction to Microprocessors
Introduction to Microprocessors
Discussion of Architecture of Intel 8086 processor
Discussion of Memory Segmentation and Memory Address generation
Discussion of Addressing modes of 8086
Discussion of Instruction set classification and data transfer instructions of
8086
Discussion of Arithmetic and Logical Instructions of 8086
Discussion of branching Instructions of 8086
Discussion of string and machine control instructions of 8086
Writing programs using 8086 instruction set
Discussion of Assembler directives and programming in 8086
Discussion of 8086 signals and functions
Discussion of Modes of operation in 8086
Drawing Timing diagrams for read, write and interrupt acknowledge in
minimum mode and maximum mode operation
4.EM WAVES :
Vector analysis, Cartesian co-ordinate systems
Vector analysis, Cartesian co-ordinate systems
Cylindrical co-ordinate systems & Conversion from one to other
Spherical co-ordinate systems & Conversion from one to other
Coulomb's law and its applications, Electric field intensity
Field due to point charges, Field due to point line charge
Field due to surface charge and volume charge
Electric flux and electric flux density, Gauss's law, Gauss's law
Maxwell’s Equation, Divergence, Gauss divergence theorem
Energy, Force, PD, PD due to Point Charge, PD due to ring charge,
Potential Gradient.
5. DDHDL :
5. DDHDL :
Digital System implementation using ROMs and PROMs.
Digital System implementation using PLAs
Digital System implementation using PLAs
Digital System implementation using PALs
Full-custom, semi-custom, standard cell based.
Programmable ASICs: PLDs, CPLDs, MPGAs, FPGAs ,ASIC design flow.
ACTEL- logic modules and Implementation of digital circuits using ACTEL
Implementation of digital circuits using ACTEL logic modules
XILINX- logic module and digital circuits using XILINX logic modules
ALTERA- logic module and Implementation of digital circuits using
Programming Technology: anti fuse, SRAM and EPROM
Programmable I/O cells.
Programmable Interconnect of ACTEL ACT
Programmable Interconnect of Xilinx LCA and ALTERA Max 9000
ALTERA logic modules
Testing Combinational Circuit:-Fault Table with examples
Boolean difference method with properties.
Path Sensitization with examples and its failure.
D-Algorithm- Introduction to D-Cubes, D-algebra,
D-Algorithm fault propagation with examples.
