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EKT syllabus 2016 of Electrical and Electronics

We are giving the detailed EKT syllabus 2016 of Electrical and Electronics in this post. Students are requested to read this post.

EKT syllabus 2016 of Electrical and Electronics

Fundamental Engineering

Engineering Mathematics:

  • Eigen values and Eigen vectors
  • Matrix Algebra
  • Theorems of integral calculus
  • Maxima and minima
  • Gauss and Green’s theorems
  • Partial derivatives
  • Multiple integrals, Stokes
  • First order differential equation (linear and nonlinear)
  • Median
  • Cauchy’s and Euler’s equations
  • Complex variables
  • Taylor’s and Laurent’ series
  • Sampling theorems
  • Laplace transform
  • Random variables
  • Mean
  • Mode and Standard deviation
  • Discrete and Continuous distributions
  • Fourier transform

Engineering Physics:

  • Two and Three dimensions
  • Units for measurement
  • Description of Motion in One
  • Laws of Motion
  • Energy and Power
  • Electric Current
  • Rotational Motion
  • Work
  • Heat and Thermodynamics
  • Electrostatics
  • Ray Optics and Optical Instruments
  • Magnetic Effect of Currents
  • Gravitation
  • Electromagnetic Induction and Alternating Currents and Electromagnetic Waves
  • Magnetism

Engineering Drawing:

  • Projection of straight line
  • planes and solids
  • Introduction to Computer-Aided Drafting
  • Sectional Views of solids
  • Intersection of surfaces
  • Specialisation Branch Topics
  • Isometric Projection
  • Full section

Analog and Digital Electronics:

  • Characteristics of diodes
  • Amplifiers – biasing
  • BJT, FET, JFET and MOSFET
  • equivalent circuit and frequency response
  • Operational amplifiers – characteristics and applications
  • Oscillators and feedback amplifiers
  • Simple active filters
  • Combinational and sequential logic circuits
  • A/D and D/A converters
  • VCOs and timers
  • Multiplexer
  • Schmitt trigger, Multi-vibrators
  • 8-bit microprocessor basics
  • architecture
  • Sample and hold circuits
  • programming and interfacing

Electrical Engineering:

  • Single phase transformer – equivalent circuit
  • tests
  • Three phase transformers – connections
  • phasor diagram
  • regulation and efficiency
  • parallel operation
  • Energy conversion principles
  • windings
  • Auto-transformer
  • armature reaction and commutation
  • DC machines – types
  • generator characteristics
  • starting and speed control of motor types
  • Single phase and Three phase induction motors – principles
  • Servo and stepper motors
  • performance characteristics
  • Starting motors
  • Synchronous machines Generators – performance
  • starting and speed control
  • regulation and parallel operation



Electronic Devices:

  • Energy bands in Silicon
  • Carrier transport in Silicon – diffusion current
  • Intrinsic and extrinsic Silicon
  • Generation and recombination of carriers
  • mobility, and resistivity
  • Zener diode
  • p-n junction diode
  • MOS capacitor
  • drift current tunnel diode
  • BJT
  • JFET
  • LED
  • PIN
  • MOSFET
  • avalanche photodiode
  • Device technology – integrated circuits fabrication process
  • Basics of LASER
  • diffusion
  • oxidation
  • photolithography
  • ion implantation
  • n-tub
  • p-tub and twin-tub CMOS process

Control Engineering:

  • Application of open loop and closed loop systems
  • transient and steady-state errors
  • Principles of feedback
  • Determination of transfer function by block diagram reduction method
  • Time domain analysis of first and second order systems
  • damping and oscillations
  • Bode plots
  • Routh and Nyquist techniques
  • lead and lead-lag compensation
  • Lag
  • State space model
  • Controllability and observability
  • State transition matrix

Telecommunication Systems:

  • Random signals and noise – probability
  • probability density function
  • random variables
  • autocorrelation
  • Analog communication – amplitude and angle modulation and demodulation systems
  • power spectral density
  • spectral analysis of these operations
  • elements of hardware
  • superheterodyne receivers
  • realisations of analog communication systems
  • Fundamentals of information theory and channel capacity theorem
  • signal-to-noise ratio (SNR) calculations for AM and FM
  • Digital communication systems – Pulse Code Modulation (PCM)
  • Digital modulation schemes: amplitude, phase and frequency shift keying schemes (ASK, PSK, FSK)
  • Differential Pulse Code Modulation (DPCM)
  • Matched filter receivers
  • Basics of TDMA, FDMA and CDMA
  • Bandwidth consideration and probability of error calculations for these schemes
  • Fundamentals of mobile communication
  • Fundamentals of optical fibre communication

Microwave Engineering:

  • Waveguide components
  • Wave guides
  • Travelling Wave Tubes
  • Klystrons
  • Magnetron
  • Introduction to microstrip lines
  • Microwave semiconductor devices
  • Microwave measurements
  • Monolithic microwave integrated circuits
  • Microwave network analysis

Antenna and Wave Propagation:

  • Antenna parameters
  • Reciprocity theorem
  • Radiation from a current element in free space
  • Resonant and non-resonant antenna
  • Effective length and aperture
  • beamwidth gain
  • directivity
  • efficiency
  • polarization
  • Phased array antenna
  • radiation resistance impedance and directional characteristics of antenna
  • Mechanism of radio wave propagation
  • antenna temperature
  • Reflection
  • interference and diffraction of radio waves
  • refraction
  • Theory of ground wave
  • space wave
  • sky wave and troposcatter propagation

Allied Engineering Topics:

  • Instrumentation:
  • Accuracy, precision and repeatability
  • Signal generators
  • Theory of Oscilloscopes
  • Electronic instruments for measuring basic parameters
  • Signal analysers
  • Characteristics and construction of transducers

Computer Networks:

  • ISO/OSI stack
  • Flow and error control techniques
  • LAN technologies (Ethernet, Token ring)
  • Congestion control
  • IPv4
  • switches
  • TCP/UDP and sockets
  • Application layer protocols (icmp, dns, smtp, pop, ftp, http)
  • Basic concepts of hubs
  • gateways, and routers.

Network Theory Design:

  • Thevenin’s
  • Reciprocity
  • Norton’s
  • Compensation
  • Superposition
  • Miller’s
  • Tellegen’s and Maximum power transfer theorems
  • Impulse
  • Two port parameters and their interrelations
  • ramp and sinusoidal response analysis of first order and second order circuits
  • Network synthesis
  • Application of Laplace transform and Fourier series in the context of network analysis

Switching Theory:

  • Introduction to switching networks,
  • Traffic definitions
  • Grade of Service
  • classification of switching systems
  • Basics of Circuit switching and packet switching

Information Technology

  • terminologies
  • Fundamentals of operating system
  • Object Oriented Programming
  • RDBMS
  • Basics of computer graphics

Radar Theory:

  • Radar range equation
  • fundamentals of Moving Target Indicator (MTI)
  • Frequencies of operation
  • Tracking radar
  • Pulse Doppler Radar

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2 Comments

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  1. Thanks for updating the syllabus

    1. Welcome shubham
      Sure we will update more syllabus

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