ECIL GET exam Syllabus

#1 17th July 2014, 02:39 PM

Here I am looking for the ECIL GET exam Syllabus, will you please provide me the same????

Kiran Chandar · #2 20th July 2014, 08:51 AM

As per your request here I am sharing the ECIL GET exam Syllabus:

Networks
Network graphs
Fundamental circuit matrices
Solution methods: nodal and mesh analysis
Network theorems
Thevenin and Norton’s maximum power transfer
Superposition
Wye-Delta transformation
Steady state sinusoidal analysis
Linear constant coefficient differential equations
RLC circuits
Time domain analysis
Frequency domain analysis
Solution of network equations using Laplace transforms
State equations for networks

Electronic Devices
Energy bands in silicon (Intrinsic and extrinsic silicon)
Carrier transport in silicon
Diffusion Current
Drift Current
Mobility
Resistance
Generation and recombination of carriers
Diodes
P-N Junction Diode
Zener Diode
Tunnel Diode
LED
Avalanche Photo Diode
Transistor
BJT
JFET
MOSFET
Basics of Lasers
MOS Capacitor
Industrial Electronics
Integrated circuits fabrication process
Oxidation
Diffusion
Ion implantation
Photolithography
n-tub process
p-tub process
Twin-tub CMOS process.

Analog Circuits
Small Signal Analysis
Diode Circuits
Clipping
Clamping
Rectifier
Biasing
Amplifiers
Single-And Multi-Stage
Simple op-amp circuits
Differential and Operational
Feedback Amplifier
Power Amplifier
Frequency response of amplifiers
Sinusoidal oscillators
Filters
Function generators and wave-shaping circuits
555 Timers
Power supplies

Digital circuits
Boolean Algebra
Digital IC Families (DTL TTL ECL MOS CMOS)
Minimization of Boolean Functions
Logic Gates
Combinatorial circuits
Code Converters
Multiplexers
Arithmetic Circuits
Decoders
PROM
Sequential circuits
Latches and Flip-Flops
Counters
Shift-Registers
Semiconductor memories
Microprocessor (8085)
Architecture
Programming
Memory
I/O Interfacing

Signals and Systems
Fourier series
Fourier Transform
DFT and FFT
Z-transform
Sampling theorem
Linear Time-Invariant (LTI) Systems
Signal transmission through LTI systems

Control Systems
Open loop and closed loop (feedback) systems
Signal flow graphs
Transient and steady state analysis of LTI control systems and frequency response
Tools and techniques for LTI control system analysis
Bode and Nyquist plots
Root loci
Routh-Hurwitz criterion
Control system compensators

Communications
Random signals and noise
Probability Random Variables
Probability Density Function
Autocorrelation
Power Spectral Density
Analog communication systems
Elements of hardware
Signal-To-Noise Ratio (SNR)
Calculations for Amplitude Modulation (AM)
Calculations for Frequency Modulation (FM)
Information theory
Channel capacity theorem
Digital communication systems
Pulse Code Modulation (PCM)
Differential Pulse Code Modulation (DPCM)
Digital Modulation Schemes
Amplitude Shift Keying
Phase Shift Keying
Frequency Shift Keying
Basics of TDMA FDMA, CDMA, and GSM

Electro-magnetics
Elements of vector calculus- Divergence, Curl
Gauss and Stokes’ theorems
Maxwell’s equations- Differential, Integral Forms
Wave equation Poynting vector
Plane waves
Propagation through Various Media
Reflection
Refraction
Phase and Group Velocity
Skin Depth
Transmission Lines
Characteristic Impedance
Impedance Transformation
Smith Chart
Impedance Matching
S Parameters Pulse Excitation
Waveguides
Modes in Rectangular Waveguides
Boundary Conditions
Cut-Off Frequencies
Dispersion Relations
Basics of Propagation in Dielectric Waveguide and Optical Fibers
Basics of Antennas
Dipole Antennas
Radiation Pattern
Antenna Gain

#3 31st July 2014, 12:21 PM

Will you please provide me syllabus for ECIL GET Examination for recruitment on various posts ?

Kiran Chandar · #4 31st July 2014, 03:26 PM

Here I am giving you syllabus for ECIL GET Examination for recruitment on various posts below :

Networks
Network graphs
Fundamental circuit matrices
Solution methods: nodal and mesh analysis
Network theorems
Thevenin and Norton’s maximum power transfer
Superposition
Wye-Delta transformation
Steady state sinusoidal analysis
Linear constant coefficient differential equations
RLC circuits
Time domain analysis
Frequency domain analysis
Solution of network equations using Laplace transforms
State equations for networks

Electronic Devices
Energy bands in silicon (Intrinsic and extrinsic silicon)
Carrier transport in silicon
Diffusion Current
Drift Current
Mobility
Resistance
Generation and recombination of carriers
Diodes
P-N Junction Diode
Zener Diode
Tunnel Diode
LED
Avalanche Photo Diode
Transistor
BJT
JFET
MOSFET
Basics of Lasers
MOS Capacitor
Industrial Electronics
Integrated circuits fabrication process
Oxidation
Diffusion
Ion implantation
Photolithography
n-tub process
p-tub process
Twin-tub CMOS process.

Analog Circuits
Small Signal Analysis
Diode Circuits
Clipping
Clamping
Rectifier
Biasing
Amplifiers
Single-And Multi-Stage
Simple op-amp circuits
Differential and Operational
Feedback Amplifier
Power Amplifier
Frequency response of amplifiers
Sinusoidal oscillators
Filters
Function generators and wave-shaping circuits
555 Timers
Power supplies

Digital circuits
Boolean Algebra
Digital IC Families (DTL TTL ECL MOS CMOS)
Minimization of Boolean Functions
Logic Gates
Combinatorial circuits
Code Converters
Multiplexers
Arithmetic Circuits
Decoders
PROM
Sequential circuits
Latches and Flip-Flops
Counters
Shift-Registers
Semiconductor memories
Microprocessor (8085)
Architecture
Programming
Memory
I/O Interfacing

Signals and Systems
Fourier series
Fourier Transform
DFT and FFT
Z-transform
Sampling theorem
Linear Time-Invariant (LTI) Systems
Signal transmission through LTI systems

Control Systems
Open loop and closed loop (feedback) systems
Signal flow graphs
Transient and steady state analysis of LTI control systems and frequency response
Tools and techniques for LTI control system analysis
Bode and Nyquist plots
Root loci
Routh-Hurwitz criterion
Control system compensators

Communications
Random signals and noise
Probability Random Variables
Probability Density Function
Autocorrelation
Power Spectral Density
Analog communication systems
Elements of hardware
Signal-To-Noise Ratio (SNR)
Calculations for Amplitude Modulation (AM)
Calculations for Frequency Modulation (FM)
Information theory
Channel capacity theorem
Digital communication systems
Pulse Code Modulation (PCM)
Differential Pulse Code Modulation (DPCM)
Digital Modulation Schemes
Amplitude Shift Keying
Phase Shift Keying
Frequency Shift Keying
Basics of TDMA FDMA, CDMA, and GSM

Electro-magnetics
Elements of vector calculus- Divergence, Curl
Gauss and Stokes’ theorems
Maxwell’s equations- Differential, Integral Forms
Wave equation Poynting vector
Plane waves
Propagation through Various Media
Reflection
Refraction
Phase and Group Velocity
Skin Depth
Transmission Lines
Characteristic Impedance
Impedance Transformation
Smith Chart
Impedance Matching
S Parameters Pulse Excitation
Waveguides
Modes in Rectangular Waveguides
Boundary Conditions
Cut-Off Frequencies
Dispersion Relations
Basics of Propagation in Dielectric Waveguide and Optical Fibers
Basics of Antennas
Dipole Antennas
Radiation Pattern
Antenna Gain

Syllabus of ECIT Entrance Exam

Network:
Network graphs:matrices associated with graphs; incidence, fundamental cut set and fundamental circuit matrices. Solution methodsl; nodal and mesh analysis. Network theorems; superposition, Thevenin and Nortan’s, maximum power transfer, wye-delta transformation, steady state sinusoidal analysis using phasors, fourier series, linear constant coefficient differential and difference equations; time domain analysis of simple RLC circuits. laplace and Z transforms: frequency domain analysis of RLC circuits, convolution,2-port network parameters, driving point and transfer functions, state equation for networks.

Analog circuits:
characteristics and equivalent circuits(large and small singnal) of diodes,BJT,JFETs and MOSFET simple diode circuits: clipping, clamping, rectifier, biasing and bias stability of transistior and FET amplifiers. Amplifiers: single and multi-stage, differential, operational, feedback and power. Analysis of amplifers; frequency response of amplifiers. Simple op-amp circuits. Filters. Sinusoidal oscillators; criterion for oscillation; single-transistor and op-amp configurations. Function generators and wave-shaping circuits, Power supplies.

Digital circuits:
Boolean algebra; minimization of boolean functions; logic gates; digital IC families( DTL,TTL,ECL,MOS,CMOS). Combinational circuits: airthmetic circuits, code converters, multiplexers and decoders. Sequential circuits: latches and flip-flops, counters and shift-registers. Comparators, timers, multivibrators. Sample and hold circuits, ADCs and DACs. Semiconductor memories. Microprocessor (8085): architecture, programming, memory and I/O interfacing.

Control systems:
Basic control system components; block diagrammatic descripption,reduction of block diagrams,properties of systems: linearity,time-invariance,stability,causality.Open loop and closed loop (feedback) systems.Special properties of linear time- invariance(LTI) systems-transfer function, impulse responce,poles,zeros,their significance, and stability analysis of these systems. Signal flow graphs and their use in determining transfer functions of systems; transient and steaty state analysis of LTI system and frequency responce. Tools and techniques for LTI control system analysis: Root, loci, Routh_Hurwitz criterion, Bode and Nyquist plots; Control system compensators: elements of lead and lag compensations, elements ofPropotional-integral.
-Derivative(PID) control. State variable representation and solution of state equation for LTI systems.

Communication Systems:
Fourier analysis of signals – amplitude, phase and power spectrum, auto-correlation and cross-correlation and their Fourier transforms. Signal transmission through linear time-invariant(LTI) systems,impulse responce and frequency responce,group delay phase delay. Analog modulation systems-amplitude and angle modulation and demodulation systems, spectral analysis of these operations, superheterodyne receivers, elements of hardwares realizations of analog communications systems. Basic sampling theorems. Pulse code modulation(PCM), differential pulse code modulation(DPCM), delta modulation(DM). Digital modulation schemes: amplitude, phase and frequency shift keying schemes(ASK,PSK,FSK). Multiplexing – time division and frequency division. Additive Gaussian noise; characterization using correlation, probability density function(PDF),power spectral density(PSD). Signal- to-noise rasio(SNR) calculations for amplitude modulation(AM) and frequency modulation(FM) for low noise conditions.

Electromagnetics:
Elements of vector calculus: gradient, dicergence and curl; Gauss and strokes theorems, maxwells equation: differential and integral forms. Wave equation. Poynting vector. Plane waves: propagation through various media; reflection and refraction; phase and group velocity; skin depth Transmission lines: Characteristic impedence; impedence transformation; smith chart; impedence matching pulse excitation. Wave guides: modes in rectangular waveguides; boundary conditions; cutt-off frequencies; dipersion relations. Antennas; Dipole antennas; antenna arrays; radiation pattern; reciprocity theorem; antenna gain

#5 15th May 2015, 07:59 AM

Hi I want the syllabus of ECIL GET Exam so will you please provide me?

Quick Sam · #6 15th May 2015, 07:59 AM

Ok, as you want the syllabus of ECIL GET Exam so here I am providing you.

ECIL GET Exam syllabus

ECIL GET Exam covers topics from B.Tech/B.E degree course in Electronics and Communication.

Networks, Electro magnetics, Digital and Analog Circuits, Signals, Control Systems, etc are some of the topics included in the entrance exam of ECE stream.

Networks

Network graphs
Fundamental circuit matrices
Solution methods: nodal and mesh analysis
Network theorems
Thevenin and Norton’s maximum power transfer
Superposition
Wye-Delta transformation
Steady state sinusoidal analysis
Linear constant coefficient differential equations
RLC circuits
Time domain analysis
Frequency domain analysis
Solution of network equations using Laplace transforms
State equations for networks

Electronic Devices

Energy bands in silicon (Intrinsic and extrinsic silicon)
Carrier transport in silicon
Diffusion Current
Drift Current
Mobility
Resistance
Generation and recombination of carriers
Diodes
P-N Junction Diode
Zener Diode
Tunnel Diode
LED
Avalanche Photo Diode
Transistor
BJT
JFET
MOSFET
Basics of Lasers
MOS Capacitor
Industrial Electronics
Integrated circuits fabrication process
Oxidation
Diffusion
Ion implantation
Photolithography
n-tub process
p-tub process
Twin-tub CMOS process.

Analog Circuits

Small Signal Analysis
Diode Circuits
Clipping
Clamping
Rectifier
Biasing
Amplifiers
Single-And Multi-Stage
Simple op-amp circuits
Differential and Operational
Feedback Amplifier
Power Amplifier
Frequency response of amplifiers
Sinusoidal oscillators
Filters
Function generators and wave-shaping circuits
555 Timers
Power supplies

Digital circuits

Boolean Algebra
Digital IC Families (DTL TTL ECL MOS CMOS)
Minimization of Boolean Functions
Logic Gates
Combinatorial circuits
Code Converters
Multiplexers
Arithmetic Circuits
Decoders
PROM
Sequential circuits
Latches and Flip-Flops
Counters
Shift-Registers
Semiconductor memories
Microprocessor (8085)
Architecture
Programming
Memory
I/O Interfacing

Signals and Systems

Fourier series
Fourier Transform
DFT and FFT
Z-transform
Sampling theorem
Linear Time-Invariant (LTI) Systems
Signal transmission through LTI systems

Control Systems

Open loop and closed loop (feedback) systems
Signal flow graphs
Transient and steady state analysis of LTI control systems and frequency response
Tools and techniques for LTI control system analysis
Bode and Nyquist plots
Root loci
Routh-Hurwitz criterion
Control system compensators

Communications

Random signals and noise
Probability Random Variables
Probability Density Function
Autocorrelation
Power Spectral Density
Analog communication systems
Elements of hardware
Signal-To-Noise Ratio (SNR)
Calculations for Amplitude Modulation (AM)
Calculations for Frequency Modulation (FM)
Information theory
Channel capacity theorem
Digital communication systems
Pulse Code Modulation (PCM)
Differential Pulse Code Modulation (DPCM)
Digital Modulation Schemes
Amplitude Shift Keying
Phase Shift Keying
Frequency Shift Keying
Basics of TDMA FDMA, CDMA, and GSM

Electro-magnetics

Elements of vector calculus- Divergence, Curl
Gauss and Stokes’ theorems
Maxwell’s equations- Differential, Integral Forms
Wave equation Poynting vector
Plane waves
Propagation through Various Media
Reflection
Refraction
Phase and Group Velocity
Skin Depth
Transmission Lines
Characteristic Impedance
Impedance Transformation
Smith Chart
Impedance Matching
S Parameters Pulse Excitation
Waveguides
Modes in Rectangular Waveguides
Boundary Conditions
Cut-Off Frequencies
Dispersion Relations
Basics of Propagation in Dielectric Waveguide and Optical Fibers
Basics of Antennas
Dipole Antennas
Radiation Pattern
Antenna Gain

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