NPCIL 'Executive Trainee' Electronics Exam Syllabus

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As you are looking for the Syllabus of NPCIL 'Executive Trainee' Electronics Exam , here I am providing the same for you.

Networks
Data link protocols
End-End protocols
Solution of network equations using Laplace transforms
Steady state sinusoidal analysis
Time domain analysis of simple RLC circuits
Frequency domain analysis of RLC circuits
Message routing technologies
Network graphs
Network interconnection
Network theorems

Analog Circuits
Diodes
Bipolar Junction Transistors
Oscillators
Power supplies
Pulse shaping circuits
Sinusoidal oscillators
Amplifiers
Feed back amplifiers
Large signal amplifiers
Filters

Circuit Analysis
Sinusoidal steady state analysis
Thevenin’s and Norton’s equivalent circuits
DC Circuit analysis
Transient and resonance in RLC circuits

Digital Electronics
Combinational circuits
Logic gates
Sequential circuits

Linear Integrated Circuits
A/D and D/A converters
Operational amplifiers and its applications
PLL
Voltage regulators

Electronic Devices
Energy bands in silicon
Carrier transport in silicon
Basics of LASERs
BJT
Zener diode
Device technology
Tunnel diode
MOS capacitor
JFET
MOSFET

Measurements and Instrumentation
Digital Instruments
Display and Recording systems
Transducers

Signals and Systems
Laplace transform
Continuous-time and discrete-time Fourier Transform
Sampling theorem
Linear Time-Invariant (LTI) Systems
Signal transmission through LTI systems
Fourier series

Microprocessor
Microprocessors- 8086 architecture
Microprocessors-8085 architecture
Micro-controller

Electromagnetic Fields
Time varying Electric and Magnetic fields
Static Electric and Magnetic fields
Maxwell equations

Control Systems
Basic control system components
Signal flow graphs of LTI control systems
Tools and techniques for LTI control system analysis
Open loop and closed
Steady state analysis loop systems

EM waves and waveguides
Rectangular and cylindrical waveguides
Guided waves

Communications
Analog communication systems
Base band signaling
Discrete time signals and systems
Error control coding
Fundamentals of information theory
Optical Communication
Pulse code modulation (PCM)
Random signals and noise
Channel capacity theorem
Continuous time signals and systems
Differential pulse code modulation (DPCM)
Digital communication systems

Antennas and Propagation
Arrays
Propagation of radio waves
Radiation pattern
Antenna gain
Aperture antennas
Dipole antennas

Microwave Engineering
Microwave measurements
Passive components
Semiconductor devices
Microwave tubes


Electromagnetics
Characteristic impedance
Propagation in dielectric waveguide
Propagation in optical fibers
Transmission lines
Vector calculus
Wave equation
Divergence and curl
Gauss’ and Stokes’ theorems
Impedance transformation
Maxwell’s equations

Digital Signal Processing
Quantization effects
IIR and FIR filters
Realization and implementation

Will you please syllabus of the NPCIL 'Executive Trainee' Electronics Exam ?

[Kiran Chandar]

Here is the NPCIL 'Executive Trainee' Electronics Exam Syllabus which you are looking for .

Measurements and Instrumentation
Digital Instruments
Display and Recording systems
Transducers

Networks
Data link protocols
Network graphs
Network interconnection
Network theorems
Solution of network equations using Laplace transforms
Steady state sinusoidal analysis
End-End protocols
Frequency domain analysis of RLC circuits
Message routing technologies Time domain analysis of simple RLC circuits

Analog Circuits
Diodes
Bipolar Junction Transistors
Amplifiers
Feed back amplifiers
Large signal amplifiers
Filters
Oscillators
Power supplies
Pulse shaping circuits
Sinusoidal oscillators

Circuit Analysis
Sinusoidal steady state analysis
Thevenin’s and Norton’s equivalent circuits
DC Circuit analysis
Transient and resonance in RLC circuits

Digital Electronics
Combinational circuits
Logic gates
Sequential circuits

Linear Integrated Circuits
A/D and D/A converters
Operational amplifiers and its applications
PLL
Voltage regulators

Electronic Devices
Energy bands in silicon
Carrier transport in silicon
Tunnel diode
MOS capacitor
JFET
MOSFET
Basics of LASERs
BJT
Zener diode
Device technology

Signals and Systems
Laplace transform
Signal transmission through LTI systems
Fourier series
Continuous-time and discrete-time Fourier Transform
Sampling theorem
Linear Time-Invariant (LTI) Systems

Microprocessor
Microprocessors-8085 architecture
Microprocessors- 8086 architecture
Micro-controller

Electromagnetic Fields
Time varying Electric and Magnetic fields
Static Electric and Magnetic fields
Maxwell equations

Control Systems
Basic control system components
Open loop and closed loop systems
Signal flow graphs
Steady state analysis of LTI control systems
Tools and techniques for LTI control system analysis

EM waves and waveguides
Rectangular and cylindrical waveguides
Guided waves

Communications
Analog communication systems
Base band signaling
Channel capacity theorem
Continuous time signals and systems
Differential pulse code modulation (DPCM)
Digital communication systems
Discrete time signals and systems
Error control coding
Fundamentals of information theory
Optical Communication
Pulse code modulation (PCM)
Random signals and noise

Antennas and Propagation
Arrays
Propagation of radio waves
Aperture antennas
Dipole antennas
Radiation pattern
Antenna gain

Microwave Engineering
Microwave measurements
Microwave tubes
Passive components
Semiconductor devices

Electromagnetics
Characteristic impedance
Divergence and curl
Gauss’ and Stokes’ theorems
Impedance transformation
Maxwell’s equations
Propagation in dielectric waveguide
Propagation in optical fibers
Transmission lines
Vector calculus
Wave equation

Digital Signal Processing
IIR and FIR filters
Quantization effects
Realization and implementation