#1
20th November 2014, 10:30 AM
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Syllabus of NPCIL
Hey there! here I am looking for Syllabus of NPCIL for Executive Trainee in Electronics. Would you please provide me syllabus of following course??
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#2
20th November 2014, 12:30 PM
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Re: Syllabus of NPCIL
Engineering former students in Electronics or related streams with 60% marks can apply for ‘Executive Trainee’ (Electronics) in Nuclear Power Corporation of India Ltd (NPCIL). Selection process is carried out through an online entrance test and interview. Questions for the written test would be based on technical topics studied during the qualifying grade. As per your query, here I am telling you about NPCIL syllabus: Networks • Data link protocols • End-End protocols • Frequency domain analysis of RLC circuits • Message routing technologies • Network graphs • Network interconnection • Network theorems • Solution of network equations using Laplace transforms • Steady state sinusoidal analysis • 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 Measurements and Instrumentation • Digital Instruments • Display and Recording systems • Transducers 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 |
#4
23rd May 2015, 01:19 PM
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Re: Syllabus of NPCIL
I have done B.Tech in Electronics and now want to apply for Executive Trainee Post in NPCIL (Nuclear Power Corporation of India Ltd) so please gives me Syllabus of Exam for preparation?
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#5
23rd May 2015, 01:20 PM
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Re: Syllabus of NPCIL
Here I am giving you Syllabus of Exam for Post of Executive Trainee (Electronics) in NPCIL (Nuclear Power Corporation of India Ltd). Syllabus for NPCIL Executive Trainee (Electronics): Networks: Data link protocols End-End protocols Frequency domain analysis of RLC circuits Message routing technologies Network graphs Network interconnection Network theorems Solution of network equations using Laplace transforms Steady state sinusoidal analysis 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 Measurements and Instrumentation: Digital Instruments Display and Recording systems Transducers 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 |
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