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Hii sir, I Wants to get the Syllabus of the VITMEE Exam for the Electronics and Communication Engineering /
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Vellore Institute of Technology conducts VITMEE for admissions to its M.Tech and MCA programmes. Eligibility Criteria B.E/B.Tech degree in related discipline. The Syllabus of the Electronic and Communication Engineering of the VITEEE Exam is given below 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 response and frequency response Group delay phase delay Analog modulation systems-amplitude and angle modulation and demodulation systems Spectral analysis of these operations Super heterodyne receivers Elements of hardware realizations of analog communication systems Basic sampling theorems Modulation 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 ratio (SNR) calculations for amplitude modulation (AM) Frequency modulation (FM) for low noise conditions Topics under Electromagnetism: Elements of vector calculus Gradient Divergence and curl Gauss and strokes theorems Maxwells equation Poynting vector Plane waves Propagation through various media Reflection and refraction Phase and group velocity Transmission lines Characteristic impedance Impedance transformation Smith chart Impedance matching pulse excitation Wave guides Modes in rectangular waveguides Boundary conditions Cut-off frequencies Dispersion relations Antennas Dipole antennas Antenna arrays Radiation pattern Reciprocity theorem Antenna gain Control Systems Basic control system components Block diagrammatic description Reduction of block diagrams Open loop and closed loop (feedback) systems Properties of systems Linearity Time-invariance Stability Causality Special properties of linear time-invariance (LTI) Systems-transfer function Impulse response Poles Zeros Significance and stability analysis of these systems Signal flow graphs and their use in determining transfer functions of systems. Transient and steady state analysis of LTI system and frequency response Tools and techniques for LTI control system analysis Root Loci Routh Hurwitz criterion Bode and Nyquist plots
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