Radar and TV Engineering Syllabus for NIT Jalandhar
EC-362 Radar and TV Engineering [3 0 0 3]
Introduction: Working Principle of Radar, Radar Frequencies, Radar Equation, Minimum Detectable signal, integration of radar pulses, Pulse repetition frequency and range ambiguities, Applications of Radar.
CW And Frequency Modulated (Fm) Radar: Doppler effect, CW Radar, FM-CW radar
MTI and Pulse Doppler Radar: Principle And Working, Delay-Line Cancellers
Tracking Radars: Angular Tracking Systems: Conical Scan and Monopulse, Range and Velocity Tracking Systems, Fundamentals Of Electronic Warfare, Instrument Landing Systems.
TV Engineering Signal Transmission And Channel Bandwidth: Sound and Picture transmission, Signal Standards, Scanning process, Interlaced Scanning, Resolution, Video Bandwidth, Construction of Composite Video Signal, Vestigial Sideband transmission, Negative transmission, Complete Channel Bandwidth.
Monochrome TV Receivers: Block diagram of TV receiver, Antenna, Balun, R.F Tuner- Block Diagram of VHF and UHF tuners, Video I.F amplifier, Video Detector, Video Amplifier, A.G.C circuits, Sound I.F, Picture tube, Horizontal and Vertical deflection circuits
Colour Television: Colour fundamentals, Mixing of Colour, Chromaticity Diagram, Colour T.V Transmission and Reception.
1. Skolnik, “Introduction to Radar Systems”, Tata McGraw Hill.
2. Peyton Z. Peebles, Jr, “Radar Principles”, John Wiley and Sons (2004).
3. Nagaraja, “Electronic Navigation”, Tata McGraw Hill.
4. R R Gulati, “Monochrome and color Television Engineering”, WileyEastern.
5. Arvind Dhake, “Television Engineering”, Tata McGraw Hill.