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#1
3rd November 2017, 10:51 AM
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| WBUT EM Theory
Can you provide me the syllabus of Electromagnetic Theory & Transmission Lines under 4th Semester of B Tech Electronics & Communication Engineering program of WBUT, now Maulana Abul Kalam Azad University of Technology?
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#2
3rd November 2017, 12:21 PM
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| Re: WBUT EM Theory
The syllabus of Electromagnetic Theory & Transmission Lines under 4th Semester of B Tech Electronics & Communication Engineering program of WBUT, now Maulana Abul Kalam Azad University of Technology is as follows: Electromagnetic Theory & Transmission Lines Code : EC 401 Credits :4 Electromagnetic Theory 1. Vector calculus orthogonal Coordinate System, Transformations of coordinate systems; Del operator; Gradient, Divergence, Curl their physical interpretations; Laplacian operator. 2. Coulombs law, electric field intensity, charge distribution; Gauss law, flux density and electric field intensity. Divergence theorem. Current Densities, Conductors, Poissons & Laplaces equations. Uniqueness theorem, BiotSavart law, Amperes law, Relation between J & H, Vector magnetic Potential, Stokes theorem 3. Faradays law & Lenzs law. Displacement Current, Jc JD Relation, Maxwells equations, Time-harmonic fields, Wave Equation, Boundary Conditions between media interface; Uniform Plane wave; Plane Wave Propagation in Lossy Dielectric, Loss-less Dielectric, Good Conductor, Free space; Poynting Theorem, Power flow, Poynting vector, Skin Depth, Surface Resistance; Reflection and Transmission for normal incidence. Transmission Lines 4. Transmission Lines; Concept of Lumped parameters and Distributed parameters. Line Parameters, Transmission line equations and solutions, Physical significance of the solutions, Propagation constant, Characteristic Impedance; Wavelength; Velocity of Propagation; Distortion-less Line, Reflection and Transmission coefficients; Standing Waves, VSWR, Input Impedance, Smith Chart -Applications; Load Matching Techniques / Quarter wave Matching, Bandwidth problem; Low loss RF transmission lines, line as circuit elements. 5. Types of transmission line (open 2-wire, coaxial line, micro strip coplanar waveguide), applications and limitations: Design principle, Power handling capacity. Power Dissipation, Breakdown with coaxial line and micro strip line as examples. Radiation of E M Waves 6. Antenna Concepts, Antenna Characteristic; Hertzian dipole (Radiation Fields, Radiation Resistance, Radiation patterns, Directive Gain); Properties and typical applications of Half-wave dipole, Loop antenna, Yagi-Uda array, Array Antennas. |
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