UNIT I ANTENNA FUNDAMENTALS 9 Definitions Radiation intensity Directive gain Directivity Power gain Beam width Band width Gain and radiation resistance of current element Half-wave dipole and folded dipole Reciprocity principle Effective length and effective area Relation between gain, effective length and radiation resistance. Ballany, "Antenna Theory ", John Wiley & Sons, second edition, 2003 5. R.E.Collins, 'Antennas and Radio Propagation ", McGraw-Hill, 1987.Ĥ. John D.Kraus and Ronalatory Marhefka, "Antennas", Tata McGraw-Hill Bookģ. E.C.Jordan and Balmain, "Electro Magnetic Waves and Radiating Systems",Ģ. To study rhombic antenna, yagi antenna and log periodic antenna To learn special antennas such as frequency independent and broad bandġ. To study the concept of radiation and analyze radiation characteristics of a To study antenna fundamentals, loop antenna and antenna arrays. To have deep knowledge of antennas and wave propagation. Types of Antenna: Hertzian dipole, Half-wave dipole, Quarter-wave dipole, Yagi-Uda, microstrip, Parabolic antenna, Helical antenna, Antenna array.Name of the Faculty & Code: S.R.BEULAH VIOLET & NPRCET131 Radiation of electromagnetic waves: Concept of retarded potentials, Antenna Parameters: Radiation Mechanism, Current Distribution on a Thin Wire Antenna, Radiation Pattern, Radiation Power Density, Radiation Intensity, Beamwidth, Directivity, Antenna Efficiency, Gain, Beam Efficiency, Bandwidth, Polarization, Input Impedance Antenna Radiation Efficiency, Effective Length and Equivalent Areas, Maximum Directivity and Maximum Effective Area, Friis Transmission Equation and Radar Range Equation. Waveguides and Waveguide Devices: Wave propagation in waveguides, Parallel plate waveguides, TEM, TM and TE modes, Rectangular waveguides, circular waveguides, Power transmission, and attenuation, Rectangular cavity resonators, directional couplers, isolator, circulator.
and lossy lines, Shorted Line, Open-Circuited Line, Matched Line, Smith Chart, Transmission Line Applications. Transmission Lines: Typical Transmission lines- Co-axial, Two-Wire, Microstrip, Coplanar and Slot Lines, Transmission Line Parameters, Transmission Line Equations, Wave propagation in Transmission lines, low-loss, lossless line, Distortionless line, Input Impedance, Standing Wave Ratio, Power.
#EC2353 ANTENNA AND WAVE PROPAGATION LECTURE NOTES PDF#
The topics we will cover in these Transmission Lines, Antenna, and Wave Propagation Notes PDF will be taken from the following list:Įlectromagnetic Wave Propagation: Propagation in Good Conductors, Skin Effect, Reflection of uniform Plane Waves at normal incidence, Plane Wave reflection at Oblique Incidence, Wave propagation in dispersive media, concept of phase velocity and group velocity. Topics in our Transmission Lines, Antenna, and Wave Propagation Notes PDF Students can easily make use of all these Transmission Lines, Antenna, and Wave Propagation Notes PDF by downloading them. We have provided multiple complete Transmission Lines, Antenna and Wave Propagation Notes PDF for any university student of Bachelor of Science BSc Electronics Hons or MSc Electronics to enhance more knowledge about the subject and to score better marks in the exam.
Antenna parameters along with their types are also discussed. Wave propagation along with modes in waveguides is discussed along with their applications. The basics of transmission lines along with its parameters is included. In these “ Transmission Lines, Antenna and Wave Propagation Notes PDF”, we will study the fundamentals of propagation of electromagnetic waves.
Transmission Lines, Antenna and Wave Propagation Notes PDF
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