In this you will benefit from the elements of research methodology that are contained in the programme. The thesis work is a process where you transform your knowledge into scientific writing. Be familiar with radiation theory, antenna theory and terminology. Be able to analyze and design transmission line based systems and components. Be able to understand and analyse guided wave propagation. Some courses are given every other year and can thus be studied during year 1 or 2. ECL405 Waveguides and Antennas (3-0-0) Credits: 3 Course Outcomes. In the second year you can specialize theoretically or study adjacent subjects such as physics or computer science. You will also meet applications in the form of radio systems and microwave and antenna technology. There are many technical and industrial applications that require knowledge of both these subjects, notably wireless communication and antenna and microwave technology.ĭuring the first year you will study the mathematical and statistical methods that are the foundations of advanced level telecommunications theory. Lecture 10 - Rectangular Waveguides: High Power Limitation (cont.Wave propagation and signal processing are important fields in the technical society of today. Additional information is contained concerning types of antennas, and frequency selection procedures for short and long distance radio circuits.
Lecture 09 - Waveguiding Structures: Rectangular Waveguides, High Power Limitation The Wave Propagation and Antennas Subcourse is designed to teach the knowledge necessary to identify characteristics of wave propagation and calculating antenna lengths. Lecture 08 - Parallel Plate Guide, Waveguiding Structures: Rectangular Waveguides Lecture 07 - EM Waves in Transmission Lines, Surface Waves Lecture 06 - Dielectric Loss, Conductor Loss, Radiation and Surface Wave Loss Lecture 05 - Material Properties at Millimeter Wave Frequencies, Substrate Losses Lecture 04 - Challenges in Millimeter Wave Technology
#Antenna and wave propagation video lectures skin
Lecture 03 - Phase and Group Velocity, Slow and Fast Waves, Skin Depth, Boundary Conditions Lecture 02 - Millimeter Wave Applications Lecture 01 - Introduction and Jagadish Chandra Bose's Work Do you have PowerPoint slides to share If so, share your PPT presentation slides online with. Introduction to Millimeter Wave Technology The PowerPoint PPT presentation: 'Lecture 5: Antennas and Wave Propagation' is the property of its rightful owner. Go to the Course Home or watch other lectures: The losses due to the line can be minimized by selecting low-loss lines while those of the antenna can be decreased by reducing the loss resistance represented by RL in Figure 1.2. The losses due to the line, antenna, and the standing waves are undesirable. Primary focus of this course is to introduce the design problems and their solutions at millimeter wave frequencies. standing wave are sufficiently large, they can cause arching inside the transmission lines. while implementing a millimeter wave system. However, an engineer has to deal with several design challenges in terms of higher loss, high signal-to-noise ratio, signal distortions etc. Videos you watch may be added to the TVs watch history. If playback doesnt begin shortly, try restarting your device. Then, a preliminary discussion of Maxwells Equations and the basic elements of antenna theory are described. Millimeter wave components are usually realized by frequency scaling the microwave components. This video gives a quick overview of the website. Ground wave propagation follows the contour of the earth, while sky wave propagation. 2 Propagation modes Wireless transmissions propagate in three modes: ground-wave, sky-wave, and line-of-sight. The e ective area of an idealized isotropic antenna is 1, by de nition. Mrinal Kanti Mandal, Department of Electronics and Electrical Communication Engineering, IIT Kharagpur. The e ective area of an antenna depends on the size and shape of the antenna.