Description
A Rectangular Waveguide is an electromagnetic wave transmission line that follows the principles of waveguide transmission to transport waves between the source and destination points. A Rectangular Waveguide has certain characteristics that you need to grasp for a complete understanding of the theory. It operates by confining electromagnetic power within its walls, effectively guiding the power to its destination point. Firstly, the structure of a Rectangular Waveguide can be defined by two important dimensions: the width (?) and the height (?) of the guide. Apparently, these dimensions are crucial as they dictate the guide’s cut-off frequency. The cut-off frequency (??) of a waveguide depends on its geometry A deep understanding of Rectangular Waveguide theory requires comprehension of the concept of Field Distribution. This term refers to the manner in which the electromagnetic field varies within the waveguide structure. In a Rectangular Waveguide, there are two types of field distributions:.
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Transverse Electric (TE)
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Transverse Magnetic (TM)
InTE mode, all electric fields are perpendicular (transverse) to the direction of propagation, which means there is no electric field in the direction of propagation. While inTM mode, all magnetic fields are transverse to the direction of propagation, indicating no magnetic field in the direction of propagation.
Microwave signal can be generated using solid state devices.
Who this course is for:
- Under graduate students.
Course content
- Introduction2 lectures • 36min
- Introduction
- Generation of microwave signal using solid state devices2 lectures • 45min
- Generation of microwave signal using solid state devices
- Crossfield amplifier1 lecture • 8min
- Crossfield amplifier
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