The unit evaluates the propagation of time-harmonic electromagnetic waves in wireless and guided media using Maxwell's equations. The media covered include vacuum/air, radio frequency (RF) and microwave transmission lines, metallic waveguides, planar optical waveguides and optical fibres. The unit also explores different types of antennas that can be used to generate electromagnetic waves. In addition to these, the unit covers concepts related to electromagnetic interference (EMI) and electromagnetic compatibility (EMC). Using these concepts, the unit explores practical problems such as interference and coupling in RF/microwave circuits and discusses solutions such as grounding, shielding and filtering. In each section of this unit, the learned theory is related to real-world applications to expand your understanding.
The minimum total expected workload to achieve the learning outcomes for this unit is 144 hours per semester typically comprising a mixture of 3-6 hours of scheduled learning activities and 6-9 hours of independent study per week. Scheduled activities may include a combination of teacher-directed learning, peer-directed learning and online engagement. Independent study may include associated readings, assessment and preparation for scheduled activities.
Apply knowledge of mathematics, physics and engineering fundamentals to solving complex problems involving plane wave propagation in various media, antennas and electromagnetic compatibility.
Select and use appropriate software and hardware tools to complete transmission line, antenna and optical fibre related laboratory tasks.
Interpret solutions to complex electromagnetic problems using mathematics, physics and Maxwell's equations.
Apply appropriate techniques to solve transmission line, antenna and optical fibre related practical problems.
Communicate technical contents related to electromagnetic theory effectively individually and in a group.
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