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ECE3022 - Wireless and Guided EM

6 points, SCA Band 2, 0.125 EFTSL

Undergraduate Faculty of Engineering

Leader(s): Le Binh

Offered

Clayton Second semester 2009 (Day)
Sunway Second semester 2009 (Day)

Synopsis

In this unit students will be introduced the principles of electromagnetism and wave propagation of wireless and guided waves based on the use of Maxwell's equations to analyse of more complicated structures such as radio frequency (RF) transmission lines, plane interfaces, optical waveguides and optical fibres, antenna and cylindrical metallic waveguides. Students will then apply these wave propagation principles to examine the practical issues of electromagnetic compatibility (EMC) including: interference and coupling mechanisms, RF circuit layout and grounding, interfaces, filtering and shielding and EMC measurement techniques.

Objectives

To understand the principles of propagation electromagnetic waves in wireless and guided wave structures such as RF transmission lines, plane interfaces, optical waveguides and optical fibres, antenna and cylindrical metallic waveguides. To develop a working knowledge to apply the EM wave propagation phenomena to design basic and advanced antennae and optical waveguides and fibres. To develop a working knowledge of electromagnetic compatibility (EMC) including interference and coupling mechanisms, RF circuit layout and grounding, interfaces, filtering and shielding and EMC measurement techniques.

Assessment

Continuous assessment: 30%
Examination: (3 hours): 70%. Students must achieve a mark of 45% in each of these two components to achieve an overall pass grade.

Contact hours

3 hours lectures, 3 hours laboratory and practice classes and 6 hours of private study per week

Prerequisites

ECE2021 (or ECE2201 or PHS2022) and ECE2041 (or ECE2401)

Prohibitions

ECE3202

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