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Showing 25 course outlines from 19204 matches

5951

ELECTENG 292

: Electronics
2024 Semester Two (1245)
Electronic devices and circuits for solving engineering problems. Analysis of linear and non-linear microelectronic circuits and their practical applications.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 202 or 291, or PHYSICS 121 and 244
Restriction: ELECTENG 210
5952

ELECTENG 292

: Electronics
2021 Semester Two (1215)
Electronic devices and circuits for solving engineering problems. Analysis of linear and non-linear microelectronic circuits and their practical applications.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 202 or 291
Restriction: ELECTENG 210
5953

ELECTENG 299

: Workshop Practice
2025 Semester One (1253)
Subject: Electrical a Electronic Engine
Restriction: ENGGEN 299
5954

ELECTENG 299

: Workshop Practice
2024 Semester One (1243)
Subject: Electrical a Electronic Engine
Restriction: ENGGEN 299
5955

ELECTENG 299

: Workshop Practice
2023 Semester One (1233)
Subject: Electrical a Electronic Engine
Restriction: ENGGEN 299
5956

ELECTENG 299

: Workshop Practice
2022 Semester One (1223)
Subject: Electrical a Electronic Engine
Restriction: ENGGEN 299
5957

ELECTENG 305

: Applied Electronics
2025 Semester Two (1255)
An advanced treatment of electronic circuits including a rigorous treatment of feedback, device limitations, noise effects, stability, and design considerations. Emphasis on common practical circuits taken from analog and switching applications.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 202 or 291, and 210 or 292
5958

ELECTENG 305

: Applied Electronics
2024 Semester Two (1245)
An advanced treatment of electronic circuits including a rigorous treatment of feedback, device limitations, noise effects, stability, and design considerations. Emphasis on common practical circuits taken from analog and switching applications.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 202 or 291, and 210 or 292
5959

ELECTENG 305

: Applied Electronics
2022 Semester Two (1225)
An advanced treatment of electronic circuits including a rigorous treatment of feedback, device limitations, noise effects, stability, and design considerations. Emphasis on common practical circuits taken from analog and switching applications.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 202 or 291, and 210 or 292
5960

ELECTENG 305

: Applied Electronics
2021 Semester Two (1215)
An advanced treatment of electronic circuits including a rigorous treatment of feedback, device limitations, noise effects, stability, and design considerations. Emphasis on common practical circuits taken from analog and switching applications.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 202 or 291, and 210 or 292
5961

ELECTENG 307

: Fields and Waves
2025 Semester One (1253)
Transmission lines subjected to AC excitation, the Smith chart, introduction to matching network design and introduction to antennas for radio systems. Maxwell’s equations in differential and integral form, divergence and Stokes’ theorems, skin effect and uniform plane waves (lossless/lossy media, reflection and transmission, polarisation). Case studies in computational electromagnetics.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5962

ELECTENG 307

: Fields and Waves
2024 Semester One (1243)
Transmission lines subjected to AC excitation, the Smith chart, introduction to matching network design and introduction to antennas for radio systems. Maxwell’s equations in differential and integral form, divergence and Stokes’ theorems, skin effect and uniform plane waves (lossless/lossy media, reflection and transmission, polarisation). Case studies in computational electromagnetics.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5963

ELECTENG 307

: Fields and Waves
2023 Semester One (1233)
Transmission lines subjected to AC excitation, the Smith chart, introduction to matching network design and introduction to antennas for radio systems. Maxwell’s equations in differential and integral form, divergence and Stokes’ theorems, skin effect and uniform plane waves (lossless/lossy media, reflection and transmission, polarisation). Case studies in computational electromagnetics.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5964

ELECTENG 307

: Fields and Waves
2021 Semester One (1213)
Transmission lines subjected to AC excitation, the Smith chart, introduction to matching network design and introduction to antennas for radio systems. Maxwell’s equations in differential and integral form, divergence and Stokes’ theorems, skin effect and uniform plane waves (lossless/lossy media, reflection and transmission, polarisation). Case studies in computational electromagnetics.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5965

ELECTENG 307

: Fields and Waves
2020 Semester One (1203)
Transmission lines subjected to AC excitation, the Smith chart, introduction to matching network design and introduction to antennas for radio systems. Maxwell’s equations in differential and integral form, divergence and Stokes’ theorems, skin effect and uniform plane waves (lossless/lossy media, reflection and transmission, polarisation). Case studies in computational electromagnetics.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5966

ELECTENG 309

: Power Apparatus and Systems
2025 Semester Two (1255)
Introduces students to three-phase electric machines and power system components. Covers theory, modelling and practical aspects for synchronous machines, induction machines, transformer connections, transmission lines and substation components.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5967

ELECTENG 309

: Power Apparatus and Systems
2024 Semester Two (1245)
Introduces students to three-phase electric machines and power system components. Covers theory, modelling and practical aspects for synchronous machines, induction machines, transformer connections, transmission lines and substation components.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5968

ELECTENG 309

: Power Apparatus and Systems
2023 Semester Two (1235)
Introduces students to three-phase electric machines and power system components. Covers theory, modelling and practical aspects for synchronous machines, induction machines, transformer connections, transmission lines and substation components.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 204
5969

ELECTENG 310

: Electrical Engineering Design 1
2025 Semester One (1253)
An appreciation of the design process as applied to electrical and electronic engineering systems. Design skills are enhanced through engineering projects which typically involve modelling, simulation and analogue/digital electronic hardware design. Professional issues introduced in ENGGEN 204, 303 and 403 (ethics, sustainability, cultural awareness, communication, leadership, teamwork, financial awareness, safety in design) and design for repair are reinforced and developed.
Subject: Electrical a Electronic Engine
Prerequisite: COMPSYS 201, and COMPSYS 209 or ELECTENG 209, and ELECTENG 202 or 291, and COMPSYS 202 or SOFTENG 281
5970

ELECTENG 310

: Electrical Engineering Design 1
2024 Semester One (1243)
An appreciation of the design process as applied to electrical and electronic engineering systems. Design skills are enhanced through engineering projects which typically involve modelling, simulation and analogue/digital electronic hardware design. Professional issues introduced in ENGGEN 204, 303 and 403 (ethics, sustainability, cultural awareness, communication, leadership, teamwork, financial awareness, safety in design) and design for repair are reinforced and developed.
Subject: Electrical a Electronic Engine
Prerequisite: COMPSYS 201, and COMPSYS 209 or ELECTENG 209, and ELECTENG 202 or 291, and COMPSYS 202 or SOFTENG 281
5971

ELECTENG 310

: Electrical Engineering Design 1
2023 Semester One (1233)
An appreciation of the design process as applied to various electrical and electronic engineering systems. Design skills are enhanced through a variety of engineering projects which typically introduce students to modelling, simulation and analogue and digital electronic hardware design.
Subject: Electrical a Electronic Engine
Prerequisite: COMPSYS 201, and COMPSYS 209 or ELECTENG 209, and ELECTENG 202 or 291, and COMPSYS 202 or SOFTENG 281
5972

ELECTENG 310

: Electrical Engineering Design 1
2020 Semester One (1203)
An appreciation of the design process as applied to various electrical and electronic engineering systems. Design skills are enhanced through a variety of engineering projects which typically introduce students to modelling, simulation and analogue and digital electronic hardware design.
Subject: Electrical a Electronic Engine
Prerequisite: COMPSYS 201, ELECTENG 209, and ELECTENG 202 or 291, and COMPSYS 202 or SOFTENG 281
5973

ELECTENG 311

: Electrical Engineering Design 2
2025 Semester Two (1255)
The formal introduction to the design process is completed by one or more open-ended projects which typically include elements of design from concept to working prototype. Professional issues introduced in ENGGEN 303 (health and safety, sustainability, cultural diversity/awareness, communication, leadership, teamwork, financial awareness) and design for repair are reinforced and developed.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 310
5974

ELECTENG 311

: Electrical Engineering Design 2
2024 Semester Two (1245)
The formal introduction to the design process is completed by one or more open-ended projects which typically include elements of design from concept to working prototype. Professional issues introduced in ENGGEN 303 (health and safety, sustainability, cultural diversity/awareness, communication, leadership, teamwork, financial awareness) and design for repair are reinforced and developed.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 310
5975

ELECTENG 331

: Signals and Systems
2025 Semester Two (1255)
Introduction to continuous-time and discrete-time signals and systems. Spectral analysis and representation of analog and digital signals, and linear, time-invariant systems. Conversion between analog and digital signals. Systems for manipulating and filtering signals in hardware and software.
Subject: Electrical a Electronic Engine
Prerequisite: ELECTENG 202 or 291, or PHYSICS 140 and 244
Restriction: ELECTENG 303