• Offered by Research School of Engineering
  • ANU College ANU College of Engineering and Computer Science
  • Classification Advanced
  • Course subject Engineering
  • Areas of interest Engineering, Electronics
  • Academic career PGRD
  • Course convener
    • Dr Rodney Kennedy
  • Mode of delivery In Person
  • Co-taught Course
  • Offered in Second Semester 2018
    See Future Offerings

Modern power electronics devices and circuits are now in widespread use, across an ever-increasing number of power conversion and power control applications. The purpose of this course is to give a detailed introduction to the key aspects of power electronic circuits, components and design.

Techniques for analysing and designing switch-mode power supplies, DC-DC converters, power rectifiers,  static power inverters and universal power supplies are examined, along with electric machines, motors and transformers, and their associated power electronics drive requirements. The course also gives an overview of the electrical power system and power systems analysis, in the context of power electronics applications and their interaction with the power network.

This course will provide a strong foundation in power electronics for systems engineers and project engineers, including a strong laboratory component. This course should give students a very solid overview of topics that would often be covered in considerable detail in multiple power electrical engineering courses, with the goal of giving the students a good level of coverage of the fundamentals across the power systems and power electronics fields.

Learning Outcomes

Upon successful completion, students will have the knowledge and skills to:

    Upon successful completion of this course, students should be able to:

    1. Apply power circuit analysis techniques to interpret and solve balanced and unbalanced three-phase power circuits and power networks with linear and non-linear loads.
    2. Relate fundamental semiconductor physics to properties and operation of semiconductor switching devices, and identify and interpret those properties unique to power devices.
    3. Understand the fundamental theory and operation of high-frequency switching circuits and combine circuit mathematics with characteristics of linear and non-linear devices to analyse and evaluate different power conversion applications.
    4. Apply advanced knowledge and analysis techniques to design and critically assess key aspects of power converters such as rectifiers, DC-DC converters and AC-DC inverters.
    5. Understand the fundamentals of transformers and induction motors, analyse and interpret their operation, and evaluate power circuits used for control of motors.
    6. Critique various power electronics circuits, concepts and applications in the context of their impact upon the power network, in particular assessing the impacts on power quality, power factor and harmonic interference.
    7. Research, design, construct and simulate a complete power conversion application based on a complex set of user specifications (major project).
    8. Apply research skills to develop a thorough understanding of a complex or emerging power electronics technology beyond the scope of supplied course materials, performing an evaluation and appraisal of the technology.

    Professional Skills Mapping

    Mapping of Learning Outcomes to Assessment and Professional Competencies

    Indicative Assessment

    This course is assessed across a range of assessment activities:
    1. Tutorial/Quizzes: 15%,
    2. Computer Labs: 10%,
    3. Hardware Labs: 15%,
    4. Design Project: 10%,
    5. Research paper presentation: 10%,
    6. Final exam: 40%.

    The ANU uses Turnitin to enhance student citation and referencing techniques, and to assess assignment submissions as a component of the University's approach to managing Academic Integrity. While the use of Turnitin is not mandatory, the ANU highly recommends Turnitin is used by both teaching staff and students. For additional information regarding Turnitin please visit the ANU Online website.

    Workload

    Eight two-hour tutorials (16 hours) Two two-hour computer labs (4 hours) Four three-hour hardware labs (HLAB2 has two sessions) (15 hours).Masters presentations (8 hours)

    Requisite and Incompatibility

    To enrol in this course you must be studying Master of Engineering. Incompatible with ENGN4625.

    Prescribed Texts

    • N. Mohan, T. M. Undeland and W. P. Robbins, Power Electronics, Third Edition, Wiley, 2003.

    Fees

    Tuition fees are for the academic year indicated at the top of the page.  

    If you are a domestic graduate coursework or international student you will be required to pay tuition fees. Tuition fees are indexed annually. Further information for domestic and international students about tuition and other fees can be found at Fees.

    Student Contribution Band:
    2
    Unit value:
    6 units

    If you are an undergraduate student and have been offered a Commonwealth supported place, your fees are set by the Australian Government for each course. At ANU 1 EFTSL is 48 units (normally 8 x 6-unit courses). You can find your student contribution amount for each course at Fees.  Where there is a unit range displayed for this course, not all unit options below may be available.

    Units EFTSL
    6.00 0.12500
    Domestic fee paying students
    Year Fee
    2018 $4080
    International fee paying students
    Year Fee
    2018 $5400
    Note: Please note that fee information is for current year only.

    Offerings, Dates and Class Summary Links

    The list of offerings for future years is indicative only.
    Class summaries, if available, can be accessed by clicking on the View link for the relevant class number.

    Second Semester

    Class number Class start date Last day to enrol Census date Class end date Mode Of Delivery Class Summary
    7969 23 Jul 2018 30 Jul 2018 31 Aug 2018 26 Oct 2018 In Person N/A

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