Hobart
Introduction
The aim of this unit is to provide students with expertise in the design and analysis of power electronic circuits for a variety of practical applications. The unit covers a wide range of power electronic switching devices and converter circuits which are used in many industrial applications such as variable speed motor drives, wind power generation, solar power generation, electric vehicles, HVDC transmission, computer power supplies, aircraft power supplies, household equipment, utility power systems and many industrial processes. In this unit the operating principles, design, characteristics and application of power conversion devices/circuits will be treated in detail to provide the students with the ability to design/select/maintain a reliable, efficient, cost effective and appropriate power converter for a particular application. Topics covered include: introduction to power electronics and applications, power analysis and computation, power semiconductor devices, controlled and uncontrolled rectifier circuits, pulse width modulated dc-dc converters, ac-dc inverters, voltage-source converters, converter control, and applications.
Summary 2021
Unit name | Power Electronics |
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Unit code | ENG765 |
Credit points | 12.5 |
Faculty/School | College of Sciences and Engineering School of Engineering |
Discipline | Engineering |
Coordinator | Sarah Lyden |
Available as student elective? | No |
Breadth Unit? | No |
Availability
Note
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Units are offered in attending mode unless otherwise indicated (that is attendance is required at the campus identified). A unit identified as offered by distance, that is there is no requirement for attendance, is identified with a nominal enrolment campus. A unit offered to both attending students and by distance from the same campus is identified as having both modes of study.
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TNE Program units special approval requirements.
* The Final WW Date is the final date from which you can withdraw from the unit without academic penalty, however you will still incur a financial liability (see withdrawal dates explained for more information).
Learning Outcomes
1 | Analyse the operation of power electronic circuits by applying electrical circuit analysis techniques. |
2 | Specify appropriate design criteria for power electronic converters, including in renewable energy applications. |
3 | Design reliable and efficient power electronic converter systems to satisfy criteria specified for a given application. |
4 | Evaluate the results of power electronics simulation and experimental studies through professionally prepared reports and presentations. |
Fees
Requisites
Prerequisites
KAA112 Engineering Circuits
Teaching
Teaching Pattern | 10 x 180 minute lectures, 10 x 60 minute tutorials, 3 x 180 minute practicals, 5 workshops - various lengths |
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Assessment | AT1 - Design project (30%) AT2 - Exam (40%) AT3 - Two In-semester tests (10%) AT4 - Three Lab based reports (20%) |
Timetable | View the lecture timetable | View the full unit timetable |
Textbooks
Required | None |
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The University reserves the right to amend or remove courses and unit availabilities, as appropriate.