Power Engineering
Unit of study | Credit points | A: Assumed knowledge P: Prerequisites C: Corequisites N: Prohibition | Session |
---|---|---|---|
Master of Engineering majoring in Power Engineering |
|||
To qualify for the award of the Master of Engineering in this specialisation, a candidate must complete 72 credit points, including core and elective units of study as listed below. | |||
Candidates with a Bachelor of Engineering Honours or equivalent in the relevant discipline, and who have reached the required level of academic achievement in their prior degree, may be eligible for a reduction of volume in learning of up to 24 credit points. | |||
Core units |
|||
Candidates must complete 24 credit points of Core units. | |||
Where Reduced Volume Learning has been granted candidates must complete a minimum of 12 credit points of Core units. | |||
ENGG5102 Entrepreneurship for Engineers |
6 | A Some limited industry experience is preferred but not essential. N ELEC5701 |
Semester 1 |
ENGG5202 Sustainable Design, Eng and Mgt |
6 | A General knowledge in science and calculus and understanding of basic principles of chemistry, physics and mechanics |
Semester 1 |
ENGG5103 Safety Systems and Risk Analysis |
6 | Semester 2 |
|
PMGT5871 Project Process Planning and Control |
6 | Intensive July Semester 1 Semester 2 Summer Main |
|
Specialist units |
|||
Candidates must complete 24 credit points of Specialist units, but may take additional units as Electives. | |||
Where Reduced Volume Learning has been granted candidates must complete a minimum of 24 credit points of Specialist units. | |||
Exchange units may be taken as Specialist units with the approval of the Program Director. | |||
ELEC5203 Topics in Power Engineering |
6 | A ELEC3203 Power Engineering and ELEC3204 Power Electronics and Drives.Familiarity with basic mathematics and physics; competence with basic circuit theory and understanding of electricity grid equipment such as transformers, transmission lines and associated modeling; and fundamentals of power electronic technologies. |
Semester 2 |
ELEC5204 Power Systems Analysis and Protection |
6 | A The unit assumes basic knowledge of circuits, familiarity with basic mathematics, competence with basic circuit theory and an understanding of three phase systems, transformers, transmission lines and associated modeling and operation of such equipment. P (ELEC3203 OR ELEC9203 OR ELEC5732) AND (ELEC3206 OR ELEC9206 OR ELEC5734) |
Semester 1 |
ELEC5205 High Voltage Engineering |
6 | A The following previous knowledge is assumed for this unit. Circuit analysis techniques, electricity networks, power system fundamentals. P (ELEC3203 OR ELEC9203 OR ELEC5732) AND (ELEC3206 OR ELEC9206 OR ELEC5734) |
Semester 2 |
ELEC5206 Sustainable Energy Systems |
6 | A Following concepts are assumed knowledge for this unit of study: familiarity with transformers, ac power, capacitors and inductors, electric circuits such as three-phase circuits and circuits with switches, and basic electronic circuit theory. |
Semester 2 |
ELEC5207 Advanced Power Conversion Technologies |
6 | A ELEC3204 |
Semester 2 |
ELEC5208 Intelligent Electricity Networks |
6 | A Fundamentals of Electricity Networks, Control Systems and Telecommunications |
Semester 1 |
ELEC5211 Power System Dynamics and Control |
6 | A The assumed knowledge for learning this UoS is a deep understanding on circuit analysis and its applications in power system steady state analysis. P ELEC3203 OR ELEC9203 OR ELEC5732 |
Semester 1 |
ELEC5212 Power System Planning and Markets |
6 | A The assumed knowledge for learning this UoS is power system steady state analysis P ELEC3203 or ELEC9203 OR ELEC5732 |
Semester 2 |
Research units |
|||
All candidates are required to complete a minimum of 12 credit points from the following units: | |||
ELEC5020 Capstone Project A |
6 | P 96 cp from MPE degree program or 48 cp from the MPE(Accel) program or 24 cp from the ME program (including any credit for previous study). |
Semester 1 Semester 2 |
ELEC5021 Capstone Project B |
6 | C ELEC5020 N ELEC5022 OR ELEC5222 OR ELEC5223 Note: Department permission required for enrolment |
Semester 1 Semester 2 |
ELEC5022 Capstone Project B Extended |
12 | P 24 credit points in the Master of Engineering and WAM >=70, or 96 credit points in the Master of Professional Engineering and WAM >=70 or 48cp from MPE(Accel) program and WAM >=70 N ELEC5021 OR ELEC5222 OR ELEC5223 Note: Department permission required for enrolment |
Semester 1 Semester 2 |
ELEC5222 Dissertation A |
12 | N ELEC8901 or ENGG5223 or ENGG5222 or ELEC8902 Note: Department permission required for enrolment In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. The topic of your project must be determined in discussion with the supervisor. The supervisor can come from any of the Engineering Departments, however, they need to send confirmation of their supervision approval to the Postgraduate Administrator. |
Semester 1 Semester 2 |
ELEC5223 Dissertation B |
12 | N ELEC8901 or ELEC8902 or ENGG5222 or ENGG5223 Note: Department permission required for enrolment In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. The topic of your project must be determined in discussion with the supervisor. The supervisor can come from any of the Engineering Departments, however, they need to send confirmation of their supervision approval to the Postgraduate Administrator. |
Semester 1 Semester 2 |
With permission from the Program Director candidates progressing with distinction (75%) average or higher results may replace ELEC5020, ELEC5021 and 12 credit points of electives with ELEC5222 & ELEC5223 Dissertation A & B. | |||
A candidate who has been granted RVL and who is eligible to undertake the extended capstone project or dissertation may be granted exemption of up to 12 credit points of specialist units. | |||
Elective units |
|||
Candidates may complete a maximum of 12 credit points from the following units: | |||
Specialist units may also be taken as Elective units. Other Postgraduate units in the Faculty may be taken as Elective units with the approval of the Program Director. | |||
Electives may be approved for candidates who have been granted RVL with the approval of the Program Director. | |||
COMP5047 Pervasive Computing |
6 | A ELEC1601 AND (COMP2129 OR COMP2017). Background in programming and operating systems that is sufficient for the student to independently learn new programming tools from standard online technical materials. Note: Department permission required for enrolment |
Semester 2 |
COMP5416 Advanced Network Technologies |
6 | A ELEC3506 OR ELEC9506 OR ELEC5740 OR COMP5116 |
Semester 2 |
COMP5426 Parallel and Distributed Computing |
6 | Semester 1 |
|
ELEC5507 Error Control Coding |
6 | A Fundamental mathematics including probability theory and linear algebra. Basic knowledge on digital communications. Basic MATLAB programming skills is desired. |
Semester 1 |
ELEC5508 Wireless Engineering |
6 | A Basic knowledge in probability and statistics, analog and digital communications, error probability calculation in communications channels, and telecommunications network. |
Semester 2 |
ELEC5509 Mobile Networks |
6 | A ELEC3505 AND ELEC3506. Basically, students need to know the concepts of data communications and mobile communications, which could be gained in one the following units of study: ELEC3505 Communications, ELEC3506 Data Communications and the Internet, or similar units. If you are not sure, please contact the instructor. |
Semester 1 |
ELEC5510 Satellite Communication Systems |
6 | A Knowledge of error probabilities, analog and digital modulation techniques and error performance evaluation studied in ELEC3505 Communications and ELEC4505 Digital Communication Systems, is assumed. |
Semester 2 |
ELEC5511 Optical Communication Systems |
6 | A (ELEC3405 OR ELEC9405) AND (ELEC3505 OR ELEC9505). Basic knowledge of communications, electronics and photonics - |
Semester 1 |
ELEC5512 Optical Networks |
6 | A Knowledge of digital communications, wave propagation, and fundamental optics |
Semester 2 |
ELEC5514 Networked Embedded Systems |
6 | A ELEC3305 AND ELEC3506 AND ELEC3607 AND ELEC5508 P ELEC5509 |
Semester 2 |
ELEC5516 Electrical and Optical Sensor Design |
6 | A Math Ext 1, fundamental concepts of signal and systems, fundamental electrical circuit theory and analysis |
Semester 1 |
ELEC5616 Computer and Network Security |
6 | A A programming language, basic maths. |
Semester 1 |
ELEC5618 Software Quality Engineering |
6 | A Writing programs with multiple functions or methods in multiple files; design of complex data structures and combination in non trivial algorithms; use of an integrated development environment; software version control systems. |
Semester 1 |
ELEC5619 Object Oriented Application Frameworks |
6 | A Java programming, and some web development experience are essential. Databases strongly recommended |
Semester 2 |
ELEC5620 Model Based Software Engineering |
6 | A A programming language, basic maths. |
Semester 2 |
ELEC5622 Signals, Software and Health |
6 | Semester 2 |
|
ELEC6901 Electrical Exchange Unit 1A |
6 | Intensive January Intensive July Semester 1 |
|
ELEC6902 Electrical Exchange Unit 1B |
12 | Intensive January Intensive July Semester 1 |
|
ELEC6903 Electrical Exchange Unit 1C |
24 | Semester 1 |
|
ELEC6904 Electrical Exchange Unit 2A |
6 | Intensive January Intensive July Semester 2 |
|
ELEC6905 Electrical Exchange Unit 2B |
12 | Intensive January Intensive July Semester 2 |
|
ELEC6906 Electrical Exchange Unit 2C |
24 | Semester 2 |
For more information on degree program requirements visit CUSP (https://cusp.sydney.edu.au).