Graduate Certificate in Electrical Engineering
Royal Melbourne Institute of Technology
About
The program objectives are:To develop your knowledge and skills in electrical engineering that will enhance your career prospects in the relevant industries including power transmission and distribution and electronics industry.
To facilitate learning of electrical engineering concepts and applications that are directly linked to industry needs.
To provide a pathway for graduates from other engineering and appropriate science degrees to articulate into electrical engineering.
Structure
All Courses listed may not be available each Semester.
Year One of the Program
Select and complete Two (2) Courses from:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Renewable Electrical Energy Systems | 12 | EEET2335 | City Campus |
| Protection and High Voltage Engineering | 12 | EEET2336 | City Campus |
| Electrical Energy Conversion | 12 | EEET2337 | City Campus |
| Advanced Control Systems (PG) | 12 | EEET1368 | City Campus |
Select and complete Two (2) Courses from:
| Course Title | Credit Points | Course Code | Campus |
|---|---|---|---|
| Digital Signal Processing | 12 | EEET1123 | City Campus |
| Optical Fibre Systems and Networks PG | 12 | EEET1126 | City Campus |
| Antennas for Mobile and Satellite Communications PG | 12 | EEET1131 | City Campus |
| Optical Fibre Technology PG | 12 | EEET1133 | City Campus |
| Satellite Communication Systems Engineering PG | 12 | EEET1138 | City Campus |
| Mobile and Personal Commun Systems Engineering PG | 12 | EEET1141 | City Campus |
| Network Access Systems (PG) | 12 | EEET1148 | City Campus |
| Network Services and Internet Applications (PG) | 12 | EEET1152 | City Campus |
| Image Systems Engineering | 12 | EEET1255 | City Campus |
| Digital Design Automation | 12 | EEET1256 | City Campus |
| Real Time Systems Design | 12 | EEET1262 | City Campus |
| Electronic Manufacturing (PG) | 12 | EEET1457 | City Campus |
| Audio Engineering (PG) | 12 | EEET1462 | City Campus |
| Sensors and Measurement Technologies | 12 | EEET1464 | City Campus |
| Medical Engineering and Instrumentation (PG) | 12 | EEET1465 | City Campus |
| Circuit and System Simulation (PG) | 12 | EEET1467 | City Campus |
| Signal Processing for Multimedia and Telemedicine | 12 | EEET1471 | City Campus |
| Project Management & Entrepreneurship (PG) | 12 | EEET2047 | City Campus |
| MicroNanoSystems, MEMS, and NEMS | 12 | EEET2044 | City Campus |
| Semiconductor Device Fabrication | 12 | EEET2045 | City Campus |
| Numerical Analysis of Electronic Devices | 12 | EEET2147 | City Campus |
| Electronic Materials | 12 | EEET2148 | City Campus |
| Real Time Estimation and Control | 12 | EEET2223 | City Campus |
| Smart Embedded Systems | 12 | EEET2227 | City Campus |
| Network Engineering | 12 | EEET2291 | City Campus |
| RF and Microwave Circuits | 12 | EEET2309 | City Campus |
| Radar Systems | 12 | EEET2310 | City Campus |
| Radar Systems 2 | 12 | EEET2311 | City Campus |
| Computer Robotics Control | 12 | EEET2315 | City Campus |
| Intelligent Systems | 12 | EEET2316 | City Campus |
| Network Design and Performance | 12 | EEET2317 | City Campus |
| Bioelectromagnetism | 12 | EEET2331 | City Campus |
| Biosignal Processing and Computing | 12 | EEET2332 | City Campus |
| Variable Speed Drives | 12 | EEET2338 | City Campus |
| Power System Analysis and Control | 12 | EEET2339 | City Campus |
| Introduction to Electrical Building Design | 12 | EEET2385 | City Campus |
| Industrial Automation | 12 | EEET2388 | City Campus |
| Switched Mode Power Supplies | 12 | EEET2387 | City Campus |
| Advanced Power Systems | 12 | EEET2381 | City Campus |
| Power Electronic Converters | 12 | EEET2389 | City Campus |
| Electrical Transport Engineering | 12 | EEET2383 | City Campus |
Entry requirements
Academic (all students local and international) Successful completion of a bachelor’s degree in science or engineering in computer, electronic, telecommunications or electrical disciplines; or be qualified technologist with relevant industrial experience. International: English Language Requirements: One of the following:
- IELTS – 6.5+ (no band less than 6.0)
- TOEFL – Paper based = 580+ (TWE 4.5+)
- TOEFL – Computer based = 237+ (TWE 4.5+)
- REW – English for Academic Purposes Advanced 1&2
Learning outcomes
Graduates will have the following capabilities:
- High levels of technical competence in the field
- Be able to apply problem solving approaches to work challenges and make decisions using sound engineering methodologies
- Be able to apply a systematic design approach to engineering projects and have strong design skills in their stream
- Communicate effectively across all modes: listen, speak, write and draw
- Apply the principles of lifelong learning to any new challenge
These graduate attributes align closely to the generic attributes of professional engineers as identified by Engineers Australia.
Institution
