Advanced Diploma of Engineering Technology - Electrical - UEE62122

TAFE Queensland Brisbane

Type of institution: TAFE Institute
Level: Vocational Education and Training (VET)
CRICOS: 03020E

This qualification covers competencies to design and validate/evaluate electrical equipment and systems and provide technical advice/sales.No licensing, legislative or certification requirements apply to this qualification at the time of publication.

Subjects

  • Implement information and knowledge management systems
  • Solve problems in magnetic and electromagnetic devices
  • Write specifications for electrical engineering projects
  • Design signal-conditioning sub-systems
  • Analyse static and dynamic parameters of electrical equipment
  • Design and develop electronics/computer systems projects
  • Evaluate and report on the performance of LV machines
  • Assemble, enter and verify operating instructions in microprocessor equipped devices
  • Develop, enter and verify programs in supervisory control and data acquisition systems
  • Modify/redesign industrial computer systems
  • Source and purchase material/parts for installation or service jobs
  • Apply introductory object-oriented language skills
  • Develop, enter and verify discrete control programs for programmable controllers
  • Design a robotic system
  • Contribute to risk management in electrotechnology systems
  • Apply introductory programming skills in different languages
  • Design effective and efficient lighting for public, open and sports areas
  • Design hybrid renewable power systems
  • Develop design briefs for electrotechnology projects
  • Troubleshoot single phase input d.c power supplies
  • Apply intermediate object-oriented language skills
  • Develop engineering solutions for induction machine and control problems
  • Prepare engineering drawings using manual drafting and CAD for electrotechnology applications
  • Provide engineering solutions for uses of materials and thermodynamic effects
  • Commission industrial computer systems
  • Develop an electrical integrated system interface for access through a touch screen
  • Develop, enter and verify word and analogue control programs for programmable logic controllers
  • Manage contract variations
  • Operate application software packages
  • Select effective and efficient light sources and luminaries for given locations and designs
  • Assemble and set up basic security systems
  • Prepare basic programs for programmable logic controllers
  • Analyse materials for suitability in electrical equipment
  • Install and maintain cabling for multiple access to telecommunication services
  • Manage team effectiveness
  • Evaluate performance of low voltage electrical apparatus
  • Establish and follow a competency development plan in an electrotechnology engineering discipline
  • Estimate electrotechnology projects
  • Plan large electrical projects
  • Design grid-connected photovoltaic power supply systems
  • Use advanced computational processes to provide solutions to energy sector engineering problems
  • Develop detailed electrical drawings
  • Design wind energy conversion systems (WECS) rated to 10 kW
  • Provide solutions to basic engineering computational problems
  • Apply work health and safety regulations, codes and practices in the workplace
  • Establish innovative work environments
  • Apply physics to solving electrotechnology engineering problems
  • Solve problems in single path circuits
  • Design energy management controls for electrical installations in buildings
  • Develop and test code for microcontroller devices
  • Design renewable energy (RE) heating systems
  • Design battery storage systems for grid-connected photovoltaic systems
  • Provide basic instruction in the use of electrotechnology apparatus
  • Develop strategies to address environmental and sustainability issues in the energy sector
  • Use drawings, diagrams, schedules, standards, codes and specifications
  • Document and apply measures to control WHS risks associated with electrotechnology work
  • Apply methods to maintain currency of industry developments
  • Repairs basic electronic apparatus faults by replacement of components
  • Provide solutions to extra-low voltage (ELV) electro-pneumatic control systems and drives
  • Classify areas where flammable gas or vapour hazards may arise
  • Solve problems in wind energy conversion systems (WECS) rated up to 10 kW
  • Manage large electrical projects
  • Design stand-alone renewable energy (RE) systems
  • Solve problems in low voltage a.c. circuits
  • Provide engineering solutions to problems in complex polyphase power circuits
  • Apply material science to solving electrotechnology engineering problems
  • Carry out basic repairs to electrical components and equipment
  • Supply effective and efficient lighting products for domestic and small commercial applications
  • Develop effective engineering strategies for energy reduction in buildings
  • Develop electrical integrated systems
  • Solve problems in stand-alone renewable energy (RE) systems
  • Provide advice on the application of energy efficient lighting for ambient and aesthetic effect
  • Provide quotations for installation or service jobs
  • Solve basic problems in photovoltaic energy apparatus and systems
  • Provide photometric data for illumination system design
  • Apply intermediate programming skills in different languages
  • Use instrumentation drawings, specifications, standards and equipment manuals
  • Design micro-hydro systems rated to 6.4 kW
  • Evaluate motor drive systems and diagnose faults
  • Design and configure Human-Machine Interface (HMI) networks
  • Carry out basic repairs to renewable energy (RE) apparatus
  • Produce detailed electrotechnology/utilities drawings using CAD equipment and software
  • Provide advice on effective and energy efficient lighting products
  • Develop engineering solution for synchronous machine and control problems
  • Fabricate, assemble and dismantle utilities industry components
  • Develop energy sector computer network applications infrastructure
  • Compile and produce an energy sector detailed report
  • Assess electronic apparatus compliance
  • Maintain documentation
  • Develop engineering solutions to photonic system problems
  • Develop detailed and complex drawings for electrical systems using CAD systems
  • Deliver a service to customers
  • Manage risk in electrotechnology activities
  • Design effective and efficient lighting for residential and commercial buildings
  • Apply industry and community standards to engineering activities
  • Configure and maintain industrial control system networks
  • Implement and monitor energy sector WHS policies and procedures
  • Modify digital signal processing (DSP) based sub-systems
  • Solve problems in direct current (d.c.) machines
  • Solve basic problems in micro-hydro systems
  • Classify areas where a combustible dust hazard may arise
  • Provide engineering solutions for problems in complex multiple path circuits
  • Plan and analyse wiring systems, circuits, control and protection for electrical installations
  • Fix and secure electrotechnology equipment
  • Interpret, produce and modify electrotechnology drawings
  • Prepare electrotechnology/utilities drawings using manual drafting and CAD equipment and software
  • Lay wiring/cabling and terminate accessories for extra-low voltage (ELV) circuits
  • Apply introductory programming techniques
  • Develop energy sector directory services
  • Develop structured programs to control external devices
  • Manage people performance
  • Use engineering applications software on personal computers
  • Install, modify and verify coaxial and structured communication copper cabling
  • Prepare tender submissions for electrotechnology projects
  • Prepare quotations for the supply of effective and efficient lighting products for lighting projects
  • Develop and implement energy sector maintenance programs
  • Solve problems in multiple path circuits
  • Design and use advanced programming tools, PC networks and HMI Interfacing
  • Develop engineering solutions to renewable energy (RE) problems
  • Facilitate continuous improvement
  • Plan the electrical installation of integrated systems
  • Plan an integrated cabling installation system
  • Develop engineering solutions for d.c. machine and control problems
  • Plan and analyse LV electrical apparatus

Study information

CampusFeesMid year intakeAttendance
ACACIA RIDGE International: $29,600 No
  • Full-time : 2 years
Alexandra Hills International: $29,600 No
  • Full-time : 2 years
Bracken Ridge International: $29,600 No
  • Full-time : 2 years
Caboolture International: $29,600 No
  • Full-time : 2 years
EAGLE FARM International: $29,600 No
  • Full-time : 2 years
Grovely (Keperra) International: $29,600 No
  • Full-time : 2 years
Inala International: $29,600 No
  • Full-time : 2 years
Ipswich International: $29,600 No
  • Full-time : 2 years
Loganlea (Meadowbrook) International: $29,600 No
  • Full-time : 2 years
Mount Gravatt International: $29,600 No
  • Full-time : 2 years
Redcliffe International: $29,600 No
  • Full-time : 2 years
South Bank (Brisbane) International: $29,600 No
  • Full-time : 2 years
SPRINGFIELD CENTRAL International: $29,600 No
  • Full-time : 2 years
Yarrabilba International: $29,600 No
  • Full-time : 2 years

Related courses

Browse more courses
Is the information on this page correct? Request update
Sign up to our newsletter for the latest scholarships and education news
You must agree before submitting.

Subscribe to our newsletter

Join the conversation