Advanced Diploma Of Electronics & Communications Engineering

Advanced Diploma Of Electronics & Communications Engineering

(Includes RePL Course from Ace Aviation)

VET NATIONAL CODE: UEE60211

Total Duration

104 Weeks

(80 weeks Tuition + 24 weeks Break)

Location

NSW/QLD Campuses (AIBT-I)

Pricing

OffShore Int Student: $28,800 *

OnShore Student Visa Holder: $24,000 *

*Total Materials Fee $2,000

This qualification provides competencies to design and validate/evaluate electronics and communication equipment and systems, manage risk, estimate and manage projects and provide technical advice/sales.

Completion of an AIBT-I qualification does not guarantee an employment outcome.

This qualification will only fulfil the academic requirements, not a licensed trade qualification.

Please Note:

Remote Pilot Licence (RePL) is recognised, approved and issued by Civil Aviation Safety Authority (CASA) www.casa.gov.au and is not required to be accredited by Australian Skills Quality Authority (ASQA).

Prior to Commencement:

Prior to commencement of Advanced Diploma of Electronics and Communications, it is mandatory for all students to complete a 12 week Electronic Foundation Program with AIBT-I.

This 12 week Electronic Foundation Program is not accredited with Australian Skills Quality Authority (ASQA). During this program, all students will be taught the basic theoretical foundation of electronics as listed below. The successful understanding of the key electronic concepts, would allow a student to succeed in the practical application in an electronic and communication industry:

  • The electric circuit
  • Voltage sources and effects of an electric current
  • Ohm’s law
  • Electrical power
  • Resistance and resistors
  • The series circuit
  • The parallel circuit
  • The series-parallel circuit
  • Basic meters
  • Capacitance
  • Magnetism and electromagnets
  • Electromagnetic induction
  • DC generators
  • DC motors
  • AC fundamental
  • Pure R, L or C in an AC circuit
  • Series combinations of R, L and C
  • Parallel AC circuits
  • Loop Analysis of Electric Circuits
  • Loop Currents and Branch Currents
  • Single and Three Phase Circuits
National Code:
UEE60211
CRICOS Course Code:
097113M
Nationally Recognised:
Delivery mode:

AIBT-I
In Class (NSW/QLD)

Assessment:
A variety of assessment methods form part of this course including written assignments, presentations, portfolios of work, role plays and projects.
Start dates:

January, March, June, July, September and October

Awarded by
Australia Institute of Business and Technology – International Pty Ltd (AIBTI)
RTO Code 45169 / CRICOS: 03610E
Packaging Rules:

To achieve an Advanced Diploma of Electronics & Communications Engineering, a total of 45 units must be completed:

The requirements for granting this qualification will be met when competency is demonstrated and achieved for all the Core competency standard units and a combination of Elective competency standard units to achieve a total weighting of 1880 points
To achieve an Advanced Diploma of Electronics and Communications Engineering (UEE60211), a total of 41 units must be completed:

• 11 core units, total weighting points 280
• 30 elective units, total weighting points 1890

Please contact us regarding prerequisites for units in this qualification.

Total Materials Fee – $2,000

Materials fee covers the cost of goods, materials and/or services provided by AIBTI to be used by students in the course of training.

The Materials Fees in this qualification include:

  • Trade tools
  • Class materials
  • Printing
  • Stationery
  • Safety wear
  • Uniforms
  • Excursions

Core Subjects

 
UEENEEE015B
Develop design briefs for electrotechnology projects
UEENEEE038B
Participate in development and follow a personal competency development plan
UEENEEE078B
Contribute to risk management in electrotechnology systems
UEENEEE101A
Apply Occupational Health and Safety regulations, codes and practices in the workplace
UEENEEE117A
Implement and monitor energy sector OHS policies and procedures
UEENEEE137A
Document and apply measures to control OHS risks associated with electrotechnology work
UEENEEH141A
Manage computer systems/electronics projects
UEENEEH167A
Commission electronics and communications systems
UEENEEH168A
Modify – redesign of electronics and communications systems
UEENEEH188A
Design and develop electronics/ computer systems projects
UEENEEK132A
Develop strategies to address environmental and sustainability issues in the energy sector
 
 

Elective Subjects

 
BSBMGT502*
Manage people performance
BSBINM501*
Manage an information or knowledge management system
BSBMGT516*
Facilitate continuous improvement
BSBINN502*
Build and sustain an innovative work environment
BSBWOR502*
Lead and manage team effectiveness
UEENEED112A*
Support computer hardware and software for engineering applications
UEENEED129A*
Develop web pages for engineering applications
UEENEEE102A*
Fabricate, assemble and dismantle utilities industry components
UEENEEE104A*
Solve problems in d.c. circuits
UEENEEE105A*
Fix and secure electrotechnology equipment
UEENEEE107A*
Use drawings, diagrams, schedules, standards, codes and specifications
UEENEEE123A*
Solve basic problems electronic and digital equipment and circuits
UEENEEH112A*
Troubleshoot digital sub-systems
UEENEEH123A*
Fault find and repair microwave heating apparatus
UEENEEH139A*
Troubleshoot basic amplifier circuits
UEENEEH150A*
Assemble and set up basic security systems
UEENEEH172A*
Troubleshoot communication systems
UEENEEP024A*
Attach cords and plugs to electrical equipment for connection to a single phase 230 Volt supply
UEENEEC007B*
Manage contract variations
UEENEED152A*
Design embedded controller control systems
UEENEEE011C*
Manage risk in electrotechnology activities
UEENEEE082A*
Apply physics to solving electrotechnology engineering problems
UEENEEE127A*
Use advanced computational processes to provide solutions to energy sector engineering problems
UEENEEE129A*
Solve electrotechnical engineering problems
UEENEEE161A*
Analyse static and dynamic parameters of electrical equipment
UEENEEE163A*
Analyse materials for suitability in electrical equipment
UEENEEH160A*
Plan large electronic projects
UEENEEH184A*
Modify digital signal processing (DSP) based sub-systems
UEENEEH189A*
Provide Gate Array solutions for complex electronics systems
UEENEEI123A*
Design electronic control systems
 
* The above selected elective units can be substituted for any of the elective units from the training package, which forms part of this training and assessment strategy.
Australia Institute of Business and Technology International will also deliver units of competency for the purposes of this qualification, Advanced Diploma of Electronics and Communications Engineering (UEE60211), as listed in https://training.gov.au/Training/Details/UEE60211


Academic requirement:
Completion of Australian year 12 or equivalent with satisfactory completion of mathematics and physics.
English requirement:
A minimum of IELTS 6.0 is required.
International Students who do not meet the English language requirements for this course may undertake English Language Intensive Course for Overseas Students (ELICOS) according to the English Learning Matrix.

Prior to commencement of Advanced Diploma of Electronics and Communications, it is mandatory for all students to complete a 12 week Electronic Foundation Program with AIBT-I.

This 12 week Electronic Foundation Program is not accredited with Australian Skills Quality Authority (ASQA). During this program, all students will be taught the basic theoretical foundation of electronics as listed below. The successful understanding of the key electronic concepts, would allow a student to succeed in the practical application in an electronic and communication industry:

  • The electric circuit
  • Voltage sources and effects of an electric current
  • Ohm’s law
  • Electrical power
  • Resistance and resistors
  • The series circuit
  • The parallel circuit
  • The series-parallel circuit
  • Basic meters
  • Capacitance
  • Magnetism and electromagnets
  • Electromagnetic induction
  • DC generators
  • DC motors
  • AC fundamental
  • Pure R, L or C in an AC circuit
  • Series combinations of R, L and C
  • Parallel AC circuits
  • Loop Analysis of Electric Circuits
  • Loop Currents and Branch Currents
  • Single and Three Phase Circuits

The successful understanding of the above key electronic concepts would allow a student to succeed in the practical application in an electronic and communication industry.

PRE-REQUISITE FOR ALL CORE/ELECTIVE UNITS SELECTED  

11 Core Competency Standard Units
Unit CodePre-Requisites Unit(s): Granting competency selected unit shall be made only after competency in the following unit(s) has/have been confirmedLiteracy and numeracy skills**
ReadingWritingNumeracy
UEENEEE015B

N/A

55

5

UEENEEE038B

N/A

33

3

UEENEEE078B

N/A

N/AN/A

N/A

UEENEEE101A

N/A

N/AN/A

N/A

UEENEEE117AN/A555

UEENEEE137A

UEENEEE101A

Apply Occupational Health Safety regulations, codes and practices in the workplace

N/AN/A

N/A

UEENEEH141A

N/A

555
UEENEEH167A

N/A

555
UEENEEH168A

UEENEEE101A

Apply Occupational Health Safety regulations, codes and practices in the workplace

555
UEENEEH188A

UEENEEE101A

Apply Occupational Health Safety regulations, codes and practices in the workplace

555
UEENEEK132A

N/A

555
30 Elective Competency Standard Units Selected
Unit CodePre-Requisites Unit(s): Granting competency selected unit shall be made only after competency in the following unit(s) has/have been confirmed

 

Literacy and numeracy skills**

ReadingWritingNumeracy
BSBMGT502N/AN/AN/AN/A
BSBINM501N/AN/AN/AN/A
BSBMGT516N/AN/AN/AN/A
BSBINN502N/AN/AN/AN/A
BSBWOR502N/AN/AN/AN/A
UEENEED112A

UEENEED102A

Assemble, Set Up and Test Computing Devices

UEENEEE101A

Apply Occupational Health Safety regulations, codes and practices in the workplace

444
UEENEED129A

UEENEEE101A

Apply Occupational Health Safety regulations, codes and practices in the workplace

N/AN/AN/A
UEENEEE102A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

N/AN/AN/A
UEENEEE104A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

N/AN/AN/A
UEENEEE105A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

N/AN/AN/A
UEENEEE107A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

N/AN/AN/A
UEENEEE123A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

UEENEEE104A

Solve problems in d.c. circuits

333
UEENEEH112A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

UEENEEH102A

Repair basic electronic apparatus faults by replacement of components

333
UEENEEH123A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

UEENEEE137A

Document and apply measures to control OHS risks associated with electrotechnology work

333
UEENEEH139A

UEENEEH102A

Repair basic electronic apparatus faults by replacement of components

AND

UEENEEH114A

Troubleshoot resonance circuits in an electronic apparatus

OR

UEENEEG102A

Solve problems in low voltage a.c. circuits

333
UEENEEH150A

UEENEEE102A

Fabricate, dismantle, assemble of utilities industry components

UEENEEE105A

Fix and secure electrotechnology equipment

UEENEEE107A

Use drawings, diagrams, schedules, standards, codes and specifications

333
UEENEEH172A

UEENEEH146A

Solve fundamental electronic communications system problems

334
UEENEEP024A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

N/AN/AN/A
UEENEEC007BN/A555
UEENEED152A

UEENEEE101A

Apply Occupational Health Safety regulations, codes and practices in the workplace

555
UEENEEE011CN/A555
UEENEEE082A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

N/AN/AN/A
UEENEEE127A

Common Unit Group

UEENEEE101A

Apply Occupational Health Safety regulations, codes and practices in the workplace

UEENEEE126A

Provide solutions to basic engineering computational problems

UEENEEE129A

Solve electrotechnical engineering problems

Electrotechnology Unit Pathway

UEENEEH169A

Solve problems in basic electronic circuits

Electronics and Communications Unit Pathway

UEENEEE104A

Solve problems in d.c. circuits

UEENEEH114A

Troubleshoot resonance circuits in an electronic apparatus

Electrical Unit Pathway

UEENEEE104A

Solve problems in d.c. circuits

UEENEEG101A

Solve problems in electromagnetic devices and related circuits

555
UEENEEE129AN/A555
UEENEEE161A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

555
UEENEEE163A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

UEENEEE161A

Analyse static and dynamic parameters of electrical equipment

555
UEENEEH160AN/A333
UEENEEH184A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

555
UEENEEH189A

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

555
UEENEEI123A

Where pre-requisite pathways have been identified. All competencies in the Common Unit Group must be have been completed plus all the competencies in one (1) of the identified Pathway Unit Group(s):

Electrical

Instrumentation

Common Unit Group

UEENEEE101A

Apply Occupational Health and Safety regulations, codes and practices in the workplace

UEENEEE104A

Solve problems in d.c. Circuits

UEENEEE107A

Use drawings, diagrams, schedules, standards, codes and specifications

UEENEEG101A

Solve problems in electromagnetic devices and related circuits

UEENEEG102A

Solve problems in low voltage a.c. circuits

UEENEEI124A

Fault find and repair analogue circuits and components in electronic control systems

UEENEEI139A

Diagnose and rectify faults in digital controls systems

Electrical Pathway

UEENEEG006A

Solve problems in single and three phase low voltage machines

UEENEEG033A

Solve problems in single and three phase low voltage electrical apparatus and circuits

UEENEEG063A

Arrange circuits, control and protection for general electrical installations

UEENEEG106A

Terminate cables, cords and accessories for low voltage circuits

UEENEEG108A

Trouble-shoot and repair faults in low voltage electrical apparatus and circuits

Instrumentation Pathway

UEENEEE119A

Solve problems in multiple path extra low voltage (ELV) a.c. circuits

UEENEEI101A

Use instrumentation drawings, specification, standards and equipment manuals

UEENEEI102A

Solve problems in pressure measurement components and systems

UEENEEI103A

Solve problems in density/level measurement components and systems

UEENEEI104A

Solve problems in flow measurement components and systems

UEENEEI105A

Solve problems in temperature measurement components and systems

UEENEEI106A

Set up and adjust PID control loops

UEENEEI110A

Set up and adjust advanced PID process control loops

UEENEEI112A

Verify compliance and functionality of instrumentation and control installations

UEENEEI113A

Setup and configure Human-Machine Interface (HMI) and industrial networks

555
 

Each state and territory (NSW/QLD) has different requirements in relation to Australian context gap training for the licensed occupations Electrician.

TRADES RECOGNITION AUSTRALIA LICENSING

https://www.tradesrecognitionaustralia.gov.au/programs-tss-skills-assessment/licensing

Queensland

To apply for an Electrical Work Licence/Permit (Other than Apprentice), OTSR holders wishing to work in Queensland must contact the Electrical Safety Office, who is the regulator responsible for issuing Queensland electrical licences.
Holders of an Electrical Work Licence/Permit (Other than Apprentice) must:

 enrol in and complete Australian context gap training. The gap training must be undertaken with an approved Queensland RTO;
 work under the supervision of a holder of a current and full electrician’s licence for a minimum period of twelve (12) months. Any work undertaken must be recorded in a worker’s log book, and;
 complete a structured training program co-ordinated by a Queensland RTO.
On successful completion of the Australian context gap training and supervised employment, applicants are eligible to apply for a Certificate III in Electrotechnology – Electrician.

On receipt of the Certificate III in Electrotechnology – Electrician, an applicant may then apply for a full electrical licence.

For more specific information about electrical licences in Queensland, please contact the Electrical Safety Office.
Electrical Safety Office
T: 1300 632 993
E: Licensing.ProcessingServices@oir.qld.gov.au
W: Electrical Safety Office

New South Wales
To apply for a Provisional Tradesperson Certificate, OTSR holders wishing to work in New South Wales (NSW) must contact New South Wales Fair Trading, who is the regulator responsible for issuing NSW electrical licences.
Holders of a Provisional Tradesperson Certificate must:
 enrol in and complete Australian context gap training, and;
 work under the supervision of a holder of a current and full electrician’s licence or qualified supervisor’s certificate for a minimum period of twelve (12) months.
On successful completion of the Australian context gap training and supervised employment, applicants are eligible to apply for a Certificate III in Electrotechnology – Electrician.
On receipt of the Certificate III in Electrotechnology – Electrician and obtaining a Certificate of Proficiency through the NSW Vocational Training Review Panel, an applicant may then apply for a full electrical licence.
Applicants should refer to the Licence classes and qualifications page for Electricians in order to view the full requirements to obtain a contractor licence or qualified supervisor certificate.
For specific information about electrical licences in NSW please contact NSW Fair Trading.
Fair Trading
T: 13 32 20
E: HBLicensing@finance.nsw.gov.au
W: NSW Fair Trading

Simulated Work Environment

AIBTI provides 460 hours per year of simulated training within our Engineering workshops.
Simulated training is not equivalent to vocational placement.

Vocational Placement

AIBTI provides 360 hours of unpaid workplace vocational placement.

Completing all the units of competency within this qualification will lead to the issuance of an Advanced Diploma of Electronics and Communications Engineering (UEE60211) including a transcript of all completed units. Students that successfully complete individual units of competency, but not the whole qualification, will be eligible to receive a Statement of Attainment detailing the completed units.

Telecommunications Engineer
Senior Technical Officer (Electronics Engineering)
Electronics Engineering Technologist
Senior Technical Officer (Telecommunications Engineering) 

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