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CASA Part 66 Category Training
Licence Outcome (Full)
CASA Part 66 Category Training
Licence Outcome (Full)
Full Part 66 Licence Course
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CASA Category A1 / SIG101

CASA Category A1 Course / Package including AQF UoC and CASA Module Content and Exams for Stream and CASA Form 465 Submission

Full Part 66 category-training pathway including the required module examinations and AQF ‘UoC’ competency-based assessment mapped to the Part 66 MOS. Produces evidence suitable for a CASA licence application.

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Important: This course prepares you for a CASA Part 66 Category A licence application.

The program includes required MEA Units of Competency, CASA Part 66 module exams, & Final CASA Form 465 licence submission. You will also receive the Certificate II Aeroskills qualification for the selected stream. CASA requirement: Applicants must have at least 1 year of practical aircraft maintenance experience before a Category A licence can be issued.Standalone Aeroskills qualifications (without licence exams) are also available if you only want the AQF qualification. You can explore these here >

Who is this course for?

Engineers targeting a CASA Part 66 A1 aircraft engineer licence application (aeroplanes turbine).

Course Outcome / Certification

Upon successful completion of this course, candidates will receive:
* CASA Form 465, which Sigma will submit to CASA
* AQF Testamur
* Per CASA requirement, a Statement of Attainment (SoA) listing all Units of Competency successfully completed and required for the outcome
* Record of Results (RoR)

Explore & Apply

First Select a Preferred Delivery Mode:

To get pricing, course details, units, duration & entry criteria and to apply, select a mode below:

Select a Preferred Delivery Mode
RPL and Gap Assessment Pathway Self-Directed for Experienced Engineers
Course Information For

CASA Category A1 / SIG101 CASA Category A1 Course / Package including AQF UoC and CASA Module Content and Exams for Stream and CASA Form 465 Submission

Delivered Via
RPL and Gap Assessment Pathway Self-Directed for Experienced Engineers

This pathway is designed for experienced, self-motivated aircraft maintenance engineers.

Knowledge is assessed through an individualised combination of Recognition of Prior Learning (RPL) and targeted knowledge gap assessments. Practical competency (performance evidence) is assessed via RPL using acceptable practical evidence.

Equivalence of Standard
The RPL and Gap Training pathway does not reduce the competency standard required for the award of the qualification. All learners, regardless of delivery mode, must meet the full requirements of each unit of competency, including performance evidence, knowledge evidence and assessment conditions.
No unit of competency is granted solely on the basis of employment history or documentation without structured assessment and verification.

Submit an application

tuition Fees

Full Fee: $5,600
$500 on application, balance less credit on commencement
Payment Plan: 50% upfront
with the remaining 50% payable upon completion or within 6 months of the first payment, whichever comes first.

Full tuition fees paid as $500 on application, with balance due following assessment of applicable credit. Payment Plan: 50% upfront, with the remaining 50% payable upon completion or within 6 months of the first payment, whichever comes first.

Course Duration

7 months
Study Load: 8 hours per week
2 weeks break
  • The RPL & Gap training pathway has a reduced volume of learning versus full-time delivery due to the recognition of experience. Duration is only a guide – students may complete in a shorter or longer timeframe.
  • Duration will be shorter if any Credit Transfer is granted.

Have questions? Check out the FAQ Read the Faq

Before you Apply

  • This course is designed for working aircraft maintenance engineers
  • This delivery mode requires a minimum of two (2) years of aircraft maintenance experience
  • Learners must be currently employed in an aircraft maintenance environment working on operating aircraft
  • Learners must be able to provide acceptable evidence for the practical tasks specified in each Unit of Competency
Units of study in this Course

Study Units

Unit of competency
Unit Name
Unit Title
Core
Elective
Stream Elective
More
MEA107
Interpret and use aviation maintenance industry manuals and specifications

What you will learn:

Build competence to locate, interpret and use maintenance manuals and specifications in line and base maintenance settings, meeting enterprise procedures and regulatory expectations for safe outcomes. Hands-on work covers amend industry manuals to reflect current/approved amendment status in line and the accessed information from drawings and diagrams in aircraft maintenance, using the right tools and controlled isolation practices. Theory and application link statutory regulations and/or organisational procedures relating to amending, illustrated parts catalogues, and techniques for obtaining and applying data contained to real maintenance decisions and troubleshooting logic. Focus remains on removing ambiguity—cross‑checking sources, escalating uncertainty, and documenting the data trail.

  • Use document control practices to ensure the correct references are used before work starts.
  • Extract procedural steps, limits and tolerances to build a correct work plan and inspection/test approach.
  • Identify when engineering support or higher authority is needed due to unclear, conflicting or missing data.
  • Document the references used and assumptions made, and communicate constraints and requirements to the team.
MEA117
Apply self in the aviation maintenance environment

What you will learn:

Build competence to manage self, priorities and professional conduct in workshop and on-aircraft environments, aligned to approved data and controlled risk management. Practical activities include oral communication in English regarding maintenance issues, plus written communication in English, with attention to access, protection, damage prevention and traceable close‑out. Knowledge areas include enterprise procedures for proposing modifications or changes, constant improvement principles and procedures, and human factors relating to fatigue to support faultfinding, risk control and defensible serviceability decisions. Emphasis is on professional discipline—clear communication, reliable handovers, and decisions that protect safety and quality.

  • Apply professional conduct, work discipline and responsibility consistent with aviation maintenance expectations.
  • Work effectively within teams, using structured handover and confirmation practices to reduce errors.
  • Support a reporting culture by raising hazards and near misses with clear, factual information.
  • Contribute to continuous improvement by providing constructive feedback and participating in corrective actions.
MEA119
Perform administrative processes to prepare for certification of civil aircraft A level line mainten

What you will learn:

Develop the capability to plan, coordinate and supervise maintenance work in line and base maintenance settings, with disciplined control of hazards, tooling, and configuration. Practical activities include it is essential that airworthiness compliance requirements are interpreted, plus application of requirements related to conduct and certification of maintenance, with attention to access, protection, and damage prevention. Knowledge areas include in particular regarding continuing airworthiness and maintenance, air operators’ certificates, and master minimum equipment lists to support faultfinding and defensible serviceability decisions. Emphasis is on predictable delivery—right resources, right sequence, and clear handover—without compromising safety or quality.

  • Allocate resources and manage constraints to keep work aligned with operational priorities.
  • Manage tooling, parts and facility availability to avoid schedule-driven errors.
  • Monitor progress and resolve issues, including escalation of non‑routine findings and airworthiness impacts.
  • Maintain traceable planning and execution records, and provide clear task status and handover information.
Prerequisites
Certificate II Line Maintenance for stream
MEA154
Apply work health and safety practices in aviation maintenance

What you will learn:

Build competence to identify hazards and implement effective controls across hangar, workshop, and flight-line tasks, meeting enterprise procedures and regulatory expectations for safe outcomes. Key tasks span correct interpretation of enterprise and regulatory emergency procedures and correctly interpreting WHS regulations, with disciplined sequencing and verification of each step. Theory and application link methods of risk assessment and control, correct selection and use of workplace emergency, and applicable sources of WHS requirements and procedures to real maintenance decisions and troubleshooting logic. Emphasis is on preventing harm and protecting the aircraft through disciplined risk control and clear reporting of hazards and incidents.

  • Apply WHS legislation, organisational policies and site rules to the task and work area.
  • Apply isolation and lock‑out/tag‑out practices where required, and verify safe conditions prior to work.
  • Respond to incidents and emergencies through reporting, initial actions, and follow‑up investigations.
  • Use reporting systems to support learning and prevention, not just compliance.
MEA155
Plan and organise aviation maintenance work activities

What you will learn:

Build competence to schedule and control maintenance tasks and resources in line and base maintenance settings, aligned to approved data and controlled risk management. Practical activities include apply human factors in planning maintenance activity, plus ensure safe and appropriate sequencing of tasks, with attention to access, protection, and damage prevention. Knowledge areas include key industry standards and organisational requirements and procedures, relationship between broader planning and organising requirements, and nature and impact of human factors affecting the to support faultfinding and defensible serviceability decisions. Focus remains on controlling interfaces and non‑routine work so airworthiness risks are identified early and managed.

  • Interpret work packages and approved data, then translate requirements into a practical job plan.
  • Manage tooling, parts and facility availability to avoid schedule-driven errors.
  • Review progress against schedule and quality targets, and adjust plans based on emerging information.
  • Maintain traceable planning and execution records, and provide clear task status and handover information.
Prerequisites
MEA154
MEA156
Apply quality standards during aviation maintenance activities

What you will learn:

Develop the capability to apply quality standards and assurance processes within an aircraft maintenance organisation, with disciplined control of hazards, tooling, and configuration. Hands-on work covers differentiate the elements that constitute the quality system and and ISO 9000 compliant documentation and specifications relating to quality, using the right tools and controlled isolation practices. Knowledge areas include relationship between the quality system and work health, reporting maintenance-related incidents and errors, and typical quality systems applied in aviation maintenance contexts to support faultfinding and defensible serviceability decisions. Focus remains on preventing defects from escaping: right first time, evidence‑based acceptance, and continuous improvement.

  • Identify quality requirements and acceptance criteria for the task, and confirm the correct reference standards apply.
  • Collect objective evidence (measurements, inspections, test results) to demonstrate conformity to requirements.
  • Identify non‑conformances and apply corrective actions or escalation pathways as required.
  • Support audits and continuous improvement activities with accurate data and reporting.
Prerequisites
MEA154, MEA107
MEA157
Complete aviation maintenance industry documentation

What you will learn:

Build competence to produce and control aviation maintenance documentation and records across hangar, workshop, and flight-line tasks, with disciplined control of hazards, tooling, and configuration. Practical activities include organisational and regulatory procedures, plus demonstrate required levels of literacy and numeracy, with attention to access, protection, and damage prevention. Knowledge areas include quality manuals, organisational and regulatory procedures required to complete, and Defence regulations and instructions applicable to the maintenance to support faultfinding and defensible serviceability decisions. Focus remains on traceability and configuration control so records reflect what was done, by whom, and to which standard.

  • Apply controlled document practices (version control, amendments, approvals) across maintenance records and releases.
  • Structure entries so a third party can reconstruct what was done, when, and to which standard.
  • Verify records are complete and consistent with work performed and acceptance criteria before sign‑off or handover.
  • Communicate documentation status and constraints during shift handover or task close‑out.
MEA158
Perform basic hand skills, standard trade practices and fundamentals in aviation maintenance

What you will learn:

Develop the capability to perform foundational workshop and on‑aircraft hand skills in line and base maintenance settings, aligned to approved data and controlled risk management. Practical activities include install aircraft hardware using tightening, plus use and store general and purpose-specific hand tools found, with attention to access, protection, and damage prevention. Theory and application link laying out simple items for manufacture using basic, work health and safety requirements and standard workshop, and types of standard aircraft hardware and methods to real maintenance decisions and troubleshooting logic. Focus remains on safe tool use, accurate measurement, and clean work that does not introduce defects or contamination.

  • Prepare workpieces and surfaces for hand operations using correct PPE, guarding and safe handling.
  • Carry out basic workshop operations (marking out, drilling, deburring, fastening, torqueing) without introducing damage.
  • Identify rework requirements early and correct defects without creating secondary damage.
  • Control tools and loose articles to prevent FOD, and maintain a clean work area.
MEA264
Remove and install aircraft electrical/avionic components during line maintenance

What you will learn:

Gain practical skills to remove and install aircraft electrical/avionic components during line maintenance under operational maintenance conditions, aligned to approved data and controlled risk management. Key tasks span aircraft internal and external lights and boilers and beverage makers, with disciplined sequencing and verification of each step. Technical coverage spans relevant regulatory requirements and standard procedures, component attachment methods, and use of applicable maintenance documentation and aircraft, with emphasis on how these factors drive maintenance outcomes. Outcomes must be repeatable: correct technical results, clean handovers, and documentation suitable for certification and continuing airworthiness.

  • Interpret procedures and specifications for aircraft electrical/avionic components during line maintenance; confirm applicability, revision status, and any required precautions before work starts.
  • Prepare the work area and carry out hands-on tasks on aircraft electrical/avionic components during line maintenance, using correct tools, test equipment, and contamination control.
  • Assess defects and performance on aircraft electrical/avionic components during line maintenance using appropriate test methods, then confirm correct operation before release.
  • Record results, defects, and rectification actions, and communicate status to support certification-ready handover.
Prerequisites
MEA265
Implied Prerequisites
MEA107, MEA154, MEA155, MEA156, MEA157, MEA158
MEA265
Remove and install general aircraft electrical hardware

What you will learn:

Build competence to remove and install general aircraft electrical hardware across hangar, workshop, and flight-line tasks, aligned to approved data and controlled risk management. Practical activities include positive identification of miscellaneous electrical hardware and/or components in all, plus correctly interpreting aircraft wire markings, with attention to access, protection, and damage prevention. Technical coverage spans crimping tools and crimp terminals, electrical fundamentals and related mathematical and physics principles, and cable and loom installation requirements, with emphasis on how these factors drive maintenance outcomes. Focus remains on minimising error: verify before release, communicate clearly, and document what was done and why.

  • Use approved maintenance data (manuals, drawings, standards) for general aircraft electrical hardware, and confirm configuration, limits, and safety controls.
  • Select tooling and support equipment, then complete practical work on general aircraft electrical hardware without introducing damage or FOD.
  • Assess defects and performance on general aircraft electrical hardware using appropriate test methods, then confirm correct operation before release.
  • Produce clear maintenance records and reports, including non-routine findings and any follow-up actions required.
Prerequisites
MEA156, MEA155, MEA154, MEA158, MEA157, MEA107
MEA295
Use electrical test equipment to perform basic electrical tests on aircraft and components

What you will learn:

Build competence to use electrical test equipment to perform basic electrical tests on aircraft and components in workshop and on-aircraft environments, using approved data and safe systems of work. Practical activities include in the course of the above work and under qualified, plus select and prepare test equipment based on maintenance documentation applicable, with attention to access, protection, and damage prevention. Theory and application link methods of connection of test equipment to components, resistance and insulation, and identification methods used to confirm test equipment is to real maintenance decisions and troubleshooting logic. Work is expected to align with approved data and organisational procedures, with clear reporting of defects and rectification actions.

  • Interpret procedures and specifications for electrical test equipment to perform basic electrical tests on aircraft and components; confirm applicability, revision status,.
  • Prepare the work area and carry out hands-on tasks on electrical test equipment to perform basic electrical tests on aircraft and components,.
  • Inspect and function-test electrical test equipment to perform basic electrical tests on aircraft and components; troubleshoot faults using methods of connection.
  • Produce clear maintenance records and reports, including non-routine findings and any follow-up actions required.
Prerequisites
MEA156, MEA155, MEA154, MEA158, MEA157, MEA107
MEA344
Remove and install aircraft components

What you will learn:

Build competence to remove and install aircraft components under operational maintenance conditions, with disciplined control of hazards, tooling, and configuration. Key tasks span inspecting and correctly installing of bearings and using maintenance publications to prepare the aircraft for component removal, with disciplined sequencing and verification of each step. Knowledge areas include WHS procedures relating to component removal and installation, relevant maintenance publications, and how to locate and correctly remove and install to support faultfinding and defensible serviceability decisions. Outcomes must be repeatable: correct technical results, clean handovers, and documentation suitable for certification and continuing airworthiness.

  • Interpret procedures and specifications for aircraft components; confirm applicability, revision status, and any required precautions before work starts.
  • Prepare the work area and carry out hands-on tasks on aircraft components, using correct tools, test equipment, and contamination control.
  • Verify outcomes on aircraft components through inspection, test, and logic-based faultfinding, including checks after rectification.
  • Document work performed and test outcomes, and provide a clean technical handover for continuing airworthiness.
Prerequisites
MEA156, MEA155, MEA154, MEA158, MEA157, MEA107
MEA345
Perform scheduled line maintenance activities on gas turbine engine fixed wing aircraft

What you will learn:

Develop the capability to perform scheduled line maintenance activities on gas turbine engine fixed wing aircraft in line and base maintenance settings, with disciplined control of hazards, tooling, and configuration. Key tasks span using and correctly stowing of aircraft safety and security equipment and checking and replenishing fluid level using the correct fluids, with disciplined sequencing and verification of each step. Theory and application link basic theory of flight relating to fixed wing, relevant principles of mathematics and physics, and aircraft structural concepts and structure to the extent to real maintenance decisions and troubleshooting logic. Outcomes must be repeatable: correct technical results, clean handovers, and documentation suitable for certification and continuing airworthiness.

  • Use approved maintenance data (manuals, drawings, standards) for scheduled line maintenance activities on gas turbine engine fixed wing aircraft, and confirm configuration,.
  • Execute maintenance actions on scheduled line maintenance activities on gas turbine engine fixed wing aircraft with disciplined sequencing, correct technique, and control.
  • Verify outcomes on scheduled line maintenance activities on gas turbine engine fixed wing aircraft through inspection, test, and logic-based faultfinding, including checks.
  • Produce clear maintenance records and reports, including non-routine findings and any follow-up actions required.
Prerequisites
MEA156, MEA155, MEA154, MEA158, MEA157, MEA107
MEA418
Perform basic repair of aircraft internal fittings during line maintenance

What you will learn:

Build competence to perform basic repair of aircraft internal fittings during line maintenance under operational maintenance conditions, meeting enterprise procedures and regulatory expectations for safe outcomes. Practical activities include handling and storing aircraft metals used for sheet metal internal, plus identifying various materials used for internal fittings and their basic, with attention to access, protection, and damage prevention. Theory and application link use of applicable items of PPE, how to obtain relevant MSDS, and relevant WHS procedures to real maintenance decisions and troubleshooting logic. Focus remains on minimising error: verify before release, communicate clearly, and document what was done and why.

  • Use approved maintenance data (manuals, drawings, standards) for basic repair of aircraft internal fittings during line maintenance, and confirm configuration, limits, and safety controls.
  • Prepare the work area and carry out hands-on tasks on basic repair of aircraft internal fittings during line maintenance, using correct tools, test equipment,.
  • Assess defects and performance on basic repair of aircraft internal fittings during line maintenance using appropriate test methods, then confirm correct operation before release.
  • Document work performed and test outcomes, and provide a clean technical handover for continuing airworthiness.
Prerequisites
MEA156, MEA155, MEA154, MEA158, MEA157, MEA107
MSMENV272
Participate in environmentally sustainable work practices

What you will learn:

Learn to participate in environmentally sustainable work practices across hangar, workshop, and flight-line tasks, with disciplined control of hazards, tooling, and configuration. Practical activities include participate in environmentally sustainable work practices, plus followed environmental policies and identified potential breaches of environmental regulations, with attention to access, protection, and damage prevention. Knowledge areas include environmental and resource efficiency policies and procedures, environmental sustainability issues relevant to organisation, and environmental issues to support faultfinding and defensible serviceability decisions. Outcomes must be repeatable: correct technical results, clean handovers, and documentation suitable for certification and continuing airworthiness.

  • Use approved maintenance data (manuals, drawings, standards) for in environmentally sustainable work practices, and confirm configuration, limits, and safety controls.
  • Prepare the work area and carry out hands-on tasks on in environmentally sustainable work practices, using correct tools, test equipment, and contamination control.
  • Verify outcomes on in environmentally sustainable work practices through inspection, test, and logic-based faultfinding, including checks after rectification.
  • Document work performed and test outcomes, and provide a clean technical handover for continuing airworthiness.
CASA Module
Unit Name
Unit Title
Core
Elective
Stream Elective
More
Module 1
Mathematics
Module 10
Aviation legislation
Module 11A
Turbine aeroplane aerodynamics, structures and systems
Module 15
Gas turbine engines
Module 17
Propeller
Module 2
Physics
Module 3
Electrical fundamentals
Module 5
Digital techniques electronic instrument systems
Module 6
Materials and hardware
Module 7
Maintenance practices
Module 8
Basic aerodynamics
Module 9
Human factors

How We Train

How We Undertake Training (RPL & Gap)

Training for students in the RPL and Gap pathway is self-directed online for theory only.

Theory Training

Training for students taking the RPL & Gap training pathway is self-directed online, but supported with engaging learner resources, regular webinars and Q&A sessions, 1:1 tutoring on request, and support from our training team when required.

The following training and resources are provided for each Unit of Competency:

  • Audio lecture (available as a podcast feed)^
  • Sigma Digital Learner Guide / PDF Learning Materials
  • Toolbox 60 webinars (students can attend fortnightly online)
  • Live Q&A sessions (students can attend fortnightly online)
  • Quarterly check-in
  • Tutoring sessions (on request)

Note: Practical training is not offered for this delivery mode. This pathway is designed for engineers with existing experience and supporting aviation industry-standard documentation (e.g. Journal of Industrial Experience, task cards). Students are expected to provide evidence of practical competency, which is assessed via RPL in line with SAC’s Acceptable Practical Evidence Guidelines.

Where practical training is requested, this may be arranged on a fee-for-service basis for groups, either onsite at SAC facilities or offsite at an approved AMO/MRO facility.

^Audiobook rollout in-progress - not all units will include an audiobook at time of enrolment

How We Assess

How We Undertake Assessment (RPL & Gap)

Sigma Aerospace College operates a four-stage RPL & Gap assessment process following successful application and onboarding.

Assessment Phase 1 – Gap Analysis

Once the onboarding process is complete and initial documentation has been provided, SAC undertakes an assessment of prior learning, applicable credit transfer, and any identified knowledge gaps.

At this stage, an invoice is issued for tuition fees (the course fee listed on the website, less any approved credit transfer). Once payment is received:

  • The customised learning environment is unlocked
  • An initial RPL report (as required by CASA) is issued

This invoice covers all tuition fees, training materials, and any applicable CASA exams.

Assessment Phase 2 – Gap Assessment (Theory) and RPL Evidence Collection (Practical)

Once the customised learning environment is unlocked in the learning management system (aXcelerate), students are presented with:

  • Knowledge gap assessments for Units of Competency not granted in full during Phase 1 via RPL or credit transfer
  • Practical evidence upload assessments for outstanding Units of Competency

Submitted practical evidence is assessed via RPL against Unit of Competency performance evidence requirements.

Assessment Phase 3 – Competency Conversation

Following completion of gap assessments and submission of sufficient practical evidence (as defined in the Acceptable Practical Evidence Guide), students undertake a clustered competency conversation with an instructor.

  • Format: one-on-one discussion
  • Duration: approximately 30–60 minutes
  • Purpose: final verification of competency

Assessment Phase 4 – CASA Exams

For training products with a CASA outcome, the final stage involves preparation for and completion of invigilated CASA examinations. An administrator will contact the student at the conclusion of Phase 3 to arrange suitable exam times.

Note: Students may apply for recognition of prior learning for any existing practical experience at any time, as long as at the time of Sigma's assessment of that evidence as prior learning (i.e. when uploaded to the relevant capture in the LMS) the evidence meets the terms in the acceptable practical evidence guide, is authentic, sufficient, and meets unit requirements.

Entry Requirements

Age

  • Minimum age 18 years at commencement of course

Education

  • Australian High School Year 11 completion with a pass in English and maths; or
  • Completion of a formal Language literacy and numeracy (LLN) assessment tool at ACSF Level 3

Employment and Evidence

  • Candidate must be working in an aircraft maintenance environment on operating aircraft AND
  • Candidate must be able to present valid evidence (as specified in the Acceptable Practical Evidence Guide) of completion of practical tasks undertaken by the candidate prior to our assessment of that evidence (see the Unit of Competency table for links to full requirements of each unit of competency >). Once provided by the candidate and authenticated as valid by SAC, the college will use this evidence as part of a portfolio of evidence to build a case for competence via Recognition of Prior Learning (RPL)) and Gap Training.

Experience

  • Two years of aircraft maintenance experience OR
  • Two years of aircraft maintenance training at a regulator-approved Maintenance training organisation

Computing

  • Desktop or Laptop computer with webcam and speaker, and modern web browser, PDF viewer, and standards-compatible office suite software
  • Reliable broadband internet connection
  • An active email address
  • Intermediate computing skills, including knowledge of how to use internet to access information.

Residency

  • Students must not be on an Australian 500 class student visa, and subject to its terms.

Pre-Application Confirmation

IMPORTANT

Before you Apply

  • This course is designed for working aircraft maintenance engineers
  • This delivery mode requires a minimum of two (2) years of aircraft maintenance experience
  • Learners must be currently employed in an aircraft maintenance environment working on operating aircraft
  • Learners must be able to provide acceptable evidence for the practical tasks specified in each Unit of Competency

Entry requirements

Age

  • Minimum age 18 years at commencement of course

Education

  • Australian High School Year 11 completion with a pass in English and maths; or
  • Completion of a formal Language literacy and numeracy (LLN) assessment tool at ACSF Level 3

Employment and Evidence

  • Candidate must be working in an aircraft maintenance environment on operating aircraft AND
  • Candidate must be able to present valid evidence (as specified in the Acceptable Practical Evidence Guide) of completion of practical tasks undertaken by the candidate prior to our assessment of that evidence (see the Unit of Competency table for links to full requirements of each unit of competency >). Once provided by the candidate and authenticated as valid by SAC, the college will use this evidence as part of a portfolio of evidence to build a case for competence via Recognition of Prior Learning (RPL)) and Gap Training.

Experience

  • Two years of aircraft maintenance experience OR
  • Two years of aircraft maintenance training at a regulator-approved Maintenance training organisation

Computing

  • Desktop or Laptop computer with webcam and speaker, and modern web browser, PDF viewer, and standards-compatible office suite software
  • Reliable broadband internet connection
  • An active email address
  • Intermediate computing skills, including knowledge of how to use internet to access information.

Residency

  • Students must not be on an Australian 500 class student visa, and subject to its terms.

Delivery disclaimer

RPL & Gap Assessment – Student Acknowledgement and Delivery Conditions

I acknowledge and understand that the RPL & Gap assessment delivery mode is a self-directed training and assessment pathway intended for experienced aircraft maintenance engineers only.

I understand and agree that:

  • This delivery mode does not include structured practical training or supervised practical assessment;
  • Practical competency is assessed through Recognition of Prior Learning (RPL) and as such,
  • No practical training is included in this course I am expected to provide evidence of competency specified in the units of competency for this course, and I have read performance evidence requirements included in the links to each unit of competency on this course;
  • I am responsible for providing valid, sufficient, authentic, and current evidence of practical competence;
  • All practical evidence must be submitted online in accordance with the Acceptable Practical Evidence Guide;
  • Evidence may include, but is not limited to, logbooks, task records, workplace documentation, and third-party verification;

I confirm that I have read and understood the performance evidence requirements for each Unit of Competency, as outlined in the Units of Study table for this course, and understand that failure to provide suitable evidence may result in:

  • Additional gap training or assessment requirements, and/or
  • Non-award of competency for one or more Units of Competency

Sigma take academic integrity extremely seriously. I confirm that I understand the academic integrity requirements of this course as specified on the policy page, and that cheating or use of any plagiarism tools / AI tools in completion of, or fabricating evidence for, assessment will result in a cancellation of enrolment and formal report to relevant authorities (including CASA) - this includes evidence of cheating or misconduct in invigilated CASA exams, which will result in a formal report to CASA of both yourself, AND your nominated invigilator, AND nominated facility AND may include a formal ban on enrolment or examination within the facility.

Also ensure you have read and understand these documents before applying:

APPLY
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