Why choose this course?
Pursue your career in a wide range of engineering fields by completing this qualification. This course will provide you with the practical skills and knowledge in electrical machinery, mechanical principles and mechanical equipment to produce drawings for design specifications.
Learn how to use and operate computer-aided design (CAD) to produce drawings and create 3-D models, set up basic hydraulic circuits, apply technical mathematics and produce basic engineering design drawings. In addition, you will coordinate engineering projects and learn environmentally sustainable work practices.
On completion of this course you will be able to work in a number of different engineering related careers including mining and mineral processing, manufacturing, the oil and gas industry and the automotive industry.
If you're considering advancing your engineering studies to an advanced diploma level in either mechanical or electrical streams, choosing Munster campus is highly recommended for this diploma course. It's important to note that the Munster campus is the sole campus location accredited by Engineers Australia (EA).
If you are interested in a heating, ventilation and air conditioning (HVAC) specialisation at the advanced diploma level it is recommended that you choose Carlisle campus. This program offers tailored elective units designed to equip you with the precise knowledge and practical skills required for this field. The facility at Carlisle campus is Western Australia's premier centre for HVAC and associated studies and the purpose-built facility is amongst the best in the southern hemisphere.
Please note: Starting from Semester 1, 2024, the MEM50222 Diploma of Engineering – Technical (BIW7) with a specialization in Heating, Ventilation, and Air Conditioning (HVAC) at Carlisle campus will replace the MEM50212 Diploma of Engineering – Technical in Heating, Ventilation, and Air Conditioning.
Career opportunities
- Engineering Draftsperson
- Engineering Techician
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An IELTS score (academic) of 6.0 with no band score less than 5.0 or equivalent.
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Equivalent to Australian Year 12 with a pass in Year 11 Maths is required for entry into this course.
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OR Completion of MEM30522 Certificate III in Engineering - Technical is required for entry into this course.
Your study options
Semester 1, 2025
- Tuition fee: $15,800
- Resources fee: $612
- Materials fee: $0
Tuition fees are reviewed annually. If tuition fees are increased, you will be required to pay the new fees as they are introduced. You will be provided with an indicative schedule of fees in your Letter of Offer.
Resource fees are for consumables you use in your course e.g. paint, internet etc. You pay this fee to your college at enrolment. If your course goes longer than one semester, the resource fee may not need to be paid in one amount but may be spaced out over the duration of your course. Your college will advise you of the payment amount each semester.
Material fees are for items that remain your property after the course has been completed e.g. personal protective equipment, tools, text books etc. You pay this fee to your college at enrolment.
There is no work placement requirement for this course.
2 semesters
To achieve this qualification, students must demonstrate competency in 20 units. These 20 are comprised of 5 core units and 15 elective units. Elective units listed below have been selected in consultation with industry.
Students who enrol into this qualification will be eligible for credit transfer of the units that they have already achieved. Fees paid by international students are set on a commercial basis and are paid as a whole of course fee - no refund will apply to credit transfers. Please refer to your letter of Offer for detailed duration and costings for your enrolment.
- MEM16006 Organise and communicate information
- MEM16008 Interact with computing technology
- MEM22002 Manage self in the engineering environment
- MEM30012 Apply mathematical techniques in a manufacturing engineering or related environment
- MSMENV272 Participate in environmentally sustainable work practices
- CPPBDN6106 Produce building information modelling for building design projects
- MEM12024 Perform computations
- MEM12025 Use graphical techniques and perform simple statistical computations
- MEM13015 Work safely and effectively in manufacturing and engineering
- MEM23003 Operate and program computers and/or controllers in engineering situations
- MEM23004 Apply technical mathematics
- MEM23006 Apply fluid and thermodynamics principles in engineering
- MEM23007 Apply calculus to engineering tasks
- MEM23109 Apply engineering mechanics principles
- MEM23140 Determine operational parameters for building HVAC hydronic systems
- MEM23142 Determine psychrometric processes and system performance
- MEM30007 Select common engineering materials
- MEM30025 Analyse a simple electrical system circuit
- MEM30031 Operate computer-aided design (CAD) system to produce basic drawing elements
- MEM30032 Produce basic engineering drawings
The methods of assessment used in this course include written tests, oral questions, direct observations consisting of practical activities and role-plays, structured assessment activities such as projects, assignments, evidence portfolios, computer simulations and reports.
These assessment strategies and evidence gathering are in accordance with the relevant training package or accreditation guidelines. Detailed Information is available in the assessment matrix, learning plans and assessment tools for each of the units of competency. Assessors use this matrix to ensure assessments, are undertaken across the duration of the course, rather than clustered together at particular times.
The following learning resources, facilities and equipment are available at each campus so that you can achieve the skill and knowledge requirements of this course.
Learning resources may include access to Blackboard, PowerPoint presentations and class handouts, DA manuals, Australian standards regulations, drawings, specialised software such as Microsoft Office, CAD, and BIM.
Facilities and equipment may include access to classrooms with desktops, materials testing laboratories and equipment, refrigeration and air conditioning trainers and the Library. You will also have use of the purpose-built training facility at Carlisle campus where you can interact with relevant technology.
Semester and holiday dates are included in your Letter of Offer. View upcoming semester start and end dates.
Semester 1, 2025
- Tuition fee: $15,800
- Resources fee: $1,480
- Materials fee: $260
Tuition fees are reviewed annually. If tuition fees are increased, you will be required to pay the new fees as they are introduced. You will be provided with an indicative schedule of fees in your Letter of Offer.
Resource fees are for consumables you use in your course e.g. paint, internet etc. You pay this fee to your college at enrolment. If your course goes longer than one semester, the resource fee may not need to be paid in one amount but may be spaced out over the duration of your course. Your college will advise you of the payment amount each semester.
Material fees are for items that remain your property after the course has been completed e.g. personal protective equipment, tools, text books etc. You pay this fee to your college at enrolment.
There is no work placement requirement for this course.
2 semesters
To achieve this qualification, students must demonstrate competency in 20 units. These 20 are comprised of 5 core units and 15 elective units. Elective units listed below have been selected in consultation with industry.
Students who enrol into this qualification will be eligible for credit transfer of the units that they have already achieved. Fees paid by international students are set on a commercial basis and are paid as a whole of course fee - no refund will apply to credit transfers. Please refer to your letter of Offer for detailed duration and costings for your enrolment.
- MEM16006 Organise and communicate information
- MEM16008 Interact with computing technology
- MEM22002 Manage self in the engineering environment
- MEM30012 Apply mathematical techniques in a manufacturing engineering or related environment
- MSMENV272 Participate in environmentally sustainable work practices
- MEM13015 Work safely and effectively in manufacturing and engineering
- MEM14089 Integrate mechanical fundamentals into an engineering task
- MEM22013 Coordinate engineering projects
- MEM23004 Apply technical mathematics
- MEM23006 Apply fluid and thermodynamics principles in engineering
- MEM23063 Select and organise mechanical engineering material tests
- MEM23109 Apply engineering mechanics principles
- MEM23111 Select electrical equipment and components for engineering applications
- MEM30005 Calculate force systems within simple beam structures
- MEM30006 Calculate stresses in simple structures
- MEM30007 Select common engineering materials
- MEM30009 Contribute to the design of basic mechanical systems
- MEM30031 Operate computer-aided design (CAD) system to produce basic drawing elements
- MEM30032 Produce basic engineering drawings
- MEM30033 Use computer-aided design (CAD) to create and display 3D models
The methods of assessment used in this course include written tests, oral questions, direct observations consisting of practical activities and role-plays, structured assessment activities such as projects, assignments, evidence portfolios, computer simulations and reports.
These assessment strategies and evidence gathering are in accordance with the relevant training package or accreditation guidelines. Detailed Information is available in the assessment matrix, learning plans and assessment tools for each of the units of competency. Assessors use this matrix to ensure assessments, are undertaken across the duration of the course, rather than clustered together at particular times.
The following learning resources, facilities and equipment are available at each campus so that you can achieve the skill and knowledge requirements of this course.
Learning resources may include access to Blackboard, workbooks, learning guides, PowerPoint presentations and class handouts.
Facilities and equipment may include access to specialist training rooms and laboratories, specialised software, materials testing equipment, fluid mechanics equipment, thermodynamic equipment, dynamics equipment, 3D printers and laser cutting machines.
Semester and holiday dates are included in your Letter of Offer. View upcoming semester start and end dates.
Semester 2, 2025
- Tuition fee: $15,800
- Resources fee: $1,480
- Materials fee: $260
Tuition fees are reviewed annually. If tuition fees are increased, you will be required to pay the new fees as they are introduced. You will be provided with an indicative schedule of fees in your Letter of Offer.
Resource fees are for consumables you use in your course e.g. paint, internet etc. You pay this fee to your college at enrolment. If your course goes longer than one semester, the resource fee may not need to be paid in one amount but may be spaced out over the duration of your course. Your college will advise you of the payment amount each semester.
Material fees are for items that remain your property after the course has been completed e.g. personal protective equipment, tools, text books etc. You pay this fee to your college at enrolment.
There is no work placement requirement for this course.
2 semesters
To achieve this qualification, students must demonstrate competency in 20 units. These 20 are comprised of 5 core units and 15 elective units. Elective units listed below have been selected in consultation with industry.
Students who enrol into this qualification will be eligible for credit transfer of the units that they have already achieved. Fees paid by international students are set on a commercial basis and are paid as a whole of course fee - no refund will apply to credit transfers. Please refer to your letter of Offer for detailed duration and costings for your enrolment.
- MEM16006 Organise and communicate information
- MEM16008 Interact with computing technology
- MEM22002 Manage self in the engineering environment
- MEM30012 Apply mathematical techniques in a manufacturing engineering or related environment
- MSMENV272 Participate in environmentally sustainable work practices
- MEM13015 Work safely and effectively in manufacturing and engineering
- MEM14089 Integrate mechanical fundamentals into an engineering task
- MEM22013 Coordinate engineering projects
- MEM23004 Apply technical mathematics
- MEM23006 Apply fluid and thermodynamics principles in engineering
- MEM23063 Select and organise mechanical engineering material tests
- MEM23109 Apply engineering mechanics principles
- MEM23111 Select electrical equipment and components for engineering applications
- MEM30005 Calculate force systems within simple beam structures
- MEM30006 Calculate stresses in simple structures
- MEM30007 Select common engineering materials
- MEM30009 Contribute to the design of basic mechanical systems
- MEM30031 Operate computer-aided design (CAD) system to produce basic drawing elements
- MEM30032 Produce basic engineering drawings
- MEM30033 Use computer-aided design (CAD) to create and display 3D models
The methods of assessment used in this course include written tests, oral questions, direct observations consisting of practical activities and role-plays, structured assessment activities such as projects, assignments, evidence portfolios, computer simulations and reports.
These assessment strategies and evidence gathering are in accordance with the relevant training package or accreditation guidelines. Detailed Information is available in the assessment matrix, learning plans and assessment tools for each of the units of competency. Assessors use this matrix to ensure assessments, are undertaken across the duration of the course, rather than clustered together at particular times.
The following learning resources, facilities and equipment are available at each campus so that you can achieve the skill and knowledge requirements of this course.
Learning resources may include access to Blackboard, workbooks, learning guides, PowerPoint presentations and class handouts.
Facilities and equipment may include access to specialist training rooms and laboratories, specialised software, materials testing equipment, fluid mechanics equipment, thermodynamic equipment, dynamics equipment, 3D printers and laser cutting machines.
Semester and holiday dates are included in your Letter of Offer. View upcoming semester start and end dates.
Semester 1, 2026
- Tuition fee: $15,800
- Resources fee: $612
- Materials fee: $0
Tuition fees are reviewed annually. If tuition fees are increased, you will be required to pay the new fees as they are introduced. You will be provided with an indicative schedule of fees in your Letter of Offer.
Resource fees are for consumables you use in your course e.g. paint, internet etc. You pay this fee to your college at enrolment. If your course goes longer than one semester, the resource fee may not need to be paid in one amount but may be spaced out over the duration of your course. Your college will advise you of the payment amount each semester.
Material fees are for items that remain your property after the course has been completed e.g. personal protective equipment, tools, text books etc. You pay this fee to your college at enrolment.
There is no work placement requirement for this course.
2 semesters
To achieve this qualification, students must demonstrate competency in 20 units. These 20 are comprised of 5 core units and 15 elective units. Elective units listed below have been selected in consultation with industry.
Students who enrol into this qualification will be eligible for credit transfer of the units that they have already achieved. Fees paid by international students are set on a commercial basis and are paid as a whole of course fee - no refund will apply to credit transfers. Please refer to your letter of Offer for detailed duration and costings for your enrolment.
- MEM16006 Organise and communicate information
- MEM16008 Interact with computing technology
- MEM22002 Manage self in the engineering environment
- MEM30012 Apply mathematical techniques in a manufacturing engineering or related environment
- MSMENV272 Participate in environmentally sustainable work practices
- CPPBDN6106 Produce building information modelling for building design projects
- MEM12024 Perform computations
- MEM12025 Use graphical techniques and perform simple statistical computations
- MEM13015 Work safely and effectively in manufacturing and engineering
- MEM23003 Operate and program computers and/or controllers in engineering situations
- MEM23004 Apply technical mathematics
- MEM23006 Apply fluid and thermodynamics principles in engineering
- MEM23007 Apply calculus to engineering tasks
- MEM23109 Apply engineering mechanics principles
- MEM23140 Determine operational parameters for building HVAC hydronic systems
- MEM23142 Determine psychrometric processes and system performance
- MEM30007 Select common engineering materials
- MEM30025 Analyse a simple electrical system circuit
- MEM30031 Operate computer-aided design (CAD) system to produce basic drawing elements
- MEM30032 Produce basic engineering drawings
The methods of assessment used in this course include written tests, oral questions, direct observations consisting of practical activities and role-plays, structured assessment activities such as projects, assignments, evidence portfolios, computer simulations and reports.
These assessment strategies and evidence gathering are in accordance with the relevant training package or accreditation guidelines. Detailed Information is available in the assessment matrix, learning plans and assessment tools for each of the units of competency. Assessors use this matrix to ensure assessments, are undertaken across the duration of the course, rather than clustered together at particular times.
The following learning resources, facilities and equipment are available at each campus so that you can achieve the skill and knowledge requirements of this course.
Learning resources may include access to Blackboard, PowerPoint presentations and class handouts, DA manuals, Australian standards regulations, drawings, specialised software such as Microsoft Office, CAD, and BIM.
Facilities and equipment may include access to classrooms with desktops, materials testing laboratories and equipment, refrigeration and air conditioning trainers and the Library. You will also have use of the purpose-built training facility at Carlisle campus where you can interact with relevant technology.
Semester and holiday dates are included in your Letter of Offer. View upcoming semester start and end dates.
Semester 1, 2026
- Tuition fee: $15,800
- Resources fee: $1,480
- Materials fee: $260
Tuition fees are reviewed annually. If tuition fees are increased, you will be required to pay the new fees as they are introduced. You will be provided with an indicative schedule of fees in your Letter of Offer.
Resource fees are for consumables you use in your course e.g. paint, internet etc. You pay this fee to your college at enrolment. If your course goes longer than one semester, the resource fee may not need to be paid in one amount but may be spaced out over the duration of your course. Your college will advise you of the payment amount each semester.
Material fees are for items that remain your property after the course has been completed e.g. personal protective equipment, tools, text books etc. You pay this fee to your college at enrolment.
There is no work placement requirement for this course.
2 semesters
To achieve this qualification, students must demonstrate competency in 20 units. These 20 are comprised of 5 core units and 15 elective units. Elective units listed below have been selected in consultation with industry.
Students who enrol into this qualification will be eligible for credit transfer of the units that they have already achieved. Fees paid by international students are set on a commercial basis and are paid as a whole of course fee - no refund will apply to credit transfers. Please refer to your letter of Offer for detailed duration and costings for your enrolment.
- MEM16006 Organise and communicate information
- MEM16008 Interact with computing technology
- MEM22002 Manage self in the engineering environment
- MEM30012 Apply mathematical techniques in a manufacturing engineering or related environment
- MSMENV272 Participate in environmentally sustainable work practices
- MEM13015 Work safely and effectively in manufacturing and engineering
- MEM14089 Integrate mechanical fundamentals into an engineering task
- MEM22013 Coordinate engineering projects
- MEM23004 Apply technical mathematics
- MEM23006 Apply fluid and thermodynamics principles in engineering
- MEM23063 Select and organise mechanical engineering material tests
- MEM23109 Apply engineering mechanics principles
- MEM23111 Select electrical equipment and components for engineering applications
- MEM30005 Calculate force systems within simple beam structures
- MEM30006 Calculate stresses in simple structures
- MEM30007 Select common engineering materials
- MEM30009 Contribute to the design of basic mechanical systems
- MEM30031 Operate computer-aided design (CAD) system to produce basic drawing elements
- MEM30032 Produce basic engineering drawings
- MEM30033 Use computer-aided design (CAD) to create and display 3D models
The methods of assessment used in this course include written tests, oral questions, direct observations consisting of practical activities and role-plays, structured assessment activities such as projects, assignments, evidence portfolios, computer simulations and reports.
These assessment strategies and evidence gathering are in accordance with the relevant training package or accreditation guidelines. Detailed Information is available in the assessment matrix, learning plans and assessment tools for each of the units of competency. Assessors use this matrix to ensure assessments, are undertaken across the duration of the course, rather than clustered together at particular times.
The following learning resources, facilities and equipment are available at each campus so that you can achieve the skill and knowledge requirements of this course.
Learning resources may include access to Blackboard, workbooks, learning guides, PowerPoint presentations and class handouts.
Facilities and equipment may include access to specialist training rooms and laboratories, specialised software, materials testing equipment, fluid mechanics equipment, thermodynamic equipment, dynamics equipment, 3D printers and laser cutting machines.
Semester and holiday dates are included in your Letter of Offer. View upcoming semester start and end dates.
There may be further semester intakes available for enrolment. You can view any further intakes when you submit your online application(opens in a new tab).
For information about pathways from TAFE to university, view our Pathways to university page.
How to apply
Apply to study at TAFE in six steps:
- find a course;
- check entry requirements;
- submit an application;
- accept your offer and pay;
- apply for your student visa; and
- receive your visa and come to Australia for your studies.
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TAFE International Western Australia (TIWA) is the Registered Training Organisation (RTO) and Commonwealth Register of Institutions and Courses for Overseas Students (CRICOS) provider, for the delivery of training to international students, enrolled in a TAFE course in Western Australia. This nationally recognised course is delivered by a Western Australian TAFE college on TIWA's behalf. TIWA retains responsibility for the quality of the training and assessment delivered by the TAFE colleges and for the issue of certification documentation to students.