All qualifications and part qualifications registered on the National Qualifications Framework are public property. Thus the only payment that can be made for them is for service and reproduction. It is illegal to sell this material for profit. If the material is reproduced or quoted, the South African Qualifications Authority (SAQA) should be acknowledged as the source. |
SOUTH AFRICAN QUALIFICATIONS AUTHORITY |
REGISTERED QUALIFICATION THAT HAS PASSED THE END DATE: |
National Diploma: Engineering: Electrical |
SAQA QUAL ID | QUALIFICATION TITLE | |||
78625 | National Diploma: Engineering: Electrical | |||
ORIGINATOR | ||||
Cape Peninsula University of Technology | ||||
PRIMARY OR DELEGATED QUALITY ASSURANCE FUNCTIONARY | NQF SUB-FRAMEWORK | |||
CHE - Council on Higher Education | HEQSF - Higher Education Qualifications Sub-framework | |||
QUALIFICATION TYPE | FIELD | SUBFIELD | ||
National Diploma | Field 12 - Physical Planning and Construction | Electrical Infrastructure Construction | ||
ABET BAND | MINIMUM CREDITS | PRE-2009 NQF LEVEL | NQF LEVEL | QUAL CLASS |
Undefined | 360 | Level 6 | NQF Level 06 | Regular-Provider-ELOAC |
REGISTRATION STATUS | SAQA DECISION NUMBER | REGISTRATION START DATE | REGISTRATION END DATE | |
Passed the End Date - Status was "Reregistered" |
SAQA 06120/18 | 2018-07-01 | 2018-12-31 | |
LAST DATE FOR ENROLMENT | LAST DATE FOR ACHIEVEMENT | |||
2019-12-31 | 2023-12-31 |
In all of the tables in this document, both the pre-2009 NQF Level and the NQF Level is shown. In the text (purpose statements, qualification rules, etc), any references to NQF Levels are to the pre-2009 levels unless specifically stated otherwise. |
This qualification replaces: |
Qual ID | Qualification Title | Pre-2009 NQF Level | NQF Level | Min Credits | Replacement Status |
1597 | National Diploma: Engineering: Electrical | Level 6 | Level TBA: Pre-2009 was L6 | 360 | Complete |
PURPOSE AND RATIONALE OF THE QUALIFICATION |
A qualifying learner will be competent to apply technical knowledge, engineering principles and problem-solving techniques in the field of Electrical Engineering by operating within the relevant standards and codes in collaboration with other members of the engineering team.
The qualified person will be able to register with the Engineering Council of South Africa (ECSA) as a Technician-in-Training in the field of Electrical Engineering. |
LEARNING ASSUMED TO BE IN PLACE AND RECOGNITION OF PRIOR LEARNING |
FET certificate at NQF 4, with Mathematics (Higher Grade), Physical Science (Higher Grade) and English Second Language (Higher Grade) at NQF 4. |
RECOGNISE PREVIOUS LEARNING? |
N |
QUALIFICATION RULES |
The qualification will be awarded to a learner who has provided evidence to the satisfaction of the assessors that the stated competence of the qualification, as detailed in the specified outcomes, has been achieved, either through education and training in a single provider`s learning programme, or through experience that complies with the stated specified outcomes. |
EXIT LEVEL OUTCOMES |
1.Practise Electrical Engineering activities and applications at the level expected of a Professional Technician (Engineering)
2.Manage Electrical Engineering activities and applications at the level expected of a Professional Technician (Engineering) SPECIFIED OUTCOMES: CRITICAL OUTCOMES: Identify and solve problems in which responses display that responsible decisions, using critical and creative thinking, have been made Work effectively with others as a member of the team, group, organisation or community Organise and manage oneself, one`s activities responsibly and effectively Collect, analyse, organise and critically evaluate information Communicate effectively using visual, mathematical and/or language skills in the modes of written and/or oral persuasion Use science and technology effectively and critically, showing responsibility towards the environment and health of others Demonstrate an understanding of the world as a set of related systems by recognising that problem-solving contexts do not exist in isolation Be aware of the importance of: * Reflecting on and exploring a variety of strategies to learn more effectively * Participating as a responsible citizen in the life of local, national and global communities * Being culturally and aesthetically sensitive across a range of social contexts * Explore education and career opportunities |
ASSOCIATED ASSESSMENT CRITERIA |
1. The operating principles of components, devices and systems are explained correctly.
The standards and procedures applicable to components, devices and systems are described. The initial or current state is described. The final or desired state of the work package is specified. Information is gathered, structured and evaluated using proven techniques. Technical variables, factors and cause-effect relationships are identified. The contextual constraints are identified and stated. Circuits, devices and systems are modelled to determine their operating characteristics. Comprehensive technical criteria for the solution or successful project are developed. The results of the requirements analysis are documented. Range: the technician`s superior or client normally defines the work package. The latitude for examining options is established by considering the problem context: time, engineering resources, health and safety issues, environmental issues. Basic physical principles and engineering sciences, underlying current technology and mathematical calculations are applied to synthesize solutions. Alternative solutions or approaches are proposed and planned based on experience of successful approaches. Proven skills, techniques and tools are used to develop solutions for the options. Solutions are documented in sufficient detail for evaluation. Solutions are judged against set technical and economic criteria, and within prevailing constraints, to determine the extent to which the specification is met. Immediate risks and impacts of solutions are evaluated. Reasoned arguments involving technical and cost factors supporting the choice of option are presented. Engineering judgement is exercised in arriving at a decision to select an option. Full responsibility is taken for the technical work package and evaluation is sought from the appropriate authority in respect of any aspect of the solution which is out of range of competency. The chosen option is further developed and evaluated as required. The chosen option is clearly documented. An operational procedure to implement the solution or execute the project is planned. Information necessary for implementation is gathered, structured and evaluated. Detailed solution procedures are implemented and the outcomes documented. Resources necessary to implement the solution or complete the project are identified, sourced and managed. Contributions are made to technical aspects of drawing up and negotiating contracts. The solution is implemented in accordance with the chosen solution and procedures approved by superior or client. Modifications of the chosen solution or implementation procedures are justified and documented, and referred to the appropriate authority when necessary. Task requirements are clearly communicated, co-ordinated and monitored to ensure effective team work. Quality management procedures are applied. The performance criteria for quantities to be monitored are identified. Performance data on the implemented solution is collected on an going basis. The performance data is evaluated against set criteria. Problem-solving cycles are adopted as required. Engineering drawings, data and instructions are read and interpreted correctly. Appropriate engineering procedures and tools are used to construct/assemble equipment/systems to specification. Components, devices and equipment are mounted, installed, maintained and replaced correctly The operating limits of equipment, devices and components are determined using theoretical and practical knowledge of their functioning. The functioning of equipment is evaluated to determine whether it is operating within specified limits. Measuring equipment is correctly used to determine the operating parameters of components, devices and equipment. Measured performance data of components, devices and equipment are correctly interpreted, and compared to specified operating limits, to decide whether the items are functioning properly. Appropriate steps to correct malfunctioning equipment and devices are determined and implemented. Engineering specifications as applied to the operation and functioning of electrical engineering equipment and systems are read and interpreted correctly. Circuit theory is correctly used to analyse the operation of circuits. Tools and measuring equipment are identified, prepared, calibrated and maintained appropriately, according to statutory requirements and laid down procedures. The operation and performance limitations of test equipment is interpreted to select the appropriate equipment and procedure for the task. Test equipment is used correctly and safely to measure electrical parameters relating to the operation of electrical equipment and systems. The results of measurements are correctly interpreted to determine whether equipment is operating satisfactorily. Problems in equipment and systems, and devices which are degrading the operating performance of equipment and systems, are identified. Faulty components, devices and systems are replaced. 2. Time is managed well. Work is completed in good time. Initiative is used in the work situation. Change is dealt with effectively. Ethical behaviour in engineering activity is demonstrated. Professional development is pursued on an ongoing basis . Candidate advises superiors if he/she is not qualified through training or experience to undertake a task. Working in a team situation effects change. Personal responsibilities in the team are recognised and discharged. Critical contributions are made to team activity. Communication with team members is effective. Relationships, respect and trust are built and maintained with team members, customers and suppliers. Team members are mentored and coached, as appropriate. Team contributions are documented. Priorities to achieve stated goals are set. Projects are analysed to identify critical aspects of the project, and project plans are created. Project plans are implemented, monitored, reviewed and modified if necessary. Challenges and opportunities brought about by changing situations are recognised. Industrial relations legislation and principles are applied. Budgets are prepared and managed. The costs of resources are established. The candidate contributes to the determining of product and service pricing. The candidate contributes to determining the financial viability of projects. Specific customer or stakeholder needs are identified. Differing values, social and cultural factors are taken into account when dealing with colleagues, clients and stakeholders. Candidate works collaboratively with customers/suppliers. Candidate demonstrates commercial awareness in technical work. Candidate manages the procurement process. Candidate ensures that the resulting capability meets requirements. Regular and complete progress reports are provided. Candidate joins professional societies and groups of users and experts in order to share and gain expertise. Range: Customer, supplier, regulatory authority, stakeholder. Engineering drawings and specifications are prepared and interpreted. Cost estimates, work schedules, and instruction manuals are prepared and presented. Clear, concise, effective, technically, legally and editorially correct reports are written using a structure and style which meets communication objectives and user/audience requirements. Technical and legal matter, relevant to the function of the Professional Technician, is read and evaluated. Correct interpretation of instructions is ensured. Clear instructions are given to subordinates using appropriate language and communication aids, ensuring that language and other communication barriers are overcome. Oral presentations are made using language, structure, style, visual media and supporting documents appropriate to the audience and purpose. Integrated assessment: Combinations of the following forms of assessment will be used in the context of the typical roles played by a Professional Technician (Electrical Engineering). Observation The assessor will watch the candidate perform a task that is part of his/her normal workplace responsibility. Demonstration The assessor will watch the candidate perform a typical workplace task especially for the assessment, because the task is not part of his/her normal workplace responsibility at that specific time. Computer simulation The assessor will watch the candidate perform a simulation of the real life task on the computer. Role play simulation The assessor will watch the candidate out a typical workplace scenario to assess his/her interpersonal skills. Written test/examination The assessor will evaluate the candidate`s knowledge and understanding by giving him/her written tests or examinations. Oral questioning The assessor will evaluate the candidate`s knowledge and understanding by asking him/her to verbally answer questions. Projects The assessor will evaluate the candidate`s level of competence by setting him/her individual and team projects to complete. Portfolios The assessor will evaluate the candidate`s level of competence by considering a portfolio of his/her work. |
ARTICULATION OPTIONS |
Professional Degree in Electrical Engineering
First Degree in Mechanical Engineering First Degree in Computer Systems Engineering Certificate of Competency: Mines Certificate of Competency: Factories |
MODERATION OPTIONS |
Currently SERTEC, and ECSA. |
CRITERIA FOR THE REGISTRATION OF ASSESSORS |
Assessors must be qualified at a minimum of one level higher than the qualification for which they are assessing candidates. |
REREGISTRATION HISTORY |
As per the SAQA Board decision/s at that time, this qualification was Reregistered in 2009; 2012; 2015. |
NOTES |
While South Africa still had Technikons, all of their qualifications were registered under the Committee of Technikon Principals. After the Technikons became Universities of Technology or merged with Universities, the qualifications were registered under each of these institutions, and the CTP qualifications fell away (hence the end date of 2006, above). Where relevant, replacement information is s hown in the table above. |
LEARNING PROGRAMMES RECORDED AGAINST THIS QUALIFICATION: |
When qualifications are replaced, some (but not all) of their learning programmes are moved to the replacement qualifications. If a learning programme appears to be missing from here, please check the replaced qualification. |
NONE |
PROVIDERS CURRENTLY ACCREDITED TO OFFER THIS QUALIFICATION: |
This information shows the current accreditations (i.e. those not past their accreditation end dates), and is the most complete record available to SAQA as of today. Some Primary or Delegated Quality Assurance Functionaries have a lag in their recording systems for provider accreditation, in turn leading to a lag in notifying SAQA of all the providers that they have accredited to offer qualifications and unit standards, as well as any extensions to accreditation end dates. The relevant Primary or Delegated Quality Assurance Functionary should be notified if a record appears to be missing from here. |
1. | Cape Peninsula University of Technology |
All qualifications and part qualifications registered on the National Qualifications Framework are public property. Thus the only payment that can be made for them is for service and reproduction. It is illegal to sell this material for profit. If the material is reproduced or quoted, the South African Qualifications Authority (SAQA) should be acknowledged as the source. |