MODULE DETAILS

 

Electrical Drawings DEEEDR605

 

NOMINAL DURATION IN HOURS

36 hours total time commitment

This time commitment includes the structured activities, preparation reading, and attendance at each webinar, completing exercises, practical assessments and proctored assessments.

It is also expected that students spend additional time on readings, personal study, independent research and learning, practicing on remote labs and required software and working on any projects and assignments.

This module covers various types of electrical drawings and their application, the steps in planning a drawing, selection of drawing size and scale, use of standardized symbols etc. are considered in detail with commonly used examples from industry practice.

MODULE PURPOSE

 

The purpose of the module is for participants to develop a broad knowledge of standardised methodologies, conventions and approaches in preparing electrical drawings.

MODIFICATION HISTORY

Ver 4.1

PREREQUISITE AND/OR CO‑REQUISITE MODULES

 

Modules that must be delivered and assessed before this module:

N/A

Modules that must be delivered concurrently with this module:

N/A

SUMMARY OF LEARNING OUTCOMES

 

On successful completion of this module students will be able to:

1.    Differentiate and interpret drawing types, attributes and symbols

2.    Analyse and interpret engineering drawings

3.    Outline basic principles of CAD and drawing management

LEARNING OUTCOMES

ASSESSMENT CRITERIA

Learning outcomes specify what students will be able to do as a result of the learning.

Assessment criteria provide the criteria by which achievement of the learning outcomes will be judged.

1

Discuss and differentiate drawing types, attributes and symbols

1.1

Outline and compare the fundamentals of electrical and electronic engineering drawings

1.2

Recognise and differentiate electro-technology symbols used in drawings

2

Analyse and interpret engineering drawings

2.1

Analyse and interpret (a) single line diagrams, (b) 3-line diagrams, (c) schematic diagrams, (d) cabling and wiring drawings, and (e) layout drawings

3

Outline basic principles of CAD and drawing management

3.1

Outline basic CAD drawing features

3.2

Create a simple CAD diagram

3.3

Outline basic principles of drawing management

DELIVERY MODE

 

Online and/or face-to-face

SPECIALISED RESOURCES

N/A

ASSESSMENT STRATEGY

 

METHODS OF ASSESSMENT

Assessors should gather a range of evidence that is valid, sufficient, current and authentic. Evidence can be gathered through a variety of ways including direct observation, supervisor's reports, project work, structured assessments, samples and questioning. This will include short answer questions on the knowledge content, the use of remote and virtual labs, and writing tasks to apply the learning to academic tasks.

 

CONDITIONS OF ASSESSMENT

Assessor Requirements:

Assessors must satisfy the assessor requirements in the standards for registered training organisation (RTOs) current at the time of assessment.

 

Assessors must also hold a tertiary qualification in engineering or related field.

 

The RTO must also ensure that trainers and assessors keep their industry knowledge up to date through ongoing professional development.

Assessment Conditions:

 

Questioning techniques should not require language, literacy and numeracy skills beyond those required in this module. The candidate must have access to all tools, equipment, materials and documentation required.

 

The candidate must be permitted to refer to any relevant workplace procedures, product and manufacturing specifications, codes, standards, manuals and reference materials.

 

Assessments may be open book assessment and may be completed off campus. Invigilation software will be used for some assessments to ensure authenticity of work completed.

 

Model answers must be provided for all knowledge-based assessments to ensure reliability of assessment judgements when marking is undertaken by different assessors.

 

Software/Hardware Used

Software

  • MATLAB v1.2 

Hardware

  • Remote Lab