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Evidence Guide: MSAPMOPS406A - Identify problems in electronic control systems

Student: __________________________________________________

Signature: _________________________________________________

Tips for gathering evidence to demonstrate your skills

The important thing to remember when gathering evidence is that the more evidence the better - that is, the more evidence you gather to demonstrate your skills, the more confident an assessor can be that you have learned the skills not just at one point in time, but are continuing to apply and develop those skills (as opposed to just learning for the test!). Furthermore, one piece of evidence that you collect will not usualy demonstrate all the required criteria for a unit of competency, whereas multiple overlapping pieces of evidence will usually do the trick!

From the Wiki University

 

MSAPMOPS406A - Identify problems in electronic control systems

What evidence can you provide to prove your understanding of each of the following citeria?

Identify electrical/ electronic control system problems.

  1. Categorise the types of machine malfunctions due to electrical/electronic faults.
  2. Describe the effects on product quality of electrical/electronic problems.
  3. Isolate possible faulty components from a circuit diagram and knowledge of the function of each component.
Categorise the types of machine malfunctions due to electrical/electronic faults.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Describe the effects on product quality of electrical/electronic problems.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Isolate possible faulty components from a circuit diagram and knowledge of the function of each component.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Implement appropriate corrective action.

  1. Examine other possible faults.
  2. Short list possible fault causes.
  3. Conduct investigations of machine, products or data to determine most likely fault cause(s).
  4. Take appropriate action to ensure fault is rectified.
  5. Follow up on action to ensure completion in an appropriate time frame.
  6. Recheck after corrective action to ensure fault has been rectified.
Examine other possible faults.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Short list possible fault causes.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Conduct investigations of machine, products or data to determine most likely fault cause(s).

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Take appropriate action to ensure fault is rectified.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Follow up on action to ensure completion in an appropriate time frame.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Recheck after corrective action to ensure fault has been rectified.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Identify maintenance requirements.

  1. Check manufacturer instructions to determine recommended maintenance schedule.
  2. Check fault and maintenance history to determine adequacy of current regime and special requirements.
  3. Determine criticality of machine to production/business.
  4. Develop maintenance schedule/requirements for machine.
  5. Liaise with all relevant stakeholders to ensure schedule is appropriate.
  6. Report outcome to appropriate personnel.
Check manufacturer instructions to determine recommended maintenance schedule.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Check fault and maintenance history to determine adequacy of current regime and special requirements.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Determine criticality of machine to production/business.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Develop maintenance schedule/requirements for machine.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Liaise with all relevant stakeholders to ensure schedule is appropriate.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Report outcome to appropriate personnel.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Identify electronic control system problems.

  1. Categorise the types of machine malfunctions due to electronic control system faults.
  2. Describe the effects on product quality of electronic control system problems.
  3. Isolate possible faulty components from a circuit diagram and knowledge of the function of each component.
Categorise the types of machine malfunctions due to electronic control system faults.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Describe the effects on product quality of electronic control system problems.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Isolate possible faulty components from a circuit diagram and knowledge of the function of each component.

Completed
Date:

Teacher:
Evidence:

 

 

 

 

 

 

 

Assessed

Teacher: ___________________________________ Date: _________

Signature: ________________________________________________

Comments:

 

 

 

 

 

 

 

 

Instructions to Assessors

Evidence Guide

The Evidence Guide provides advice on assessment and must be read in conjunction with the Performance Criteria, required skills and knowledge, the Range Statement and the Assessment Guidelines for this Training Package.

Overview of assessment

It is preferred that assessment takes place on industrial equipment in a work environment.

Critical aspects for assessment and evidence required to demonstrate competency in this unit

It is essential that competence is demonstrated in the ability to:

recognise potential situations requiring action and then in implementing appropriate action.

Consistent performance should be demonstrated. For example, look to see that:

machine reliability is high.

Assessment method and context

A holistic approach should be taken to the assessment.

Assessors must be satisfied that the person can consistently perform the unit as a whole, as defined by the Elements, Performance Criteria and skills and knowledge.

Competence in this unit may be assessed:

on a processing plant allowing for operation under all normal and a range of abnormal conditions

in a situation allowing the generation of evidence of the ability to recognise, anticipate and solve problems

by using a suitable simulation and/or a range of case studies/scenarios

through a combination of these techniques.

In all cases it is expected that practical assessment will be combined with targeted questioning to assess the underpinning knowledge and theoretical assessment will be combined with appropriate practical/simulation or similar assessment. Assessors need to be aware of any cultural issues that may affect responses to questions.

Assessment processes and techniques must be culturally appropriate and appropriate to the oracy, language and literacy capacity of the assessee and the work being performed.

Specific resources for assessment

This section should be read in conjunction with the Range Statement for this unit of competency. Resources required include suitable access to an operating plant or equipment that allows for appropriate and realistic simulation. A bank of case studies/scenarios and questions will also be required to the extent that they form part of the assessment method. Questioning may take place either in the workplace, or in an adjacent, quiet facility such as an office or lunchroom.

Additional resources might include the provision of equipment with known faults/problems to allow for assessment of the ability to identify problems.

Required Skills and Knowledge

This describes the essential skills and knowledge and their level required for this unit.

Knowledge and understanding of the process and the interaction of process conditions on product quality sufficient to recognise and analyse control system faults.

Knowledge of organisation procedures and policies along with the ability to implement them within appropriate time constraints and in a manner relevant to the job.

Application of the knowledge of managing risks using the hierarchy of controls applied to the process. Application of approved hazard control, safety procedures, use of PPE in relation to handling materials, equipment operation and clean up.

Knowledge as a basis for solving electronic control system problems, including:

fundamentals of electricity and electronics

electronic circuit diagrams

principles of electronic circuit components

principles of PLC programming, troubleshooting and diagnosis

appropriate testing procedures and use of equipment for a range of equipment faults

urgency and timeliness factors in planning maintenance activities in relation to production requirements

collection, analysis and reporting of data.

Competence also includes the ability to:

identify and select testing methods based on cost and time effectiveness

conduct inspections, checks and tests on equipment as appropriate

read and interpret circuit diagrams for mechanical, hydraulic, pneumatic and electrical/electronic operating systems

use technical information and manufacturer information to locate relevant data

interpret technical specifications and manufacturer instructions

ensure workplace is safe for testing and maintenance of equipment

identify hazards of the materials and process

implement appropriate procedures for hazard control

use PPE, safely handle products and materials, read relevant safety information and apply safety precautions appropriate to the task.

Language, literacy and numeracy requirements

This unit requires the ability to read and interpret technical specifications and manufacturer manuals.

Writing is required to the level of writing procedures and schedules. Basic numeracy is also required to allow the interpretation of machine and product data and the comparison of actual with desired readings.

Range Statement

The Range Statement relates to the unit of competency as a whole. It allows for different work environments and situations that may affect performance. Add any essential operating conditions that may be present with training and assessment depending on the work situation, needs of the candidate, accessibility of the item, and local industry and regional contexts.

Where reference is made to industry codes of practice, and/or Australian/international standards, the latest version must be used.

Context

This competency unit includes all common equipment used in the manufacturing industry and should be able to be applied to all equipment using electrical/ electronic control systems.

This competency applies to all work environments and sectors within the manufacturing industry. It assumes an understanding of the operation of all relevant equipment and processes but does not necessarily require them to be used personally.

Procedures

All operations are performed in accordance with procedures.

Procedures include all relevant workplace procedures, work instructions, temporary instructions and relevant industry and government codes and standards.

Tools and equipment

This competency includes use of equipment and tools such as:

application and programming of PLC (programmable logic controls) and ancillaries

application of solid-state control/switching units

switches, relays and solenoids

position and pressure transducers

temperature controllers.

Hazards

Typical hazards include:

electricity

temperature from hot surfaces and equipment

malfunctioning equipment

test equipment.

Problems

Respond to/rectify 'non-routine problems' means 'apply known solutions to a variety of predictable problems'.

Typical process and product problems may include:

loss of flow, power

power failure

component malfunction

poor maintenance procedures

regular maintenance

shutdown

motor failure effect on cycle time

short shots

loss of clamp pressure

no power

electronic/electrical faults

analysis with PLC.

Variables

Key variables to be monitored include:

temperatures

cleanliness

poor performance

safety aspects.