Course Title: Develop complex testing & evaluation procedures (Electronics)

Part B: Course Detail

Teaching Period: Term2 2009

Course Code: EEET6629C

Course Title: Develop complex testing & evaluation procedures (Electronics)

School: 130T Vocational Engineering

Campus: City Campus

Program: C6040 - Advanced Diploma of Electronics Engineering

Course Contact: Program Manager

Course Contact Phone: +61 3 9925 4468

Course Contact Email: engineering-tafe@rmit.edu.au


Name and Contact Details of All Other Relevant Staff

Kemps Cheng, Course Coordinator  (03) 9925 4691

kemps.cheng@rmit.edu.au

Elmas Aliu, Teacher, (03) 9925 4360

elmas.aliu@rmit.edu.au

Nominal Hours: 126

Regardless of the mode of delivery, represent a guide to the relative teaching time and student effort required to successfully achieve a particular competency/module. This may include not only scheduled classes or workplace visits but also the amount of effort required to undertake, evaluate and complete all assessment requirements, including any non-classroom activities.

Pre-requisites and Co-requisites

None

Course Description

This course contains some of the underpinning knowledge of a program, which designed for a person to be able to undertake design, select, install, commission, maintain and carry out repairs on advanced electronic equipment and systems.
The Knowledge and skills addressed in this course include the communication engineering application for radio transmitters & receivers, digital communications principles, RF communication test and measurement instruments, work performance project.
For the purpose of carrying out the complex testing & evaluation procedures of a communication system, this course also includes the use of mathematics skills for applying the theory and concepts of Stochastic process, probability, statistics, random processes, graphical data summaries, and optimisation techniques.


National Codes, Titles, Elements and Performance Criteria

National Element Code & Title:

UTENES406CA Develop complex testing & evaluation procedures (Electronics)

Element:

Completion of work

Performance Criteria:

3.1 Final testing and evaluation procedures are undertaken in accordance with established procedures.
3.2 Complex testing and evaluation procedures completion is notified in accordance with established procedures

Element:

Develop complex testing and evaluation procedure

Performance Criteria:

2.1 OH&S policies and procedures are followed and detailed
2.2 Normal function of advanced systems and associated apparatus is ascertained and detailed in accordance with requirements
2.3 Systems and associated apparatus isolation and specified testing procedures are detailed where necessary
2.4 Systems and associated apparatus complex testing is detailed in accordance with requirements
2.5 Response to unplanned events or conditions in accordance with established procedures are detailed
2.6 Approval to implement contingencies in accordance with established procedures from appropriate personnel are detailed.
2.7 On-going checks of the quality of the work in accordance with established procedures are detailed.
2.8 Final complex testing and evaluation procedures of systems and associated apparatus conforming to requirements are detailed.
2.9 Notification of work completion in accordance with established procedures is detailed.

Element:

Plan and prepare for the development of complex testing and evaluation procedures

Performance Criteria:

1.1 Identified OH&S policies and procedures to be followed are planned and prepared, and the work sequence in accordance with requirements
1.2 Appropriate personnel are consulted to ensure the programs for maintenance are co-ordinated effectively with others involved on the work site.
1.3 Program to be developed for complex testing and evaluation are checked against job requirements
1.4 Materials necessary to complete the work are identified and detailed in accordance with established procedures and checked against job requirements.
1.5 Tools, equipment and testing devices needed to carry out the commissioning work are identified and detailed in accordance with established procedures
1.6 Preparatory work is identified to ensure compliance with requirements


Learning Outcomes



Details of Learning Activities

Communication Engineering Applications:

· Classroom tutorial activities to consolidate the theory and application of various types of modulation systems, transmission line, microwave propagation and fibre optic communication systems.

· Practical activities to develop skill in construction the working model of various types oscillators, receiver and transmission line systems. Conduct complex testing process, diagnose & rectify fault and verify the performance as specification.

· Work performance simulation projects involving the design and construction of selected systems, development of testing procedure to verify the performance specification, diagnosis of faults in the systems and repair the fault. Specifications will be provided with work simulation (team or individual basis) or may be negotiated to suit a workplace based application

 

Engineering Mathematics 4:

Classroom activities including lectures, tutorials and practices to :

. Introduction to of the competency EEET 6629C, Induction of the Stochastic processes.
. Introduction to Probability. Introduction to sets and subsets. Sample spaces. Events. Conditional Probability
. Random variables. Expected value. The variance.Probability Distribution. The distribution function. The density function. Discrete Random Variable. Continuous Random Variable.
. Bernoulli distribution, Normal Distribution and Poisson Distribution with their applications
. Binomial Distribution, Geometric Distribution and Uniform Distribution with their applications. Independent Random Variables
. Independent Random Variables.Probability plots in computer software
. The queuing method. Computer Software implementation.Simple linear regression and correlation. Simple Optimization technique.Lagrange multipliers
. Graphical techniques
. Linear Programming. Introduction.The graphical method 
. Simplex method
. Dual Simplex Method
. Duality
. Sensitivity analysis and post – optimal analysis. 

 


Teaching Schedule

Available from Student Shared network drive (S:\\ )


Learning Resources

Prescribed Texts


References

Modern Electronic Communication, the latest edition – Gary M. Miller


Other Resources


Overview of Assessment

This is a progressive assessment, the underpinning knowledge will be assessed on the completion of each course, but the competency itself will not be signed off until related competency is completed and the student is deemed competent.
The students are required to undertake summative assessments as follows:
• Progressive Written assessments
• Written Assignments
• Scheduled Practical Exercises
• Work Simulation Projects


Assessment Tasks

The assessment is conducted in both theoretical and practical aspects of the course according to the criteria set in the National Training Package.

The students are required to undertake summative assessments that bring together skills and knowledge as follows:

* Theoretical Written assessment.

* Work Simulation Projects

* A Pass in schedule practical exercises


Assessment Matrix

Item Element of Competency Related Underpinning Knowledge Assessment Method % Weeks
1 Plan and prepare for the development of complex testing and evaluation procedures As per learning activity Laboratory

Project/Assignments

Test
10

20


25
1-10

1 - 10


11
2 Develop complex testing and evaluation procedure As per learning activity Laboratory

Test
5

15
8-18

17
3 Completion of work As per learning activity Laboratory

Project/Assignments
5

20
10-18

10-18

Other Information

To pass this course student must pass both “Engineeting Mathematics 4" and "Communication Engineering Applications + WP" components.

Course Overview: Access Course Overview