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Unit of Study ENI83040 - Control Systems and Automation (2017)
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Unit Snapshot
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Unit type
UG Coursework Unit
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Credit points
12
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AQF level
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Level of learning
Advanced
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Former School/College
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Pre-requisites
ENG20007 - Engineering Computations
AND
ENI73001 - Dynamics of Machines
AND - Electro-Mechanical and Robotics Technology
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Enrolment information
N/A
Learning outcomes and graduate attributes
Unit Learning Outcomes express learning achievement in terms of what a student should know, understand and be able to do on completion of a unit. These outcomes are aligned with the graduate attributes. The unit learning outcomes and graduate attributes are also the basis of evaluating prior learning.
On completion of this unit, students should be able to:
Learning outcome count | Learning outcome description | GA1 | GA2 | GA3 | GA4 | GA5 | GA6 | GA7 |
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1 | interpret the significance and relevance of systems and associated control in mechanical engineering | |||||||
2 | understand the concept of stability and its importance in systems analysis and control | |||||||
3 | form systems models of basic mechanical, electrical, and electromechanical systems | |||||||
4 | analyse these system models for steady-state and transient performance and stability | |||||||
5 | employ classical control system design methods in the design of feedback loops to achieve a specified dynamic behaviour from a system | |||||||
6 | develop skills in effectively and safely using laboratory equipment in a team environment, and in reporting findings | |||||||
7 | understand the application of control and automation in mechanical engineering professional practice. |
On completion of this unit, students should be able to:
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interpret the significance and relevance of systems and associated control in mechanical engineering
- GA1:
- GA4:
-
understand the concept of stability and its importance in systems analysis and control
- GA1:
- GA4:
-
form systems models of basic mechanical, electrical, and electromechanical systems
- GA1:
- GA4:
-
analyse these system models for steady-state and transient performance and stability
- GA1:
- GA4:
-
employ classical control system design methods in the design of feedback loops to achieve a specified dynamic behaviour from a system
- GA1:
- GA4:
-
develop skills in effectively and safely using laboratory equipment in a team environment, and in reporting findings
- GA4:
- GA6:
-
understand the application of control and automation in mechanical engineering professional practice.
- GA6: