Hobart
Introduction
The unit is directed at building on the fundamentals of electrical circuits acquired in the first year of the course to provide technical competence in digital electronics and introduce embedded system development. The unit introduces students to the properties and characteristics of digital electronics and extends these to the design and implementation of digital circuits and microcontroller programming. Students will gain an understanding of basic digital systems and an understanding of how such systems can form part of larger technical systems. Fundamental skills will be gained in the analysis and implementation of digital electronic circuits and systems. Topics covered include: Combinational logic. Sequential logic. Microprocessor fundamentals. The unit prepares students to undertake future studies in advanced Electronic/Communications Engineering.
Summary 2021
Unit name | Digital Electronics |
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Unit code | ENG746 |
Credit points | 12.5 |
Faculty/School | College of Sciences and Engineering School of Engineering |
Discipline | Engineering |
Coordinator | Andrew Brocklesby |
Available as student elective? | No |
Breadth Unit? | No |
Availability
Note
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Units are offered in attending mode unless otherwise indicated (that is attendance is required at the campus identified). A unit identified as offered by distance, that is there is no requirement for attendance, is identified with a nominal enrolment campus. A unit offered to both attending students and by distance from the same campus is identified as having both modes of study.
Special approval is required for enrolment into TNE Program units.
TNE Program units special approval requirements.
* The Final WW Date is the final date from which you can withdraw from the unit without academic penalty, however you will still incur a financial liability (see withdrawal dates explained for more information).
Learning Outcomes
1 | Explain the characteristics and operation of digital electronic circuits with reference to recent developments. |
2 | Design digital electronic circuits using Boolean mathematical techniques. |
3 | Construct digital electronic circuits. |
4 | Analyse digital electronic circuits for the purpose of optimisation and fault finding. |
5 | Develop microprocessor solutions to meet specified requirements. |
Fees
Requisites
Prerequisites
KAA112 Engineering Circuits and KAA109 Engineering Problem Solving and Data Analysis
Teaching
Teaching Pattern | 3 x 60 minute lectures, 1 x 60 minute tutorial, 4 x 180 minute practicals |
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Assessment | AT1 - Design of a digital circuit (20%) AT2 - Construction of a simple combinational logic circuit (15%) AT3 - Simulation of a simple microprocessor circuit (25%) AT4 - Exam (40%) |
Timetable | View the lecture timetable | View the full unit timetable |
Textbooks
Required | None |
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