Analogue, Digital Electronics and Computing
| Code | School | Level | Credits | Semesters |
| EEEE1032 | Electrical & Electronic Engineering | 1 | 20 | Full Year Malaysia |
- Code
- EEEE1032
- School
- Electrical & Electronic Engineering
- Level
- 1
- Credits
- 20
- Semesters
- Full Year Malaysia
Summary
Target Students
First year mechatronic engineering students on courses offered by Department of Electrical and Electronic Engineering
Classes
- One 1-hour tutorial each week for 8 weeks
- Two 2-hour lectures each week for 18 weeks
- One 3-hour laboratory each week for 8 weeks
Assessment
- 2% Progress Test 1: Software engineering
- 2% Progress Test 8: Analog and Digital electronics
- 20% Coursework 1: Software engineering
- 20% Coursework 2: Analog and Digital electronics
- 2% Progress Test 2: Software engineering
- 2% Progress Test 3: Software engineering
- 2% Progress Test 4: Software engineering
- 2% Progress Test 5: Analog and Digital electronics
- 2% Progress Test 6: Analog and Digital electronics
- 2% Progress Test 7: Analog and Digital electronics
- 20% Exam 1 (2-hour): Software engineering
- 20% Exam 2 (2-hour): Analog and Digital electronics
Educational Aims
To provide an introduction to the fundamental concepts in the topics ofanalogue systems, digital systems and analogue devices. Develop theability to analyse engineering problems; select appropriate softwaretechniques to enable the designing, planning, developing and implementationof practical solutions.Learning Outcomes
1 Design operational amplifier circuits.
2 Design combinational digital circuits.
3 Design sequential digital circuits.
4 Analyse simple circuits that include diodes.
5 Analyse basic transistor circuits.
6 Demonstrate an appreciation for the use of engineering software packages in modern electrical and electronic engineering.
7 Develop code for interacting with a user and/or real world signals and events which are appropriate to for the platform upon which it executes.
8 Demonstrate the skills required to define solutions to complex problems and user requirements which can be implemented and define success criteria for validation.
9 Practically show the CAE skills for the design and implementation of the solutions to real world engineering problems. 10 Demonstrate the ability to create/write modular code. 11 Explain the importance of modularity and code-reuse within the software lifecycle, and how they are implemented within the context of the chosen programming language
Conveners
- Kheong Sann Chan
- Dr Belle Ooi Pei Cheng