Electrical Engineering S4

General Data
Academic program	ECAM ENGINEERING PROGRAM		Module Manager(s): CAKAR Halil Ibrahim
Module type	Teaching Unit
Credits (ECTS)	6
Maximum number of students	250
Total duration :64h00	Period : Semester 4	Language : : English

Learning outcomes
This module will introduce you to the basic concepts of microprocessor based embedded software control systems, including their design, programming and testing for real-world applications.<br>This is a fundamental module in electrical and electronic engineering. This module will provide you the fundamental background needed to understand how to to design, develop, implement and electronic programs in an embedded environment. This will include learning how to program in C, choosing appropriate hardware and implementing timers, counters, interrupts initially. This will then be used in conjunction with sensors and finally you will be able to communicate this data to a remote location over a wired interface. You will be involved with group projects throughout the module, which will enable you to communicate data with others in the group. At the end of the module you will present your final design in hardware and simulation as well as writing a report.<br>This module will enable you to design, develop, implement and electronic programs in an embedded environment. This will include learning how to program in C, choosing appropriate hardware and implementing timers, counters, interrupts initially. This will then be used in conjunction with sensors and finally you will be able to communicate this data to a remote location over a wired interface. You will be involved with group projects throughout the module, which will enable you to communicate data with others in the group. At the end of the module you will present your final design orally as well as writing a report.<br>• Design, test and demonstrate a working system based on the assignment brief<br>• Write a well-structured lab report, communicating your objectives, approach, observations, and conclusions.<br><br>Applied electronics, from requirements to specifications.<br>Analysis and synthesis of Electronics solutions, embrassing analogue, digtitals and embedded SW.<br><br>- Demonstrate solid knowledge of the technical vocabulary and main characteristics of components used in electrical installations<br>- Demonstrate an understanding of how an electrical network operates, from plant power production to the distribution at the low voltage network<br>- Understand the electrical risks related to a low voltage industrial installation

Learning outcomes

This module will introduce you to the basic concepts of microprocessor based embedded software control systems, including their design, programming and testing for real-world applications. This is a fundamental module in electrical and electronic engineering. This module will provide you the fundamental background needed to understand how to to design, develop, implement and electronic programs in an embedded environment. This will include learning how to program in C, choosing appropriate hardware and implementing timers, counters, interrupts initially. This will then be used in conjunction with sensors and finally you will be able to communicate this data to a remote location over a wired interface. You will be involved with group projects throughout the module, which will enable you to communicate data with others in the group. At the end of the module you will present your final design in hardware and simulation as well as writing a report. This module will enable you to design, develop, implement and electronic programs in an embedded environment. This will include learning how to program in C, choosing appropriate hardware and implementing timers, counters, interrupts initially. This will then be used in conjunction with sensors and finally you will be able to communicate this data to a remote location over a wired interface. You will be involved with group projects throughout the module, which will enable you to communicate data with others in the group. At the end of the module you will present your final design orally as well as writing a report. • Design, test and demonstrate a working system based on the assignment brief • Write a well-structured lab report, communicating your objectives, approach, observations, and conclusions. Applied electronics, from requirements to specifications. Analysis and synthesis of Electronics solutions, embrassing analogue, digtitals and embedded SW. - Demonstrate solid knowledge of the technical vocabulary and main characteristics of components used in electrical installations - Demonstrate an understanding of how an electrical network operates, from plant power production to the distribution at the low voltage network - Understand the electrical risks related to a low voltage industrial installation