Microprocessors and Embedded Systems
IMP Acad. year 2018/2019 Winter semester 6 credits
Language of instruction
Subject specific learning outcomes and competences
- Students are familiar with general structure of microcontrollers and with the techniques of embedded systems design.
- Students are capable to design and debug the routines and initialization routine for each peripheral device. They are skilled in utilizing of basic debugging techniques for the application programs written in C language.
Generic learning outcomes and competences
Why is the course taught
The overall volume of microcontrollers fabricated annually on a global scale falls into the range of tens of billions. It is important to highlight the fact that thanks to the flexibility of software solution the microcontrollers not only open a way how to carry out various innovations and achieve price reduction of wide rande of existing systems and applications (from toys to home appliances, vehicles, manufacturing processes and industrial machines), but their utilization constantly unlock also new possibilities, products and entirely new market segments (e.g. previously mentioned IoT concept), which would be otherwise even hard to imagine without the existence of this type of computers. Within the framework of the IMP course students have the chance to make themselves acquainted with various principles behind the programming and deployment of contemporary microcontrollers. They will also become familiar with the typical modules available in those chips, their usage under various application scenarios. Finally, students should get an understanding of fundamental problems connected with embedded systems based on microcontrollers and learn about the approach to their solution.
Prerequisite kwnowledge and skills
- Materials for lectures, labs and exercises.
- J.W. Valvano, Embedded Systems: Real Time Interfacing to ARM Cortex-M Microcontrollers, ISBN 978-1463590154, 2017.
- K60 Sub-Family Reference Manual, available on-line: https://www.nxp.com/docs/en/reference-manual/K60P144M100SF2V2RM.pdf
- ARM Cortex-M4 Processor Technical Reference Manual, available on-line: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.100166_0001_00_en/index.html
- Materials at the NPX website.
- KL05 Sub-Family Reference Manual, available on-line: https://www.nxp.com/docs/en/reference-manual/KL05P48M48SF1RM.pdf
- Cortex-M0+ Devices Generic Users Guide, available on-line: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dui0662b/index.html
- Predko, M.: "Handbook of Microcontrollers", McGraw-Hill, ISBN 0079137164, 1998.
- J.W.Valvano, Embedded Systems: Introduction to ARM Cortex-M Microcontrollers, Volume 1, ISBN 978-1477508992, 2014.
Syllabus of lectures
- Introduction into Embedded systems.
- ARM Core for microcontrollers.
- Memory subsystem and interrupts.
- Programming in C.
- Communication intefraces.
- FITkit programming.
- Digital inputs and outputs, ports.
- Timers, counters.
- Analogue input and output.
- System clock and clock generation.
- Power supply and power consmption of embedded systems.
- Practical aspects of embedded systems design.
- Real time system.
Syllabus of laboratory exercises
- Introduction to lab kit, serial communication.
- Digital input/output.
- Timer, PWM.
- Analogue input.
Syllabus of computer exercises
- Microcontroller programming.
- Lab kit - usage, structure, programming.
- Minerva Kit - how to use.
- Development tools for embedded systems with microcontroller.
- Microcontrollers' debugging interfaces.
- Development support for time-critical application.
Syllabus - others, projects and individual work of students
- Compulsory individual or team twelve-hour project.
- laboratory assignments with the defense
- mid-term written examination
Course inclusion in study plans