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The course builds on the subject Fundamentals of microprocessor technology and extends the theoretical and practical skills with hardware and software of specific class microprocessors and their applications. The emphasis is on practical training on school microprocessor development board that takes place in a modern, newly equipped laboratory. Students will be familiar with the techniques of programming microcontrollers and their use for controlling the embedded and external peripherals. At the end of the course, students should demonstrate that they can connect their knowledge of the sub-circuits to a large functional unit. It is advisable to pass subject Fundamentals of microprocessor technology, or at least have knowledge of algorithms development and C programming language.
Last update: TAJ445 (14.12.2013)
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Vypracování a obhajoba tří samostatných programů: 0 - 25 bodů Ústní zkouška: 0-75 bodů Celkové bodové hodnocení: 100-90 A, 89-80 B, 79-70 C, 69-60 D, 59-50 E, méně než 50 F. Last update: SOUSKOVH (31.01.2018)
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R:Váňa V.,Začínáme s mikrokontrolery HC08,Technická Literatura BEN,2003,8073001241 R:Doughman G.,Programming the Motorola 68HC12 Family,Annabooks,USA,2000,8583915600 A:Herout P.,Učebnice jazyka C,Kopp,2010,9788072323838 Last update: TAJ445 (30.09.2013)
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Přednášky. Experimentální práce v laboratoři. Individuální konzultace. Projekt. Last update: SOUSKOVH (16.11.2012)
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Three individual projects: 0 - 25 bodů Oral examination: 0-75 bodů Total evaluation: 100-90 A, 89-80 B, 79-70 C, 69-60 D, 59-50 E, méně než 50 F. Last update: SOUSKOVH (31.01.2018)
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1. Use of microprocessors in control systems. Methods of data processing. 2. Encoding data in a computer. Registers. The flow of instructions and data in the computer. CPU. 3. Assembly programming language. Integrated development environment CodeWarrior 08. 4. Communication with the microcontroller peripherals. Parallel and analog I/O controls. 5. Reset and R-T interrupt features. 6. Tools for communication with the technological process, timing system of microcontrollers. 7. Time functions implementation using timer/PWM module; serial communication interface modul. 8. External analog sensors, measurement of relative humidity. 9. External pulse-output sensors, measurement of temperature. 10. External parallel I/O module control. 11. Keyboard interrupt module. Control interface - matrix keyboard. 12. Control interface - LCD display. 13. DC motor control. 14. Revolution measurement. Identification of the system. Last update: SOUSKOVH (08.07.2013)
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www.freescale.com - HCS08 Family, Reference Manual www.freescale.com - M68HCS08 Microcontrollers, Data Sheet Last update: SOUSKOVH (03.07.2013)
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Students will be able to: 1. use microprocessor architecture for solving certain classes of problems and use basic techniques of the assembly programming language 2. control peripheral circuit microprocessor 3. measure non-electrical quantities by sensors and transmit data to PC 4. communicate with external equipment such as keyboard, display and parallel I/O ports 5. measure and control revolutions of DC motor
Last update: SOUSKOVH (08.07.2013)
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Algorithms and Programming. Fundamental of Microprocessors Technology Last update: SOUSKOVH (03.07.2013)
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Teaching methods | ||||
Activity | Credits | Hours | ||
Účast v laboratořích (na exkurzi nebo praxi) | 1 | 28 | ||
Účast na přednáškách | 0.5 | 14 | ||
Práce na individuálním projektu | 0.5 | 14 | ||
Příprava na zkoušku a její absolvování | 1 | 28 | ||
3 / 3 | 84 / 84 |
Coursework assessment | |
Form | Significance |
Regular attendance | 20 |
Report from individual projects | 25 |
Oral examination | 55 |