Lecturer(s)
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Course content
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1. Sensors used in automotive area, signal conditioning, typical failures 2. Sensors used in automotive area, signal conditioning, typical failures 3. Typical communication buses and protocols used in vehicles 4. Typical communication buses and protocols used in vehicles 5. Typical communication buses and protocols used in vehicles 6. Electronic components and integrated circuits (MCU, inteligent switches, drivers, ASICs, etc.) 7. Electronic components and integrated circuits (MCU, inteligent switches, drivers, ASICs, etc.) 8. Modeling of powertrain and chosen components 9. Modeling of powertrain and chosen components 10. Modeling of powertrain and chosen components 11. Realization of OBD diagnosis - signal plausability, misfire detecition, catalyst diagnosis, etc. 12. Modern developmnent tools and methods for development of SW and HW (rapid prototyping, HIL) 13. reserve
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing)
- unspecified
- 8 hours per semester
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Learning outcomes
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A main goal of this course is to deeply familiarize students with electronic systems in road vehicles, with their functions, development process, tools for development of said systems. Student can learn about: - functions, properties, integration and the most frequent failures of vehicle sensors. - functions and properties of modern communication buses used in vehicles. - modern electronic components and circuits in automotive area. - modeling of powertrain system, realization of on-board diagnosis. - modern tools for development of SW and HW in automotive area.
Student has knowledge of microprocessor and sensor technique and in construction and diagnostics of road vehicles. Especially in following areas: - functions, properties, integration and the most frequent failures of vehicle sensors. - functions and properties of modern communication buses used in vehicles. - modern electronic components and circuits in automotive area. - modeling of powertrain system, realization of on-board diagnosis. - modern tools for development of SW and HW in automotive area.
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Prerequisites
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It is assumed that student already has basic knowledge of electronics, control systems, microcontrollers programming and knowledge of electromechanical systems used in vehicles, C language programming.
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Assessment methods and criteria
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Oral examination
Student has to prove his/her knowledge during semester (active participation at exercises) and in final exam. Teacher provides particular demands at the beginning of course.
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Recommended literature
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Gregora S.; Mašek Z. Elektronická a mechatronická zařízení v konstrukci silničních vozidel. Pardubice: Univerzita Pardubice, DFJP, 2007.
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Guzzella, Lino. Introduction to modeling and control of internal combustion engine systems. Berlin: Springer-Verlag, 2004. ISBN 978-3-540-22274-3.
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HEYWOOD, John, B. Internal combustuion engines fundamentals. England : McGraw-Hill, 1988. ISBN 0-07-028637-X.
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KIENCKE, Uwe, NIELSEN, Lars. Automotive Control Systems. Germany : Springer Verlag, 2005.
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NAVET, Nicolas a Franc?oise SIMONOT-LION. Automotive embedded systems handbook.. Boca Raton: CRC Press, 2009. ISBN 084938026x.
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Robert Bosch. Elektronická regulace zážehových a vznětových motorů. Stuttgart, 2002. ISBN 80-903132-4-8.
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Robert Bosch. Snímače v motorových vozidlech. Stuttgart, 2001. ISBN 80-903132-5-6.
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ruzný. Webové stránky výrobců (Freescale, Infineon, AVL apod.).
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SCHÄUFFELE, Jörg. Automotive software engineering: principles, processes, methods, and tools. Warrendale: SAE International, 2005. ISBN 978076801490.
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VLK, František. Elektronické systémy motorových vozidel 2. Brno: František Vlk, 2002. ISBN 8023872826.
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Voss, Wilfried. A Comprehensible Guide to Controller Area Network. CopperHill Media, 2005. ISBN 0976511606.
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Voss, Wilfried. A comprehensible guide to J1939. Greenfield: Copperhill Technologies Corporation, 2008. ISBN 978-0-9765116-3-2.
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