SylabUZ
Nazwa przedmiotu | Computer-aided design |
Kod przedmiotu | 11.9-WE-INFD-C-AD-Er |
Wydział | Wydział Informatyki, Elektrotechniki i Automatyki |
Kierunek | Informatyka |
Profil | ogólnoakademicki |
Rodzaj studiów | Program Erasmus drugiego stopnia |
Semestr rozpoczęcia | semestr zimowy 2022/2023 |
Semestr | 2 |
Liczba punktów ECTS do zdobycia | 5 |
Typ przedmiotu | obowiązkowy |
Język nauczania | angielski |
Sylabus opracował |
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Forma zajęć | Liczba godzin w semestrze (stacjonarne) | Liczba godzin w tygodniu (stacjonarne) | Liczba godzin w semestrze (niestacjonarne) | Liczba godzin w tygodniu (niestacjonarne) | Forma zaliczenia |
Wykład | 15 | 1 | - | - | Zaliczenie na ocenę |
Laboratorium | 30 | 2 | - | - | Zaliczenie na ocenę |
Projekt | 15 | 1 | - | - | Zaliczenie na ocenę |
Know-how and competences in the field of applying Electronic Design Automation software supporting the process of designing electronic circuits with emphasis on embedded microprocessor systems.
Principles of programming, Digital system design, Microcomputer circuits and systems
Introduction to the computer-aided design of electronic circuits. Historical outline. Overview of Electronic Design Automation systems. Basic notions and definitions. Imperial and metric system of units.
Methodology of designing an electronic circuit using EDA system. Basic concepts on capturing a circuit as a schematic diagram: netlist, wires and buses. Component library structure: part, symbol, package and padstack. Creating schematic diagrams with hierarchical and multipage techniques. Printed Circuit Board designing using layout editor. Methods of placing components and routing traces. Designing one, two and multilayer PCB. Automatic routing of PCB traces with an autorouter tool. Design rule check in EDA systems.
Printed Circuit Board designing for EMC requirements. Basic knowledge of RF emissions and susceptibility of electronic circuits. PCB EMC techniques: circuit zoning, suppressing interfaces between circuit zones, ground system, power routing and decoupling, signal routing and line termination. Signal integrity and transmission lines on PCB.
Computer simulation of electronic circuits. SPICE simulation fundamentals. Types of simulation analysis: nonlinear dc, small signal ac, transient, sensitivity and distortion. Models of electronic devices. Schematic-level simulation of embedded microprocessor systems. Analysis of simulation results.
Computer simulation of thermal and electromagnetic properties of printed circuit boards.
Producing design documentation and CAM files in EDA systems.
Lecture: conventional lecture
Laboratory: laboratory exercises, group work
Project: project method, discussions and presentations
Opis efektu | Symbole efektów | Metody weryfikacji | Forma zajęć |
Lecture – the passing condition is to obtain a positive mark from the final test.
Laboratory – the passing condition is to obtain positive marks from all laboratory exercises to be planned during the semester.
Project - the project documentation and oral presentation.
Calculation of the final grade: lecture 30% + laboratory 40% + project 30%
Zmodyfikowane przez dr hab. inż. Janusz Kaczmarek, prof. UZ (ostatnia modyfikacja: 09-04-2022 11:54)