1. SylabUZ
2. Wydział Informatyki, Elektrotechniki i Automatyki
3. semestr zimowy 2019/2020
4. Elektrotechnika - Program Erasmus drugiego stopnia
5. Selected issues of circuit theory I

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Selected issues of circuit theory I - opis przedmiotu

Cel przedmiotu

- to familiarize students with basic concepts, methods, description and analysis of linear time-invariant analog and discrete systems;

- to familiarize with methods of description and analysis of circuits and signals in the time and frequency domains;

- to mastery by students ability to apply theory of linear time-invariant systems for the analysis of transient and steady states in electrical circuits;

- introduction to theory and mastery of the basic methods of discrete simulation of analog circuits;

- to give basic skills of observation of the behavior and take of characteristics of electric circuits;

- to give basic skills in the design of simple passive filters;

Wymagania wstępne

Zapisz zmiany

Mathematical analysis, Linear algebra, Electrical engineering principles, Circuit theory. 

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Zakres tematyczny

Flow diagrams of circuits. Mason’s signal flow diagrams. Flow diagram for electrical circuit construction. Flow diagram transformations. Mason’s rules.

Continuous linear time-invariant systems. Circuit treated as an input output system. Differential equations of circuit. Linearity, causality, time-invariance. Transfer function, circuit operator. Impulse response, convolution. Stability. Periodic excitation, circular convolution, circular impulse response.

Discrete time signals and systems. Sampling of continuous signals. Z transformation. Digital signals filtering, Recursive and nonrecursive filters (IIR and FIR filters). Discrete systems impulse response and linear convolution. Digital filters stability. Periodic steady state of digital filters, circular convolution. Discrete simulation of continuous systems. Introductory discrete linear time-varying systems theory.

Spectral analysis. Continuous Fourier transformation. Time and frequency domain sampling. Other versions of Fourier transformation: Fourier series, discrete Fourier transformation. Frequency response of linear time-invariant continuous and digital filters.

Metody kształcenia

Lecture: conventional lecture, problem lecture, discussion.
Exercises: consultation, project method, accounting exercises.
Laboratory: working with source document, group work, laboratory exercises.

Efekty uczenia się i metody weryfikacji osiągania efektów uczenia się

Opis efektu	Symbole efektów	Metody weryfikacji	Forma zajęć

Warunki zaliczenia

Lecture: The condition of pass is to obtain a positive assessment from the written examination.
Laboratory: a conditional of pass is to obtain positive grades from all laboratory exercises that are expected to be performed within the laboratory program.

Components of the final grade: lecture: 60% + laboratory: 40%

Literatura podstawowa

1. Blackwell W.A., Grigsby L.L.: Introductory network theory, PWS Publishers, 1985
2. Zieliński T.P.: „From theory to digital signal processing”. Dep. EAIiE AGH, Kraków 2002. (in Polish)
3. Oppenheim A.V., Willsky A.S., Nawab S.H.: „Signal & Systems”. Prentice Hall 1997.
4. Papoulis A.: Circuits and Systems. A modern Approach. Holt, Rinehart and Winston, Inc. 1980.
5. Lyons R.G.: „Understanding Digital Signal Processing”. Addison Wesley Longan, Inc. 2004.
6. Dąbrowski A.: Signal processing by means of signal processors. WPP, Poznań, 2000 (in Polish)
7. Krakowski M.: Theoretical electrical engineering, Vol. I, Linear and non-linear circuits. PWN, Warszawa, 1983. (in Polish)
8. Osiowski J., Szabatin J.: Circuit theory principles, WNT Warszawa 1998. (in Polish).

Literatura uzupełniająca

1. Siwczyński M.: Circuits and signals theory, part I Linear electric circuits, RWNT, Zielona Góra 2002. (in Polish)

Uwagi

Zmodyfikowane przez dr hab. inż. Radosław Kłosiński, prof. UZ (ostatnia modyfikacja: 04-11-2019 21:14)