Electrical Circuits Theory

Lecturer:

Ivan Zemánek (gar.)

Tutor:

Ivan Zemánek (gar.)

Supervisor:

Department of Circuit Theory

Synopsis:

The subject QB-TEO represents compact complex electrical circuits theory. It makes students acquainted with basic laws, principles and theorems of the electrical circuits and analysis methods of linear and non-linear circuits both in steady states and transients. It distinguishes rigorously between time-domain analysis, and frequency-domain one based on signal transformations use, respectively. The subject deals also with the feedback theory. It provides students basic discrete systems theory. In addition the subject gives possibility to students to become acquainted with other selected themes (two-ports, generalized nodal voltage analysis, circuits with distributed parameters).

The subject is addressed first of all to the students of the bachelor superior study of the KME study program. It represents the extension of the subjects A2B31ZEO and A1B31EOS, taught in standardized study forms. It can be also good non-standard alternate for all FEE CTU students who are interested in deeper knowledge of electrical circuit theory.

Requirements:

Prerequisities:

?Fair knowledge of mathematics (1 variable function analysis, basic infinitesimal calculus, differential equations, series, komplex variable, transformations)

?Fair knowledge of physics (mechanics, elektricity and magnetism base - Maxwell's equations)

Exam requirements:

?Assessment (can be passed for min. 50% lectures presence)

?Knowledge of lectured subject themes.

Syllabus of lectures:

1.Introduction

2.Basic laws, principles and theorems of electrical circuits

3.Linear resistive circuits analysis

4.Non-linear resistive circuits analysis

5.Liner circuits with storage circuit elements, circuit equations in time domain

6.Sinusoidal steady state (HUS)

7.Signal transformations in linear circuit theory

8.Periodical non-sinusoidal steady state (PNUS)

9.Transients

10.Transient responses

11.Frequency responses (characteristics)

12.Feedback

13.Introduction to discrete systems theory

The other themes can be offered with respect to students interests and time possibilities:

14.Two-ports

15.Generalized nodal voltage analysis

16.Circuits with distributed parameters

Syllabus of tutorials:

With respekt to the subject range 4+0 the exercises are cacelled.

The examples completing the lectures will be directly solved in the frame of the lectures.

Study Objective:

The goal is to give to great abilities students of the CTU FEE significantly deeper knowledge of electrical circuit theory.

Study materials:

[1] V. Havlícek, M. Pokorny, I. Zemánek:Elektrické obvody 1, Nakladatelství CVUT Praha 2005

[2] V. Havlícek, I. Zemánek : Elektrické obvody 2, Nakladatelství CVUT Praha 2008

[3] R. Cmejla, V. Havlícek, I. Zemánek : Základy teorie obvodu 1 - cvicení, Vydavatelství CVUT, Praha 2000

[4]R. Cmejla, V. Havlícek, I. Zemánek : Základy teorie obvodu 2 - cvicení, Vydavatelství CVUT, Praha 1999

[5]M. Mikulec : Teorie obvodu - prednásky, Edicní stredisko CVUT, Praha 1992

Note:

Time-table for winter semester 2011/2012:

Time-table is not available yet

Time-table for summer semester 2011/2012:

	06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon
Tue	roomT2:C4-364 Zemánek I. 11:00–12:30 (lecture parallel1) Dejvice Cvicebna
Fri	roomT2:C4-154 Zemánek I. 18:00–19:30 (lecture parallel1) Dejvice Cvičebna
Thu
Fri

The course is a part of the following study plans: