Summer Semester 2012/13
Summer Semester 2013/14
Winter Semester 2013/14
Winter Semester 2014/15
Summer Semester 2014/15
Summer Semester 2015/16
Selected problems of the circuit theory ES2C100001
Course content:
Analysis of nonlinear circuits in the transient and steady state.
Computation of transmittances based on block diagrams and Mason graphs.
Synthesis of passive two-pole circuits.
Trabsformation Z and its applications.
Analysis of the circuit sensitivity for changes of parameters,
Computer methods of the circuit analysis.
Learning outcomes:
EK1 - computes nonlinear circuits in the steady and
transient states, analyses results and presents them
in a graphic form
EK2 - applies block diagrams and Mason graphs for
computation of transmittances, clasifies RLC two-pole circuits and
assigns proper methods of their synthesis
EK3 - analyses impulse systems by means of Z transformation,
computes circuit sensitivity for changes of parameters
EK4 - is able to plan the process of self-education,
(in Polish) Rodzaj przedmiotu
Course coordinators
Term 2012L: | Term 2015L: | Term 2014L: | Term 2013L: |
Learning outcomes
Student after accomplishment of the course:
EK1 - computes nonlinear circuits in the steady and
transient states, analyses results and presents them
in a graphic form
EK2 - applies block diagrams and Mason graphs for
computation of transmittances, clasifies RLC two-pole circuits and
assigns proper methods of their synthesis
EK3 - analyses impulse systems by means of Z transformation,
computes circuit sensitivity for changes of parameters
EK4 - is able to plan the process of self-education,
Assessment criteria
EK1 - written exam assessing lectures, test from exercises,
discussion on exercises, activity on exercises and consultations
EK2 - test assessing exercises, discussion on exercises, activity on
exercises and consultations, written exam assessing lectures
EK3 - written exam assessing lectures
EK4 - written exam assessing lectures
Bibliography
a) basic references:
1. Bolkowski S. Teoria obwodów elektrycznych. WNT, Warszawa 2006 . 2. Bolkowski S.,Brociek W., Rawa H.: Teoria obwodów elektrycznych - zadania. WNT, Warszawa, 2006
3. Szabatin J., Śliwa E.: Zbiór zadań z teorii obwodów. Oficyna Wyd. Politechniki Warszawskiej, Warszawa 2008
b) supplementary references:
1. Boylestad R.L.: Introductory Circuit Analysis. Prentice
Hall, New York, 2006
2. Boylestad R.L., Nashelsky L.: Electronic Devices and Circuit Theory. Prentice Hall, New York, 2005