Gurantor department | Department of Electrical Engineering | Credits | 4 |

Subject guarantor | doc. Ing. Lubomír Ivánek, CSc. | Subject version guarantor | doc. Ing. Lubomír Ivánek, CSc. |

Study level | undergraduate or graduate | Requirement | Compulsory |

Year | 1 | Semester | summer |

Study language | Czech | ||

Year of introduction | 2018/2019 | Year of cancellation | |

Intended for the faculties | FEI, USP, FS | Intended for study types | Bachelor |

Instruction secured by | |||
---|---|---|---|

Login | Name | Tuitor | Teacher giving lectures |

H1R15 | Ing. Karel Chrobáček, Ph.D. | ||

IVA10 | doc. Ing. Lubomír Ivánek, CSc. | ||

ORS60 | Ing. Petr Orság, Ph.D. | ||

ZAJ02 | Ing. Stanislav Zajaczek, Ph.D. |

Extent of instruction for forms of study | ||
---|---|---|

Form of study | Way of compl. | Extent |

Full-time | Graded credit | 2+2 |

Combined | Graded credit | 8+8 |

The aim of education is give creative lessons in physical laws and principles to analysis of three-phase circuit, transient phenomena, two-port network, frequency response and distributed lines. After education student is able to calculated current, voltage, power and energy in circuit anyplace and then on the basis of them look on properties of electrical device. Student practices obtained knowledge and acquirements energetically.

Lectures

Individual consultations

Tutorials

Experimental work in labs

Project work

Learning outcomes of the course unit The aim of the subject of Circuit Theory II is to teach students how to apply physics laws and principles in the analysis of elementary phenomena in three-phase circuits, transient phenomena, linear and nonlinear two-ports and distributed parameters. The knowledge of circuit theory is one of the basic knowledge that the student will apply throughout the course of study. After completing the subject of Circuit Theory II, the student is able to calculate the voltages and currents anywhere in the circuit and to assess the properties of the electrical devices.

Mikulec, M.: Basic Circuit Theory I.,ČVUT 1995
Mikulec, M., Havlíček, V.: Basic Circuit Theory II.ČVUT 1996
Havlíček, V. Čmejla, R.: Basic Circuit Theory I. (Exercises ), ČVUT 1996
Huelsman, P.L.: Basic Circuit Theory. Prentice-Hall International, 1991, ISBN 0-13-063157-4

Mikulec, M.: Basic Circuit Theory I.,ČVUT 1995
Mikulec, M., Havlíček, V.: Basic Circuit Theory II.ČVUT 1996
Havlíček, V. Čmejla, R.: Basic Circuit Theory I. (Exercises ), ČVUT 1996
Huelsman, P.L.: Basic Circuit Theory. Prentice-Hall International, 1991, ISBN 0-13-063157-4

Credit test

Additional requirements for students are not.

Subject has no prerequisities.

Subject has no co-requisities.

Lectures:
1. Organizational instructions, Sinusoidal quantities – power in alternating current circuit, power factor
2. Ideal and real world circuit components RLC. Impedance, admittance, phasor diagram
3. Resonant circuit, filtering features of resonant circuits.
4. Frequency characteristic – amplitude and phase characteristic.
5. Three – phase circuits.
6. Faults in three phase circuits.
7. Time variable quantities, characteristic values, harmonic analysis, harmonic spectrum.
8. Initial conditions, Transients in 1. order linear circuits.
9. Transients in 2. order linear circuits.
10. Operator method of transient analysis.
11. Nonlinear circuit analysis.
12. Two-port networks.
13. Transmission lines, primary line constants, secondary line constants, characteristic impedance.
14. Grading test, consultations.
Seminars :
1. AC circuit analysis, construction of phasor diagram.
2. AC circuit analysis, construction of phasor diagram.
3. Test 1; Resonant circuits,
4. Construction of frequency characteristic.
5. Test 2; Basic passive filter analyse.
6. Three phase circuit analyse, wye and delta conection, phasor diagram.
7. Three phase circuit analyse, wye and delta conection, phasor diagram.
8. Test 3; Initial conditions, Transients in 1. order linear circuits – DC power supply.
9. Transients in 1. order linear circuits – AC power supply.
10. Initial conditions, initial conditions derivation. Transients in 2. order linear circuits – DC power supply.
11. Test 4; Transients in 2. order linear circuits – AC power supply, integral transform.
12. Determination of two-port network parameters.
13. Test 5; Determination of transmission line constants.
14. Consultations.

Task name | Type of task | Max. number of points
(act. for subtasks) | Min. number of points |
---|---|---|---|

Graded credit | Graded credit | 100 | 51 |

Show history

Academic year | Programme | Field of study | Spec. | Form | Study language | Tut. centre | Year | W | S | Type of duty | |
---|---|---|---|---|---|---|---|---|---|---|---|

2019/2020 | (B0714A150001) Control and Information Systems | P | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0714A060010) Telecommunication Technology | P | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0714A150003) Computer Systems for the Industry of the 21st. Century | P | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0714A150001) Control and Information Systems | K | Czech | Ostrava | 1 | Compulsory | study plan | ||||

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2019/2020 | (B0713A060004) Design of Electrical Systems and Technologies | K | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0714A060010) Telecommunication Technology | K | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0714A270002) Mechatronics | P | Czech | Ostrava | 1 | Compulsory | study plan | ||||

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2019/2020 | (B0914A060001) Biomedical Technology | P | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0713A060005) Electrical Power Engineering | K | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0914A060001) Biomedical Technology | K | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0714A060012) Applied Electronics | K | Czech | Ostrava | 1 | Compulsory | study plan | ||||

2019/2020 | (B0714A270002) Mechatronics | K | Czech | Ostrava | 1 | Compulsory | study plan |

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