CTU FEE Moodle
Electrical Circuits and Elements
This is a grouped Moodle course. It consists of several separate courses that share learning materials, assignments, tests etc. Below you can see information about the individual courses that make up this Moodle course.
Electrical Circuits and Elements (Main course) A3B31EOP
| Credits | 8 |
| Semesters | Winter |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 4P+2C |
Annotation
The Subject deals with basic and most important principles of the electrical circuit analysis. It defines basic circuit variables and elements, and real components of actual electrical equipments. Subject deals with basic metods of the circuit analysis. It is oriented on basic thematic units of the analogue and digital technics that are necessary for the cybernetics and control technique study.
Study targets
The goal of this subject consists in the teaching of the circuit theory base from the viewpoint of the cybernetics and control circuit study
Course outlines
1. Circiut variables (voltage, current, instantaneous power, electrical energy)
2. Circuit elements (passive two-terminals, active two-terminals, coupled inductors,
controlled sources, nonselfgoverning two-ports)
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments (semiconductor diode - PN junction, bipolar
transistor, unipolar transistor (JFET, MOSFET), ideal operational amplifier, actual
operational amplifier)
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits with DC excitation, context with frequency
response
7. Feedback, Nyquist?s characteristic, stability
8. Linear operational networks (controlled sources realization, inverting voltage
amplifier, noninverting voltage amplifier, voltage follower, adding amplifier,
integrator, differentiator), nonlinear operational network (logarithmic amplifier)
9. Transistor amplifiers (CE, CC, CB), their parameters
10. Semiconductor switches
11. Classic power supply sources (transformer, rectifier, filter, stabilizer),
switching sources
12. Basic logic elements, struktures TTL, Schottky, Low power Schottky, CMOS. Input and
output charakteristics of logic elements, their loading capacity and matching.
Output stages of logic elements (push-pull, opened collector - wired-OR, threestate
output)
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA, static and dynamic
semiconductor memories RWM
2. Circuit elements (passive two-terminals, active two-terminals, coupled inductors,
controlled sources, nonselfgoverning two-ports)
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments (semiconductor diode - PN junction, bipolar
transistor, unipolar transistor (JFET, MOSFET), ideal operational amplifier, actual
operational amplifier)
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits with DC excitation, context with frequency
response
7. Feedback, Nyquist?s characteristic, stability
8. Linear operational networks (controlled sources realization, inverting voltage
amplifier, noninverting voltage amplifier, voltage follower, adding amplifier,
integrator, differentiator), nonlinear operational network (logarithmic amplifier)
9. Transistor amplifiers (CE, CC, CB), their parameters
10. Semiconductor switches
11. Classic power supply sources (transformer, rectifier, filter, stabilizer),
switching sources
12. Basic logic elements, struktures TTL, Schottky, Low power Schottky, CMOS. Input and
output charakteristics of logic elements, their loading capacity and matching.
Output stages of logic elements (push-pull, opened collector - wired-OR, threestate
output)
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA, static and dynamic
semiconductor memories RWM
Exercises outlines
1. Circuit variables
2. Electrical circuit elements
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits, context with frequency response
7. Feedback, Nyquist?s characteristic, stability
8. Linear and nonlinear operational network
9. Transistor amplifiers
10. Semiconductor switches
11. Power supply sources
12. Basic logic elements, their characteristics, matching
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA,
static and dynamic semiconductor memories RWM
2. Electrical circuit elements
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits, context with frequency response
7. Feedback, Nyquist?s characteristic, stability
8. Linear and nonlinear operational network
9. Transistor amplifiers
10. Semiconductor switches
11. Power supply sources
12. Basic logic elements, their characteristics, matching
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA,
static and dynamic semiconductor memories RWM
Literature
1. Mikulec M., Havlíček V.: Basic Circuit Theory, Vydavatelství ČVUT, Praha,2008, ISBN 80-01-02127-0
2.Irwin, J. D., Nelms R. M.: Basic engineering circuit analysis: / 9th ed., Wiley, 2008, ISBN 0470128690
3.Floyd T. L.: Principles of Electric Circuits, Conventional Current Version, 8th ed., Pearsen Prentice Hall, ISBN 0-13-170179-7
4.Alexander Ch. K., Sadiku M., N. O.: Fundamentals of Electric Circuits, 3rd ed., Mc Graw Hill, ISBN: 978-0-07-297718-9
5. Sedra, Smith: Microelectronic circuits, Oxford Univ Press 2007
7. Nilsson: Electric circuits, Prentice Hall 2004
2.Irwin, J. D., Nelms R. M.: Basic engineering circuit analysis: / 9th ed., Wiley, 2008, ISBN 0470128690
3.Floyd T. L.: Principles of Electric Circuits, Conventional Current Version, 8th ed., Pearsen Prentice Hall, ISBN 0-13-170179-7
4.Alexander Ch. K., Sadiku M., N. O.: Fundamentals of Electric Circuits, 3rd ed., Mc Graw Hill, ISBN: 978-0-07-297718-9
5. Sedra, Smith: Microelectronic circuits, Oxford Univ Press 2007
7. Nilsson: Electric circuits, Prentice Hall 2004
Requirements
* Fair knowledge of mathematics:
a) 1 variable function analysis
b) basic infinitesimal calculus
c) differential equations
d) series
e) complex variable
f) transformations
g) introduction to linear algebra
* Fair knowledge of physics :
a) mechanics
b) Introduction to electricity and magnetism(Maxwell's equations)
* Basic knowledge of signal theory
a) 1 variable function analysis
b) basic infinitesimal calculus
c) differential equations
d) series
e) complex variable
f) transformations
g) introduction to linear algebra
* Fair knowledge of physics :
a) mechanics
b) Introduction to electricity and magnetism(Maxwell's equations)
* Basic knowledge of signal theory
Electrical Circuits and Elements AD3B31EOP
| Credits | 8 |
| Semesters | Winter |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 28KP+6KC |
Annotation
The Subject deals with basic and most important principles of the electrical circuit analysis. It defines basic circuit variables and elements, and real components of actual electrical equipments. Subject deals with basic metods of the circuit analysis. It is oriented on basic thematic units of the analogue and digital technics that are necessary for the cybernetics and control technique study.
Study targets
The goal of this subject consists in the teaching of the circuit theory base from the viewpoint of the cybernetics and control circuit study
Course outlines
1. Circiut variables (voltage, current, instantaneous power, electrical energy)
2. Circuit elements (passive two-terminals, active two-terminals, coupled inductors,
controlled sources, nonselfgoverning two-ports)
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments (semiconductor diode - PN junction, bipolar
transistor, unipolar transistor (JFET, MOSFET), ideal operational amplifier, actual
operational amplifier)
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits with DC excitation, context with frequency
response
7. Feedback, Nyquist?s characteristic, stability
8. Linear operational networks (controlled sources realization, inverting voltage
amplifier, noninverting voltage amplifier, voltage follower, adding amplifier,
integrator, differentiator), nonlinear operational network (logarithmic amplifier)
9. Transistor amplifiers (CE, CC, CB), their parameters
10. Semiconductor switches
11. Classic power supply sources (transformer, rectifier, filter, stabilizer),
switching sources
12. Basic logic elements, struktures TTL, Schottky, Low power Schottky, CMOS. Input and
output charakteristics of logic elements, their loading capacity and matching.
Output stages of logic elements (push-pull, opened collector - wired-OR, threestate
output)
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA, static and dynamic
semiconductor memories RWM
2. Circuit elements (passive two-terminals, active two-terminals, coupled inductors,
controlled sources, nonselfgoverning two-ports)
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments (semiconductor diode - PN junction, bipolar
transistor, unipolar transistor (JFET, MOSFET), ideal operational amplifier, actual
operational amplifier)
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits with DC excitation, context with frequency
response
7. Feedback, Nyquist?s characteristic, stability
8. Linear operational networks (controlled sources realization, inverting voltage
amplifier, noninverting voltage amplifier, voltage follower, adding amplifier,
integrator, differentiator), nonlinear operational network (logarithmic amplifier)
9. Transistor amplifiers (CE, CC, CB), their parameters
10. Semiconductor switches
11. Classic power supply sources (transformer, rectifier, filter, stabilizer),
switching sources
12. Basic logic elements, struktures TTL, Schottky, Low power Schottky, CMOS. Input and
output charakteristics of logic elements, their loading capacity and matching.
Output stages of logic elements (push-pull, opened collector - wired-OR, threestate
output)
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA, static and dynamic
semiconductor memories RWM
Exercises outlines
1. Circuit variables
2. Electrical circuit elements
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits, context with frequency response
7. Feedback, Nyquist?s characteristic, stability
8. Linear and nonlinear operational network
9. Transistor amplifiers
10. Semiconductor switches
11. Power supply sources
12. Basic logic elements, their characteristics, matching
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA,
static and dynamic semiconductor memories RWM
2. Electrical circuit elements
3. Basic laws, principles and theorems in electrical circuits
4. Elements of actual electrical equipments
5. Linear electrical circuit analysis methods in time domain
6. Transients in RL, RC a RLC circuits, context with frequency response
7. Feedback, Nyquist?s characteristic, stability
8. Linear and nonlinear operational network
9. Transistor amplifiers
10. Semiconductor switches
11. Power supply sources
12. Basic logic elements, their characteristics, matching
13. Periodic waveforms generation, oscillators
14. Memories ROM, PROM, EPROM, EEPROM, programmable logic arrays PLA,
static and dynamic semiconductor memories RWM
Literature
1. Mikulec M., Havlíček V.: Basic Circuit Theory, Vydavatelství ČVUT, Praha,2008, ISBN 80-01-02127-0
2.Irwin, J. D., Nelms R. M.: Basic engineering circuit analysis: / 9th ed., Wiley, 2008, ISBN 0470128690
3.Floyd T. L.: Principles of Electric Circuits, Conventional Current Version, 8th ed., Pearsen Prentice Hall, ISBN 0-13-170179-7
4.Alexander Ch. K., Sadiku M., N. O.: Fundamentals of Electric Circuits, 3rd ed., Mc Graw Hill, ISBN: 978-0-07-297718-9
5. Sedra, Smith: Microelectronic circuits, Oxford Univ Press 2007
7. Nilsson: Electric circuits, Prentice Hall 2004
2.Irwin, J. D., Nelms R. M.: Basic engineering circuit analysis: / 9th ed., Wiley, 2008, ISBN 0470128690
3.Floyd T. L.: Principles of Electric Circuits, Conventional Current Version, 8th ed., Pearsen Prentice Hall, ISBN 0-13-170179-7
4.Alexander Ch. K., Sadiku M., N. O.: Fundamentals of Electric Circuits, 3rd ed., Mc Graw Hill, ISBN: 978-0-07-297718-9
5. Sedra, Smith: Microelectronic circuits, Oxford Univ Press 2007
7. Nilsson: Electric circuits, Prentice Hall 2004
Requirements
* Fair knowledge of mathematics:
a) 1 variable function analysis
b) basic infinitesimal calculus
c) differential equations
d) series
e) complex variable
f) transformations
g) introduction to linear algebra
* Fair knowledge of physics :
a) mechanics
b) Introduction to electricity and magnetism(Maxwell's equations)
* Basic knowledge of signal theory
a) 1 variable function analysis
b) basic infinitesimal calculus
c) differential equations
d) series
e) complex variable
f) transformations
g) introduction to linear algebra
* Fair knowledge of physics :
a) mechanics
b) Introduction to electricity and magnetism(Maxwell's equations)
* Basic knowledge of signal theory
Responsible for the data validity:
Study Information System (KOS)