Circuit Theory 2B
Code | Completion | Credits | Range |
---|---|---|---|
E31O2B | Z,ZK | 6 | 3+2s |
- Lecturer:
- Tutor:
- Supervisor:
- Department of Circuit Theory
- Synopsis:
-
This course together with Circuit Theory 1 (the necessary prerequisite) gives the basic knowledge of the circuit theory and practice. The advanced methods of AC analysis and transient analysis, analysis of circuits containing multi- terminal elements, feed-back circuits and transmission lines are presented here. The introduction to discrete system theory is presented, too. The course is obligatory and it alternates prerequisite instead of CT 2A.
- Requirements:
- Syllabus of lectures:
-
1. Non-linear, resistive circuits analysis
2. General methods of AC steady state analysis. Three-phase circuits
3. Periodical non-sinusoidal steady state (PNSS)
4. Fourier transform, Laplace transform. Operational characteristics
5. Operational transient analysis. Impulse and unit step response, convolution
6. Frequency responses, relationships between time domain and frequency domain
7. Two-ports, characteristics, two-port connections
8. Two-port transfer properties. Circuits with active two-ports.
9. Feedback circuits. Function blocs with controlled sources. Linear feed-back networks
10. Multi-terminals, generalised nodal voltage analysis
11. Circuits with distributed parameters, lossless transmission lines. The finite lenght transmission lines, wave reflections
12. Sinusoidal steady state on line with losses, standing waves
13. Discrete signals and systems. Signal discretisation and reconstruction, Shanon theorem, Z-transformation, Fourier transform (DTFT, DFT)
14. LTI discrete systems, design, digital filtering
- Syllabus of tutorials:
-
1. S: Transients with AC steady state
2. C: Evaluation of impedances, admittances and transfer functions
3. S: Three-phase circuits
4. C, S: Periodical non-sinusoidal steady state (PNSS)
5. S: Fourier transform, Laplace transform, operational transient analysis
6. S: Impulse and step responses, convolution
7. S: Frequency responses
8. L: Frequency responses
9. S: Two-ports, characteristics, two-port connections and transfer properties
10. S: Circuits with active two-ports, feedback circuits
11. S: Linear feed-back networks
12. C: Multi-terminals, generalised nodal voltage analysis
13. C,L: Lossless transmission line. Wave reflections, standing waves
14. C,L: Discrete systems
- Study Objective:
- Study materials:
-
1. Mikulec, M. : Basic Circuit Theory I. CTU Publishing, Prague 1. Monografie ČVUT, Praha, 1998
2. Mikulec, M., Havlíček, V. : Basic Circuit Theory II. CTU Publishing, Prague, 1996
3. Havlíček, V., Čmejla, R. : Basic Circuit Theory I - exercises. CTU Publishing, Prague, 1997
4. Havlíček, V., Čmejla, R., Zemánek, I.: Basic Circuit Theory II - exercises. CTU Publishing, Prague, 1997
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans: