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Circuit analysis and design
504103002

Description
Unit 1. Analysis of Circuits in the Frequency Domain. Resonant Circuits
1.1. Introduction.
1.2. Frequency response of basic circuits.
1.3. Transfer functions.
1.4. Bode diagrams.
1.5. Resonant circuits.
1.6. Filters.

Unit 2. Two-port networks
2.1. Introduction.
2.2. Impedance parameters (Z).
2.3. Admittance parameters (Y).
2.4. Hybrid parameters (h).
2.5. Transmission parameters (T).
2.6. Image parameters.
2.7. Transmission and insertion losses.
2.8. Quadrupole Association.

Unit 3. Filter Design
3.1. Introduction.
3.2. Normalization and denormalization.
3.3. Approximation.
3.4. Obtaining the network function.
3.5. Synthesis of lossless networks (LC immittances).
3.6. Synthesis of lossy networks (RLC immittances).
3.7. Filter realization.
3.8. Frequency transformations.

Unit 4. Circuit Analysis through the Laplace Transform
4.1. Introduction.
4.1.1. Definition.
4.1.2. Properties.
4.1.3. Transforms of typical functions.
4.1.4. Derivative operator transform. Theorems of the initial value and the final value.
4.1.5. Integral operator transform.
4.1.6. Integral-differential equations transforms of a circuit into algebraic equations in the Laplace
domain.
4.2. Application to circuits.
4.2.1. Resistance, inductor and capacitor in the transformed domain.
4.2.2. Inverse Laplace transform. Laplace transform pairs.
4.2.3. Inverse Laplace transform decomposition as a sum of known Laplace inverse transforms 

ECTS credits
6

Teaching Language
Español

Exam Language
English/Español

Support Materials Language
Español/English

Basic Learning Outcomes

Managing Entity (faculty)