| Educational guide School of Engineering |
english |
| Bachelor's Degree in Electronic and Automation Engineering (2010) |
 Subjects |
| CIRCUIT THEORY II |
| Contents |
| IDENTIFYING DATA | 2023_24 |
| Subject | CIRCUIT THEORY II | Code | 17204106 | |||||
| Study programme |
|
Cycle | 1st | |||||
| Descriptors | Credits | Type | Year | Period | ||||
| 5 | Compulsory | Second | 2Q |
|||||
| Competences | Learning outcomes | Contents |
| Planning | Methodologies | Personalized attention |
| Assessment | Sources of information | Recommendations |
| Topic | Sub-topic |
| 0. Introduction | 0.1. Presentation 0.2. TC-II at Moodle 0.3. Evaluation 0.4. Bibliography 0.5. Teaching Guide 0.6. Consultation Hours |
| 1. Three-Phase Systems | 1.1. Introduction. 1.2. Sequence of phases. 1.3. Voltages and currents in a three-phase system. 1.4. Wye and Delta connections. 1.5. Analysis of balanced three-phase circuits by means of a single-phase equivalent circuit. 1.6. Power in balanced three-phase circuits. 1.7. Determination of the sequence of phases in a three-phase system. 1.8. Power measurements in balanced three-phase systems. 1.9. Power in unbalanced three-phase circuits. 1.10. Power measurements in three-phase circuits. |
| 2. Time response of linear circuits. | 2.1. Introduction. 2.2. Analysis of the transient regime of a first-order circuit. 2.3. Analysis of a circuit using the Laplace transform equivalent circuit. 2.4. Obtaining the transformed circuit when magnetic coupling exists. 2.5. Study of the zero-state response. 2.6. Definition of the network function H(s) and order of a circuit. 2.7. Second order circuits. |
| 3. Frequency response of linear circuits. | 3.1. Introduction 3.2. Study of the zero-state in sinusoidal steady-state. 3.3. Obtaining the modulus and phase of H(jw) by graphical procedures. 3.4. Determination of the zeros of the network function by simple inspection of the circuit. 3.5. Other second-order network functions. 3.6. Bode diagrams. 3.7. Design of equalizer filters with operational amplifiers based on Bode diagrams. |
| 4. Two-port networks. | 4.1. Circuits with two ports: two-port or four-terminal networks. 4.2. Variables and references in a two-port network. 4.3. Types of Parameters. 4.4. Two-port equivalences. 4.5. Modeling two-ports from their parameters. 4.6. Relationships between the different families of parameters. 4.7. Two-port based circuit analysis. 4.8. Two-port connections. |
