Topic |
Sub-topic |
Block 1 - Power Electronics |
|
Subject 1.1 - Power Semiconductors Devices |
Power Diodes
MOSFETs
IGBTs
Thyristors |
Subject 1.2 - Protection and control of power semiconductor devices |
Thermal and electrical protections
Snubber Networks
Control circuits of MOSFET and IGBT transistors
Thyristor control circuits |
Subject 1.3 - Electronic power converters coupled to the electrical network and their topologies |
Single-phase and three-phase uncontrolled rectifiers
Single-phase and three-phase semi-controlled and controlled rectifiers |
Subject 1.4 - DC / AC Electronic power converters |
Part 1
Single phase inverter
PWM modulation
Harmonics and amplitude control
Part 2
Three phase inverters
Single-phase and three-phase AC-AC converters
AC control |
Practical Block 1 - Laboratory of electronics of power |
Practice 1.1 - Introduction to the simulation with PSIM.
Practice 1.2 - Introduction to the laboratory of electronics of power.
Practice 1.3 - Simulation of circuits rectifiers no controlled.
Practice 1.4 - Three phase rectifiers.
Practice 1.5 - Simulation of single-phase inverter circuits and PWM modulation .
Practice 1.6 - Single-phase inverter and PWM modulation . |
Block 2 - Automatic Control |
|
Subject 2.1 - Introduction to control systems |
Feedback
Modeling and simulation
Continuous systems |
Subject 2.2 - Analysis of continuous-time systems |
Time and frequency response
Stability and robustness |
Subject 2.3 - Industrial regulators |
Design goals
PID regulators
Practical aspects in the implementation of regulators |
Subject 2.4 - Analysis of discrete-time systems |
Discrete systems and Z transform
Sampling and reconstruction
Modeling and simulation
Time and frequency response
Stability and robustness |
Subject 2.5 - Synthesis of regulators in discrete time |
Design goals
Performance evaluation
Analytical design through the roots locus and Bode diagram
Discretization of continuous regulators |
Practical Block 2 - Laboratory of automatic regulation |
Practice 2.1 - Modelling and simulation of continuous systems with Simulink of Matlab
Practical 2.2 - Modelling and simulation of continuous systems with Control System Toolbox of Matlab
Practical 2.3 - Analysis in the time domain of continuous systems
time 2.4 - Frequency response and graphics
Practical 2.5. Analyses in frequency domain with Sisotool of Matlab
Practical 2.6 Digital Systems: simulation and analysis with Z transform. |