MATLAB/Simulink for Power Electronics Simulations
Udemy Coupon ED | MATLAB/Simulink for Power Electronics SimulationsPower electronics simulation with Simulink® lets you model complex topologies with multiple switching devices using standard circuit components. You can run fast simulations with average models or ideal switching behavior, or use detailed nonlinear switching models for parasitics and detailed design Get Coupon
What you'll learn
- How to simulate power electronics devices in MATLAB/Simulink
- Simulation of half-wave and full-wave rectifiers in MATLAB/Simulink
- Simulation of buck, boost, and buck/boost converters in MATLAB/Simulink
- Simulation of single-phase and three-phase inverters in MATLAB/Simulink
- How rectifiers, dc-to-dc converters, and inverters work
- How to determine the performance of power electronics devices
- How to design power electronics devices to meet certain design specifications
- MATLAB/Simulink models provided so you can follow along and use for your own designs
- How to implement a PID controller in MATLAB/Simulink
- Power Engineering and Electrical Engineering Simulations in MATLAB/Simulink
- MATLAB/Simulink software, free trial available online
1. Introduction to MATLAB/Simulink for Power Electronics: in section 2, we will begin by reviewing the theory behind the semiconductor devices that are used in power electronics, such as diodes, power BJTs, power MOSFETs, IGBTs, and Thyristors. We will then take a look at the libraries available in Simulink to represent these devices in our models. After that, we will take a look at how we can model voltage sources, current sources, and passive components (resistors, capacitors, and inductors), as well as how we can put them together in a model using Simulink and how we can take measurements in the model to ensure proper simulation.
2. Rectifier Simulations in MATLAB/Simulink: we will begin section 3 by reviewing the theory behind the operation and topologies of power electronics rectifiers. We will then see how we can simulate both single-phase and three-phase rectifiers using Simulink.
3. DC-to-DC Converter Simulations in MATLAB/Simulink: we will begin section 4 by reviewing the theory behind the operation and topologies of power electronics dc-to-dc converters. We will then see how we can simulate buck, boost, and buck/boost converters.