Explores advanced semiconductor devices such as Static Induction Transistors and DIACs. Core Modules Covered
MATLAB is a high-level programming language and software environment that is widely used in power electronics for simulation, analysis, and design. MATLAB provides a comprehensive set of tools and functions that enable users to model and simulate power electronic systems, analyze their behavior, and optimize their performance. The use of MATLAB in power electronics has several advantages, including:
Single-phase and three-phase half-wave/full-wave rectifiers. power electronics with matlab ashok kumar pdf link
: Available for digital reading on the Perlego Library or for purchase at Cambridge University Press .
Using software simulation alongside theoretical learning offers several distinct advantages: The use of MATLAB in power electronics has
Learning how to resolve initialization or solver errors in Simulink (such as singular matrix warnings) is where real engineering skills are built.
Power electronics is the backbone of modern technology, driving everything from electric vehicles to renewable energy grids. However, moving from theory to practical application can be a challenge. That’s where L. Ashok Kumar’s "Power Electronics with MATLAB" Power electronics is the backbone of modern technology,
| No. | Chapter Title | Core Topics Covered | |:---:|:---|:---| | 1 | Introduction to MATLAB | Getting started with MATLAB environment, basic syntax, and Simulink fundamentals. | | 2 | MATLAB Simulation of Power Semiconductor Devices | Detailed modeling and simulation of devices like power diodes, BJTs, , and IGBTs using MATLAB's built-in blocks. | | 3 | Phase-Controlled Rectifiers Using MATLAB (AC-DC Converters) | Simulating single-phase and three-phase controlled rectifiers to analyze waveforms, understand commutation, and calculate performance parameters. | | 4 | DC Choppers Using MATLAB (DC-DC Converters) | Exploring step-down (buck), step-up (boost), and buck-boost converters, with a focus on open-loop and closed-loop control simulations. | | 5 | Inverters Using MATLAB | Modeling and simulation of voltage source inverters (VSIs), including single-phase and three-phase configurations, PWM techniques, and harmonic analysis. | | 6 | Controllers Using MATLAB (AC-AC Converters) | Analyzing AC voltage controllers, cycloconverters, and matrix converters, and their applications in motor speed control. | | 7 | Simulation and Digital Control Using MATLAB | Bridging theory and application by implementing closed-loop control systems, PID controllers, and an introduction to digital control strategies. | | 8 | Power Electronics Applications | Exploring real-world applications like in renewable energy systems, electric drives, and power supplies, with advanced experiments using fuzzy logic and neural networks . | | 9 | Introduction to Electrical Drives | Covering the fundamentals of DC and AC motor drives, emphasizing how power electronic converters control speed, torque, and position. |
The PDF link for "Power Electronics with MATLAB" by Ashok Kumar can be downloaded from the following link:
Buck, Boost, and Buck-Boost converter models.