Closed-Loop Simulation of Dual Active Bridge (DAB) Power Electronics Topology
Simulation and Implementation of Closed-Loop Control for Dual Active Bridge (DAB) Power Converter Topology
Electric Locomotive Simulation Using MATLAB
MATLAB Simulation for Power Electronics in Electric Locomotives with Implementation Examples
Power Electronics and Motor Control Systems with MATLAB and Simulink
Comprehensive modeling and simulation of power electronics and motor control systems using MATLAB and Simulink, featuring various power electronic components and motor models including DC motors, induction motors, and synchronous motors with multiple control algorithms.
Implementation of AC-DC-AC Power Conversion
This simulation is implemented using MATLAB/Simulink and demonstrates AC-DC-AC power conversion, a critical process in power electronics. The system enables stable power output from wind generation systems and facilitates grid integration through sophisticated power converter control algorithms.
Unipolar PWM Control Method Simulink Simulation
A comprehensive Simulink simulation of unipolar PWM control method designed for power electronics beginners, featuring straightforward implementation with an integrated analog filter. This educational model demonstrates fundamental concepts through practical signal processing and modulation techniques.
Power Electronics DC-DC Conversion: MATLAB Simulation of Buck-Boost Chopper Circuit
Power Electronics DC-DC Conversion: MATLAB Simulation of Buck-Boost Chopper with Implementation Details and Performance Analysis
Power Electronics Inverter Proportional Resonant Control with RCD Load
MATLAB Implementation of Proportional Resonant Control for Power Electronics Inverters with RCD Load Testing
Boost Converter Applications in Power Electronics Systems
A boost converter in power electronics circuits elevates DC input voltage to a higher output level through switched-inductor energy transfer, commonly implemented using PWM control algorithms and MOSFET switching components.
Power Electronics and Control in Grid-Connected Photovoltaic Systems
Power electronics and control strategies for grid-connected PV systems, including implementation approaches for maximum power point tracking, grid synchronization, and fault detection algorithms.
Power Electronics DC-DC Conversion: MATLAB Simulation of Boost Converter with Chopper Circuit
DC-DC Boost Converter MATLAB Simulation with Chopper Circuit Analysis: Implementation of Voltage Step-Up Conversion Using Power Electronics Switching Techniques