PI Control for Grid-Connected Inverters
Simulation of Grid-Connected Inverters Based on PI Control with Implementation Analysis
Brushless DC Motor Model
The brushless DC motor model consists of: inverter module, power supply module, commutation logic module, PWM signal generation module, motor body module, speed measurement module, and magnetic pole position measurement module.
SVPWM Controlled Inverter with MATLAB Simulink Implementation
This SVPWM controlled inverter model has been successfully validated in MATLAB Simulink simulation environment. The implementation demonstrates space vector pulse width modulation algorithm for efficient power conversion. Developers can download and explore the complete simulation structure including PWM generation, voltage vector sector identification, and timing calculation modules.
A Static Synchronous Series Compensator (SSSC) Model with H-Bridge Multilevel Inverter
This project develops a Static Synchronous Series Compensator (SSSC) model in Simulink, featuring an H-bridge multilevel inverter using carrier phase-shifted PWM (SPWM) modulation. The simulation is conducted on a 35kV transmission line with more than three nodes, where the SSSC operates in impedance compensation mode. Simulation results for both capacitive and inductive compensation scenarios are presented with detailed implementation analysis.
Vector Control of Permanent Magnet Synchronous Motors
Application Background: Implementation of Permanent Magnet Synchronous Motor (PMSM) using powerful simulation modeling capabilities through MATLAB/Simulink. The complete PMSM control system is divided into independent functional modules including PMSM main body module, inverter module, coordinate transformation module, SVPWM module, and production modules. Key Technologies: PMSM simulation modeling and vector control implementation using MATLAB/Simulink's block-based approach for system design and analysis.
Predictive Current Control for Inverters
Predictive current control for inverters, including M-file implementations and Simulink models, with simulation-verified performance and control algorithm validation
Control Techniques for Inverter Sinusoidal Current Output
The core of grid-connected inverter power generation lies in control techniques for sinusoidal current output, which require current synchronization with grid frequency and phase. This MATLAB model implements phase-locked loop (PLL) technology, constant power control, and LCL filter techniques to meet grid connection requirements. The implementation demonstrates real-time grid synchronization algorithms and harmonic suppression methods through Simulink blocks and control logic programming.
Power Electronics Inverter Proportional Resonant Control with RCD Load
MATLAB Implementation of Proportional Resonant Control for Power Electronics Inverters with RCD Load Testing
Three-Phase Inverter Simulation
Simulink Simulation of Three-Phase Inverter with Detailed Implementation Analysis
Single Cycle Controlled Inverter
MATLAB modeling and simulation of a single cycle controlled inverter system with detailed algorithm implementation