Simulation Model of 12-Pulse Controlled Rectifier Circuit

In this document, we discuss a simulation model of a 12-pulse controlled rectifier circuit and demonstrate how to implement distillative simulation circuits using Simulink. The 12-pulse controlled rectifier represents a commonly used circuit configuration that converts AC power to DC power with controllable rectification characteristics. In our simulation model, we utilize MATLAB's Simulink environment to construct the circuit architecture, implementing key components such as thyristor bridges, phase-shifting transformers, and control logic blocks. The simulation employs pulse generation algorithms with precise firing angle control to study and analyze circuit performance parameters including harmonic distortion, power factor, and output voltage stability. This approach enables better understanding and application of this circuit configuration to meet various power requirements. For distillative simulation circuits, we explore how to model and optimize distillation processes using Simulink's physical modeling libraries, incorporating temperature control algorithms and flow regulation mechanisms to enhance process efficiency and yield. Through in-depth investigation of these topics, we gain comprehensive insights into both the 12-pulse controlled rectifier simulation model and Simulink's practical applications in power electronics and process control domains.