Abstract
In this paper presents a comparative analysis of two control method applied to a single phase Shunt Active Power Filter (SAPF). It is about Model Predictive Control (MPC) based Direct Current Control (DCC) and Indirect Current Control (IDCC) strategy. The performances of two current control strategies were verified through a simulation with MATLABSimulink Software. Simulation results confirmed that compared to the DCC strategy, the IDCC strategy using MPC becomes simpler and need less hardware components.
Highlights
In recent years, using Non Linear Loads (NLLs) causes a significant power quality problem in power distribution networks
This method is based on a simple concept, and easy to implement in real-time due to the fast development of controller such as microprocessors and digital signal processors can handle such computations [8]. This manuscript aims to analysis of two control method applied to a single phase Shunt Active Power Filter (SAPF). It is about Model Predictive Control (MPC) based Direct Current Control (DCC) and Indirect Current Control (IDCC) strategy
The MPC based DCC and IDCC algorithm was programmed using embedded function block and it can operated at a sampling period of 10 μs
Summary
In recent years, using Non Linear Loads (NLLs) causes a significant power quality problem in power distribution networks. This method is based on a simple concept, and easy to implement in real-time due to the fast development of controller such as microprocessors and digital signal processors can handle such computations [8]. This manuscript aims to analysis of two control method applied to a single phase SAPF. It is about MPC based Direct Current Control (DCC) and Indirect Current Control (IDCC) strategy. Starting with an introduction, the following sections deal with the control of single phase SAPF, Experimental results and end with suitable conclusion
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