Abstract
This paper analyzes the configuration of Static Synchronous Compensator-STATCOM utilizing 48 pulse voltage source converter for reactive force reparation and voltage adjustment in force framework transmission and dispersion systems alongside the advanced development of the STATCOM utilizing 48 pulse VSC, expecting framework subjected to unsettling disturbances of real and reactive power. The 48 Pulse voltage source converter is composed with the guide of four 3-level voltage source converters exchanging at the major recurrence to create a sinusoidal yield voltage with decreased symphonies substance. The outline and computerized recreation of STATCOM has been executed in the MATLAB/Simulink stage. It is strongly evident that the outcome of reactive power reparation and voltage stabilization have been substantially improved by the proposed STATCOM configuration with 48 pulse VSC.
Highlights
The utilization of power electronics based controllers in the electric power transmission assumes a significant job to make the system more solid, controllable and productive
The Static Synchronous Compensator-STATCOM employing 48-pulse voltage source converter-voltage-source converter (VSC) is recommended for its ability to produce the smoother output with lesser harmonics [2]
The displacement of phase of VSI and the terminal voltage of the STATCOM is clarified in Figure7 and Figure 8 independently
Summary
The utilization of power electronics based controllers in the electric power transmission assumes a significant job to make the system more solid, controllable and productive. A voltage source converter-VSC based STATCOM uses for the required reactive power adjustment. This eliminates the need to use group of capacitor-bank units and shunt reactors in the system for the reactive power control. The Static Synchronous Compensator-STATCOM employing 48-pulse voltage source converter-VSC is recommended for its ability to produce the smoother output with lesser harmonics [2]. A STATCOM is the responsive power source control unit It gives the desired output power supply by injecting or absorbing the reactive power component using a voltage-source converter (VSC). The produced yield voltage created by this 12-pulse controller-converter is, vab12(t) = 2[Vab sin( ωt + 30°) + Vab sin( 11ωt + 195°) +.
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