International Journal of Innovative Research and Development

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Stability Analysis of Distributed Generation System Connected to 48-Pulse VSC Based STATCOM Using MATLAB


Affiliations
1 Department of Electrical and Electronics Engineering, Disha Institute of Management and Technology, Satya Vihar, Raipur, India
 

In this paper The STATCOM (Synchronous Static Compensator) based on voltage source converter (VSC) is used to supply dynamic VARs required during power system faults for voltage support. However, magnetic saturation of transformers used in VSC topology result in over-current and trips of the STATCOM during system faults, when dynamic VARs and voltage support are required the most. In this paper, we propose and develop an “emergency PWM” strategy to prevent over-currents in VSC and transformer magnetic saturation for line-to-line system faults. A + 100 MVAR STATCOM with a 48-pulse VSC based on 3-level Neutral Point Clamped (NPC) topology and four series connected transformers with realistic saturation (B-H) characteristics are considered. Simulation results are presented for a 48-pulse VSC based + 100 MVAR STATCOM connected to a 2-bus power system to validate the “emergency PWM” strategy to prevent VSC over-current and transformer saturation and supply reactive power under line-to-line system faults. A practical issue of impact of slightly different saturation (B-H) characteristics of the four series transformers, on VSC performance is shown by simulation results for line-to-line fault in SIMULINK based MATLAB environment.


Keywords

STATCOM, Distributed Generation System, 48-Pulse STATCOM, VSC.
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  • Stability Analysis of Distributed Generation System Connected to 48-Pulse VSC Based STATCOM Using MATLAB

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Authors

Shubham Dewangan
Department of Electrical and Electronics Engineering, Disha Institute of Management and Technology, Satya Vihar, Raipur, India
Uma Shankar Patel
Department of Electrical and Electronics Engineering, Disha Institute of Management and Technology, Satya Vihar, Raipur, India

Abstract


In this paper The STATCOM (Synchronous Static Compensator) based on voltage source converter (VSC) is used to supply dynamic VARs required during power system faults for voltage support. However, magnetic saturation of transformers used in VSC topology result in over-current and trips of the STATCOM during system faults, when dynamic VARs and voltage support are required the most. In this paper, we propose and develop an “emergency PWM” strategy to prevent over-currents in VSC and transformer magnetic saturation for line-to-line system faults. A + 100 MVAR STATCOM with a 48-pulse VSC based on 3-level Neutral Point Clamped (NPC) topology and four series connected transformers with realistic saturation (B-H) characteristics are considered. Simulation results are presented for a 48-pulse VSC based + 100 MVAR STATCOM connected to a 2-bus power system to validate the “emergency PWM” strategy to prevent VSC over-current and transformer saturation and supply reactive power under line-to-line system faults. A practical issue of impact of slightly different saturation (B-H) characteristics of the four series transformers, on VSC performance is shown by simulation results for line-to-line fault in SIMULINK based MATLAB environment.


Keywords


STATCOM, Distributed Generation System, 48-Pulse STATCOM, VSC.