Options
Parallel-Hybrid Converter Based STATCOM: Operating Principles and Capacitor Voltage Control Using Fundamental Frequency Zero-Sequence Voltage
Journal
IEEE Transactions on Power Electronics
ISSN
08858993
Date Issued
2022-10-01
Author(s)
Rath, Ibhan Chand
Patro, Siba Kumar
Shukla, Anshuman
Abstract
The parallel-hybrid converter (PHC) based high-voltage dc (HVdc) plant (PHC-HVdc) mandates the injection of additional harmonic-voltage components into its chain-links (CLs) to regulate its output voltage/modulation index (MI). However, these harmonic voltages are restricted to have limited magnitude and their zero crossings must coincide with the respective output voltages of converter. Hence, the operating range of MI for the PHC-HVdc has narrow limits. This article explores the reactive power compensating capabilities of the PHC based static compensator (PHC-STATCOM), which is relieved from the fixed dc source and is free to operate at any MI without requiring any additional efforts. Two degrees of freedom inherent with PHC-STATCOM are discovered, which proves that PHC is utilized to its maximum when applied for reactive compensation. The capacitor voltages of the PHC-STATCOM belonging to different CLs divert from desired value under unbalanced grid/load conditions. By the virtue of degrees of freedom associated with PHC-STATCOM, a capacitor voltage control technique is proposed using fundamental-frequency zero-sequence voltage (FFZSV). The generalized expression of the reference FFZSV is derived, which regulates the capacitor voltages. The loci planes indicating the maximum range of load unbalance that the PHC-STATCOM can compensate with specific grid voltage conditions is obtained and plotted. The working principles and proposed capacitor control are verified using experimental studies. A detailed comparative study is presented to substantiate the advantages of the proposed topology.
Volume
37
Subjects