Impact of Electric Vehicle Aggregator with Communication Time Delay on Stability Regions and Stability Delay Margins in Load Frequency Control System
Copyright policy )Impact of Electric Vehicle Aggregator with Communication Time Delay on Stability Regions and Stability Delay Margins in Load Frequency Control System
This paper investigates the impact of electric vehicle (EV) aggregator with communication time delay on stability regions and stability delay margins of a single-area load frequency control (LFC) system. Primarily, a graphical method characterizing stability boundary locus is implemented. For a given time delay, the method computes all the stabilizing pro-portional-integral (PI) controller gains, which constitutes a stability region in the parameter space of PI controller. Secondly, in order to complement the stability regions, a frequency-domain exact method is used to calculate stability delay margins for various values of PI controller gains. The qualitative impact of EV aggregator on both stability regions and stability delay margins is thoroughly analyzed and the results are authenticated by time-domain simulations and quasi-polynomial mapping-based root finder (QPmR) algorithm.
- Gazi University Turkey
- Niğde University Turkey
proportional-integral (PI) controller design, TK1001-1841, Stability criteria, stability region, stability delay margin, TJ807-830, Power system stability, Renewable energy sources, Production of electric energy or power. Powerplants. Central stations, Communication time delay, Frequency control, frequency regulation, ISO, electric vehicle (EV) aggregator, Delays, Delay effects
proportional-integral (PI) controller design, TK1001-1841, Stability criteria, stability region, stability delay margin, TJ807-830, Power system stability, Renewable energy sources, Production of electric energy or power. Powerplants. Central stations, Communication time delay, Frequency control, frequency regulation, ISO, electric vehicle (EV) aggregator, Delays, Delay effects
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