Title :
Design and quasi-equilibrium analysis of a distributed frequency-restoration controller for inverter-based microgrids
Author :
Ainsworth, Nathan ; Grijalva, Santiago
Author_Institution :
Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
This paper discusses a proposed frequency-restoration controller which operates as an outer loop to frequency droop for voltage-source inverters. By quasi-equilibrium analysis, we show that the proposed controller is able to provide arbitrarily small steady-state frequency error while maintaing power sharing between inverters without need for communication or centralized control. We derive rate of convergence, discuss design considerations (including a fundamental trade-off that must be made in design), present a design procedure to meet a maximum frequency error requirement, and show simulation results verifying our analysis and design method. The proposed controller will allow flexible plug-and-play inverter-based networks to meet a specified maximum frequency error requirement.
Keywords :
distributed power generation; invertors; power distribution control; power generation control; distributed frequency-restoration controller; frequency droop; frequency error requirement; inverter-based microgrids; maintaing power sharing; maximum frequency error; outer loop; plug-and-play inverter; quasiequilibrium analysis; steady-state frequency error; voltage-source inverters; Convergence; Frequency control; Frequency measurement; Frequency synchronization; Inverters; Microgrids; Steady-state; Distributed control; Graph Theory; Multiagent system; Power system dynamics; Power system transients;
Conference_Titel :
North American Power Symposium (NAPS), 2013
Conference_Location :
Manhattan, KS
DOI :
10.1109/NAPS.2013.6666835
