TY - JOUR
T1 - Event-Triggered Differential Delay Method for Current Sharing in Islanded DC Microgrids With Adaptive Droop Coefficient Regulation
AU - Deng, Fei
AU - Tang, Yi
AU - Yao, Zhigang
AU - Yao, Wenli
AU - Lei, Tao
AU - Li, Weilin
AU - Zhang, Xiaobin
N1 - Publisher Copyright:
© 2010-2012 IEEE.
PY - 2025
Y1 - 2025
N2 - In islanded DC microgrids, various parallel distributed generation units (DGUs) are in voltage control mode, and mismatched line impedances always lead to inaccurate current sharing, which influences the normal and effective operation of power systems. To solve this problem, a distributed event-triggered differential delay method is proposed for current sharing in islanded DC microgrids. In this method, the master DGU is selected with the differential delay method, and then broadcasts its per-unit current via the communication network. When other DGUs have received this information, droop coefficients are adaptively regulated based on per-unit current errors, with which line impedance mismatches are eliminated. Furthermore, the communication and current sharing loops are activated with event-triggered control. With the proposed strategy, the current both in steady states and during load change transients is achieved with small droop coefficients, the bus voltage quality is hardly degraded. Besides, with the proposed event-triggered differential delay mechanism, both the date amount in communication and data exchange frequency are dramatically reduced. The convergence is analyzed and on this basis, the parameters in the triggering function are selected. Finally, hardware-in-loop test results in various conditions are presented to validate the effectiveness of the proposed strategy.
AB - In islanded DC microgrids, various parallel distributed generation units (DGUs) are in voltage control mode, and mismatched line impedances always lead to inaccurate current sharing, which influences the normal and effective operation of power systems. To solve this problem, a distributed event-triggered differential delay method is proposed for current sharing in islanded DC microgrids. In this method, the master DGU is selected with the differential delay method, and then broadcasts its per-unit current via the communication network. When other DGUs have received this information, droop coefficients are adaptively regulated based on per-unit current errors, with which line impedance mismatches are eliminated. Furthermore, the communication and current sharing loops are activated with event-triggered control. With the proposed strategy, the current both in steady states and during load change transients is achieved with small droop coefficients, the bus voltage quality is hardly degraded. Besides, with the proposed event-triggered differential delay mechanism, both the date amount in communication and data exchange frequency are dramatically reduced. The convergence is analyzed and on this basis, the parameters in the triggering function are selected. Finally, hardware-in-loop test results in various conditions are presented to validate the effectiveness of the proposed strategy.
KW - Islanded DC microgrids
KW - adaptive droop coefficient regulation
KW - current sharing
KW - distributed generation units
KW - event-triggered control
UR - http://www.scopus.com/inward/record.url?scp=85205823047&partnerID=8YFLogxK
U2 - 10.1109/TSG.2024.3472694
DO - 10.1109/TSG.2024.3472694
M3 - 文章
AN - SCOPUS:85205823047
SN - 1949-3053
VL - 16
SP - 863
EP - 875
JO - IEEE Transactions on Smart Grid
JF - IEEE Transactions on Smart Grid
IS - 2
ER -