Abstract
The present work explores the power quality problems of a microgrid in the aviation field, such as frequency offset or waveform distortion, caused by voltage imbalance and nonlinear load, to ensure the efficient and stable flight of aircraft, unmanned aerial vehicles, and other aircraft. There are many problems such as excessive harmonics, voltage imbalance, and direct current (DC) component in aviation variable frequency power supply voltage in microgrid under different conditions. Therefore, three kinds of second-order generalized integrators (SOGIs) with different structures are combined with linear Kalman filter phase-locked loops (PLLs). Besides, intelligent sensors are utilized for signal processing. Finally, simulation experiments are conducted to compare three SOGIs. The results show that the system is stable when the parameters k1 = 738.9553, k2 = 1092108.98405, k3 = 1477.91, and Ts = 0.000125 s and k ranges in [0.5, 3]. The angular frequency of PLL output is very low under the problems of many harmonics, three-phase voltage imbalance, and DC component ω g . The angular frequency ω g output by the PLL finally changes linearly with a change rate of 400 πrad/s2, so that the output phase angle θ g reaches a stable state. Thus, the proposed steady-state linear Kalman filter phase locking can accurately phase-lock the aviation variable frequency power supply. It provides an important reference for the power supply module in the microgrid to select the appropriate second-order generalized integrator to realize the accurate phase locking of the phase-locked loop under different conditions.
Highlights
Electricity is one of the essential elements for the normal operation of modern society
Variable frequency power supply is an important part of the aircraft power supply system, which has the advantages of highpower generation efficiency and no need for constant installation and converter [3, 4]. e aviation variable frequency power supply is used as the power supply of the microgrid and is integrated into the power grid through the converter as the power interface; the phase
The linear Kalman filter phase-locked loops (PLLs) is adopted, and second-order generalized integrators (SOGIs) is added to the microgrid. e central angular frequency of the SOGI is output by the Kalman filter PLL obtained by feedback
Summary
Electricity is one of the essential elements for the normal operation of modern society. Erefore, to realize the fast and accurate phase locking of SSLKF, when using intelligent sensors to process the AC voltage in the frequency conversion power supply, a second-order generalized integrator (SOGI) can be added to the front stage of SSLKF-PLL. E authors gained different results of phase locking and different adaptability to the power grid when the three-phase input voltage was the constant frequency and the threephase input voltage contained harmonics, subharmonics, and interharmonics It provides an important reference for selecting different second-order generalized integrator structures for phase-locked loop under different input voltage conditions in aviation variable frequency power supply. Different phase-locked results are obtained under different input voltage conditions, important conclusions are drawn, and the application occasions of the second-order generalized integrators applied to SSLKF are pointed out under three different aviation variable frequency power supply conditions
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