1 |
Elnozahy, A., Yousef, A.M., Abo-Elyousr, F.K., et al.: Performance improvement of hybrid renewable energy sources connected to the grid using artificial neural network and sliding mode control. J. Power Electron. 21, 1166-1179 (2021). https://doi.org/10.1007/s43236-021-00242-8/
|
|
2 |
Lei, Y., Du, G., Zhang, Y., et al.: Fixed switching frequency strategy for finite-control-set model predictive control based on cost function reconstruction. J. Power Electron. 21, 853-864 (2021)/
|
|
3 |
Ning, G.: Finite control set model predictive control integrated with disturbance observer for battery energy power conversion system. J. Power Electron. 21(2), 342-353 (2021)/
|
|
4 |
Zhong, L., Hu, S.: Fast modulation strategy for open-end winding PMSM with common DC bus. J. Power Electron. 21(7), 1009-1019 (2021)/
|
|
5 |
Shukla, S., Sreejeth, M., Singh, M.: Minimization of ripples in stator current and torque of PMSM drive using advanced predictive current controller based on deadbeat control theory. J. Power Electron. 21(1), 142-152 (2021)/
|
|
6 |
Zhang, Z., Liao, M., Jiang, D., Yang, X., Li, S.: High step-up isolated forward-flyback DC/DC converter based on resonance with pulse frequency modulation. J. Power Electron. 21(2), 483-493 (2021)/
|
|
7 |
Xiong, J., Zhou, F., Li, Q.: Soft-switching modulation algorithmbased reconfiguration of cascaded H-bridge inverters under DC source failures. J. Power Electron. 21(7), 998-1008 (2021)/
|
|
8 |
Halabi, L.M., Alsofyani, I.M., Lee, K.-B.: Hardware implementation for hybrid active NPC converters using FPGA-based dual pulse width modulation. J. Power Electron 21, 1669-1679 (2021)/
|
|
9 |
Song, M.-G., Kim, S.-M., Lee, K.-B.: Independent switching technique to remove abnormal output voltage in hybrid active NPC inverters. J. Power Electron 21, 85-93 (2021)/
|
|
10 |
Jiang, L., et al.: SVPWM algorithm for five-level active-neutralpoint- clamped H-bridge inverters. J. Power Electron. 21, 1123-1134 (2021)/
|
|