You are in:Home/Publications/"Analysis and Design of Multiple Feedback Loop Control Strategy for Single-Phase Voltage-Source UPS Inverters," IEEE Transactions on Power Electronics, Vol. 11, No. 4, , pp. 537-541 | |
Prof. Naser Mohammed Bayoumy Abdel-Rahim Elghetany :: Publications: |
Title: | "Analysis and Design of Multiple Feedback Loop Control Strategy for Single-Phase Voltage-Source UPS Inverters," IEEE Transactions on Power Electronics, Vol. 11, No. 4, , pp. 537-541 |
Authors: | Naser Abdel-Rahim and John Quaicoe |
Year: | 1996 |
Keywords: | Not Available |
Journal: | Not Available |
Volume: | Not Available |
Issue: | Not Available |
Pages: | Not Available |
Publisher: | Not Available |
Local/International: | International |
Paper Link: | |
Full paper | Not Available |
Supplementary materials | Not Available |
Abstract: |
This paper presents the analysis and design of a multiple feedback loop control scheme for single-phase voltage-source uninterruptible power supply (UPS) inverters with an L-C filter. The control scheme is based on sensing the current in the capacitor of the load filter and using it in an inner feedback loop. An outer voltage feedback loop is also incorporated to ensure that the load voltage is sinusoidal and well regulated. A general state-space averaged model of the UPS system is first derived and used to establish the steady-steady quiescent point. A linearized small signal dynamic model is then developed from the system general model using perturbation and small-signal approximation. The linearized system model is employed to examine the incremental dynamics of the power circuit and select appropriate feedback variables for stable operation of the closed-loop UPS system. Experimental verification of a laboratory model of the UPS system under the proposed closed-loop operation is provided for both linear and nonlinear loads. It is shown that the control scheme offers improved performance measures over existing schemes, It is simple to implement and capable of producing nearly perfect sinusoidal load voltage waveform at moderate switching frequency and reasonable size of filter parameters. Furthermore, the scheme has excellent dynamic response and high voltage utilization of the DC source |