Josep M. Guerrero scite author profile

Abstract-This paper presents a review of advanced control techniques for microgrids. The paper covers decentralized, distributed, and hierarchical control of grid connected and islanded microgrids. At first, decentralized control techniques for microgrids are reviewed. Then, the recent developments in the stability analysis of decentralized controlled microgrids are discussed. Finally, hierarchical control for microgrids that mimic the behavior of the mains grid is reviewed.

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Output Impedance Design of Parallel-Connected UPS Inverters With Wireless Load-Sharing Control

Guerrero

Vicuña

Matas

et al. 2005

IEEE Trans. Ind. Electron.

1,091

672

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Distributed Secondary Control for Islanded Microgrids—A Novel Approach

Shafiee

Guerrero

Vasquez

2014

IEEE Trans. Power Electron.

950

652

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This paper presents a novel approach to conceive the secondary control in droop-controlled MicroGrids. The conventional approach is based on restoring the frequency and amplitude deviations produced by the local droop controllers by using a MicroGrid Central Controller (MGCC). A distributed networked control system is used in order to implement a distributed secondary control (DSC) thus avoiding its implementation in MGCC. The proposed approach is not only able to restore frequency and voltage of the MicroGrid but also ensures reactive power sharing. The distributed secondary control does not rely on a central control, so that the failure of a single unit will not produce the fail down of the whole system. Experimental results are presented to show the feasibility of the DSC. The time latency and data drop-out limits of the communication systems are studied as well.

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DC Microgrids–Part I: A Review of Control Strategies and Stabilization Techniques

Dragičević

Liu

Vasquez

et al. 2015

IEEE Trans. Power Electron.

1,079

647

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This paper presents a review of control strategies, stability analysis and stabilization techniques for DC microgrids (MGs). Overall control is systematically classified into local and coordinated control levels according to respective functionalities in each level. As opposed to local control which relies only on local measurements, some line of communication between units needs to be made available in order to achieve coordinated control. Depending on the communication method, three basic coordinated control strategies can be distinguished, i.e. decentralized, centralized and distributed control. Decentralized control can be regarded as an extension of local control since it is also based exclusively on local measurements. In contrast, centralized and distributed control strategies rely on digital communication technologies. A number of approaches to using these three coordinated control strategies to achieve various control objectives are reviewed in the paper. Moreover, properties of DC MG dynamics and stability are discussed. The paper illustrates that tightly regulated point-of-load (POL) converters tend to reduce the stability margins of the system since they introduce negative impedances, which can potentially oscillate with lightly damped power supply input filters. It is also demonstrated how the stability of the whole system is defined by the relationship of the source and load impedances, referred to as the minor loop gain. Several prominent specifications for the minor loop gain are reviewed. Finally, a number of active stabilization techniques are presented. Index Terms-DC microgrid (MG), local control, coordinated control, impedance specifications, stability. NOMENCLATURE Acronyms AVP Adaptive voltage positioning. BLDC Brushless DC. CC Central controller. CPL Constant power load. DBS DC bus signaling. DCL Digital communication link. DG Distributed generator. DPS Distributed power system. EET Extra element theorem. ESAC Energy storage analysis consortium. ESS Energy storage system. EV Electric vehicle. GM Gain margin.

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Josep M. Guerrero

Hierarchical Control of Droop-Controlled AC and DC Microgrids—A General Approach Toward Standardization

Advanced Control Architectures for Intelligent Microgrids—Part I: Decentralized and Hierarchical Control

Output Impedance Design of Parallel-Connected UPS Inverters With Wireless Load-Sharing Control

Distributed Secondary Control for Islanded Microgrids—A Novel Approach

DC Microgrids–Part I: A Review of Control Strategies and Stabilization Techniques

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