Conditions for stability of droop-controlled inverter-based microgrids

Schiffer, Johannes; Ortega, Roméo; Astolfi, Alessandro; Raisch, Jörg; Sezi, Tevfik

doi:10.1016/j.automatica.2014.08.009

Cited by 372 publications

(358 citation statements)

References 40 publications

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“…Observe that Assumption 4.3 couples the frequency bias and averaging gains in the controller (8). While this assumption removes a degree of freedom in tuning the controller (8), we feel that it is not particularly restrictive for the closedloop performance.…”

Section: B Stabilitymentioning

confidence: 99%

“…Hence, a synchronized motion as in Lemma 4.2 may not exist. Therefore, we make the following natural power-balance assumption, see [8].…”

Section: B Stabilitymentioning

confidence: 99%

“…This implies that-unlike most other work on stability analysis of power systems [10], [11] and recent articles on microgrid studies [7], [8]-we don't work with the Kron-reduced network model [5], [12], but instead resort to structure-preserving models [13]- [15]. Thereby, we follow the standard praxis to represent CPCLs and CPCSs by algebraic power balance equations [6].…”

mentioning

confidence: 99%

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On stability of a distributed averaging PI frequency and active power controlled differential-algebraic power system model

Schiffer

Dörfler

2016

2016 European Control Conference (ECC)

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Abstract-We consider the problems of stability, frequency restoration and optimal steady-state resource allocation in a heterogeneous and structure-preserving differential-algebraic equation (DAE) power system model. Thereby, we include constant-power-controlled loads (CPCLs) and constant-powercontrolled sources (CPCSs) explicitly in the analysis and network control design. This results in a power system model with mixed algebraic as well as first-and second-order differential dynamics. We show that the abovementioned control objectives can be achieved via a distributed averaging proportional integral (DAPI) control and, in particular, extend the stability proof in [1] to the resulting closed-loop DAE system.

show abstract

Section: B Stabilitymentioning

confidence: 99%

“…Hence, a synchronized motion as in Lemma 4.2 may not exist. Therefore, we make the following natural power-balance assumption, see [8].…”

Section: B Stabilitymentioning

confidence: 99%

mentioning

confidence: 99%

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On stability of a distributed averaging PI frequency and active power controlled differential-algebraic power system model

Schiffer

Dörfler

2016

2016 European Control Conference (ECC)

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“…The idea of the so-called "droop" controllers has been developed by Chandorkar et al [16]. From a control point of view, droop control is a decentralized proportional controller maintaining the voltage and frequency stability of the microgrids [17]. The main advantage of droop-based control is the elimination of the communication links among DG local controllers.…”

Section: Introductionmentioning

confidence: 99%

Fixed-order decentralized/distributed control of islanded inverter-interfaced microgrids

Sadabadi

Karimi

2015

Control Engineering Practice

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This paper focuses on the problem of voltage control of islanded inverterinterfaced microgrids consisting of several distributed generation (DG) units with parallel structure. The main objectives are to (i) design a decentralized/distributed voltage controller with minimum information exchange between DG units and their local controllers (ii) design a fixed-/low-order dynamic output feedback controller which ensures stability as well as desired performance of the microgrid system in spite of load parameter uncertainties. To this end, the problem is formulated as an optimization problem which is the minimization of the cardinality of a pattern matrix subject to an H ∞ performance constraint. Since the problem is intrinsically non-convex, a convex design procedure for the controller synthesis is proposed in this paper. The effectiveness of the proposed controller is evaluated through simulation studies and Hardware-In-the-Loop (HIL) verifications. The simulation and experimental results demonstrate that the effectiveness of the proposed control strategy.

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“…Several other control algorithms have been proposed to address different challenges associated the microgrids operation [27][28][29].…”

Section: Introductionmentioning

confidence: 99%

A control plan for the stable operation of microgrids during grid-connected and islanded modes

Mehrasa

Pouresmaeil

Jôrgensen

et al. 2015

Electric Power Systems Research

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Conditions for stability of droop-controlled inverter-based microgrids

Cited by 372 publications

References 40 publications

On stability of a distributed averaging PI frequency and active power controlled differential-algebraic power system model

On stability of a distributed averaging PI frequency and active power controlled differential-algebraic power system model

Fixed-order decentralized/distributed control of islanded inverter-interfaced microgrids

A control plan for the stable operation of microgrids during grid-connected and islanded modes

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