Journal ArticleDOI
A wireless controller to enhance dynamic performance of parallel inverters in distributed generation systems
TLDR
In this paper, a novel control strategy for parallel inverters of distributed generation units in an AC distribution system is presented, based on the droop control method, using only locally measurable feedback signals.Abstract:
This paper presents a novel control strategy for parallel inverters of distributed generation units in an AC distribution system. The proposed control technique, based on the droop control method, uses only locally measurable feedback signals. This method is usually applied to achieve good active and reactive power sharing when communication between the inverters is difficult due to its physical location. However, the conventional voltage and frequency droop methods of achieving load sharing have a slow and oscillating transient response. Moreover, there is no possibility to modify the transient response without the loss of power sharing precision or output-voltage and frequency accuracy. In this work, a great improvement in transient response is achieved by introducing power derivative-integral terms into a conventional droop scheme. Hence, better controllability of the system is obtained and, consequently, correct transient performance can be achieved. In addition, an instantaneous current control loop is also included in the novel controller to ensure correct sharing of harmonic components when supplying nonlinear loads. Simulation and experimental results are presented to prove the validity of this approach, which shows excellent performance as opposed to the conventional one.read more
Citations
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Power Quality Improvement Features For A Distributed Generation System Using Grid Interface Inverter
TL;DR: In this paper, the authors present a control strategy for achieving maximum benefits from grid-interfacing inverters when installed in 3-phase 4-wire distribution systems, which is controlled to perform as a multi-function device by incorporating active power filter functionality.
Proceedings ArticleDOI
Selective frequency synchronization technique for a fast seamless mode transition in droop control
TL;DR: The proposed scheme analyzes the phase difference between the grid and the inverter for fast frequency synchronization and predicts the synchronization time for frequency increase and decrease and selects and controls the direction of high-speed synchronization using the predicted value.
Posted Content
Recovery of Power Flow to Critical Infrastructures using Mode-dependent Droop-based Inverters.
TL;DR: In this paper, the authors proposed a power transition and recovery strategy by proposing a mode-dependent droop control-based inverters, which achieves the following objectives: 1) regulate the output active and reactive power by the droop-based in-vivo inverters to a desired value while operating in on-grid mode; 2) seamless transition and recover of power flow injections into the critical loads in the network by inverters operating in offgrid mode after the main grid fails; 3) require minimal information of grid/network status and conditions for the mode transition of droop
Voltage recovery and fault decline shared method for power grid
TL;DR: In this article, the authors proposed a reactive power discussing method for the micro grid, which injects small disturbance signals that contain reactive power information in to the frequency reference of every DG unit.
References
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Journal ArticleDOI
Control of parallel connected inverters in stand-alone AC supply systems
TL;DR: In this article, a control scheme for parallel-connected inverters in a standalone AC supply system is presented, which uses feedback of only those variables that can be measured locally at the inverter and does not need communication of control signals between the inverters.
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Power Systems Analysis
TL;DR: In this article, the authors present a model of a single machine-infinite bus (SIB) with three-phase transformer connections for the purpose of detecting faults in a generator.
Journal ArticleDOI
Parallel operation of voltage source inverters
T. Kawabata,S. Higashino +1 more
TL;DR: In this paper, the authors discuss the problem of parallel operating systems of voltage source inverters with other inverters or with the utility source and propose several methods for protection against failure.
Journal ArticleDOI
Sharing of nonlinear load in parallel connected three-phase converters
TL;DR: In this article, a new control method is presented which enables equal sharing of linear and nonlinear loads in three-phase power converters connected in parallel, without communication between the converters.
Proceedings ArticleDOI
Parallel operation of single phase inverter modules with no control interconnections
TL;DR: In this article, the authors developed a control technique for operating two or more single phase inverter modules in parallel with no auxiliary interconnections, using frequency, fundamental voltage, and harmonic voltage droop to allow independent inverters to share the load in proportion to their capacities.