2019
DOI: 10.3390/electronics8070777
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An LVRT Scheme for Grid Connected DFIG Based WECS Using State Feedback Linearization Control Technique

Abstract: This paper primarily focuses on an advance control strategy to enhance the low voltage ride through (LVRT) capability in doubly fed induction generator (DFIG) based wind energy conversion system (WCES). In the proposed control strategy, the captured wind energy during grid faults circumstances is stored timidly in the rotor’s inertia kinetic energy. Though a minimal amount of energy is available in the grid, stator current and DC-link voltage are set beneath the perilous levels. However, both the required stat… Show more

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Cited by 10 publications
(9 citation statements)
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“…There are other two feedforward control methods that improve the transient capability of DFIG-WTs by adding feedforward terms: (1) feedforward current reference control (FCRC) was proposed to achieve zero-error tracking for the rotor current references after grid faults. By introducing the additional rotor current feedforward to the current loop, the rotor current can be maintained in a balanced and sinusoidal manner [71]; (2) feed-forward transient current control (FFTCC) was proposed to reduce transient current stress on the RSC and ensure that the active and reactive power supply remains uninterrupted by adding the stator flux-related feedforward components to the current loop [72].…”
Section: Linear Rsc Control Methodsmentioning
confidence: 99%
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“…There are other two feedforward control methods that improve the transient capability of DFIG-WTs by adding feedforward terms: (1) feedforward current reference control (FCRC) was proposed to achieve zero-error tracking for the rotor current references after grid faults. By introducing the additional rotor current feedforward to the current loop, the rotor current can be maintained in a balanced and sinusoidal manner [71]; (2) feed-forward transient current control (FFTCC) was proposed to reduce transient current stress on the RSC and ensure that the active and reactive power supply remains uninterrupted by adding the stator flux-related feedforward components to the current loop [72].…”
Section: Linear Rsc Control Methodsmentioning
confidence: 99%
“…In recent years, renewable energy generation made great progress worldwide to meet the challenge of drastic climate changes and increasing energy demands [1]. Among various renewable energy sources, wind energy is the most rapidly growing one around the world [2,3]. In 2018, the 51.3 GW of new installations brought total cumulative installations of wind power up to 591 GW, and the Global Wind Energy Council (GWEC) expects that more than 55 GW of new capacity will be added each year until 2023.…”
Section: Introductionmentioning
confidence: 99%
“…Conventional proportional-integral (PI) controllers are the most commonly used in the control strategy of wind energy conversion system due to their simple implementation and deliver a good performance under normal conditions. However, under challenging operating conditions such as parameter variations, and the wind disturbance effect, the control strategies based on the PI controller do not give a satisfactory performance in terms of accuracy [8].…”
Section: Modeling Of Dfigmentioning
confidence: 99%
“…A comprehensive review on the power transmission technology involved in offshore wind farms was carried out in [5], where the capabilities of WTGs to realize LVRT and support the system frequency through the active power control were introduced in detail. The LVRT capability is a major concern in the fault scenarios of wind power systems [6,7]. To assist the LVRT of the DFIG, both software control schemes and hardware protection schemes have been developed [8].…”
Section: Introductionmentioning
confidence: 99%