Dustin F. Howard scite author profile

A feedforward transient compensation (FFTC) control scheme with proportional-integral-resonant current regulators is proposed to enhance the low-voltage ride through (LVRT) capability of doubly fed induction generators (DFIGs) during both balanced and unbalanced grid faults. Compensation for the DFIG stator transient voltage is feedforward injected into both the inner current control loop and the outer power control loop. The FFTC current controller improves the transient rotor-current control capability and minimizes the DFIG control interruptions during both balanced and unbalanced grid faults. Without the need of sequence-component decomposition, the torque ripple is reduced by injecting 60- and 120-Hz rotor-current components during unbalanced stator voltage conditions. The proposed FFTC control introduces minimal additional complexity to a regular DFIG vector-control scheme and shows promising enhancements in the LVRT capability of DFIGs. Simulation and experimental results are presented to demonstrate the effectiveness of the proposed FFTC control scheme.

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Modeling of dish-Stirling solar thermal power generation

Howard

Harley

2010

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Short-Circuit Modeling of DFIGs With Uninterrupted Control

Howard

Liang²,

Harley

2014

IEEE J. Emerg. Sel. Topics Power Electron.

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Improved Sequence Network Model of Wind Turbine Generators for Short-Circuit Studies

Howard

Habetler

Harley

2012

IEEE Trans. Energy Convers.

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Effects of variable solar irradiance on the reactive power compensation for large solar farm

et al. 2010

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Dustin F. Howard

Feedforward Transient Compensation Control for DFIG Wind Turbines During Both Balanced and Unbalanced Grid Disturbances

Modeling of dish-Stirling solar thermal power generation

Short-Circuit Modeling of DFIGs With Uninterrupted Control

Improved Sequence Network Model of Wind Turbine Generators for Short-Circuit Studies

Effects of variable solar irradiance on the reactive power compensation for large solar farm

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