• The Transactions of the Korean Institute of Power Electronics
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• v.16 no.1
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• pp.11-19
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• 2011

This paper describe development of a hardware simulator for the DFIG wind power system, which was designed considering wind characteristic, blade characteristic, and blade inertia compensation. The simulator consists of three major parts, such as wind turbine model using induction motor, doubly-fed induction generator, converter-inverter set. and control system. The turbine simulator generates torque and speed signals for a specific wind turbine with respect to the given wind speed which is detected by Anemometer. This torque and speed signals are scaled down to fit the input of 3.5kW DFIG. The MSC operates to track the maximum power point, and the GSC controls the active and reactive power supplied to the grid. The operational feasibility was verified through computer simulations with PSCAD/EMTDC. And the implementation feasibility was confirmed through experimental works with a hardware set-up.

• Proceedings of the KIEE Conference
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• 2000.07b
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• pp.693-695
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• 2000

Wide operating range and speed control is needed for wind power generating and a Doubly Fed Induction Generator(DFIG) has good adaptivity for that purpose. This paper deals with power and power factor control using the Grid connected DFIG in the wide speed regions, by controlling frequency and voltage fed to the rotor. Power flow of the DFIG and steady-state algebraic equations of the equivalent circuit are analyzed. For a normal operating region, in which the generator ratings were not exceeded, the rotor current was either less than or equal to the rated value. Accordingly, the optimal power factor can be selected relative to the permissible rated current at the rotor coil which controls the magnitude of the injected rotor voltage to the rotor according to a given rotor frequency.

• Proceedings of the KIEE Conference
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• 2002.07b
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• pp.613-615
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• 2002

This paper deals with power factor of doubly fed induction generator for wind power generation in range of sub- and super-synchronous speed. To supply active and reactive power to grid. stator is connected to grid directly and rotor is connected to back-to-back PWM inverter for excitation. According to excitation level. DFIG could operate at the different mode. i.e., unity, leading, and lagging power factor.

• Proceedings of the KIEE Conference
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• 2008.04c
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• pp.205-207
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• 2008

본 논문에서는 권선형 유도기를 사용한 이중여자 유도형 풍력발전기용 제어기를 개발하였다. 제어기는 발전기의 회전속도와 발전량, 기리고 계통 전압 등의 조건에 따라서 발전기를 자동으로 제어한다. 발전이 가능한 조건에서는 발전기의 유효전력은 최적값이 되도록 제어된다. 또한, 풍력발전 시스템의 무효전력은 계통 운영자의 요구, 계통 전압, 그리고 발전량 등을 고려하여 무효전력 제어 모드를 스스로 결정하도록 하였다.

• Proceedings of the KIEE Conference
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• 1991.07a
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• pp.55-59
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• 1991

This paper deals with the control stratege for the constant voltage, constant frequency(CVCF) generation of doubly-fed induction generator. As an induction machine is a nonlinear and multivariable machine, so, the control system is needed a very sophiticated control processes to meet a CVCF condition. In this paper, control system is constructed and tested using the suggested exitation equation. The test results show that the suggested equation and control system are very useful strategy for the CVCF control of induction generator.

• Proceedings of the KIEE Conference
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• 2011.07a
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• pp.704-705
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• 2011

At present, the widely used wind power generators in the whole world are fixed speed induction generator (FSIG) and doubly fed induction generator (DFIG). The models of FSIG and DFIG wind power generation system connected with the grid are built, and their steady-state and transient characteristics are studied. A new coordinated control strategy using both the grid and rotor side converters of DFIG for voltage regultation and reactive power support is put forword to improve the steady-state and transient performance of the FSIG in the case of DFIG in parallel with FSIG.

• The Transactions of the Korean Institute of Power Electronics
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• v.5 no.1
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• pp.72-78
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• 2000

본 논문에서는 이중여자 유도기를 풍력발전에 적용할 때 회전자위치 센서를 사용하지 않고 발전 출력제어 방법을 제안하였다. 모델기를 풍력발전에 적용하여 운전할 때 고정자는 계통선에 연결되어 있기 때문에 고정자 자속은 일정 값을 가지며 고정자 자속의 동기 각\ulcorner고는 일정한 상수값을 가진다. 또한 회전자 전류 및 고정자 전압과 전류를 이용하여 슬립각을 추정함으로써 속도를 추정할 수 있고 뿐만 아니라 회전자 전류제어에 의해 고정자측의 발전전력을 제어할 수가 있다. 이른 토대로 속도제어 및 발전출력에 대한 결과를 나타내므로써 제안한 알로리즘의 타당성을 입증하였다.

• Proceedings of the KIPE Conference
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• 2009.11a
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• pp.200-202
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• 2009

본 논문은 계통전압 불평형시 이중여자 유도형 풍력발전기 (Doubly Fed Induction Generator-DFIG)의 토크 리플 저감과 dc-link 전압의 맥동을 제거하는 기법을 제안한다. 계통전압 불평형 시 DFIG의 동적 모델링을 통해 토크 맥동 성분과 dc-link 전압 리플 성분을 수식화 한다. 유도된 수식을 기반으로 회전자 측 컨버터는 정상분과 역상분을 독립적으로 제어하는 듀얼 전류 제어기를 통해 토크 리플을 저감하며, 계통 측컨버터는 전력이론을 통해 계산된 보상 전류 지령치를 통해 cd-link 전압 맥동을 제거한다. 3kW급 풍력 발전 시스템에 제안하는 기법을 적용한 시뮬레이션 결과를 통해 타당성을 입증한다.

• Proceedings of the KIPE Conference
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• 2011.07a
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• pp.83-84
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• 2011

This paper presents an analysis and a novel strategy for a doubly fed induction generator (DFIG) based wind energy conversion system under unbalanced grid voltage and non-linear load conditions. A proportional-resonant (PR) current controller is applied in both grid side converter (GSC) and rotor side converter (RSC). The RSC is controlled to mitigate the stator active power and the rotor current oscillations at double supply frequency under unbalanced grid voltage while the GSC is controlled to mitigate ripples in the dc-link voltage and compensate harmonic components of the network current. Simulation results using Psim simulation program are presented for a 2 MW DFIG to confirm the effectiveness of the proposed control strategy.

• Proceedings of the KIEE Conference
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• 2009.07a
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• pp.1122_1123
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• 2009

Doubly Fed Induction Generator (DFIG) used in variable speed constant frequency wind energy generation system can capture wind energy with the highest efficiency by using the stator flux oriented vector control method. This paper sets up a DFIG modeling of wind generation system in PSCAD/EMTDC to simulate the operational performance with wind speed variation. In order to achieve the characteristics of the maximum utilization of wind power, this paper uses the vector control technology to track largest wind power and the independent control of generator active and reactive power.