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Generator control method based on power factor correction rectification algorithm in microgrid construction

A power factor correction and control method technology, applied in motor generator control, electronic commutation motor control, control generator and other directions, can solve the problem of increasing system hardware cost and maintenance cost, increasing motor space size and volume, and pit interference. Ability to deteriorate and other problems, to achieve the effect of increasing hardware cost and maintenance cost, increasing space size and volume, and strong fault-tolerant operation ability

Inactive Publication Date: 2016-05-04
SOUTHEAST UNIV
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Problems solved by technology

However, the existence of mechanical sensors has brought many disadvantages: 1) The number of connection elements between the motor and the controller increases, the pit interference ability becomes worse, and the system reliability is reduced; 2) The space size and volume of the motor are increased, reducing the Increase the power density, increase the hardware cost and maintenance cost of the system; 3) In high temperature and strong corrosion environment, the performance of the sensor will deteriorate or even fail, resulting in the failure of the motor drive system to work normally
The above points are the main reasons for the unstable operation of the wind power generation system.

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  • Generator control method based on power factor correction rectification algorithm in microgrid construction
  • Generator control method based on power factor correction rectification algorithm in microgrid construction
  • Generator control method based on power factor correction rectification algorithm in microgrid construction

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Embodiment Construction

[0026] The present invention will be further described below in conjunction with the accompanying drawings.

[0027] A permanent magnet wind turbine control method based on a power factor correction rectification algorithm in the construction of a microgrid. The PFC method is used to control the three-phase PMSG. The PFC method uses the three-phase PMSG armature inductance and leakage inductance as the energy storage inductance to actively control the The current waveform of the wind turbine is actively controlled. While stabilizing the DC motor, the current of the PMSG stator winding is sinusoidal and in phase with the induced electromotive force, thereby improving the operating condition of the motor; at the same time, the PFC control method requires the use of stator The phase of the electromotive force induced by the winding is the position information of the PMSG rotor. Before the PMSG is started, the initial position of the PMSG rotor is detected by the di / dt detection me...

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Abstract

The invention discloses a permanent magnetic wind electric generator control method based on a power factor correction and rectification algorithm in micro grid construction. A three-phase PMSG is controlled through a PFC method, and in order to meet the requirement for rotor position information needed in the control, an original position di / dt detection method, a rotation high-frequency voltage injection method and a double-salient-pole decoupling observer are combined. The three-phase PMSG is controlled through the PFC method, the original position di / dt detection method, the rotation high-frequency voltage injection method and the double-salient-pole decoupling observer are combined to accurately and effectively provide accurate and reliable rotor position information to current control of the PMSG, so that current harmonic content is reduced, power factors in the PMSG approach 1, direct-current output is maintained, and good control of the PMSG based on the PFC method is achieved.

Description

technical field [0001] The invention relates to a permanent magnet wind generator control method based on a power factor correction rectification algorithm in the construction of a microgrid. The PFC (PowerFactorCorrection, power factor correction) method is used to control the PMSG, and at the same time, in order to meet the rotor position information required in the control , combining the initial position di / dt detection method, rotating high-frequency voltage injection method and double-saliency decoupling observer. Background technique [0002] At present, in various structures of wind power generation systems, the scheme of permanent magnet synchronous generator (PMSG) has the advantages of high efficiency, no need for excitation circuit, etc., and plays an important role. Especially in small wind power generation systems, PMSG has been more applied due to these advantages. The wind power generation system using PMSG needs to use a full-power power electronic converte...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02P21/13
Inventor 余海涛孟高军胡敏强黄磊
Owner SOUTHEAST UNIV
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