Doubly-fed wind power converter low-voltage traversing topological structure and control method thereof

A wind power converter and low voltage ride-through technology, which is applied in wind power generation, conversion of AC power input to AC power output, and conversion of AC power input to DC power output, etc. problem, to achieve the effect of increasing current carrying capacity, low cost of topology structure, and increasing current control capacity

A wind power converter and low voltage ride-through technology, which is applied in wind power generation, conversion of AC power input to AC power output, and conversion of AC power input to DC power output, etc. problem, to achieve the effect of increasing current carrying capacity, low cost of topology structure, and increasing current control capacity

CN102136737BInactive Publication Date: 2013-04-03HEFEI UNIV OF TECH
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  • Doubly-fed wind power converter low-voltage traversing topological structure and control method thereof
  • Doubly-fed wind power converter low-voltage traversing topological structure and control method thereof

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Embodiment Construction

[0021] see figure 1 , the topological structure of low voltage ride-through of doubly-fed wind power converter in this embodiment is to adopt the voltage composed of the rotor-side converter M, the intermediate DC link, and the grid-side converter N for stabilizing the voltage of the intermediate DC link Source back-to-back converter structure, a triangular structure is set in the converter M on the rotor side, each branch in the triangular structure is connected in series by a bidirectional thyristor SCR and a resistor, and the three vertices in the triangular structure are respectively connected to the rotor side The three AC output points of the converter M are connected.

[0022] In a specific implementation, the resistance value of the resistor in the delta structure is zero or not zero, and the delta structure also includes other circuit structures with equivalent electrical performance.

[0023] The control method for the low voltage ride-through topology of the doubly...

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Abstract

The invention discloses a doubly-fed wind power generator low-voltage traversing converter topological structure and a control method thereof. The low-voltage traversing converter topological structure mainly consists of a triangular structure consisting of bidirectional controllable silicon, and a voltage source type back-to-back converter, and is characterized in that: the triangular structure is formed by connecting three pieces of bidirectional controllable silicon and resistors sequentially; and the three peaks of the triangular structure are connected with three alternating-current output points of a doubly-fed motor rotor side converter respectively. Aiming at the capacity requirement on the rotor side converter during low-voltage traversing of the doubly-fed wind power generator, the invention adopts that: the triangular structure consisting of the bidirectional controllable silicon is arranged in the doubly-fed motor rotor side converter; two working modes, namely active bar crowing and cooperative control, are formed due to matched control of the controllable silicon in the triangular structure and a bridge-arm switch of the doubly-fed motor rotor side converter, so thatthe processing capability to the current of a doubly-fed motor rotor; therefore, the low-voltage traversing function of the doubly-fed wind power generator is realized better due to low-cost and high-reliability converter structural variation.

Description

technical field [0001] The invention belongs to the field of wind power generation, in particular to a doubly-fed wind power generator low-voltage ride-through converter topology and a control method thereof. technical background [0002] Doubly-fed wind turbines are the mainstream type of megawatt-scale variable-speed constant-frequency wind turbines. With the increase of wind power grid penetration, the low-voltage ride-through (LVRT) function of wind turbines is a must for current wind turbines. standby function. For example, the grid code for high and extra high voltage issued by E.ON Netz in Germany in 2006, and the enterprise standard of State Grid Corporation of China (Q / GDW392-2009) all proposed the LVRT function of wind turbines. specific requirements. Due to the special drive topology of the double-fed generator in the double-fed wind turbine, it is difficult for the back-to-back drive converter to meet the current capacity requirements of the LVRT, which also ma...

Claims

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Application Information

Patent Timeline
03 Apr 2013
Publication
CN102136737B
IPC
H02J3/38; H02M5/458; H02M7/155
CPC
Y02E10/763; Y02E10/76
Inventors
杨淑英; 张兴