CN102013695A - Grid-connected topology structure without transformer based on H-bridge used for wind power generation - Google Patents

Abstract

The present invention relates to a grid-connected topology structure based on H-bridge used for wind power generation without the transformer, which comprises wind generation set, rectification module and inversion module. The wind generating set generates low-voltage alternating current; obtaining the direct voltage through three-phase full-bridge rectification, wherein, said direct-current side voltage is used as direct voltage power supply of each unit in the inversion module; after converting the direct voltage to alternating voltage by the inversion module, directly connected in series with multiple power units and output through alternating current high voltage, then integrated to the power grid through buffer inductance. The grid-connected technology of aerogenerator is used to perform wind power generation grid based on the H-bridge without the transformer. The present invention contributes to the dispensing of the step-up transformer required during the general wind power generation grid, and the great saving of costs. Moreover, as outputting the high voltage through the connection in series with multiple power units, it is possible to output multi-level voltage waveform through modulation algorithm so as to reduce the content of output harmonic wave and the pollution to the power grid produced by wind power generation.

Description

Based on the wind power-generating grid-connected topological structure of the transless of H bridge

Technical field

The present invention relates to the wind-driven generator interconnection technology, particularly a kind of transformerless wind power-generating grid-connected based on the H bridge.

Background technology

As the new forms of energy of energy-conserving and environment-protective, the wind-powered electricity generation industry wins historic opportunity to develop, raises up against the market in the adverse environment that financial crisis is wreaked havoc, and growth momentum is swift and violent, and by the end of the end of the year 2009, whole nation accumulative total wind-powered electricity generation installed capacity reaches 25800 megawatts.

But in China's wind power plant, wind-driven generator all is by universal frequency converter basically, makes phase place own identical with electrical network.Be incorporated into the power networks with step-up transformer and electrical network more at last.So not only cause each wind-driven generator all to need a step-up transformer, cost is huge, and makes each wind-driven generator have only 3 level, and harmonic content is very big, and many electric network pollutions are serious.

In large-scale wind power field, a lot of motors is arranged, all need independent control for each wind-driven generator, the control difficulty is big, control loaded down with trivial detailsly, be difficult for to form concentrates wind power generation to control.

What wind power generation was exported all is two level or three level, and harmonic content is big, can not directly be connected to the grid after boosting, and need add the output filter.

Summary of the invention

The purpose of this invention is to provide the wind power-generating grid-connected topological structure of a kind of transless based on the H bridge, by the method for units in series, the output high pressure; Save general step-up transformer when wind power-generating grid-connected, saved great amount of cost.In addition,, can export the voltage with multiple levels waveform, reduce output harmonic wave content, reduce the pollution of wind power generation electrical network by modulation algorithm owing to adopt multiple unit series connection power cell output high pressure.

For achieving the above object, the present invention is achieved through the following technical solutions:

Based on the wind power-generating grid-connected topological structure of the transless of H bridge, comprise wind turbine generator, rectification module, inversion module, wind turbine generator produces low-voltage AC, obtain direct voltage after the three phase full bridge rectification, this direct voltage is as the dc voltage power supply of each unit in the inversion module; Inversion module is directly connected through a plurality of power cells after direct voltage is converted to alternating voltage, and ac high-voltage output is connected to the grid behind buffer inductance.

Described inversion module is become by three-phase sets of power cells, is whenever formed by n power unit cascade, and one of three-phase converter module terminates at together, and the other end inserts electrical network by inductance.

Described power cell inversion side is the H bridge construction, forms by four IGBT switching devices, and diode of each IGBT switching device inverse parallel, after per two IGBT switching devices are in series, in parallel with dc capacitor C again; The rectification side is uncontrollable full bridge structure.

Compared with prior art, the invention has the beneficial effects as follows:

1) input transless, and then wind-electricity integration topology volume is reduced, take up an area of and reduce, weight saving, cost reduces; Simultaneously can reduce transformer energy consumption, manufacturing process is oversimplified, the production cycle reduces.

2) wind-driven generator is directly connected to power cell rectification side, and wind-driven generator is not had specific (special) requirements, reduces motor cost;

3) modulator approach adopts the method for phase-shifting carrier wave, can produce the multi-ladder sine wave, obtains output voltage waveforms preferably with less switching frequency;

4) can be connected into ac high-voltage to whole wind power plant, directly export from AC side;

5) high-power, application prospect is extensive in many motors;

6) help many typhoons of centralized control power generator.

Description of drawings

Fig. 1 is based on the wind power-generating grid-connected topology diagram of transless of H bridge;

Fig. 2 is based on the power cell structure figure of the wind power-generating grid-connected topology of transless of H bridge.

Fig. 3 is current direction figure in the H bridge power unit.

Embodiment

See Fig. 1, based on the wind power-generating grid-connected topological structure of the transless of H bridge, comprise wind turbine generator, rectification module, inversion module, wind turbine generator M produces low-voltage AC, obtain direct voltage after the three phase full bridge rectification, this direct voltage is as the dc voltage power supply of each unit in the inversion module; Inversion module is directly connected through a plurality of power cells after direct voltage is converted to alternating voltage, and ac high-voltage output is connected to the grid behind buffer inductance.

Inversion module is become by three-phase sets of power cells, is whenever formed by n power unit cascade, altogether 3n power cell.Each power cell is given the power cell capacitances to supply power by a wind-driven generator M by the three phase full bridge rectification.One of three-phase converter module terminates at together, and the other end passes through inductance L _A, L _B, L _CInsert electrical network.

See Fig. 2, power cell inversion side is H bridge construction, the uncontrollable full bridge structure of rectification side for being made up of diode D1, D2, D3, D4, D5, D6.The inversion side is made up of four switching device IGBT1, IGBT2, IGBT3, IGBT4 dc bus capacitor C, and switching device IGBT1 and IGBT2 are in series, and switching device IGBT3 and IGBT4 are in series, again with dc capacitor C parallel connection.And four switching device IGBT1, IGBT2, IGBT3, IGBT4 distinguish a reversal connection diode D11 in parallel, D22, D33, D44.Input, output that the common port of IGBT1 and IGBT2, IGBT3 and the common port of IGBT4 are connected with other power cell for this power cell.

This topological structure utilizes wind-powered electricity generation as energy relaying pond, gives power cell DC bus powered, in conjunction with certain modulator approach, produces the many level-variables sine wave that needs.Inversion module is mainly by three phase compositions, whenever formed by n power unit cascade.The number of series connection power cell is called unit progression, and one of three-phase converter module terminates to together, and the other end inserts electrical network by inductance.Owing to adopt many level outputs, the ac high-voltage of series connection power cell output contains harmonic wave still less, and is littler to electric network pollution, also do not need to adorn the LC filter.

The grid voltage of control IGBT makes its conducting or shutoff, can make the unit have different circuit states.

See Fig. 3-1, electric current flows to A through IGBT2, dc bus capacitor C, IGBT3 from B, or electric current flows to B through sustained diode 3, dc bus capacitor C, sustained diode 2 from A, adopts the power cell output level " 1 " of H bridge inverter main circuit this moment.

See Fig. 3-2, electric current flows to A through sustained diode 1, IGBT3 from B, or electric current flows to B through sustained diode 3, IGBT1 from A, adopts the power cell output level " 0 " of H bridge inverter main circuit this moment.

See Fig. 3-3, electric current flows to A through IGBT2, sustained diode 4 from B, or electric current flows to B through IGBT4, sustained diode 2 from A, adopts the power cell output level " 0 " of H bridge inverter main circuit this moment.

See Fig. 3-4, electric current flows to A through sustained diode 1, dc bus capacitor C, sustained diode 4 from B, or electric current flows to B through IGBT4, dc bus capacitor C, IGBT1 from A, adopts the power cell output level " 1 " of H bridge inverter main circuit this moment.

If power cell progression is selected suitably, power cell stack output voltage can reach the electrical network rank, will send voltage waveform with synchronized according to line voltage, and output harmonic wave meets the demands, and then can directly generate electricity by way of merging two or more grid systems.

Claims (3)

1. based on the wind power-generating grid-connected topological structure of the transless of H bridge, it is characterized in that, comprise wind turbine generator, rectification module, inversion module, wind turbine generator produces low-voltage AC, obtain direct voltage after the three phase full bridge rectification, this direct voltage is as the dc voltage power supply of each unit in the inversion module; Inversion module is directly connected through a plurality of power cells after direct voltage is converted to alternating voltage, and ac high-voltage output is connected to the grid behind buffer inductance.

2. the wind power-generating grid-connected topological structure of the transless based on the H bridge according to claim 1, it is characterized in that, described inversion module is become by three-phase sets of power cells, whenever, form by n power unit cascade, one of three-phase converter module terminates at together, and the other end inserts electrical network by inductance.

3. the wind power-generating grid-connected topological structure of the transless based on MMC according to claim 2, it is characterized in that, described power cell inversion side is the H bridge construction, form by four IGBT switching devices, diode of each IGBT switching device inverse parallel, after per two IGBT switching devices are in series, in parallel with dc capacitor C again; The rectification side is uncontrollable full bridge structure.

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