CN101051810A - Winding brushless double feed generator controller - Google Patents

Abstract

Being related to wind driven generator, the disclosed control device includes machine set centralized control apparatus (MSCCA), AC field system of exciter (FSE), device for assisting magnetism (DAM), equipment for measuring wind speed and direction, generator speed sensor, and braking controller for blower fan. MSCCA includes port for inputting signal measured from sensor. Input side of main loop of AC FSE is connected to the output end of the stator of generator, and main loop at the output side is connected to stator winding of the exciter. Being connected to the output end of the generator, the main loop of DAM is in use for receiving control command from MSCCA. Through switch of merging to power grid and step up transformer, the output end of generator is connected to power grid. The invention realizes variable speed operation of machine set under constant frequency, possessing features of easy adjusting wattless, and raising reliability etc.

Description

Winding brushless double feed generator controller

Technical field

The present invention relates to wind-driven generator, particularly the variable speed constant frequency winding brushless double feed generator controller.

Background technology

The known techniques double fed induction generators is as variable speed constant frequency type unit, in the hydroelectric station, hydroenergy storage station, particularly in Large-scale Wind Turbines, be used widely, because of its unit can variable speed constant frequency the characteristics of operation, the energy conversion efficiency of generating set is improved greatly.Because large-scale MW grade wind driven generator unit rotating speed is very low, generally at 15-35rpm, so low rotating speed will make the increase of motor number of pole-pairs, motor physical dimension and weight all increase greatly.Present way is by the step-up gear raising speed, though that gear box efficient can reach 97% failure rate is higher, this way can be selected the high speed double fed induction generators for use, is generally 4/6 utmost point motor, thereby alleviates the trouble on motor manufacturing and the cost.Along with the unit of the increase of marine wind electric field unit capacity such as 3-5MW unit even 10MW capacity in research and development.The reliability of this kind of unit; it mainly is the shutdown that causes by slip ring and gearbox fault; become outstanding problem, for the consideration to wind-powered electricity generation unit reliability, system's conversion efficiency and unit integrated cost, permanent magnet direct-drive type synchro wind generator group is just arisen at the historic moment.Chinese patent CN200410003089.3 discloses a kind of MW level and has directly driven the permanent-magnetic outer rotor synchro wind generator, and it adopts multipole outer-rotor structure.This generator comprises fixed axis, rotation axis, coil windings, permanent magnetic steel, iron core, stator and external rotor, wherein rotation axis by Bearing Installation on fixed axis, stator is installed on the fixed axis by stator support, external rotor is installed on the rotation axis by rotor field spider, can be provided with axial cooling ventilation duct between winding coil and stator support; Windward side between external rotor and stator is provided with protective cover.This unit removes loss system efficient, the frequent step-up gear of fault, do not transmit the slip-ring brush of big electric current, adopt the permanent magnetic material excitation, excitation loss reduces, generator sends the low frequency ac of frequency change, be incorporated into the power networks by the total power frequency converter, thus the variable speed constant frequency generator of realization wind-powered electricity generation unit.Permanent magnet direct-drive type synchro wind generator group is owing to its good reliability, and very high system effectiveness is though the unit expense is higher than many advantages such as the former its maintenance cost is low.This type exists the motor diameter size huge, installation and transportation inconvenience, and generator and full power convertor cost height, technological deficiencies such as idle adjusting are carried out in generator operation inconvenience.

Summary of the invention

Problem to be solved by this invention is, overcomes the above-mentioned defective that the technology of taking over exists, and a kind of winding brushless double feed generator controller is provided.

The object of the invention provides a kind of winding brushless double feed generator controller.

It is to take following technical scheme to realize that the present invention solves the winding brushless double feed generator controller technical problem:

According to a kind of winding brushless double feed generator controller provided by the invention, comprise the unit centralized control equipment, centralized control equipment connects signal transducer, be provided with the control signal output ends mouth, wherein, control device is provided with unit collection control device, exciter AC excitation device, generator magnetic assist device, wind speed and direction measuring device, generator speed transducer and blower fan brake monitor;

The unit centralized control equipment is provided with the signal input port of air velocity transducer measurement, the signal input port that wind transducer is measured, and is provided with the output signal port with the host computer telecommunication; The unit centralized control equipment is connected with the generator terminal voltage instrument transformer, to record generator terminal voltage numerical value, is connected with the generator output current transformer, to record generator output current numerical value; The unit centralized control equipment is connected with the exciting voltage instrument transformer, to record the exciter excitation voltage value, is connected with the exciting current instrument transformer, to record the exciter excitation current values; The unit centralized control equipment connects generator speed transducer and blower fan brake monitor;

Exciter AC excitation device major loop input side is encouraged switch and generator unit stator output by throwing and is incorporated into the power networks that switch is inboard to be connected, and the AC excitation device is accepted the control command of unit centralized control equipment, and its outlet side major loop is connected with the exciter stator winding;

Generator magnetic assist device major loop is connected with generator output end, and accepts the control command of unit centralized control equipment, and generator output end is connected with electrical network by the switch that is incorporated into the power networks, step-up transformer.

This case solves the winding brushless double feed generator controller technical problem and also can further realize according to following technical measures:

Aforesaid winding brushless double feed generator controller, wherein, the unit centralized control equipment connects the control Yawing mechanism, makes the rotation of wind wheel upwind.

Aforesaid winding brushless double feed generator controller, wherein, the unit centralized control equipment keeps moving, moving with the generator rated output power more than the rated wind speed with the optimal wind energy utilance below the wind wheel rated wind speed by the closed-loop control pulp distance varying mechanism; Pulp distance varying mechanism connects tachometric survey device, propeller pitch angle measuring appliance, becomes oar servomechanism, servomotor, variable pitch control device.

Aforesaid winding brushless double feed generator controller, wherein, the excitation unit major loop is made up of two groups of biphase rectification-inversion units; When generator moves below synchronous speed, excitation unit provides exciting current and the meritorious energy of part to exciter stator, when generator moves, when excitation unit provides exciting current to exciter stator, the meritorious energy feedback of part is arranged to electrical network more than synchronous speed; Excitation unit is write to each other by control loop realization and unit centralized control equipment.

Aforesaid winding brushless double feed generator controller, wherein, the unit centralized control equipment is provided with the electric machine temperature rise monitoring port, is provided with wind wheel brake signal output port.

Aforesaid winding brushless double feed generator controller, wherein, generator magnetic assist device is provided with capacitor, and it drops into quantity to capacitor by SCR control, and silicon controlled conducting control is finished by the unit centralized control equipment.

Aforesaid winding brushless double feed generator controller, wherein, generator magnetic assist device (22) and excitation unit (23) are installed in the cylindrical space.

The present invention compared with prior art has significant advantage and beneficial effect.By above technical scheme as can be known, the present invention has following advantage at least under the structural arrangements of excellence:

The present invention adopts the winding brushless double feed power generation control, has realized the variable speed constant frequency operation of unit in the large-scale wind generating field, and is with the unsteady flow excitation unit of about 1/3 generator rated capacity, conveniently adjusted idle.The present invention has reduced the control system cost, has improved fail safe, reliability and the operational efficiency of unit.The present invention contrasts prior art significant contribution and progress, is really to have novelty, creativeness, practical good technology.

The specific embodiment of the present invention is provided in detail by following examples and accompanying drawing thereof.

Description of drawings

Fig. 1 is an operation principle structural representation block diagram of the present invention;

Fig. 2 is a unit centralized control equipment hardware configuration schematic block diagram of the present invention;

Fig. 3 is the overall structure schematic diagram that the present invention controls winding type overlapped rotor brushless double feed generator.

Embodiment

Below in conjunction with accompanying drawing and preferred embodiment, to according to embodiment provided by the invention, structure, feature and effect thereof, describe in detail as after.

As Figure 1-3.

A kind of winding brushless double feed generator controller, comprise the unit centralized control equipment, centralized control equipment connects signal transducer, be provided with the control signal output ends mouth, wherein, control device is provided with unit collection control device 24, exciter AC excitation device 23, generator magnetic assist device 22, wind speed and direction measuring device, generator speed transducer and blower fan brake monitor;

Unit centralized control equipment 24 is provided with signal input port D1, the signal input port D2 that wind transducer is measured that air velocity transducer is measured, and is provided with the output signal port D3 with the host computer telecommunication; Unit centralized control equipment 24 is connected with generator terminal voltage instrument transformer T2, and to record generator terminal voltage numerical value, T3 is connected with the generator output current transformer, to record generator output current numerical value; Unit centralized control equipment 24 is connected with exciting voltage instrument transformer T5, and to record the exciter excitation voltage value, T4 is connected with the exciting current instrument transformer, to record the exciter excitation current values; Unit centralized control equipment 24 connects generator speed transducer and blower fan brake monitor;

Exciter AC excitation device 23 major loop input sides are encouraged K switch 2 and generator unit stator output by throwing and are incorporated into the power networks that switch is inboard to be connected, AC excitation device 23 is accepted the control command of unit centralized control equipment 24, and its outlet side major loop is connected with the exciter stator winding;

Generator magnetic assist device 22 major loops are connected with generator output end, and accept the control command of unit centralized control equipment 24, and generator output end is connected with electrical network by the K switch 1 that is incorporated into the power networks, step-up transformer T1.

The nestable rotor brushless double feed motor of winding-type WBDFG control device structure:

The WBDFG control device comprises unit centralized control equipment, exciter AC excitation device, generator magnetic assist device, yawer, change oar controller, wind speed and direction measuring device, generator speed transducer, blower fan brake monitor etc.

Unit centralized control equipment 24 is provided with control computer 24-3 in control unit 24-1, touch-screen 24-2, the upper far-end, automatic paralleling device 24-4, generating pusher side adaptation unit 24-5, exciter side adaptation unit 24-6, protection control unit 24-7.Control unit 24-1 is provided with wind speed, wind direction, rotating speed, electric machine temperature rise signal input port, signal output ports such as K switch 1, K switch 2, driftage control, the adjusting of change oar, the output of untying the mooring rope, wind wheel brake switch.

Unit centralized control equipment 24 is provided with the signal input port D1 that air velocity transducer is measured, the signal input port D2 that wind transducer is measured, be provided with the output signal port D3 with the host computer telecommunication, be provided with the electric machine temperature rise monitoring port, be provided with wind wheel brake signal output port.

Unit centralized control equipment 24 is connected with voltage transformer T2, and to record generator terminal voltage numerical value, T3 is connected with current transformer, to record generator output current numerical value.

Unit centralized control equipment 24 is connected with voltage transformer T5, and to record the exciter excitation voltage value, T4 is connected with current transformer, to record the exciter excitation current values.AC excitation device 23 major loop input sides are encouraged K switch 2 and generator unit stator output by throwing and are incorporated into the power networks that switch is inboard to be connected, AC excitation device 23 is accepted the control command of unit centralized control equipment 24, its outlet side major loop is connected with WBDFG exciter stator winding, and excitation unit 23 major loops are made up of two groups of two-way PWM rectification-inversion unit Q1, Q2.When WBDFG moves below synchronous speed, Q1PWM rectification, Q2PWM inversion, excitation unit 23 provides exciting current and the meritorious energy of part to exciter stator, when WBDFG moves more than synchronous speed, Q1PWM inversion, Q2PWM rectification, excitation unit 23 has the meritorious energy feedback of part to electrical network when exciter stator provides exciting current.Excitation unit 23 is write to each other by control loop realization and unit centralized control equipment 24.

Generator magnetic assist device 22 major loops are connected with generator output end, and accept the control command of unit centralized control equipment 24.Generator magnetic assist device 22 is made up of n+1 capacitor, and by its input quantity of SCR control, silicon controlled conducting control is finished by unit centralized control equipment 24, and generator output end is connected with electrical network by the K switch 1 that is incorporated into the power networks, step-up transformer 690/110000V TI.

Unit centralized control equipment 24 makes the rotation of wind wheel upwind by Yawing mechanism 25 control WBDFG, unit centralized control equipment 24 keeps moving, moving with the generator rated output power more than the rated wind speed with the optimal wind energy utilance below the wind wheel rated wind speed by closed-loop control pulp distance varying mechanism 29.Pulp distance varying mechanism 29 comprises that the G1 of tachometric survey mechanism, propeller pitch angle measuring mechanism G2, change oar servomechanism G3, servomotor M1, variable pitch control device G4 form.

Controlling winding type overlapped rotor brushless double feed generator with the present invention is example, is elaborated:

Winding type overlapped rotor brushless double feed generator, comprise generator main body, stator, rotor, fan blade 2, wheel hub 1, fan blade 2 is installed on the wheel hub 1, in the generator main body, the structure setting of rotor relative stator rotation, fan blade 2 drives wheel hub 1 and drives the rotor rotation, and intussusception rotator type generator and exciter are set in its main body, the coaxial installation of generator and exciter rotor, generator and exciter shaft are to the parallel-connection structure setting; Generator and exciter be independent magnetic circuit separately, and generator amature winding 15 numbers of pole-pairs are identical with generator unit stator winding 14 numbers of pole-pairs, and exciter rotor winding 16 numbers of pole-pairs are identical with exciter stator winding 7 numbers of pole-pairs.

Winding type overlapped rotor brushless double feed motor (WBDFG) structure:

WBDFG is by more than two utmost point winding rotor motor being composited P _PTo utmost point motor is generator, P _CTo utmost point motor is exciter, and its two motors number of pole-pairs relation satisfies: P _P〉=P _CThe independent separately iron circuit of generator and exciter is installed in the shell.Coaxial installation of two rotors and winding are that Wound-rotor type wave winding structure, lead are copper or aluminium material, rotor is that heterogeneous the best is a three-phase, rotor winding number of pole-pairs is with the stator winding number of pole-pairs is identical separately, and two rotor windings are star-like wiring, and two rotor winding terminal negative-phase sequences connect.

Winding type overlapped rotor brushless double feed generator intussusception rotor structure:

In order to utilize the axial length of the columnar structured inner space of motor, shortening WBDFG, adopt the intussusception rotor structure.As scheming: fan blade 2 is installed on the wheel hub 1, is provided with general pulp distance varying mechanism 29 in the wheel hub 1, and pulp distance varying mechanism 29 by changing the propeller pitch angle of blade 2, is realized the adjusting of wind speed round under the control of unit centralized control equipment 24.Wheel hub mounting panel 3 is in order to be connected wheel hub 1 with motor output shaft 6.

Intussusception rotator type WBDFG is made up of to parallel-connection structure exciter and generator shaft.The exciter of double as generating by exciter stator iron core 9, be contained in exciter stator winding 7, the exciter rotor iron core 8 in this iron core slot, the exciter rotor winding 16 that is contained in this iron core slot is formed, exciter rotor rotates around exciter stator in the exciter stator outside, be provided with exciter air gap 12 between exciter stator iron core 9 and the exciter rotor iron core 8, exciter stator winding 7 links to each other with excitation unit 23, and exciter rotor winding 16 is connected with generator amature winding 15 negative-phase sequences by rotor winding connecting line 13.Generator by electricity generator stator core 11, be contained in generator unit stator winding 14, the generator rotor core 10 in this iron core slot, the generator amature winding 15 that is contained in this iron core slot is formed, generator amature is sideway swivel in generator unit stator, be provided with power generator air gap 17 between electricity generator stator core 11 and the generator rotor core 10, generator unit stator winding 14 is in parallel with generator magnetic assist device 22.

Exciter stator iron core 9 is installed in exciter stator shell 32 outsides, electricity generator stator core 11 is installed in motor housing 28 inboards, exciter stator shell 32 connects into an integral body with motor left side axle head supporting bracket 21, motor middle part supporting bracket 31 and exciter end supporting bracket 33, and is connected with motor housing 28 with cabin bonnet 20.

Exciter rotor iron core 8 and generator rotor core 10 are installed in the inside and outside both sides of same cylindrical shape motor output shaft 6, motor output shaft 6 is connected with motor right end cap 5 with motor left end cap 18 respectively, and because the right axle head supporting bracket of the motor of its connection 30 radial support, two end cap supports the rotation of two rotor coaxials by motor left bearing 19 and motor right bearing 4.

Motor housing 28 bottoms are connected with motor support plate 27, make motor inclination 5-10 degree, in case uppermost leaf sheet when work scratches with tower tube 26, install Yawing mechanism 25 between motor base place and the tower tube top.

Generator magnetic assist device 22 is loaded in the internal stator output shaft cylindrical space, with generator unit stator winding 14 and connect, excitation unit 23 is loaded in the internal stator output shaft cylindrical space, be connected with exciter stator winding 7, unit centralized control equipment 24 is loaded in the internal stator output shaft cylindrical space, is connected with associated components inside and outside the unit.

The generator driftage is untied the mooring rope control, generator safety protection control, the monitoring of generator work state information with existing wind-powered electricity generation unit.

Winding brushless double feed motor WBDFG electric control method is as follows:

The excitation system of WBDFG is combined by AC excitation device 23 and generator magnetic assist device 22, and under the control of unit centralized control equipment 24, the excitation of finishing generator is boosted, generated electricity by way of merging two or more grid systems and idle adjusting.

Excitation control: wind energy conversion system is below rated speed, drive the WBDFG rotation with certain speed, generator is in and electrical network parallel off state, exciter is prepared to throw and is encouraged, generator magnetic assist device 22 is under the adjusting of unit centralized control equipment 24, make generator set up voltage gradually, record generator output voltage by unit centralized control equipment 24 by T2, when the unloaded output voltage of generator reaches rated output voltage 30%-60%, unit centralized control equipment 24 makes the K2 closure, and exciter AC excitation device 23 is thrown and encouraged, and unit centralized control equipment 24 is regulated AC excitation device 23, make generator voltage reach specified output valve, make generator frequency reach the requirement of being incorporated into the power networks, prepare to be incorporated into the power networks.

The control of being incorporated into the power networks: unit centralized control equipment 24 passes through T2, T6 is to K1 both sides voltage, phase sequence, frequency reaches by the measurement of G to the wind energy conversion system rotating speed, under the generator output end condition consistent with the power network wiring phase sequence, amplitude and frequency that unit centralized control equipment 24 is regulated AC excitation device 23 voltages, tracking is to the data of grid side and wind energy conversion system tachometric survey, voltage magnitude when generator output end and grid side, after phase sequence and frequency reach the consistency of interconnection technology requirement, send signal by unit centralized control equipment 24 built-in synchronous devices, make generator connecting in parallel with system K switch 1 auto-closing, finish and be incorporated into the power networks.

The variable speed constant frequency Characteristics Control: GB regulation wind-driven generator output voltage frequency scope is at present: 47.5Hz-51Hz.No matter how generator speed to change, its stator voltage frequency satisfies the frequency range of this GB regulation and identical with mains frequency, and the wind-powered electricity generation unit has just been realized the variable speed constant frequency operation.Concrete control procedure is as follows:

Along with change of wind velocity, unit centralized control equipment 24 is regulated the propeller pitch angle of pneumatic equipment blades made 2 by control pulp distance varying mechanism 29 in the mode of knowing, can regulator generator mechanical separator speed ω _r AC excitation device 23 is f by the AC excitation power frequency of exciter stator winding 7 feed-ins _C, it is S that this frequency rotating magnetic field produces its frequency of induced current at exciter rotor winding 16 _Cf _C, the generator amature winding 15 of this rotor current by being connected with exciter rotor winding 16 negative-phase sequences, the excitation field of formation generator unit stator winding 14, the mechanical rotation speed of the relative generator amature of this excitation field is ${\mathrm{\ω}}_2=\frac{2\mathrm{\π}60S_C{f}_C}{P_P},$ The generator unit stator electric voltage frequency is mains frequency f ₁, the rotary speed in this frequency magnetic field is ${\mathrm{\ω}}_1=\frac{2\mathrm{\π}60f_1}{P_P}.$ During synchronous working, the angular speed of the mechanical angle speed of generator amature and the excitation field of relative its rotation rotation synchronously the two and or poor, the angular speed that rotates synchronously with stator field is synchronous all the time, the triadic relation represents with following formula.

ω ₁=ω _r± ω ₂Perhaps ${\mathrm{\ω}}_1=\frac{2\mathrm{\π}60f_1}{P_P}={\mathrm{\ω}}_r\±\frac{2\mathrm{\π}60S_C{f}_C}{P_P}$

In the formula: when generator speed is lower than the same leg speed of WBDFG, get "+" number

When generator speed is higher than the same leg speed of WBDFG, get "-" number

Thus with generator unit stator output voltage frequency f ₁Be target, regulating the wind energy conversion system rotating speed is generator speed ω _rWith exciter stator exciting current frequency f _CForm closed-loop control, just can realize the variable speed constant frequency Characteristics Control of WBDFG.

Meritorious control:

The rotating speed of WBDFG also can be expressed as:

General expression $N=\frac{60(50\±f_C)}{P_P+P_C}$ Synchronous speed $N_0=\frac{60\×50}{P_P+P_C}$ f _C＝0

N wherein: the wind energy conversion system rotating speed is generator speed f _C: exciter stator exciting current frequency

In this relational expression, as N＜N ₀The time, when AC excitation device 23 provides exciting current to exciter stator winding 7, the active power of feed-in slippage capacity also, its feed-in exciting current phase sequence turns to and the generator switched in opposite exciter rotor, and above-mentioned expression formula is got "-" number, as N＞N ₀The time, when AC excitation device 23 provided exciting current to exciter stator winding 7, also to the active power of electrical network feed-in slippage capacity, its feed-in exciting current phase sequence turned to exciter rotor to turn to identically with generator, and above-mentioned expression formula is got "+" number.In aforementioned variable speed constant frequency characteristic control method,, realize the meritorious control of unit stage by stage by different rule regulator generator rotating speeds.After WBDFG is incorporated into the power networks, when wind energy conversion system moves below being lower than rated wind speed, the propeller pitch angle that unit centralized control equipment 24 is regulated pneumatic equipment blades made 2 by control pulp distance varying mechanism 29 in the mode of knowing makes its rotating speed with the operation of power coefficient max model, and this stage is the wind energy utilization maximization stage.In this stage, when being lower than synchronous speed, generator speed promptly gets "-" number interval, the interval exciter of this rotating speed also needs to equal from the electrical network absorptive capacity active power of generator slip power when excitation is provided, this part active power is exported to generator unit stator winding 14 through exciter stator winding 7, exciter rotor winding 16, generator amature winding 15, this part active power does not have contribution and certain internal loss is arranged electrical network, and this interval WBDFG generator efficiency is minimum.When generator with synchronous speed work constantly, i.e. f _C=0 state, exciter have only the exciting power input, the independent active power of output of generator, and the WBDFG generator efficiency is higher this moment.When being higher than synchronous speed, generator speed promptly gets "+" number interval, when this interval exciter provides excitation, also has the active power identical from generator amature winding 15, exciter rotor winding 16, through exciter stator winding 7 feed-in electrical networks with the generator slip power, this interval generator, exciter bilateral are meritorious to the electrical network contribution simultaneously, be so-called double-fed generating, this interval WBDFG generator efficiency is very high.When wind energy conversion system during in the operation of specified and above wind speed, the propeller pitch angle that unit centralized control equipment 24 is regulated pneumatic equipment blades made 2 by control pulp distance varying mechanism 29 in the mode of knowing makes its rotating speed substantially constant, WBDFG is with the operation of rated power output mode, and this stage is permanent power output stage.Permanent power output stage WBDFG is the double-fed generating, generator most effective.

Voltage and idle control: WBDFG all can be incorporated into the power networks under different rotating speeds, it is preceding after frequency, phase sequence meet the demands to be incorporated into the power networks, generator magnetic assist device 22 is under the adjusting of unit centralized control equipment 24, make generator set up voltage gradually, record generator output voltage by unit centralized control equipment 24 by T2, when the unloaded output voltage of generator reaches rated output voltage 30%-60%, unit centralized control equipment 24 is by the size of adjusting excitation unit 23 AC excitation electric currents, thus the height of regulator generator output voltage.After the generator connecting in parallel with system operation, unit centralized control equipment 24 makes WBDFG satisfy the GB requirement to the power factor of electrical network feed, cos =± 0.975 by regulating excitation unit 23 and generator magnetic assist device 22.The present invention utilizes the additive excitation device combination of AC excitation device with the generating pusher side of exciter side, finishes the idle control of satisfying the GB requirement according to the wind energy turbine set service requirement under the adjusting of unit centralized control equipment.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, every foundation technical spirit of the present invention all still belongs in the scope of technical solution of the present invention any simple modification, equivalent variations and modification that above embodiment did.

Claims (7)

1. winding brushless double feed generator controller, comprise the unit centralized control equipment, centralized control equipment connects signal transducer, be provided with the control signal output ends mouth, it is characterized in that: control device is provided with unit centralized control equipment (24), exciter AC excitation device (23), generator magnetic assist device (22), generator speed transducer and blower fan brake monitor;

Unit centralized control equipment (24) is provided with the signal input port (D1) of air velocity transducer measurement, the signal input port (D2) that wind transducer is measured, and is provided with the output signal port (D3) with the host computer telecommunication; Unit centralized control equipment (24) is connected with generator terminal voltage instrument transformer (T2), and to record generator terminal voltage numerical value, (T3) is connected with the generator output current transformer, to record generator output current numerical value; Unit centralized control equipment (24) is connected with exciting voltage instrument transformer (T5), and to record the exciter excitation voltage value, (T4) is connected with the exciting current instrument transformer, to record the exciter excitation current values; Unit centralized control equipment (24) connects generator speed transducer and blower fan brake monitor;

Exciter AC excitation device (23) major loop input side is encouraged switch (K2) and generator unit stator output by throwing and is incorporated into the power networks that switch is inboard to be connected, AC excitation device (23) is accepted the control command of unit centralized control equipment (24), and its outlet side major loop is connected with the exciter stator winding;

Generator magnetic assist device (22) major loop is connected with generator output end, and accepts the control command of unit centralized control equipment (24), and generator output end is connected with electrical network by the switch that is incorporated into the power networks (K1), step-up transformer (T1).

2. winding brushless double feed generator controller as claimed in claim 1 is characterized in that: unit centralized control equipment (24) connects control Yawing mechanism (25), makes the rotation of wind wheel upwind.

3. winding brushless double feed generator controller as claimed in claim 1 or 2, it is characterized in that: unit centralized control equipment (24) keeps moving, moving with the generator rated output power more than the rated wind speed with the optimal wind energy utilance below the wind wheel rated wind speed by closed-loop control pulp distance varying mechanism (29); Pulp distance varying mechanism (29) connects tachometric survey device (G1), propeller pitch angle measuring appliance (G2), becomes oar servomechanism (G3), servomotor (M1), variable pitch control device (G4).

4. winding brushless double feed generator controller as claimed in claim 3 is characterized in that: excitation unit (23) major loop is made up of two groups of biphase rectification-inversion units; When generator moves below synchronous speed, excitation unit (23) provides exciting current and the meritorious energy of part to exciter stator, when generator moved more than synchronous speed, excitation unit (23) had the meritorious energy feedback of part to electrical network when exciter stator provides exciting current; Excitation unit (23) is write to each other by control loop realization and unit centralized control equipment (24).

5. winding brushless double feed generator controller as claimed in claim 4 is characterized in that: unit centralized control equipment (24) is provided with electric machine temperature rise monitoring port and wind wheel brake signal output port.

6. winding brushless double feed generator controller as claimed in claim 5, it is characterized in that: generator magnetic assist device (22) is provided with capacitor, it drops into quantity to capacitor by SCR control, and silicon controlled conducting control is finished by unit centralized control equipment (24).

7. winding brushless double feed generator controller as claimed in claim 6 is characterized in that: generator magnetic assist device (22) and excitation unit (23) are installed in the cylindrical space.

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