CN100547876C - The direct drive permanent magnetic synchro wind generator is incorporated into the power networks and power regulating system and method thereof - Google Patents

Abstract

The invention discloses a kind of direct drive permanent magnetic synchro wind generator is incorporated into the power networks and power regulating method, may further comprise the steps: (1) measuring wind speed instrument measuring wind, and wind velocity signal is sent to microprocessor, microprocessor is realized maximal wind-energy capture to the control of three-phase full-bridge inverter power output and electric network voltage phase merit angle δ, and wherein merit angle δ is inverter output voltage u ₁Net is surveyed voltage u _sAngle; (2) magneto alternator generating under wind wheel drives, electric current carries out current conversion by rectified three-phase circuit, and then enters three-phase full-bridge inverter as DC bus-bar voltage behind the wave circuit after filtration; (3) DC bus-bar voltage is through three-phase full-bridge inverter, and wave reactor and step-up transformer are incorporated into the power networks after filtration under microprocessor control.The present invention can realize better that wind energy follows the tracks of, and stability is high, and the reliability height, is convenient to safeguard and is improved control effects such as performance miniaturization, thereby makes advantages such as whole system control is simple, with low cost.

Description

The direct drive permanent magnetic synchro wind generator is incorporated into the power networks and power regulating system and method thereof

Technical field

The present invention relates to generator control field, be specifically related to the direct drive permanent magnetic synchro wind generator and be incorporated into the power networks and power regulating system and method thereof.

Background technology

Along with the sustainable growth of global energy depletion rate, the conventional energy resource resource is exhausted day by day.Characteristics such as wind power generation is pollution-free with it, and short construction period is invested flexibly, takes up an area of and lacks, and cost is low more and more are subjected to the attention of countries in the world.Compare with traditional wind turbine generator topological structure, direct drive permanent magnetic synchro wind generator group is because of need not gearbox and transmission device etc., have the shortening drive chain, reduce mechanical stress, reduce machinery noise, improve advantages such as the output quality of power supply, increase energy capture.Along with the introducing of development, permanent magnetic material and the modern control technology of power electronic technology and motor technology, the direct drive permanent magnetic wind turbine generator is the trend of wind power generation development, describes that abroad it is a revolution of wind power generation.The development of wind generating technology is mainly reflected in the raising on the interconnection technology of grid type wind turbine generator and the control technology that maximal wind-energy capture is power adjustments.Both at home and abroad be incorporated into the power networks control and maximal wind-energy capture of the interchange of direct drive permanent magnetic synchro wind generator group carried out certain research.

Wind turbine system is the complication system of a nonlinear instability, system has uncertainty, traditional speed Control pattern need at first be set up an efficient system model, and because the complexity of aerodynamic uncertainty and power electronics model, determining of system model is not that part is easy to thing.May influence the error source and uncertain factor of wind turbine generator performance from listed those, the researcher finds, because the variation of Reynolds number can cause on power 5% error, and because the deposit on the blade can cause 20% variable power with raining, other also will cause variation in various degree such as atmospheric conditions and factor such as aging in the conversion process of energy of unit.Therefore all controls based on some effective system model also only are suitable for certain specific system and certain work period.

In sum, traditional wind generator system exists following defective or deficiency:

1, the method for the control generator Mathematical Modeling of traditional complexity or realize the method that wind energy is followed the tracks of by the intermediate dc conversion or by power disturbance too relies on Mathematical Modeling, can not effectively realize the tracking of maximal wind-energy and catches.

2, existing wind generator system, a part do not adopt the device or adopt self-synchronizing device paracycle that is incorporated into the power networks, and are being incorporated into the power networks moment, cause generator and power electronic equipment rush of current, voltage stress very big; Even other adopt device paracycle that is incorporated into the power networks, separate with Power Conditioning Unit because of being incorporated into the power networks, the hardware configuration complexity, the cost costliness increases the complete machine cost.

3, the most of asynchronous generator that adopts of existing wind generator system directly inserts electrical network, and power generating quality is not high, and harmonic pollution is serious.

4, existing wind generator system or control algolithm are loaded down with trivial details or robustness is not strong, lack direct drive permanent magnetic synchro wind generator group exchanged to be incorporated into the power networks and the simple and reliable Journal of Sex Research of power adjustments control system.

5, the wind generator system major part of transmission has increased transmission, drive chain and machinery, frictional dissipation because of adopting gearbox, causes energy waste.

Summary of the invention

The objective of the invention is to overcome the shortcoming of prior art, provide the direct drive permanent magnetic synchro wind generator to be incorporated into the power networks and power regulating system and method thereof, the present invention is incorporated into the power networks and Power Conditioning Unit unites two into one, and can realize that the wind energy maximum is caught, control method is simple, system configuration is simple, good stability, with low cost and be easy to realize.

Purpose of the present invention is achieved through the following technical solutions: a kind of direct drive permanent magnetic synchro wind generator is incorporated into the power networks and power regulating method, may further comprise the steps:

(1) measuring wind speed instrument measuring wind, and wind velocity signal is sent to microprocessor, microprocessor is controlled to realize maximal wind-energy capture three-phase full-bridge inverter power output and electric network voltage phase merit angle δ, and wherein said merit angle δ is three-phase full-bridge inverter output voltage u ₁Survey voltage u with net _sAngle;

(2) permanent magnet synchronous wind generator generating under wind wheel drives, electric current carries out current conversion by rectified three-phase circuit, and then enters three-phase full-bridge inverter as DC bus-bar voltage behind the wave circuit after filtration;

(3) DC bus-bar voltage is through three-phase full-bridge inverter, and wave reactor and step-up transformer are incorporated into the power networks after filtration under microprocessor control.

Being incorporated into the power networks and power regulating method of described a kind of direct drive permanent magnetic synchro wind generator, in the described step (3) under microprocessor control after filtration wave reactor and step-up transformer to be incorporated into the power networks be by microprocessor electrical network to be carried out AC sampling, then as modulating wave control three-phase full-bridge inverter output voltage, when inverter output voltage is followed the tracks of grid voltage change, close a floodgate and be incorporated into the power networks.

A kind of direct drive permanent magnetic synchro wind generator of realizing said method is incorporated into the power networks and the power adjustments control system, comprise microprocessor, described microprocessor is connected with permanent magnet synchronous wind generator, rectified three-phase circuit, filter circuit, three-phase full-bridge inverter and step-up transformer simultaneously.

Described microprocessor is a dsp controller.

The present invention compared with prior art has following advantage and beneficial effect:

1, the present invention controls by the phase place merit angle of inverter output voltage and line voltage, thereby net side power output is directly controlled, and need not to control generator, can realize the maximal wind-energy tracking preferably;

2, the present invention can realize that variable speed constant frequency, maximal wind-energy are followed the tracks of, nothing is impacted the control of being incorporated into the power networks, and the grid-connected current harmonic content is very low, is a kind of simple possible and the control method with practical value;

3, the present invention adopts the control chip DSP2407 that carries built-in AD modular converter, its Highgrade integration, digitlization and calculation function at a high speed, when doing the direct control of numeral of whole system, can obtain high stability, high reliability with it, miniaturization, be convenient to safeguard and improve control effects such as performance, thereby make whole system control simple, good stability, characteristics such as with low cost;

4, direct drive permanent magnetic synchro wind generator provided by the invention is more simple and reliable than traditional wind-driven generator, is a kind of wind power generation of grid type preferably mode.The friendship orthogonal structure that uncontrollable rectification adds controlled inversion is the comparatively ideal parallel network circuit of direct-drive aerogenerator.

Description of drawings

Fig. 1 is be incorporated into the power networks structural representation with power regulating system of direct drive permanent magnetic synchro wind generator of the present invention;

Fig. 2 is a grid type direct drive permanent magnetic synchro wind generator group flow of power schematic diagram of the present invention.

Embodiment

The present invention is described in further detail below in conjunction with embodiment and accompanying drawing, but embodiments of the present invention are not limited thereto.

Embodiment

As shown in Figure 1, a kind of direct drive permanent magnetic synchro wind generator is incorporated into the power networks and the power adjustments control system, comprise microprocessor, the input of described microprocessor is connected with the output of magneto alternator by generator output voltage instrument transformer and operational amplifier thereof; The input of described microprocessor is connected with the output of filter circuit by voltage transformer and operational amplifier thereof; The output of described microprocessor is connected with the input of three-phase full-bridge inverter voltage transformer by the IGBT driver module, and the input of described microprocessor is connected with the output of three-phase full-bridge inverter voltage transformer by contravarianter voltage instrument transformer and operational amplifier thereof; The input of described microprocessor is connected with the output of electrical network by genlock control circuit, shaping circuit successively, and the input of described microprocessor also is connected with the output of electrical network by voltage transformer and operational amplifier, current transformer and operational amplifier thereof.Described wind wheel is connected with magneto alternator, and described magneto alternator is connected with step-up transformer by rectified three-phase circuit, filter circuit, three-phase full-bridge inverter successively.Described microprocessor also is connected with clock circuit and power circuit simultaneously.

Microprocessor of the present invention is the TMS320F2407 type dsp controller of TI company, comprises 4 timers/comparator T1, T2, T3 and T4 in the TMS320F2407 type dsp controller sheet of TI company.Wherein, T1, T3 respectively can be as the time base of general comparator 1/2/3 and 4/5/6, and T2 can be used as system clock, and T4 can be used as analog-to-digital clock.Described IGBT driver module is EXB841.

The power characteristic of analyzing wind energy conversion system as can be known, under certain wind speed, the wind energy conversion system power curve has a maximum power point, the maximum power point of different wind speed is linked up be the optimal power curve.The optimal power curve is only relevant with rotating speed:

$P_{\mathrm{opt}}=\frac{1}{2}{C}_{P\max }{\mathrm{A\ρ\υ}}^3---\left(1\right),$

$T=\frac{P_m}{{\mathrm{\ω}}_m}=\frac{1}{2}{C}_P\mathrm{A\ρ}\frac{R}{\mathrm{\λ}}{\mathrm{\υ}}^2---\left(2\right),$

In the formula: P _OptBe the wind wheel peak power output; C _PmaxUsage factor for wind wheel; A=π R ²Be swept area of rotor; ρ is an atmospheric density; υ is a wind speed; R is the wind wheel radius, $\mathrm{\λ}=\frac{{\mathrm{\ω}}_{m}R}{\mathrm{\υ}}$ Be tip speed ratio, ω _mBe wind wheel machinery angular speed, α is the blower fan pitch angle, and T is a machine torque.By formula (1) and formula (2) as can be known, the requirement that maximal wind-energy is followed the tracks of be exactly wind speed when changing rotating-speed tracking change, keep operating on the optimal power curve.

As shown in Figure 1, adopt uncontrollable rectification and controlled inversion as the direct drive permanent magnetic synchro wind generator, controlled inversion part is not only finished the DC/AC invert function in the block diagram, also realizes the grid-connecting apparatus function.For the moment generator of guaranteeing to be incorporated into the power networks consistent with voltage, frequency on the electrical network, gather parameters such as line voltage, frequency, phase place by microprocessor, then as modulating wave control inverter output voltage, when inverter output voltage is followed the tracks of grid voltage change, at any time, can close a floodgate and be incorporated into the power networks.This kind and net mode, the moment of being incorporated into the power networks can not produce impulse current, can not cause the decline of line voltage, can not cause damage to generator unit stator winding and other mechanical part yet.

Electrical network AC sampling of the present invention adopts the algorithm based on the SIN function model, and its core concept is: suppose that electric current, voltage are desirable sine wave, utilization differ for 2 of the pi/2 angle each other the characteristics of sine and cosine constitute two dot-product algorithms.When cause was located electrical network away from pollutant sources when being incorporated into the power networks, infinitely great electrical network and ideal sine wave were very approaching, so suppose that electric current, voltage are that desirable sine wave is feasible, were example with the electric current, can represent: $i\left(t\right)=\sqrt{2}I\sin (\mathrm{\ωt}+{\mathrm{\α}}_I),$ I is an effective value in the formula, and ω is an angular frequency, α _IBe initial phase angle, establish each cycle sampling N point, n is sampling instant, and then following formula is discrete turns to:

$i\left(n\right)=\sqrt{2}I\sin (n\×\frac{2\mathrm{\π}}{N}+{\mathrm{\α}}_I);$

Be provided with two sampling instant n of the pi/2 of being separated by (i.e. 1/4 cycle) ₁And n ₂, satisfy relational expression: $n_1-n_2=\frac{N}{4},$ Use i ₁And i ₂Represent the current sampling data in these two moment, then have:

$i_1=i\left(n_1\right)=\sqrt{2}I\sin (n_1\×\frac{2\mathrm{\π}}{N}+{\mathrm{\α}}_I)---\left(3\right),$

$i_2=i\left(n_2\right)=\sqrt{2}I\sin (n_2\×\frac{2\mathrm{\π}}{N}+{\mathrm{\α}}_I)=\sqrt{2}I\cos (n_1\×\frac{2\mathrm{\π}}{N}+{\mathrm{\α}}_I)---\left(4\right),$

Addition gets after will going up two formulas square:

$I^2=\frac{i_1^2+i_2^2}{2}---\left(5\right),$

Get final product current effective value, in like manner, voltage effective value is:

$U^2=\frac{u_1^2+u_2^2}{2}---\left(6\right),$

U is a voltage effective value in the formula, u ₁And u ₂Value for two sampled points of 1/4 cycle of being separated by.If the formation distance protection then can further obtain apparent impedance value Z and argument a thereof _Z:

$Z=\frac{U}{I}=\sqrt{\frac{u_1^2+u_2^2}{i_1^2+i_2^2}}---\left(7\right),$

$a_Z=a_U-a_I={\mathrm{tg}}^{-1}\left(\frac{u_1}{u_2}\right)-{\mathrm{tg}}^{-1}\left(\frac{i_1}{i_2}\right)---\left(8\right),$ α wherein _uBe the voltage initial phase angle;

The data window length of this algorithm itself was 1/4 cycle, concerning power frequency 50Hz, only need 5ms, speed is very fast, so significantly reduced amount of calculation, increased computational speed, also very few to data holder (RAM) space requirement, concerning the DSP process chip, built-in space resources is enough to, need not to expand external RAM, thereby has effectively controlled cost.

Maximal wind-energy capture is power adjustments control, wind turbine system is the complication system of a nonlinear instability, system has uncertainty, traditional speed Control pattern need at first be set up an efficient system model, and because the complexity of aerodynamic uncertainty and power electronics model, determining of system model is not that part is easy to thing.May influence the error source and uncertain factor of wind turbine generator performance from listed those, the researcher finds, because the variation of Reynolds number can cause on power 5% error, and because the deposit on the blade can cause 20% variable power with raining, other also will cause variation in various degree such as atmospheric conditions and factor such as aging in the conversion process of energy of unit.Therefore all controls based on some effective system model also only are suitable for certain specific system and certain work period.Realize the method that wind energy is followed the tracks of with respect to the method for the control generator Mathematical Modeling of traditional complexity or by the intermediate dc conversion or by power disturbance, this paper is according to structure shown in Figure 1, proposition is to the control at inverter output voltage and electric network voltage phase merit angle, thereby the grid side converter power output is directly controlled to realize that maximal wind-energy follows the tracks of.Permanent magnet synchronous wind generator generating under wind wheel drives, electric current carries out current conversion by rectified three-phase circuit, and then enters three-phase full-bridge inverter as DC bus-bar voltage behind the wave circuit after filtration; DC bus-bar voltage is through three-phase full-bridge inverter, and wave reactor and step-up transformer are incorporated into the power networks after filtration under microprocessor control.

Ignore generator unit stator winding loss and supplementary load loss, following power relation is arranged, as shown in Figure 2:

$P_m=P_g+J\frac{\mathrm{\ωd\ω}}{\mathrm{dt}}=P_1+C\frac{U_{\mathrm{dc}}d{U}_{\mathrm{dc}}}{\mathrm{dt}}+J\frac{\mathrm{\ωd\ω}}{\mathrm{dt}}+P_{\mathrm{\Δ}}---\left(8\right),$

P in the formula _mFor the wind energy conversion system power output is prime mover input power, P _gBe output of a generator, P ₁Be inverter power output, P _ΔBe the total loss of power electronics part, J is wind energy conversion system and the total moment of inertia of generator, and C is a DC voltage-stabilizing partition capacitance value.

As long as directly control net side inverter active power of output changes according to formula (1), just can realize the maximal wind-energy tracking, because electric capacity mainly plays pressure stabilization function here, its stored energy is much smaller than the rotational kinetic energy of wind energy conversion system and generator, so P _g≈ P ₁+ P _Δ(actual P _gBe to follow the tracks of P _Opt(the best input power of prime mover) changes), P _ΔBe the total loss of power electronics part, for the reliability that realizes being incorporated into the power networks and the simplicity of control are set out, the loss of the power electronics part from the rectifying device to the DC-to-AC converter is the amount of a linear change, promptly along with the variation of the increase of switching frequency and electric current or power output and linear change, actual operation can adopt and table look-up.

Catching of the maximal wind-energy that the dynamic analysis (promptly under the situation that wind speed changes) of transient analysis by maximal wind-energy in the present invention, (promptly under the stable situation of wind speed) and maximal wind-energy is transferred the three-phase full-bridge inverter power output and the control at electric network voltage phase merit angle realizes.

(1) under the maximal wind-energy capture transient analysis:

The inverter power output is: $p_1=\frac{m{u}_1{u}_s}{x_t}\sin \mathrm{\δ}---\left(9\right),$ In the formula, p ₁Be the inverter power output, m is the number of phases, u ₁Be inverter output voltage, u _sFor net is surveyed voltage, x _tBe transformer and circuit equiva lent impedance, δ is u ₁With u _sAngle, i.e. merit angle.

Suppose that the total loss of power electronics part is: p _Δ=kp ₁(10), in the formula, p _ΔBe the total loss of power electronics part, k is a coefficient, according to p ₁Variation and change, can get by look-up table.

Output of a generator is: p _g=p ₁+ p _Δ=p ₁+ kp ₁=(1+k) p ₁=η p ₁(11) in the formula, p _gBe output of a generator, η=1+k is a conversion coefficient.

When ignoring stator winding resistance loss and supplementary load loss, the power output p of generator _gBe approximately equal to its electromagnetic power, that is: p _g≈ P _Em=T _EmΩ _r(12), in the formula: P _EmBe electromagnetic power; T _EmElectromagnetic torque for generator; Ω _rBe the synchronous angular velocity of rotation of generator amature.

According to energy and power conservation and top (1) ~ (4) Shi Kede: $T_{\mathrm{em}}{\mathrm{\Ω}}_r=\mathrm{\η}{p}_1=\mathrm{\η}\frac{u_1{u}_s}{x_t}\sin \mathrm{\δ}---\left(13\right),$

Can get the merit angle by (13) formula is: $\mathrm{\δ}=\mathrm{acr}\sin \left(\frac{T_{\mathrm{em}}{\mathrm{\Ω}}_r{x}_t}{\mathrm{\η}{u}_1{u}_s}\right)=\mathrm{acr}\sin \left(\frac{P_g{x}_t}{\mathrm{\η}{u}_1{u}_s}\right)---\left(14\right),$

Can get the merit angle by (14) formula is: ${\mathrm{\δ}}_{\mathrm{opt}}=\mathrm{acr}\sin \left(\frac{\mathrm{\α}{P}_{\mathrm{opt}}{x}_t}{\mathrm{\η}{u}_1{u}_s}\right)---\left(15\right)$ In the formula, α is the generator conversion efficiency, δ _OptBe best merit angle.

(2) under the maximal wind-energy capture dynamic analysis:

Get according to equation of rotor motion: $J\frac{d{\mathrm{\Ω}}_r}{\mathrm{dt}}=\frac{P_m}{{\mathrm{\Ω}}_r}-\frac{P_{\mathrm{em}}}{{\mathrm{\Ω}}_r}-k_D{\mathrm{\Ω}}_r---\left(16\right),$

Because: p _g≈ P _Em=T _EmΩ _r, and $p_g=\mathrm{\η}\frac{m{u}_1{u}_s}{x_t}\sin \mathrm{\δ},$ In the formula: k _DBe the generator coefficient of viscosity, m is the number of phases, and arbitrarily we can construct governing equation, supposes order:

$p_g\left({\mathrm{\Ω}}_r\right)=p_g^{*}+(p_m-p_{\mathrm{opt}})-k_D({\mathrm{\Ω}}_r^2-{{\mathrm{\Ω}}^{*}}_r^2)+k_1{\mathrm{\Ω}}_r({\mathrm{\Ω}}_r-{{\mathrm{\Ω}}_r}^{*})---\left(17\right),$ P wherein _g ^*Be best power, again because: $p_g^{*}=\mathrm{\η}\frac{m{u}_1{u}_s}{x_t}\sin {\mathrm{\δ}}_{\mathrm{opt}},$ So $J{\mathrm{\Ω}}_r\frac{d{\mathrm{\Ω}}_r}{\mathrm{dt}}=P_m-P_g-k_D{{\mathrm{\Ω}}_r}^2$ Substitution (17) formula, promptly $J{\mathrm{\Ω}}_r\frac{d{\mathrm{\Ω}}_r}{\mathrm{dt}}=P_m-(p_g^{*}+(p_m-p_{\mathrm{opt}})-k_D({\mathrm{\Ω}}_r^2-{{\mathrm{\Ω}}^{*}}_r^2)+k_1{\mathrm{\Ω}}_r({\mathrm{\Ω}}_r-{{\mathrm{\Ω}}_r}^{*}))-k_D{{\mathrm{\Ω}}_r}^2,$ Can get thus $J{\mathrm{\Ω}}_r\frac{d{\mathrm{\Ω}}_r}{\mathrm{dt}}=-p_g^{*}+p_{\mathrm{opt}}-k_D{{\mathrm{\Ω}}^{*}}_r^2-k_1{\mathrm{\Ω}}_r({\mathrm{\Ω}}_r-{{\mathrm{\Ω}}_r}^{*}),$ In its Chinese style: k ₁For greater than zero constant, Ω _r ^*Be generator amature optimal synchronisation angular velocity of rotation

During the blower fan steady operation: Ω _r=Ω _r ^*, then $\frac{p_{\mathrm{opt}}}{{\mathrm{\Ω}}_r^{*}}-\frac{p_g^{*}}{{\mathrm{\Ω}}_r^{*}}-k_D{\mathrm{\Ω}}_r^{*2}=0---\left(18\right),$

During blower fan unstable state operation: $J\frac{d{\mathrm{\Ω}}_r}{\mathrm{dt}}=-k_1({\mathrm{\Ω}}_r-{\mathrm{\Ω}}_r^{*})---\left(19\right),$

Get by (17)～(19) formula

$J\frac{d{\mathrm{\Ω}}_r}{\mathrm{dt}}=J\frac{d{\mathrm{\Ω}}_r-{{\mathrm{\Ω}}_r}^{*}}{\mathrm{dt}}=-k_1({\mathrm{\Ω}}_r-{{\mathrm{\Ω}}_r}^{*})$ Order $A=-\frac{k_1}{J}---\left(20\right),$

That is: $\frac{d({\mathrm{\Ω}}_r-{{\mathrm{\Ω}}_r}^{*})}{\mathrm{dt}}=\frac{\mathrm{dx}}{\mathrm{dt}}=f(x,t)=A({\mathrm{\Ω}}_r-{{\mathrm{\Ω}}_r}^{*})$ Make x=Ω _r-Ω _r ^*(21),

Can get Ω thus _r-Ω _r ^*=x=ce ^At(22),

For preventing that generator from entering unstable region, must meet the following conditions: δ≤90 ° to the control of merit angle δ

Again because: $p_g=\mathrm{\η}\frac{m{u}_1{u}_s}{x_t}\sin \mathrm{\δ}=\frac{m{E}_0{u}_g}{x_d}\sin {\mathrm{\δ}}_G$

In the formula, E ₀Be the electromotive force that rotor-exciting magnetic field produces, u on stator _gBe generator unit stator output voltage, δ _GBe generator's power and angle, x _dBe stator impedance

Because: $(1-k)\frac{E_0{u}_g}{x_d}\sin {\mathrm{\&delta;}}_g=\frac{u_1{u}_s}{x_t}\sin \mathrm{\&delta;}<(1-k)\frac{E_0{u}_g}{x_d},$ (23) again because: E ₀=k ₃ω, u can survey, then $\&DoubleRightArrow;{\mathrm{\&delta;}}_{\max }<\arcsin (1-k)\frac{x_t}{x_d}\&CenterDot;\frac{k_3\mathrm{\&omega;}{u}_g}{u_1{u}_s}---\left(24\right),$ Can get thus, merit angle δ only needs according to the following formula variation and satisfies the following formula requirement to get final product, thereby the maximum that has realized wind energy is caught, in the wind speed of change at random, can follow the tracks of wind speed stably and change, the impact of equipment and device is reduced to minimum, guarantee that optimum state operation and maximum power export.

Claims (4)

1, a kind of direct drive permanent magnetic synchro wind generator is incorporated into the power networks and power regulating method, it is characterized in that, may further comprise the steps:

(1) measuring wind speed instrument measuring wind, and wind velocity signal is sent to microprocessor, microprocessor is controlled to realize maximal wind-energy capture three-phase full-bridge inverter power output and electric network voltage phase merit angle δ, and wherein said merit angle δ is three-phase full-bridge inverter output voltage u ₁With voltage on line side u _sAngle;

(2) permanent magnet synchronous wind generator generating under wind wheel drives, electric current carries out current conversion by rectified three-phase circuit, and then enters three-phase full-bridge inverter as DC bus-bar voltage behind the wave circuit after filtration;

(3) DC bus-bar voltage is through three-phase full-bridge inverter, and wave reactor and step-up transformer are incorporated into the power networks after filtration under microprocessor control.

2, a kind of direct drive permanent magnetic synchro wind generator according to claim 1 is incorporated into the power networks and power regulating method, it is characterized in that, in the described step (3) under microprocessor control after filtration wave reactor and step-up transformer to be incorporated into the power networks be by microprocessor electrical network to be carried out AC sampling, then as modulating wave control three-phase full-bridge inverter output voltage, when the three-phase full-bridge inverter output voltage is followed the tracks of grid voltage change, close a floodgate and be incorporated into the power networks.

3, realize that a kind of direct drive permanent magnetic synchro wind generator that the described a kind of direct drive permanent magnetic synchro wind generator of claim 1 is incorporated into the power networks with power regulating method is incorporated into the power networks and the power adjustments control system, it is characterized in that, comprise microprocessor, described microprocessor is connected with permanent magnet synchronous wind generator, rectified three-phase circuit, filter circuit, three-phase full-bridge inverter and step-up transformer simultaneously.

4, a kind of direct drive permanent magnetic synchro wind generator according to claim 3 is incorporated into the power networks and the power adjustments control system, it is characterized in that described microprocessor is a dsp controller.

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