CN104734593B - The control system and Stator resistance identification method of permagnetic synchronous motor - Google Patents

Abstract

The present invention proposes a kind of control system of permagnetic synchronous motor, including：Current sample module, the N number of three-phase current I for permagnetic synchronous motor of sampling_Ui、I_Vi、I_Wi；First coordinate transferring, when given electrical angle is 0 to N number of three-phase current I_Ui、I_Vi、I_WiCoordinate Conversion is carried out to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi；Current correction module, according to d-axis reference current I_drefTo N number of I_diCurrent correction is carried out to obtain N number of direct-axis voltage V_di；Compensating module, to N number of V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi；Stator resistance identification module, according to N number of V_comiWith N number of I_diObtain the resistance of the stator resistance of permagnetic synchronous motor.According to the control system of the present invention, the influence of noise can be effectively slackened, the identification precision of stator resistance is improved.The present invention also proposes a kind of Stator resistance identification method of permagnetic synchronous motor.

Description

The control system and Stator resistance identification method of permagnetic synchronous motor

Technical field

The present invention relates to household electrical appliance technical field, the control system and one kind of more particularly to a kind of permagnetic synchronous motor The Stator resistance identification method of permagnetic synchronous motor.

Background technology

In the governing system of permagnetic synchronous motor, because position sensor can increase the cost of system, reduction system Reliability, and be difficult with rugged environment, so, the control mode of position-sensor-free has obtained significant hair Exhibition.And in control system without position sensor, position estimation accuracy is to weigh the important indicator of systematic function.Wherein, stator The identification precision of resistance directly affects the precision of location estimation.And in most of civilian control systems, examined based on cost Consider, dc source is often obtained by the direct rectification of mains supply, and therefore, this dc source inevitably has certain electricity Pressure fluctuation.In addition, flow measurement sensor is as analog device, there is also temperature drift, defect is easily disturbed etc., therefore measurement electric current must So it there is random noise.

To solve the above problems, proposing the discrimination method of following several stator resistances in correlation technique.One is using straight Connect voltammetry, but this method is not although it is contemplated that the tube voltage drop of dead band pressure drop, IGBT and diode, flow measurement is accounted for but and is made an uproar Sound and direct current power source voltage fluctuation, therefore contain random noise in the identification result of stator resistance；Two be by injecting twice not With the direct current of value, obtained Current Voltage value is subtracted each other, so that the pressure drop of IGBT and diode is offset, so as to weaken device Dependence, but still exist can not Removing Random No the problem of；Three be to propose a kind of online resistance estimator, but its Algorithm is relative complex, is difficult to meet requirement of engineering.Therefore, the stator electricity of the control system of the permagnetic synchronous motor in correlation technique Resistance identification needs are improved.

The content of the invention

The purpose of the present invention is intended at least solve above-mentioned technological deficiency to a certain extent.

Therefore, it is an object of the present invention to propose a kind of control system of permagnetic synchronous motor, can effectively slacken The fluctuation of direct current power source voltage and the influence of the random noise of measurement electric current, so as to improve the identification precision of stator resistance.

It is another object of the present invention to a kind of Stator resistance identification method for proposing permagnetic synchronous motor.

To reach above-mentioned purpose, the embodiment of one aspect of the present invention proposes a kind of control system of permagnetic synchronous motor, Including：Current sample module, N number of three-phase current I for the permagnetic synchronous motor of sampling_Ui、I_Vi、I_Wi, wherein, i be more than Positive integer equal to 1 and less than or equal to N, sampling number N is the positive integer more than 1；First coordinate transferring, for given Electrical angle be 0 when to N number of three-phase current I_Ui、I_Vi、I_WiCoordinate Conversion is carried out to obtain N number of direct-axis current I_diWith N number of quadrature axis Electric current I_qi；Current correction module, for according to d-axis reference current I_drefWith quadrature axis reference current I_qrefRespectively to N number of described straight Shaft current I_diWith N number of quadrature axis current I_qiCurrent correction is carried out to obtain N number of direct-axis voltage V_diWith N number of quadrature-axis voltage V_qi；Mend Module is repaid, for N number of direct-axis voltage V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi；Stator resistance Module is recognized, according to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_diObtain the permanent magnet synchronous electric The resistance of the stator resistance of machine.

Further, the control system of described permagnetic synchronous motor also includes：Second coordinate transferring, for Determine when electrical angle is 0 to the direct-axis voltage V after N number of compensation_comiWith N number of quadrature-axis voltage V_qiCoordinate Conversion is carried out to obtain Obtain N number of three-phase reference voltage V_ai、V_bi、V_ci；Inversion module, for by N number of three-phase reference voltage V_ai、V_bi、V_ciCarry out work( Rate amplifies to obtain N number of UVW three-phase voltages U of the permagnetic synchronous motor_ai、U_bi、U_ci；DC power supplier, for be described Inversion module is powered.

In one embodiment of the invention, the Stator resistance identification module also includes：After N number of compensation Direct-axis voltage V_comiWith N number of direct-axis current I_di, and obtain the stator resistance using least-squares linear regression algorithm Resistance.So, the fluctuation for effectively slackening direct current power source voltage and the influence for the random noise for measuring electric current are so as to improve stator The identification precision of resistance.

Specifically, the resistance R of the stator resistance is obtained according to below equation：

Wherein, V_comiFor the direct-axis voltage and I after the compensation_diFor the direct-axis current.

In one particular embodiment of the present invention, according to below equation to the direct-axis voltage V_diCompensate：

V_comi=V_di+V_dead+V_IGBT

Wherein, V_comiFor the direct-axis voltage after the compensation, V_diFor the direct-axis voltage, V_deadFor the inversion module Dead band pressure drop, V_IGBTFor the pressure drop in the inversion module between insulated gate bipolar transistor IGBT drain electrode and source electrode, V_IGBTAccording to The VA characteristic curve of the IGBT and the electric current acquisition for flowing through the IGBT.

Thus, it is contemplated that the non-linear change tendencies of the pressure drop and electric current between IGBT drain electrodes and source electrode, improve stator resistance and distinguish Know precision.

In a preferred embodiment of the invention, the direct-axis current I_diAccording to described the three of the permagnetic synchronous motor U phase currents I in phase_UiObtain；The direct-axis voltage V_diIt is alternate according to U phases and V in the three-phase of the permagnetic synchronous motor Phase voltage V_UViTo obtain；The direct-axis voltage V_diFor the phase voltage V between the U phases and V phases of the permagnetic synchronous motor_UVi's 1.5 times, the direct-axis current I_diFor the electric current I of the U phases of the permagnetic synchronous motor_ai；The Stator resistance identification module according to N number of U phases phase voltage V alternate with V_UViWith N number of U phase currents I_aiObtain the resistance of the stator resistance.

The control system of the permagnetic synchronous motor proposed according to embodiments of the present invention, passes through current sample module samples permanent magnetism N number of three-phase current I of synchronous motor_Ui、I_Vi、I_Wi, when given electrical angle is 0, the first coordinate transferring is to N number of three-phase electricity Flow I_Ui、I_Vi、I_WiCoordinate Conversion is carried out to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi, afterwards, current correction module According to d-axis reference current I_drefWith quadrature axis reference current I_qrefRespectively to N number of direct-axis current I_diWith N number of quadrature axis current I_qiCarry out Current correction is to obtain N number of direct-axis voltage V_diWith N number of quadrature-axis voltage V_qi, also, compensating module is to N number of direct-axis voltage V_diCarry out Compensate to obtain the direct-axis voltage V after N number of compensation_comi, Stator resistance identification module 5 is according to the direct-axis voltage V after N number of compensation_comi With N number of direct-axis current I_diObtain the resistance of stator resistance.Thus, the control system energy of the permagnetic synchronous motor of the embodiment of the present invention Stator resistance identification precision is enough improved, also, the resistance of stator resistance is obtained by least-squares linear regression, to measurement electric current Random noise and direct current power source voltage there is good vulnerability to jamming.

To reach above-mentioned purpose, the embodiment of one aspect of the present invention proposes a kind of stator resistance of permagnetic synchronous motor and distinguished Knowledge method, comprises the following steps：S1, the N number of three-phase current I for the permagnetic synchronous motor of sampling_Ui、I_Vi、I_Wi, wherein, i is big In the positive integer equal to 1 and less than or equal to N, sampling number N is the positive integer more than or equal to 1；S2, when given electrical angle is 0, To N number of three-phase current I_Ui、I_Vi、I_WiCoordinate Conversion is carried out to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi；S3, According to d-axis reference current I_drefWith quadrature axis reference current I_qrefRespectively to N number of direct-axis current I_diWith N number of quadrature axis electricity Flow I_qiCurrent correction is carried out to obtain N number of direct-axis voltage V_diWith N number of quadrature-axis voltage V_qi；S4, to N number of direct-axis voltage V_diEnter Row compensates to obtain the direct-axis voltage V after N number of compensation_comi；S5, according to the direct-axis voltage V after N number of compensation_comiWith N number of institute State direct-axis current I_diObtain the resistance of the stator resistance of the permagnetic synchronous motor.

Further, also include after the step S5：When given electrical angle is 0, to straight after N number of compensation Shaft voltage V_comiWith N number of quadrature-axis voltage V_qiCoordinate Conversion is carried out to obtain N number of three-phase reference voltage V_ai、V_bi、V_ci；Will be N number of The three-phase reference voltage V_ai、V_bi、V_ciPower amplification is carried out to obtain N number of three-phase voltage U of the permagnetic synchronous motor_i、V_i、 W_i。

In one embodiment of the invention, the step S5 is additionally operable to：According to the direct-axis voltage after N number of compensation V_comiWith N number of direct-axis current I_di, and utilize the resistance of the least-squares linear regression algorithm acquisition stator resistance.This Sample, the fluctuation for effectively slackening direct current power source voltage and the influence for the random noise for measuring electric current, so as to improve stator resistance Identification precision.

Specifically, the resistance R of the stator resistance is obtained according to below equation：

Wherein, V_comiFor the direct-axis voltage after the compensation, I_diFor the direct-axis current.

In one particular embodiment of the present invention, according to below equation to the direct-axis voltage V_diCompensate：

V_comi=V_di+V_dead+V_IGBT

Wherein, V_comiFor the direct-axis voltage after compensation, V_diFor the direct-axis voltage, V_deadFor the dead band of inversion module Pressure drop, V_IGBTFor in inversion module insulated gate bipolar transistor IGBT drain electrode source electrode between pressure drop, according to the IGBT's VA characteristic curve and the electric current acquisition for flowing through the IGBT.

Thus, it is contemplated that the non-linear change tendencies of the pressure drop and electric current between IGBT drain electrodes and source electrode, improve stator resistance and distinguish Know precision.

In a preferred embodiment of the invention, U phase currents I in the three-phase of the permagnetic synchronous motor is measured_Ui To obtain the direct-axis current I_di；Measure the U phases phase voltage V alternate with V in the three-phase of the permagnetic synchronous motor_UViWith Obtain the direct-axis voltage V_di；The direct-axis voltage V_diFor the phase voltage V between the U phases and V phases of the permagnetic synchronous motor_UVi 1.5 times, the direct-axis current I_diFor the electric current I of the U phases of the permagnetic synchronous motor_ai；It is alternate according to N number of U phases and V Phase voltage V_UViWith N number of U phase currents I_aiObtain the resistance of the stator resistance.

The Stator resistance identification method of the permagnetic synchronous motor proposed according to embodiments of the present invention, passes through permanent-magnet synchronous of sampling N number of three-phase current I of motor_Ui、I_Vi、I_Wi, when given electrical angle is 0, to N number of three-phase current I_Ui、I_Vi、I_WiCoordinate is carried out to turn Change to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi, afterwards, according to d-axis reference current I_drefWith quadrature axis reference current I_qrefRespectively to N number of direct-axis current I_diWith N number of quadrature axis current I_qiCurrent correction is carried out to obtain N number of direct-axis voltage V_diHanded over N number of Shaft voltage V_qi, also, to N number of direct-axis voltage V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi, mended according to N number of Direct-axis voltage V after repaying_comiWith N number of direct-axis current I_diObtain the resistance of stator resistance.Thus, the permanent magnetism of the embodiment of the present invention is same The Stator resistance identification method of step motor can improve Stator resistance identification precision, also, be obtained by least-squares linear regression The resistance of stator resistance is taken, there is good vulnerability to jamming to the random noise and direct current power source voltage for measuring electric current.

The additional aspect of the present invention and advantage will be set forth in part in the description, and will partly become from the following description Obtain substantially, or recognized by the practice of the present invention.

Brief description of the drawings

Of the invention above-mentioned and/or additional aspect and advantage will become from the following description of the accompanying drawings of embodiments Substantially and be readily appreciated that, wherein：

Fig. 1 is the principle schematic of the control system of the permagnetic synchronous motor according to the embodiment of the present invention；

Fig. 2 is the square frame of Stator resistance identification module in the control system according to the permagnetic synchronous motor of the embodiment of the present invention Schematic diagram；

Fig. 3 is the waveform of direct-axis voltage in the control system according to the permagnetic synchronous motor of a specific embodiment of the invention Schematic diagram；

Fig. 4 is the waveform diagram of direct-axis current in the control system according to the permagnetic synchronous motor of the embodiment of the present invention；

Fig. 5 is the flow chart of the Stator resistance identification method of the permagnetic synchronous motor according to invention one embodiment；And

Fig. 6 is the flow chart of the Stator resistance identification method according to the permagnetic synchronous motor for inventing another embodiment.

Reference：

Current sample module 1, the first coordinate transferring 2, current correction module 3, compensating module 4, Stator resistance identification Module 5, the second coordinate transferring 6, inversion module 7 and DC power supplier 8.

Embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, is only used for explaining the present invention, and is not construed as limiting the claims.

Following disclosure provides many different embodiments or example is used for realizing the different structure of the present invention.For letter Change disclosure of the invention, hereinafter the part and setting of specific examples are described.Certainly, they are only merely illustrative, and Purpose does not lie in the limitation present invention.In addition, the present invention can in different examples repeat reference numerals and/or letter.It is this heavy It is the relation between itself not indicating discussed various embodiments and/or setting for purposes of simplicity and clarity again.This Outside, the invention provides various specific techniques and material example, but those of ordinary skill in the art can be appreciated that The applicable property of other techniques and/or the use of other materials.In addition, fisrt feature described below second feature it " on " structure can include the first and second features and be formed as the embodiment that directly contacts, other feature shape can also be included Into the embodiment between the first and second features, such first and second feature may not be direct contact.

In the description of the invention, it is necessary to explanation, unless otherwise prescribed and limit, term " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be mechanically connect or electrical connection or the connection of two element internals, can To be to be joined directly together, it can also be indirectly connected to by intermediary, for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term.

With reference to following description and accompanying drawing, it will be clear that these and other aspects of embodiments of the invention.In these descriptions In accompanying drawing, some particular implementations in embodiments of the invention are specifically disclosed, to represent the implementation for implementing the present invention Some modes of the principle of example, but it is to be understood that the scope of embodiments of the invention is not limited.On the contrary, the present invention Embodiment includes all changes, modification and the equivalent fallen into the range of the spirit and intension of attached claims.

The control system and permanent magnet synchronous electric of the permagnetic synchronous motor proposed according to embodiments of the present invention in description below Before the Stator resistance identification method of machine, the general principle that the embodiment of the present invention is used simply is introduced first.

It can be seen from electrotechnics principle：

R=U/I

Wherein, U is the voltage for being applied to resistance two ends, and I is the electric current for flowing through resistance.

If the voltage U for being applied to resistance two ends changes n times, N number of DC current values I can be measured.If voltage U is regarded as Dependent variable, regard electric current I as independents variable, it is clear that this N number of voltage for being applied to resistance two ends and the electric current of N number of measurement meet line Sexual intercourse, you can to apply linear regression algorithm.Thus, according to the principle based on least-squares linear regression algorithm, you can with Pick out corresponding resistance value.

General principle based on more than, the embodiment of the present invention proposes a kind of control system and one of permagnetic synchronous motor Plant the Stator resistance identification method of permagnetic synchronous motor.

The control system of permagnetic synchronous motor that proposes according to embodiments of the present invention and forever described with reference to the accompanying drawings The Stator resistance identification method of magnetic-synchro motor.

Fig. 1 is the principle schematic of the control system of the permagnetic synchronous motor according to the embodiment of the present invention.As shown in figure 1, The control system of permagnetic synchronous motor includes：Current sample module 1, the first coordinate transferring 2, current correction module 3, compensation Module 4 and Stator resistance identification module 5.

N number of three-phase current I of the current sample module 1 for permagnetic synchronous motor 10 of sampling_Ui、I_Vi、I_Wi, wherein, i is big In the positive integer equal to 1 and less than or equal to N, sampling number N is the positive integer more than 1.Specifically, current sample module 1 can With with the N number of three-phase current I of predeterminated frequency continuous sampling_Ui、I_Vi、I_Wi。

First coordinate transferring 2 is used in given electrical angle θ_rFor 0 when, to N number of three-phase current I_Ui、I_Vi、I_WiSat Mark is changed to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi.That is, the first coordinate transferring 2 is used for three Phase static coordinate is transformed into two cordic phase rotators, wherein, give electrical angle θ_rIt is 0 always, keeps permagnetic synchronous motor static not It is dynamic.

Current correction module 3 is used for according to d-axis reference current I_drefTo N number of direct-axis current I_diCurrent correction is carried out to obtain Obtain N number of direct-axis voltage V_di.Specifically, current correction module 3 can be proportional and integral controller, d-axis reference current I_drefWith it is straight Shaft current I_diDifference direct-axis voltage V is obtained after proportional and integral controller_di.It is understood that given electrical angle θ_rAlways For 0, permagnetic synchronous motor transfixion is kept, then N number of direct-axis voltage V_diWith N number of direct-axis current I_diBetween have approximate line Sexual intercourse.

Compensating module 4 is used for N number of direct-axis voltage V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi。

Stator resistance identification module 5 is according to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_diObtain permanent magnetism same Walk the resistance R of the stator resistance of motor 10.

Further, as shown in figure 1, the control system of permagnetic synchronous motor also includes：It is second coordinate transferring 6, inverse Become module 7 and DC power supplier 8.

Wherein, the second coordinate transferring 6 is used for when given electrical angle is 0 to the direct-axis voltage V after N number of compensation_comi With N number of quadrature-axis voltage V_qiCoordinate Conversion is carried out to obtain N number of three-phase reference voltage V_ai、V_bi、V_ci, that is to say, that the second coordinate turns Mold changing block 6 is used to two cordic phase rotators being transformed into three phase static coordinate, N number of quadrature-axis voltage V_qiCan be 0.

Inversion module 7 is used for N number of three-phase reference voltage V_ai、V_bi、V_ciPower amplification is carried out to obtain permagnetic synchronous motor 10 N number of three-phase voltage U_i、V_i、W_i, specifically, inversion module 7 can use IPM modules（Intelligent Power Module, SPM）.

DC power supplier 8 is used to power for inversion module 7, and specifically, DC power supplier 8 is by alternating current through two poles Pipe or diode bridge rectification, and using direct current is obtained after filter filtering, so as to be powered for inversion module 7.

In embodiments of the present invention, in system operation, electrical angle θ is given_rIt is 0 always, keeps permagnetic synchronous motor 10 Transfixion, N number of direct-axis voltage V_diWith N number of direct-axis current I_diBetween there is approximate linear relationship, and in engineer applied In, the three-phase voltage for being applied to permagnetic synchronous motor 10 is obtained by inversion module 7, and inversion module 7 has dead band in itself Pressure drop and power tube voltage drop, so, using compensating module 4 to N number of direct-axis voltage V_diAfter compensating, the d-axis after N number of compensation Voltage V_comiWith N number of direct-axis current I_diBetween relation be closer to linearly.So, you can utilize least-squares linear regression Algorithm obtains the resistance R of stator resistance.

Further, as depicted in figs. 1 and 2, Stator resistance identification module 5 is additionally operable to according to the d-axis electricity after N number of compensation Press V_comiWith N number of direct-axis current I_di, and utilize the resistance of least-squares linear regression algorithm acquisition stator resistance.

Specifically, the resistance R of stator resistance can be obtained according to below equation：

Wherein, V_comiFor the direct-axis voltage after compensation, I_diFor direct-axis current.

In an embodiment of the invention, d-axis reference current I_drefIt can be slope current, thus, pass through current correction N number of direct-axis voltage V that module 3 is obtained_diFor ramp voltage, injecting voltage is referred to as, also, according to the three-phase current of sampling I_Ui、I_Vi、I_WiThe N number of direct-axis current I obtained_diAlso it is slope current, is referred to as measuring electric current, then, compensating module 4 is to N Individual direct-axis voltage V_diCompensate, N number of direct-axis current I_diWith the direct-axis voltage V after N number of compensation_comiInput Stator resistance identification mould Block 5, Stator resistance identification module 5 can pick out the resistance R of stator resistance according to least-squares linear regression algorithm.

Specifically, can be according to below equation to the direct-axis voltage V_diCompensate：

V_comi=V_di+V_dead+V_IGBT

Wherein, V_comiFor the direct-axis voltage after compensation, V_diFor direct-axis voltage, V_deadFor the dead band pressure drop of inversion module 7, V_IGBTThe pressure drop between drain electrode and source electrode for insulated gate bipolar transistor IGBT in inversion module 7, V_IGBTAccording to IGBT volt-ampere Characteristic curve and the electric current acquisition for flowing through IGBT.

In general, dead band pressure drop V_deadOne is set, and will not change in system operation, therefore V_deadCan be normal for one Amount.And V_IGBTIt is change before saturation is entered, therefore, when electric current is smaller, V_IGBTIt can not simply be regarded as saturation voltage drop Value, therefore, it can set up form by model IGBT used VA characteristic curve, is tabled look-up further according to specific size of current, Obtain the pressure drop between the IGBT of respective model drain electrode and source electrode.

In one particular embodiment of the present invention, permagnetic synchronous motor 10 can be a kind of built-in type permanent magnet synchronous electric Machine, and the line resistance R of permagnetic synchronous motor 10 is 1.09 Ω, and d axle inductances Ld is 8.8mH, and q axle inductances Lq is 14.4mH, Back emf coefficient Ke is 17.2V/krpm, and number of pole-pairs poles is 2, and rotary inertia is 6.85*10^-4kg.m²。

Meanwhile, d-axis reference current I_drefFor 0~5A slope current, slope is 0.02A, so, according to as shown in Figure 1 Permagnetic synchronous motor control system, with 100Hz frequency sampling three-phase current I_Ui、I_Vi、I_Wi, so that in the regular hour It is interior, obtain N number of direct-axis voltage V_diWith N number of direct-axis current I_di, respectively as shown in Figure 3 and Figure 4, abscissa is sampling number N, is indulged Coordinate unit is respectively V and A.

To N number of direct-axis voltage V_diCompensate, according to N number of direct-axis current I_diWith the direct-axis voltage Vcomi after N number of compensation, Stator resistance identification module 5 is 0.507 based on the resistance R that least-squares linear regression algorithm can pick out stator resistance, fixed The resistance R of sub- resistance is the resistance of phase resistance.And in the present embodiment, what the nameplate information of permagnetic synchronous motor 10 was provided is between line Resistance, line resistance is converted to phase resistance Rs=1.09/2=0.5045 of phase resistance, i.e. nameplate information, comparison stator resistance Resistance R and nameplate information phase resistance Rs, it is clear that be sufficiently close to.

Although it follows that N number of direct-axis voltage V in Fig. 3_diContain N number of direct-axis current I in much noise, and Fig. 4_di Also noise is contained, but the resistance R of stator resistance that Stator resistance identification module 5 according to embodiments of the present invention is obtained still has Excellent precision, i.e., fluctuating and measure current noise to direct current power source voltage has good vulnerability to jamming, is distinguished with higher Know precision.

In a preferred embodiment of the invention, direct-axis current I_diAccording to U phases electricity in the three-phase of permagnetic synchronous motor 10 Flow I_UiObtain；Direct-axis voltage V_diAccording to the phase voltage V alternate with V of U phases in the three-phase of permagnetic synchronous motor 10_UViTo obtain.Its In, direct-axis voltage V_diFor the phase voltage V between the U phases and V phases of permagnetic synchronous motor 10_UVi1.5 times, direct-axis current I_diFor forever The electric current I of the U phases of magnetic-synchro motor 10_ai.Thus, Stator resistance identification module 5 is according to N number of U phases phase voltage V alternate with V_UVi With N number of U phase currents I_aiObtain the resistance R of stator resistance.

That is, due to giving electrical angle θ_rFor 0, therefore, direct-axis voltage V_diCan be by monitoring permagnetic synchronous motor 10 UV two-phases phase voltage, and be phase voltage V by LPF_UVi1.5 times obtain, and direct-axis current I_diIt can then pass through The phase current of monitoring U phases is obtained.

The control system of the permagnetic synchronous motor proposed according to embodiments of the present invention, passes through current sample module samples permanent magnetism N number of three-phase current I of synchronous motor_Ui、I_Vi、I_Wi, when given electrical angle is 0, the first coordinate transferring is to N number of three-phase electricity Flow I_Ui、I_Vi、I_WiCoordinate Conversion is carried out to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi, afterwards, current correction module According to d-axis reference current I_drefWith quadrature axis reference current I_qrefRespectively to N number of direct-axis current I_diWith N number of quadrature axis current I_qiCarry out Current correction is to obtain N number of direct-axis voltage V_diWith N number of quadrature-axis voltage V_qi, also, compensating module is to N number of direct-axis voltage V_diCarry out Compensate to obtain the direct-axis voltage V after N number of compensation_comi, Stator resistance identification module 5 is according to the direct-axis voltage V after N number of compensation_comi With N number of direct-axis current I_diObtain the resistance of stator resistance.Thus, the control system energy of the permagnetic synchronous motor of the embodiment of the present invention Stator resistance identification precision is enough improved, also, the resistance of stator resistance is obtained by least-squares linear regression, to measurement electric current Random noise and direct current power source voltage there is good vulnerability to jamming.

Fig. 5 is the flow chart of the Stator resistance identification method of the permagnetic synchronous motor according to one embodiment of the invention.Such as Shown in Fig. 5, the Stator resistance identification method of permagnetic synchronous motor comprises the following steps：

S1, the N number of three-phase current I for permagnetic synchronous motor of sampling_Ui、I_Vi、I_Wi, wherein, i is more than or equal to 1 and is less than or equal to N positive integer, sampling number N is the positive integer more than or equal to 1.

Specifically, can be with the N number of three-phase current I of predeterminated frequency continuous sampling_Ui、I_Vi、I_Wi。

S2, when given electrical angle is 0, to N number of three-phase current I_Ui、I_Vi、I_WiCoordinate Conversion is carried out to obtain N number of d-axis Electric current I_diWith N number of quadrature axis current I_qi。

That is, by three phase static Coordinate Conversion to two cordic phase rotators, wherein, it is 0 to give electrical angle.

S3, according to d-axis reference current I_drefTo N number of direct-axis current I_diCurrent correction is carried out to obtain N number of direct-axis voltage V_di。

Specifically, d-axis reference current I_drefWith direct-axis current I_diDifference obtained after proportional and integral controller d-axis electricity Press V_di.In system operation, electrical angle θ is given_rIt is 0 always, keeps permagnetic synchronous motor transfixion, then N number of direct-axis voltage V_diWith N number of direct-axis current I_diBetween have approximate linear relationship.

S4, to N number of direct-axis voltage V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi。

Specifically, can be according to below equation to direct-axis voltage V_diCompensate：

V_comi=V_di+V_dead+V_IGBT

Wherein, V_comiFor the direct-axis voltage after compensation, V_diFor direct-axis voltage, V_deadFor the dead band pressure drop of inversion module, V_IGBT For the pressure drop in inversion module between insulated gate bipolar transistor IGBT drain electrode and source electrode, according to IGBT VA characteristic curve and The electric current for flowing through IGBT is obtained.

In general, dead band pressure drop V_deadOne is set, and will not change in system operation, therefore V_deadCan be normal for one Amount.And V_IGBTIt is change before saturation is entered, therefore, when electric current is smaller, V_IGBTIt can not simply be regarded as saturation voltage drop Value, therefore, it can set up form by model IGBT used VA characteristic curve, is tabled look-up further according to specific size of current, Obtain the pressure drop between the IGBT of respective model drain electrode and source electrode.

S5, according to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_diObtain the stator electricity of permagnetic synchronous motor The resistance of resistance.

Further, as shown in fig. 6, also including after step s 5：

S6, when given electrical angle is 0, to the direct-axis voltage V after N number of compensation_comiWith N number of quadrature-axis voltage V_qiCarry out coordinate Change to obtain N number of three-phase reference voltage V_ai、V_bi、V_ci。

That is, two cordic phase rotators are transformed into three phase static coordinate, wherein, it is 0, N number of quadrature axis to give electrical angle Voltage V_qiCan be 0.

S7, by N number of three-phase reference voltage V_ai、V_bi、V_ciPower amplification is carried out to obtain the N number of of the permagnetic synchronous motor Three-phase voltage U_i、V_i、W_i。

Specifically, by inversion module by N number of three-phase reference voltage V_ai、V_bi、V_ciCarry out power amplification same to obtain permanent magnetism Walk N number of three-phase voltage U of motor 10_i、V_i、W_i。

In embodiments of the present invention, in system operation, electrical angle θ is given_rIt is 0 always, keeps permagnetic synchronous motor quiet It is only motionless, N number of direct-axis voltage V_diWith N number of direct-axis current I_diBetween there is approximate linear relationship, and in engineer applied, The three-phase voltage for being applied to permagnetic synchronous motor is obtained by inversion module, and inversion module has dead band pressure drop and work(in itself Rate tube voltage drop, so, to N number of direct-axis voltage V_diAfter compensating, the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_diBetween relation be closer to linearly.So, you can the resistance of stator resistance is obtained using least-squares linear regression algorithm Value R.

Specifically, step S5 also includes：According to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_di, and utilize Least-squares linear regression algorithm obtains the resistance of stator resistance.

Specifically, the resistance R of stator resistance can be obtained according to below equation：

Wherein, V_comiFor the direct-axis voltage after compensation, I_diFor direct-axis current.

In an embodiment of the invention, d-axis reference current I_drefCan be slope current, thus, N number of direct-axis voltage V_diFor ramp voltage, injecting voltage is referred to as, also, according to the three-phase current I of sampling_Ui、I_Vi、I_WiThe N number of d-axis obtained Electric current I_diAlso it is slope current, is referred to as measuring electric current, then, to N number of direct-axis voltage V_diCompensate, according to N number of straight Shaft current I_diWith the direct-axis voltage V after N number of compensation_comi, and stator electricity can be picked out based on least-squares linear regression algorithm The resistance R of resistance.

In a preferred embodiment of the invention, the Stator resistance identification method of permagnetic synchronous motor also includes：Survey Measure U phase currents I in the three-phase of permagnetic synchronous motor_UiTo obtain the direct-axis current I_di；In the three-phase for measuring permagnetic synchronous motor The U phases phase voltage V alternate with V_UViTo obtain direct-axis voltage V_di.Wherein, direct-axis voltage V_diFor the U phases and V of permagnetic synchronous motor Phase voltage V between phase_UVi1.5 times, direct-axis current I_diFor the electric current I of the U phases of permagnetic synchronous motor_ai.So, according to N number of U The phase phase voltage V alternate with V_UViWith N number of U phase currents I_aiObtain the resistance of stator resistance.

That is, due to giving electrical angle θ_rFor 0, therefore, direct-axis voltage V_diCan be by monitoring permagnetic synchronous motor 10 UV two-phases phase voltage, and be phase voltage V by LPF_UVi1.5 times obtain, and direct-axis current I_diIt can then pass through The phase current of monitoring U phases is obtained.

The Stator resistance identification method of the permagnetic synchronous motor proposed according to embodiments of the present invention, passes through permanent-magnet synchronous of sampling N number of three-phase current I of motor_Ui、I_Vi、I_Wi, when given electrical angle is 0, to N number of three-phase current I_Ui、I_Vi、I_WiCoordinate is carried out to turn Change to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi, afterwards, according to d-axis reference current I_drefWith quadrature axis reference current I_qrefRespectively to N number of direct-axis current I_diWith N number of quadrature axis current I_qiCurrent correction is carried out to obtain N number of direct-axis voltage V_diHanded over N number of Shaft voltage V_qi, also, to N number of direct-axis voltage V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi, mended according to N number of Direct-axis voltage V after repaying_comiWith N number of direct-axis current I_diObtain the resistance of stator resistance.Thus, the permanent magnetism of the embodiment of the present invention is same The Stator resistance identification method of step motor can improve Stator resistance identification precision, also, be obtained by least-squares linear regression The resistance of stator resistance is taken, there is good vulnerability to jamming to the random noise and direct current power source voltage for measuring electric current.

Any process described otherwise above or method description are construed as in flow chart or herein, represent to include Module, fragment or the portion of the code of one or more executable instructions for the step of realizing specific logical function or process Point, and the scope of the preferred embodiment of the present invention includes other realization, wherein can not be by shown or discussion suitable Sequence, including according to involved function by it is basic simultaneously in the way of or in the opposite order, carry out perform function, this should be of the invention Embodiment person of ordinary skill in the field understood.

Represent in flow charts or logic and/or step described otherwise above herein, for example, being considered use In the order list for the executable instruction for realizing logic function, it may be embodied in any computer-readable medium, for Instruction execution system, device or equipment（As computer based system including the system of processor or other can be held from instruction The system of row system, device or equipment instruction fetch and execute instruction）Use, or combine these instruction execution systems, device or set It is standby and use.For the purpose of this specification, " computer-readable medium " can any can be included, store, communicate, propagate or pass Defeated program is for instruction execution system, device or equipment or the dress for combining these instruction execution systems, device or equipment and using Put.The more specifically example of computer-readable medium（Non-exhaustive list）Including following：Electricity with one or more wirings Connecting portion（Electronic installation）, portable computer diskette box（Magnetic device）, random access memory（RAM）, read-only storage （ROM）, erasable edit read-only storage（EPROM or flash memory）, fiber device, and portable optic disk is read-only deposits Reservoir（CDROM）.In addition, can even is that can be in the paper of printing described program thereon or other are suitable for computer-readable medium Medium, because can then enter edlin, interpretation or if necessary with it for example by carrying out optical scanner to paper or other media His suitable method is handled electronically to obtain described program, is then stored in computer storage.

It should be appreciated that each several part of the present invention can be realized with hardware, software, firmware or combinations thereof.Above-mentioned In embodiment, the software that multiple steps or method can in memory and by suitable instruction execution system be performed with storage Or firmware is realized.If, and in another embodiment, can be with well known in the art for example, realized with hardware Any one of row technology or their combination are realized：With the logic gates for realizing logic function to data-signal Discrete logic, the application specific integrated circuit with suitable combinational logic gate circuit, programmable gate array（PGA）, scene Programmable gate array（FPGA）Deng.

Those skilled in the art are appreciated that to realize all or part of step that above-described embodiment method is carried Rapid to can be by program to instruct the hardware of correlation to complete, described program can be stored in a kind of computer-readable storage medium In matter, the program upon execution, including one or a combination set of the step of embodiment of the method.

In addition, each functional unit in each embodiment of the invention can be integrated in a processing module, can also That unit is individually physically present, can also two or more units be integrated in a module.Above-mentioned integrated mould Block can both be realized in the form of hardware, it would however also be possible to employ the form of software function module is realized.The integrated module is such as Fruit is realized using in the form of software function module and as independent production marketing or in use, can also be stored in a computer In read/write memory medium.

Storage medium mentioned above can be read-only storage, disk or CD etc..

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means to combine specific features, structure, material or the spy that the embodiment or example are described Point is contained at least one embodiment of the present invention or example.In this manual, to the schematic representation of above-mentioned term not Necessarily refer to identical embodiment or example.Moreover, specific features, structure, material or the feature of description can be any One or more embodiments or example in combine in an appropriate manner.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of changes, modification can be carried out to these embodiments, replace without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is by appended claims and its equivalent limits.

Claims (9)

1. a kind of control system of permagnetic synchronous motor, it is characterised in that including：

Current sample module, N number of three-phase current I for the permagnetic synchronous motor of sampling_Ui、I_Vi、I_Wi, wherein, i be more than Positive integer equal to 1 and less than or equal to N, sampling number N is the positive integer more than 1；

First coordinate transferring, for given electrical angle be 0 when to N number of three-phase current I_Ui、I_Vi、I_WiCarry out coordinate Change to obtain N number of direct-axis current I_diWith N number of quadrature axis current I_qi；

Current correction module, for according to d-axis reference current I_drefTo N number of direct-axis current I_diCurrent correction is carried out to obtain Obtain N number of direct-axis voltage V_di；

Compensating module, for N number of direct-axis voltage V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi；

Stator resistance identification module, according to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_diObtain institute State the resistance of the stator resistance of permagnetic synchronous motor；

Wherein, the control system of described permagnetic synchronous motor, in addition to：

Second coordinate transferring, for given electrical angle be 0 when to the direct-axis voltage V after N number of compensation_comiHanded over N number of Shaft voltage V_qiCoordinate Conversion is carried out to obtain N number of three-phase reference voltage V_ai、V_bi、V_ci；

Inversion module, for by N number of three-phase reference voltage V_ai、V_bi、V_ciPower amplification is carried out to obtain the permanent-magnet synchronous N number of three-phase voltage U of motor_i、V_i、W_i；

DC power supplier, for being powered for the inversion module；

Wherein, according to below equation to the direct-axis voltage V_diCompensate：

V_comi=V_di+V_dead+V_IGBT

Wherein, V_comiFor the direct-axis voltage after the compensation, V_diFor the direct-axis voltage, V_deadFor the dead band of the inversion module Pressure drop, V_IGBTThe pressure drop between drain electrode and source electrode for insulated gate bipolar transistor IGBT in the inversion module, V_IGBTAccording to institute State IGBT VA characteristic curve and flow through the electric current acquisition of the IGBT.

2. the control system of permagnetic synchronous motor as claimed in claim 1, it is characterised in that the Stator resistance identification module It is additionally operable to：

According to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_di, and utilize least-squares linear regression Algorithm obtains the resistance of the stator resistance.

3. the control system of permagnetic synchronous motor as claimed in claim 2, it is characterised in that according to being obtained below equation The resistance R of stator resistance：

<mrow> <mi>R</mi> <mo>=</mo> <mfrac> <mrow> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>i</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>N</mi> </munderover> <msub> <mi>I</mi> <mrow> <mi>d</mi> <mi>i</mi> </mrow> </msub> <msub> <mi>V</mi> <mrow> <mi>c</mi> <mi>o</mi> <mi>m</mi> <mi>i</mi> </mrow> </msub> </mrow> <mrow> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>i</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>N</mi> </munderover> <msubsup> <mi>I</mi> <mrow> <mi>d</mi> <mi>i</mi> </mrow> <mn>2</mn> </msubsup> </mrow> </mfrac> </mrow>

Wherein, V_comiFor the direct-axis voltage and I after the compensation_diFor the direct-axis current.

4. the control system of permagnetic synchronous motor as claimed in claim 1, it is characterised in that wherein,

The direct-axis current I_diAccording to U phase currents I in the three-phase of the permagnetic synchronous motor_UiObtain；

The direct-axis voltage V_diAccording to the phase voltage V alternate with V of U phases in the three-phase of the permagnetic synchronous motor_UViTo obtain Take；

The direct-axis voltage V_diFor the phase voltage V between the U phases and V phases of the permagnetic synchronous motor_UVi1.5 times, the d-axis Electric current I_diFor the electric current I of the U phases of the permagnetic synchronous motor_ai；

The Stator resistance identification module is according to N number of U phases phase voltage V alternate with V_UViWith N number of U phase currents I_aiObtain Obtain the resistance of the stator resistance.

5. a kind of Stator resistance identification method of permagnetic synchronous motor, it is characterised in that comprise the following steps：

S1, the N number of three-phase current I for the permagnetic synchronous motor of sampling_Ui、I_Vi、I_Wi, wherein, i is more than or equal to 1 and is less than or equal to N positive integer, sampling number N is the positive integer more than or equal to 1；

S2, when given electrical angle is 0, to N number of three-phase current I_Ui、I_Vi、I_WiCoordinate Conversion is carried out to obtain N number of d-axis Electric current I_diWith N number of quadrature axis current I_qi；

S3, according to d-axis reference current I_drefTo N number of direct-axis current I_diCurrent correction is carried out to obtain N number of direct-axis voltage V_di；

S4, to N number of direct-axis voltage V_diCompensate to obtain the direct-axis voltage V after N number of compensation_comi；

S5, according to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_diObtain the permagnetic synchronous motor Stator resistance resistance；

Wherein, according to below equation to the direct-axis voltage V_diCompensate：

V_comi=V_di+V_dead+V_IGBT

Wherein, V_comiFor the direct-axis voltage after compensation, V_diFor the direct-axis voltage, V_deadFor the dead band pressure drop of inversion module, V_IGBTDrained and the pressure drop between source electrode for insulated gate bipolar transistor IGBT in inversion module, according to the volt-ampere of IGBT spy Linearity curve and the electric current acquisition for flowing through the IGBT.

6. the Stator resistance identification method of permagnetic synchronous motor as claimed in claim 5, it is characterised in that in the step S5 Also include afterwards：

When given electrical angle is 0, to the direct-axis voltage V after N number of compensation_comiWith N number of quadrature-axis voltage V_qiCoordinate is carried out to turn Change to obtain N number of three-phase reference voltage V_ai、V_bi、V_ci；

By N number of three-phase reference voltage V_ai、V_bi、V_ciPower amplification is carried out to obtain N number of three-phase of the permagnetic synchronous motor Voltage U_i、V_i、W_i。

7. the Stator resistance identification method of permagnetic synchronous motor as claimed in claim 5, it is characterised in that the step S5 is also Including：

According to the direct-axis voltage V after N number of compensation_comiWith N number of direct-axis current I_di, and utilize least-squares linear regression Algorithm obtains the resistance of the stator resistance.

8. the Stator resistance identification method of permagnetic synchronous motor as claimed in claim 7, it is characterised in that according to below equation Obtain the resistance R of the stator resistance：

<mrow> <mi>R</mi> <mo>=</mo> <mfrac> <mrow> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>e</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>N</mi> </munderover> <msub> <mi>I</mi> <mrow> <mi>d</mi> <mi>i</mi> </mrow> </msub> <msub> <mi>V</mi> <mrow> <mi>c</mi> <mi>o</mi> <mi>m</mi> <mi>i</mi> </mrow> </msub> </mrow> <mrow> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>i</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>N</mi> </munderover> <msubsup> <mi>I</mi> <mrow> <mi>d</mi> <mi>i</mi> </mrow> <mn>2</mn> </msubsup> </mrow> </mfrac> </mrow>

Wherein, V_comiFor the direct-axis voltage after the compensation, I_diFor the direct-axis current.

9. the Stator resistance identification method of permagnetic synchronous motor as claimed in claim 6, it is characterised in that wherein,

Measure U phase currents I in the three-phase of the permagnetic synchronous motor_UiTo obtain the direct-axis current I_di；

Measure the U phases phase voltage V alternate with V in the three-phase of the permagnetic synchronous motor_UViTo obtain the direct-axis voltage V_di；

The direct-axis voltage V_diFor the phase voltage V between the U phases and V phases of the permagnetic synchronous motor_UVi1.5 times, the d-axis Electric current I_diFor the electric current I of the U phases of the permagnetic synchronous motor_ai；

According to N number of U phases phase voltage V alternate with V_UViWith N number of U phase currents I_aiObtain the resistance of the stator resistance.