SU873168A1 - Method of measuring synchronous machine stator winding dissipation inductivity - Google Patents

Description

The invention relates to the testing and investigation of electric machines, in particular, to methods for experimentally determining the parameters of a synchronous machine.

There is a method of determining the inductive resistance of scattering of the stator winding, according to which the rotor of the machine is replaced by a tester. | θ n, containing the measuring winding, and the specified resistance is calculated according to the results of the experiment stator power supply with alternating voltage [1J ..

The disadvantage of this method is the complexity and low accuracy * 5 due to changes in the distribution of the magnetic field of the machine when replacing its rotor with a test one.

The closest to the proposed method is the measurement of the inductance ²⁰ of the scattering of the stator winding of the synchronous machine with a field winding on the rotor, by connecting the stator windings to alternating current measurement at a fixed emf rotor winding excitation current and the instantaneous values of the derivative of the current and voltage phases at the time when the emf of the field winding reaches the experimental value, measure the active resistance of the stator phase and then calculate the desired parameter from the measured quantities [2].

However, the implementation of the rotation of the rotor to align its axis with the axis. the controlled phase necessary in this method is often difficult in terms of conditions, especially for high power machines. Accordingly, in these conditions it is difficult to achieve the necessary accuracy in installing the rotor in the desired position, which leads to errors in determining the scattering inductance.

The purpose of the invention is to simplify the implementation and increase the accuracy of determining the leakage inductance of the stator winding of a synchronous machine.

This goal is achieved by measuring the angle between the longitudinal axis of the rotor and the axis of one of the phases of the stator winding, and the desired inductance is calculated by the formula 8Y3 (Ug-RAa) -6 [R (ito-ic) -Ufa ^ cl.

where £ = co's- ^ © = si ηγ, if the measurements are made with an emf equal to zero;

g = si n ^ 0 = -cosj-, if the measurements are made at the maximum value of the EMF, '

V "instantaneous values, respectively, of the phase currents of their derivatives and voltages at the point in time when the EMF reaches an extreme value;

R is the active resistance of the winding statooa.

The angle between the axis of symmetry of the rotor relative to the axis of one of the phases of the stator · is found, for example, from the experience of supplying the rotor with alternating current.

Derivative values are measured using differentiating devices, for example, AVM elements.

The above equation is obtained from the equations of equilibrium of stresses (EMF) of the stator winding from the Park-Gorev equation with a stationary rotor. We consider the equation for the d axis at the moment when the EMF of the emulsion is equal to zero, and for the q axis - at the moment of reaching the specified EMF of the extremum and express the currents and voltages entering them along the d and q axes through the corresponding phase and rotor angles of rotation of the rotor relative to the stator, summarizing these equations, we get the above.

The operational description of the method is as follows.

.Connect the stator winding to AC power. With a fixed and randomly oriented rotor, the EMF is simultaneously measured in its field winding at the time the EMF is reached. extreme value, magnitude of currents, voltages and derivative currents of phases of the stator winding. The stator winding phase resistance is measured, the angle between the longitudinal axis of the rotor field winding axis and the axis of one of the phases (for example fit) of the stator winding are measured. Using the above formula, the scattering inductance values are calculated.

Since the indicated sequence of operations allows measuring 16 at an arbitrary position of the longitudinal axis of the rotor excitation winding relative to the axis of the stator phase and does not require a preliminary rotation of the rotor, the implementation of the method is simplified and its efficiency is increased.

Claims (2)

The invention relates to the testing and investigation of electric machines, in particular, to methods of experimentally determining the parameters of a synchronous machine. A known method for determining the inductive dissipation resistance of the stator winding, according to which the rotor of the machine is replaced by the test one, which contains the measuring winding, and this resistance is calculated from the results of the stator power test with alternating voltage l .. The disadvantage of this method is complexity as well as low accuracy due to a change in the distribution of the magnetic field of the machine when replacing its rotor with a test one. The closest to the present invention is a method for measuring the leakage inductance of the stator winding of a synchronous machine with an excitation winding on the rotor, by connecting the stator winding to an AC network, measuring the EMF of the excitation winding as well as the instantaneous values of current, derivative of current and voltage in phases at the moment of time when the emf of the excitation winding reaches an experimental value, measuring the active resistance of the stator phase, and then calculating the desired parameter from the measured elichinam 2. However, the implementation of rotation of the rotor to align its axis with the axis. The controlled phase required in this method is often difficult under industrial conditions, especially for high power machines. Accordingly, under these conditions, it is difficult to achieve the required accuracy in setting the rotor to the desired position, which leads to errors in determining the scattering inductance. The purpose of the invention is to simplify the implementation and improve the accuracy of determining the leakage inductance of the stator winding of a synchronous machine. The goal is achieved by measuring the angle f between the longitudinal axis of the rotor and the axis of one of the phases of the stator winding, and the desired inductance is calculated using the formula gV (Ua-R4a) -ei: R (iVic), () where cos-y : jQ si nj-, if it is produced from an emf at zero g 51. -cos, if measurements are made at the maximum value of the EMF, V.tjc; a.i;, ii, 4Q, Lb, Uc, the instantaneous values, respectively, of the phase currents of their derivatives and voltages at the time when the EMF reaches an extreme value; R is the active resistance of the static winding. The angle between the axis of symmetry of the rotor relative to the axis of one of the phases of the stator is found, for example, from the experience of feeding the rotor with alternating current. Derivative values are measured using differentiated devices, such as AVM elements. The above equation is derived from the equilibrium stress stresses of the stator winding from the Park-Gorev equation with a fixed rotor. Consider the equation for the d axis at the time of equality of the emf of the zero, and for the q axis, when the indicated emf reaches an extremum and express the currents and voltages along them and d through q through the corresponding phase and rotor angle J with respect to the stator, summarizing these equations, we obtain the above. The operational description of the method is as follows. Connect the stator winding to AC. With a stationary and randomly oriented rotor, the emf is measured simultaneously in its excitation winding at the time the emf is reached. extremes, currents, voltages and derivatives of the phases of the stator winding. The active resistance of the stator winding phase is measured, and the angle between the longitudinal axis of the rotor excitation winding and the axis of one of the phases of the stator winding is measured. The scattering inductance is calculated using the above formula. Since the specified sequence of operations allows LG to measure LG at an arbitrary position of the longitudinal axis of the rotor excitation winding relative to the stator phase axis and does not require a prior rotation of the rotor, the implementation of the method is simplified and increases in diameter. The invention The method of measuring the inductance of the dissipation of the stator winding of a synchronous machine with the excitation winding on the rotor, by connecting the stator winding to an AC network, measuring the EMF of the winding as well as the instantaneous values of current, current derivative and phase voltage at a time, when the emf of the excitation winding reaches an extreme value, the measurement of the active resistance of the stator phase and the subsequent calculation of the desired parameter from the measured values, which differs in , in order to simplify implementation and improve accuracy, the angle θ between the longitudinal axis of the rotor and the axis of one of the phases of the stator winding is measured, and the inductance is calculated using the formula g.-y3CUot-R ici) -0 RCVtc) 0 (1-. .) where g cosTG in y, if measurements are made at an emf of zero; t S 1 pu-cos r, if measurements are made at maximum. . . , EMF value; o1H | с.Ъ | г.с.Чз. Acheni, respectively, the phase currents of their derivatives and voltages, at the time when the emf reaches an extreme value; . R is the active resistance of the stator winding. Sources of information taken into account in the examination 1. USSR author's certificate number 565353, cl. H 02 K 15/00, 1975. 2. USSR author's certificate according to the application 2680426 / 24-07, cl. H 02 K 15/00, 1§78.