SU1296969A1 - Method of measuring phase dissipation inductive impedance of stator winding of synchronous machine - Google Patents

Abstract

The invention relates to the testing of power machines, in particular, to methods for determining the parameters of a synchronous machine. The purpose of the invention is to increase the accuracy of measuring the inductance of the dissipation phase of the stator winding. The method includes combining the longitudinal axis of the rotor with the axis of the controlled phase, closing this phase, connecting the other two, supplying alternating voltage to the excitation winding, measuring the current in the controlled phase and EMF at the terminals of the phases connected in series. The change in the current of the controlled phase due to the regulation of the supply voltage allows to take into account the effect of saturation on the value of the inductive resistance of the stator winding. Q co 05 co O5 co

Description

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

The purpose of the invention is to increase the measurement accuracy of the inductive resistance of the phase dissipation of the stator winding.

The method is carried out as follows.

The proposed method improves the measurement accuracy. The results of its application can be used in the synthesis of mathematical models of electric machines in the course of solving various national and national problems.

saturation of magnetic circuits in the analysis of the operation of complex electric power systems containing high-power electric machines.

The inductive dissipation resistance of the controlled phase is calculated as the square root of the difference

squares of its full and active concentration. 15 It is important to have a detailed account of resistance. Impedance is defined as the quotient of dividing the emf of the monitored phase by the current. This emf is twice the emf

other phases, since considering the merits of the method, along with the rotor position, the accuracy of the machine should be attributed to the ease of the experiment. Embedded in the direction of the magnetic axis, there is no need for an oscillographically controlled phase, as well as other axes for recording current and emf. The measuring phase is an angle of 60. active (amplitude) values

Rotation of the rotor to its combination of these values with the usual measuring longitudinal axis of the excitation winding (magnetic axis) OB with the axis of the control devices. The use of the dependence of the inductive dissipation resistance on the stator current obtained by the proposed phase is carried out using

instrumentation. Using the dependence of the inductance of the dissipation on the stator current obtained by the proposed rotary device. In this 30 way, the rotor disperses, the effective values of the results of the mathematical mo- tion of the uncontrolled phases must be separated from the experimental x (equal to each other. The currents and the EMF of the registra- tists are not more than 7–12%, are ammeters and with voltmeters, significantly increases the effective connection, if necessary, of developing recommendations for measuring the reliability of the current and voltage of shunts by means of measuring transformers. To provide access to the terminals of both ends of the phase windings. Otherwise, a zero point 40 can be obtained, for example, by assembling an artificial star.

kih machines.

Invention Formula

Measurement method of inductive resistance of the phase winding

the stator of the synchronous machine containing the excitation winding on the rotor 45 by connecting the excitation winding or the stationary rotor to the alternating voltage and measuring the winding current, closing one of the phases of the stator winding and measuring the current in it, predicting the current recorded in the stator winding of the currents mi

the stator of the synchronous machine containing the excitation winding on the rotor 45 by connecting the exciter winding or the stationary rotor to an alternating voltage and measuring the winding current, closing one of the phases of the stator winding and measuring the current in it, before (power, internal resistance, voltage range ) used in the experience of an adjustable AC source and the permissible voltage of the excitation winding. Active watchdog 50 measurement of active stator winding is measured against the stator winding phase and

known methods, for example, direct current. In order to reduce the measurement error, the controlled phase in the experiment is advisable not to short-circuit, but to a certain reference active resistance, approximately by an order of magnitude greater than the active resistance of the winding. Open windings

The phases are connected according to, i.e. the beginning of one with the end of the other;

The scattering inductance of the SDN-15-49-8 electric motor (1600 kW) was measured, which, when adjusting the stator current from 25 to 80% of the nominal, varied within 0.095-0.1717.

The proposed method improves the measurement accuracy. The results of its application can be used in the synthesis of mathematical models of electric machines in the course of solving various national and national problems.

The importance of detailed accounting

of saturation of magnetic circuits in the analysis of the operation of complex electric power systems containing high power electric machines

The importance of detailed accounting

The advantages of the method, along with an increase in accuracy, include the simplicity of the experiment. There is no need for oscillographic recording of currents and emf. Measure - effective (amplitude) values

these values are the usual measuring

instrumentation. The use of the dependence of the inductive resistance of the scattering current of the stator, obtained by the proposed method, ensures that the results of mathematical modeling differ from the experimental characteristics by no more than 7–12% and significantly increases the efficiency of developing recommendations for increasing the reliability of electrical equipment.

effective way of splitting the characteristics of the essence of the development of

kih machines.

this method provides divergent results of mathematical modeling from experimental data (characteristics of not more than 7–12%, significantly increases the efficiency of developing recommendations for increasing the reliability of electrical

Invention Formula

This method ensures that the results of mathematical modeling differ from the experimental characteristics by no more than 7–12% and significantly increases the efficiency of developing recommendations for improving the reliability of electrical work.

Measurement method of inductive resistance of the phase winding

the stator of the synchronous machine containing the excitation winding on the rotor 45 by connecting the exciter winding or the stationary rotor to the alternating voltage and measuring the winding current, closing one of the stator winding phases and measuring the current in it, preliminary measuring active winding phase resistance stator and

calculating the required inductive resistance of the dispersion using the gamma-type values, which differs 55 in that, in order to improve the accuracy, two other phases of the stator winding are preliminarily connected, the rotor is rotated to align its longitudinal axis with an exciter winding 31969694

nor with the axis of the closed phase, while dt is equal to the specified emf, and the emf is measured at each of the other phases, then the resulting emf is measured and the winding axes of the coils are excited by serially connected faunts and the closed stator windings su-. Zah stator winding.

Claims (1)

Claim A method for measuring the inductance of the stator winding phase scattering of a synchronous machine containing an excitation winding on a rotor by connecting the excitation winding of a fixed rotor to an alternating voltage and measuring the winding current, closing one of the phases of the stator winding and measuring the current in it, preliminary measuring the active resistance of the stator winding phase and calculating the desired inductive scattering resistance by measured values, characterized in that, in order to improve accuracy, pre-connecting sequentially, two other phases of the stator winding are identified, the rotor is turned until the longitudinal axis of its field winding is aligned with the axis of the closed phase, while the EMF is measured on each of the other phases, and the axes of the field winding and the closed stator winding are matched by the equality of the indicated EMF and then measure the resulting EMF on the stator windings connected in series.