SU1624347A1 - Device for measuring and recording the angle between the current and electromotive force in synchronous motors - Google Patents

Abstract

The invention relates to electrical engineering and may find application in the control of the operation of synchronous electrical motors. In order to simplify the device for measuring and recording the angle of the shift between the meters and the electromotive forces i c. Their machine, which is usually defined by ms equals the sum of two other vrnoe - angle 0 and ridge (p phase shift between current and core voltage), introduces a rectangular frame 4, located in the stator bore, the axis of the frame 4 coincides with the axis of one of the winding phases The stator 1, the current of which is recorded. The lead ends of the frame 4 are connected to the terminals of the voltage of the phase meter 3, and the secondary winding of the current transformer 2, connected to the phase, is connected to the current terminals of the phase meter 3. To the terminals of the fsometer 3 podg magnetoelectric device 5 and and i i- iU iroid b oscilloscope. 3 sludge (L C Figure 1

Description

Injection is in the field of electrical engineering and can be used to monitor the operation of synchronous electric machines.

As is known, the angle between the current of the core (stator) and the EMF E0 induced by the magnetic flux of the excitation winding F in the winding of the core, depending on the degree of excitation, is determined by the sum (or difference) of the angles: the angle p of the phase shift between the current and the voltage of the core and the angle 0 phase shift between emf ej and voltage. Angle © is also called the run-out angle of the rotor of a synchronous machine. In an overexcited machine Hg, and an un-excited machine Hy - 0. Typically, the angle H1 is determined by measuring the two angles mentioned.

The purpose of the invention is to simplify the device while providing a measurement of the phase shift angle between the current and the electromotive force of a synchronous machine.

FIG. 1 shows a diagram of the device; in fig. 2 and 3 - oscillograms, which shows the angle H.

The stator winding phase is conventionally shown by one coil 1, the circuit of which includes a current transformer 2, the secondary winding of which is connected to the current terminals of phase meter 3, and the output terminals of the measuring frame 4 are connected to the voltage terminals of phase meter 3. Phase meter 3 measures the phase difference between the current and electromotive force E0, i.e. angle H ;. To the output of the phase meter 3 are connected in series a magnetoelectric device 5 or a vibrator b oscil / ograf.

The device works as follows.

The EMF Eo, induced in the rectangular frame 4, corresponds to the position of the rotor, since the vector EMF Eo coincides with the transverse axis of the machine. When the load of the machine changes, the stator current vector changes its position relative to the transverse axis, as a result of which

angle H between the current core and EMF € 0. Giving to the corresponding terminals of the phase meter 3 the voltage of the frame 4 and the current from the secondary winding of the current transformer 2 connected to the stator phase, measure the angle H between the current of the core and the EMF.

For oscillography of the angle P1, the lead ends of the frame 4 and the terminals of the secondary winding of the current transformer 2 are connected to the oscillator 6 vibrator 6.

In the waveform of FIG. 2 shows the angle H / 1 between the current () and the EMF E0 (II) at a stator current I 5.1 A, phase voltage 1 / f 124.8 V, power P 990 W and excitation current If 2A when in a synchronous machine operating in engine mode, there is a sub-mode. In this mode, the angle of 40 ° is negative.

In the waveform of FIG. 3 shows the angle

 between gok (I) and E0 (I) with a stator current I 5.1 A, a phase voltage of 11 p 125.5 V, a power of P 1050 W and an excitation current of U 6 A. This corresponds to the overexcitation mode and an angle of 66.

Claims (1)

Apparatus of the Invention A device for measuring and recording the phase angle between a current and an electromotive force of a synchronous machine, comprising a rotor position sensor and a registering unit comprising a series-connected magneto-electric device and an oscilloscope vibrator, characterized in that, in order to simplify the device, the rotor position sensor is fully complete in the form of a rectangular frame with a width equal to pole division and located on the stator bore so that its axis coincides with the axis of the winding of that phase the stator, the current of which is recorded, also additionally introduced a current transformer connected to the stator winding circuit, a phase meter, current clamps of which are connected to the secondary winding of the current transformer, and clamps for connecting the voltage connected to the rotor position sensor square The recording unit is connected. 0 FIG. 2