RU15434U1 - VOLTAGE CONTROL DIAGRAM OF BRUSHLESS SYNCHRONOUS GENERATOR - Google Patents

Abstract

The voltage regulation circuit of a brushless synchronous generator, comprising a synchronous generator with a three-phase exciter excitation power supply circuit, an exciter, a three-phase rectifier diode supplying the excitation winding of the synchronous generator on the rotor, a control circuit, setting and regulating the generator voltage, characterized in that in a three-phase exciter excitation power circuit a three-phase control transformer with a servo drive is installed for mechanical movement of the parts of the control transformer, rpm TCA excitation exciter, located on the stator is in the form of three-phase windings and is connected to the output of the regulating transformer rotatably its magnetic field in the opposite to the rotation directions of the exciter rotor.

Description

The proposed utility model relates to the field of electromachine phosphoenin and relates to regulating the voltage of acetic synchronous generators.

There are known DIAGRAMS for regulating the excitation of the exciter of a single-brushless brushless generator through cxeaviy controlled thyristor rectifiers (IA Glebov. QiCTeMbi excitation of pulsed synchronous machines. Leningrad. Science. LO. 1979). The disadvantage of these circuits is their complexity, nahfimf requires a clear synchronization of the thyristors in relation to the frequency of the supply voltage. Yes, and the voltage interfered with by these circuits contains voltage ripples of a sufficiently large amplitude, which determines the quality of the electrical energy of this gender

The task of creating a utility model is to eliminate the JZZhEshe neeyostazki, namely the fading of the circuit and improving the quality of electrical energy of the syn dune generator

The delivered task is solved due to the fact that in the voltage control circuit of the synzon beocetate generator in the three-phase excitation power supply circuit, an exciter is installed. A regulated transformer is installed (wired with the utility model of the Russian Federation No. 9088, L1P27 / 00) with

servo for mechanical nqjcMenteHUH of its parts. The transformer makes a jiggling and continuous adjustment of the three-phase heating from 0 to the nominal value. Further, it allows the excitation of the exciter to be carried out in the form of a three-phase, switched on so that its magnetic field rotates in the rotor, which is opposite to the rotation

pathogen In these three-phase windings of the exciter rotor, under these conditions, a double frequency voltage is detected with respect to the frequency of the generator. If this voltage is rectified, the voltage fluctuation of the generator exciter is much smaller in comparison with the known schemes.

The utility model is illustrated by the drawing, which shows the general voltage-dependent voltage regulation circuit) HHoro gene € 5zhgor) and the circuit diagram, the following blocks are designated: block 1 - generator, 2 - excitation winding, 3 - diode rectifier, 4 - three-phase regulation transformer, 5 - sfvvodriv, 6 - control circuit, specifying the regulation of the generator voltage The output of block 1 is connected to the inputs of blocks 4, 6. The input of block 4 is also connected to block 5, which in turn is connected to the output of block 6. The input of block 4 is connected to block 2. Three phase voltage from generator 1 is fed to a three-phase regulating transformer 4. Next, a three-phase voltage regulated from O to nominal voltage is supplied to the three-phase excitation winding of the exciter 2. From the three-phase winding of the exciter-gel rotor, the voltage is twice the voltage, compared with the frequency of the voltage of generator 1, is fed to a three-phase diode

rectifier 3 and then the rectified voltage feeds the field winding on the generator rotor The mechanical movement of the parts of the outgoing transformer 4 is carried out by a servo drive 5, which in turn is powered by the control, task, voltage regulation reHCf TOpa 1.

The proposed utility model is distinguished by the simplicity of the circuit and allows to improve the quality of the energy of the syshphonic reHq aropa

Claims (1)

The voltage regulation circuit of a brushless synchronous generator, comprising a synchronous generator with a three-phase exciter excitation power supply circuit, an exciter, a three-phase rectifier diode supplying the excitation winding of the synchronous generator on the rotor, a control circuit for setting, setting and regulating the generator voltage, characterized in that in a three-phase exciter excitation supply circuit a three-phase control transformer with a servo drive is installed for mechanical movement of the parts of the control transformer, rpm TCA excitation exciter, located on the stator is in the form of three-phase windings and is connected to the output of the regulating transformer rotatably its magnetic field in the opposite to the rotation directions of the exciter rotor.