SU1171952A1 - Independent source of stabilized voltage - Google Patents

Abstract

AUTONOMOUS SOURCE OF STABILIZED FREQUENCY, containing a dual power machine, a pathogen installed on the same shaft, a current regulator, connected to the stator winding of the dual power machine, and the output to the stator winding of the exciter, the rotor winding of which is connected to the rotor winding of the exciter, the rotor winding of the motor, the rotor winding of the motor, the rotor winding of the modulator, , about t - which, in order to increase the efficiency and improve the weight and size parameters, a three-phase ring transformer, the rotor winding of which is made, is used as the exciter and sectioned in the form of parallel branches, some of the outputs of which are connected to the output of a thyristor switch mounted on the rotor of a three-phase ring transformer, and the other terminals are connected to the rotor winding of a dual-feed machine, on the shaft of which a single-phase pulse transformer with a system i of a pulse-phase control is also installed a thyristor switch on the rotor and (L rotation sensor, the output of which is connected to the first input of the comparison node, the second input of which is connected to the setpoint frequency, and the output to the stator winding of a single-phase pulse transformer, the rotor winding of which through a pulse-phase control system of the thyristor switch is connected with a control input of the latter. : about joint venture to

Description

111 The invention relates to electrical engineering and can be used in devices designed to obtain a voltage of stable frequency at a variable rotor speed. The aim of the invention is to increase the efficiency and improve the weight and size indicators. The drawing shows an electrical circuit of an autonomous source. A stand-alone source of stabilized frequency contains a dual-power machine 1, an exciter 3 installed from a non-single shaft 2, a current regulator 4, connected to the stator winding 5 millini 1 double power, and an output to the stator winding 6 of the exciter rotor the winding 7 of which is associated with the rotor winding 8 of the dual-feed machine 1. As an exciter 3, a three-phase ring transformer is used, the rotor winding 7 of which is partitioned into several parallel branches, some of which are connected to the output of the thyristor switch 9 mounted on the rotor of the three-phase ring transformer 3, and the other are connected to the rotor winding 8 of machine 1 a double power supply, on the shaft 2 of which a single-phase pulse of the transformer 10 with the system 11 of the pulse-phase control of the thyristor switch 9 on the rotor, and a 12 hour sensor are also installed From the rotation, the output of which is connected to the first input of the comparison unit 13, the second input of which is connected to the frequency setting device 14, the output to the stator winding 15 of the single-phase pulse transformer 10, the rotor winding 16 of which through the pulse-phase control system 11 of the thyristor switch 9c is connected control input after it. The device works as follows. When the shaft 2 is rotated due to the residual magnetic field in the stator winding 5 of the double-feed machine 1, an electromotive force is generated, under the action of which current flows through the rotary winding 7 of the three-phase current regulator 4, and the current flows through 2 branches of the rotor winding 7, which is currently closed by a thyristor switch 9. At the same time, the switching frequency of the rotor winding 7 of a ring three-phase transformer 3 by a thyristor switch 9, by means of a system pulse phase control 11 is set such that the frequency of the output voltage of the dual power machine 1 is stable, regardless of the frequency of rotation of the shaft 2 by the prime mover. The switching frequency is determined from the system of equations f & f. where fp is the frequency of the current in the rotor winding 8 of the dual-feed machine 1; frequency setting frequency 1 4; rotor slip; output current frequency of the stator winding 5 of the dual power machine; switching frequency of the thyristor switch 9. Where f-1 If the frequency setting frequency 14 is equal to the output frequency of the machine 1 dual power, then fj (1 - S) Thus, regardless of the rotor frequency of the machine 1 dual power, controlled by the thyristor switch 5 according to the law ( 3) we will receive a stabilized frequency at the output of the machine 1 of dual feed. A single-phase pulse transformer 10 serves to transmit signals from the comparison node 13, to the inputs of which the frequency adjuster 14 and the rotational speed sensor 12 are connected, to the system 11 of the pulse-phase control of the thyristor switch 9. Thus, the use of the device allows to increase the efficiency There is no double power conversion, first in a static frequency converter with a DC link, and then in a stator

asynchronous machine exciter, as well as reduce the weight and size indicators of an autonomous source of stabilized frequency by replacing the controlled static converter - 5 switch,

frequency receiver with DC link and asynchronous machine driver on simple three-phase ring transformer and thyristor

Claims (1)

AUTONOMOUS SOURCE OF STABILIZED FREQUENCY, comprising a dual-power machine, an exciter installed with it on one shaft, a current regulator connected inlet to the stator winding of the dual-power machine, and the output to the stator winding of the exciter, the rotor winding of which is connected to the rotor winding of the dual-power machine, - '· characterized in that chtb, with the aim of increasing. Efficiency and improvement of overall dimensions, the exciter used a three-phase ring transformer, the rotor winding of which is sectioned in the form of parallel branches, some of which are connected to the output of a thyristor switch mounted on the rotor of a three-phase ring transformer, and the other conclusions are connected to the rotor winding of a dual-power machine on the shaft of which there is also a single-phase pulse transformer with a pulse-phase control system of a thyristor switch on the rotor there is also a rotation sensor, the output of which is connected to the first input of the comparison unit, the second input of which is connected to the frequency adjuster, and the output to the stator winding of a single-phase pulse transformer, whose rotor winding is connected through the pulse-phase control system of the thyristor switch to the control input of the latter. SU ... 1171952