SU702480A1 - Voltage vontroller for a synchronous generator - Google Patents

Description

(54) SYNCHRONOUS GENERATOR VOLTAGE REGULATOR

The invention relates to the field of: automatic control of electric machines and can be used to control the voltage of synchronous generators. Known voltage regulators for generators are known, which contain a thyristor key in the field of the excitation winding, which is supplied by an adjustable oscillator and a junction control system. A disadvantage of the known regulator is their complexity. The astatic static voltage regulator is also known. The regulator contains a thyristor key in the power supply circuit, the field windings and. a key control system that includes a threshold element with an input for connecting to a voltage, a generator, two relaxation CS generators connected to a voltage (generator and reference relaxation generator. The frequency of one relaxation RC generator is proportional to the controlled voltage, and the optimizing input of the thyristor switch is connected to the output of the reference relaxation RC generator, locking to the output of the first relaxation NS generator, and the output of the second relaxation RC generator and it is connected to the blocking input of the reference relaxation. KS generator. The presence of the relaxation KS gene of the rator, whose frequency is proportional to the controlled voltage, increases the controller's circuit, and the second relaxation KO generator and relaxation JS- a generator. are able to distinguish only a constant voltage level, which implies the use of a regulator only of a dc generator, when using a known regulator to control the voltage of a synchronous generator, additionally set the sinusoidal voltage generator to a constant and smoothing-out filter, which will slow down the regulation speed and complicate the design of the regulator. The purpose of the invention is to simplify the regulator and increase its speed, the synchronous generator voltage regulator containing the rectifier key in the supply circuit of the field winding.

Claims (3)

702480. a key management system containing a threshold element with an input For connecting to a generator voltage and a pulse generator unchanged; Frequency, the locking input of the thyristor switch is connected to the output of the threshold of the cell, unlocking the input of the thyristor switch is connected to the output of the pulse generator, the input of which is connected to the output of the threshold element. The drawing shows the proposed regulator, block diagram. The regulator contains a synchronous generator 1, a winding 2 for driving a synchronous generator, a reverse diode 3, a rectifier, 4, a thyristor key 5, a threshold element 6, a generator of 7 pulses of a constant frequency, locking the input 8 of the thyristor key, unlocking the input 9 of the thyristor key. The thyristor switch 5 is connected successively into the self-excitation circuit of the synchronous generator 1, consisting of rectifier 4, winding 2 of the excited and reverse diode 3.; The input of the threshold element 6 is switched on to the voltage of the generator, the output to the input of the pulse generator and to the locking 8 of the thyristor key. The output of the pulse generator is connected to the unlocking input 9 of the thyristor key. . The voltage of the synchronous generator G is supplied to the input of the threshold element b. If the amplitude on the lkey is greater than a predetermined level, threshold element 6 is triggered and pulses appear at its output, which are fed to the locking input 8 of the thyristor switch 5 and to the input of the constant-frequency pulse generator at the output of the threshold element equal to the frequency, or synchronous generator, Under the action of pulses from the output threshold: the element Go, the thyristor switch 5 is locked and breaks the power supply circuit of the excitation winding 2, and the pulse generator is activated at the pulse generator 7. A decrease in the current in the field winding leads to a decrease in the voltage of the synchronous generator. ; When the amplitude of this voltage decreases below a predetermined level, the threshold element b ceases to operate. and the pulses at its output disappear. as a result, it begins to generate pulses of the pulse generator 7, this leads to the appearance of pulses at the unlocking input 9 of the thyristor switch 5, which opens and restores the excitation winding power supply circuit. The natural frequency of the auxiliary pulse generator is chosen to be lower than the lowest operating frequency of the synchronous generator. Use, in the controller, the voltage of the synchronous generator and the threshold device capable of distinguishing the magnitude of the instantaneous value of the sinusoidal voltage, and ;; an auxiliary pulse generator of a constant frequency as a logical element DOESN'T distinguish the proposed voltage regulator from the specified prototype, as it allows to simplify the regulator circuit and increase the speed and accuracy of its operation.-. . These advantages ensure a reduction in the cost of the regulator during its mass production, as well as an increase in the efficiency of the power supply system when synchronous generators are used in them with the proposed regulator. Invention The voltage regulator of the synchronous generator, containing a rectifier and a thyristor key in the supply circuit of the excitation winding, has a key control system holding this threshold element with an input for connecting to. generator voltage and a constant frequency pulse generator, which differs from the fact that, in order to simplify the controller and increase its speed, the locking input of the thyristor switch is connected to the output of the threshold element, the unlocking input of the thyristor switch is connected to the output of the pulse generator, the input of which is connected to the output of the threshold element. Sources of information taken into account in the examination 1.ABTopCKde certificate of the USSR No. 214648, CL. H B2 P 9/30, 1965. 2. USSR author's certificate №287168, cl. H 02 R 9/30, 1966. 3. USSR author's certificate №163663, CL. H 02 R 9/30, 1962.