SU864508A1 - Device for charging reservoir capacitor - Google Patents

Description

The invention relates to electrical engineering and is intended for use in electrical and electrical power installations for various purposes, in particular in the circuits of impulse current and voltage generators. . A device for charging a storage capacitor, containing an alternating current generator, to whose winding the storage capacitor is connected, is known, the generator excitation winding is connected to the power supply of the excitation circuit through regulator 1. The disadvantage of this device is low efficiency. The closest to this invention is a device for charging a storage capacitor, comprising a DC generator consisting of a core, to the terminals of which a rectifier is connected, and (excitation winding, the first terminal of which is connected to the first power supply terminal, the first of which is connected to the first output of the rectifier, a coal voltage regulator consisting of an electromagnet and a coal column rigidly interconnected, the first and second terminals of which are connected from Correspondingly to the second output of the excitation windings and the second power supply bar (2). However, the disadvantage of this device is also low efficiency. The purpose of the invention is to increase the efficiency. The goal is achieved by the fact that the storage capacitor charging device, consisting of a core, to the terminals of which a rectifier is connected, and an excitation winding, the first terminal of which is connected to the first power supply terminal, a storage capacitor, the first plate of which is connected to the first output bus of the rectifier bodies coal voltage regulator, consisting of rigidly interconnected electromagnet and coal column, first and second terminals of which are connected respectively to a second terminal and a second excitation winding power schine, introduced an additional

An electromagnet whose winding is connected through a resistor in parallel to a storage capacitor, the second lining of which is connected via a shunt to the second output bus of the rectifier, and parallel to the shunt of a spiked Hall sensor, to the outputs of which the electromotive coil of the voltage regulator is connected to the outputs of the direct current amplifier.

The drawing shows a diagram of the device.

The device contains a direct current generator 1, consisting of a core 2, a rectifier 3 and excitation winding 4, a storage capacitor 5, a carbon voltage regulator 6 consisting of an electromagnet 7 and a coal column 8, an additional electromagnet 9, a resistor 10, And shunt, Hall sensor 12, DC amplifier 13.

The device works as follows.

In the process of charging the storage capacitor 5 through the winding of the additional electromagnet 9, a TOK flows, the value of which is proportional to the voltage on the charging storage capacitor 5. Therefore, in the absence of saturation in the magnetic circuit of the additional electromagnet 9, the magnetic induction in the nonmagnetic gap of the additional electromagnet 9 is proportional to the voltage; A charging capacitor 5 is charged to the input of the Hall sensor 12. A current proportional to the charging current of the condensate condenser S flows. Therefore, the output of the Hall sensor 12 induces an emf that is proportional to the product of the voltage of the charging storage capacitor 5, i.e. . It is proportional to the charging power of the storage capacitor 5. The signal from the output of the Hall sensor 12 is amplified by the DC amplifier 13, and the current flows through the winding of the electromagnet 7 of the carbon voltage regulator.

The greater the instantaneous value of the voltage on the charging storage capacitor 5 and the larger the instantaneous value of the charging current of the charging storage capacitor S, i.e. The higher the charging power of the storage capacitor 5, the greater the emf value at the output of the Hall Hall 12. This leads to an increase in the voltage at the input and output of the DC amplifier 13 and the current in the winding of the coal 7 of the voltage regulator 6. The latter entails an increase in the resistance of the coal pillar of the coal pei of ultor 6 to voltage. If the charging process

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cumulative capacitor 5 flows in the mode of constant power, the EMF at the output of the Hall sensor 12 is unchanged in magnitude. Therefore, unchanged is

J The winding current of the electromagnet 7, the coal voltage regulator 6, remains unchanged the resistance of the coal column of the coal voltage regulator 6 and the current in the excitation winding of the DC generator with an increased efficiency.

In this device, the excitation current of the dc generator is automatically controlled in such a way that it charges the storage capacitor in a constant power mode.

Claims (2)

1. Bertinov A.I. and others. Increasing the degree of use of a synchronous generator operating through a rectifier on a pulsed load. Electricity, 1969. N 8, p. 1418. 2. Reports of the All-Union Scientific and Technical Conference of the 1 st Conference on Contactless DC Machines. M., 1970, p. 101-108.