SU898599A1 - Device for charging reservoir capacitor - Google Patents

Description

() DEVICE FOR CHARGING ACCUMULATING CAPACITOR

one

The invention relates to a pulsed electrical engineering and can be used in other branches of the national economy, where three-phase sources of alternating current are used as sources of direct current; Short-circuit together with resonant inductive-capacitive circuits and venturi-compensatory rectifiers with voltage multipliers.

A device for charging a storage capacitor is known, which contains a three-phase AC source connected via a valve-inductive three-phase rectifier to the capacitors of the storage capacitor 1.

Such a device has a relatively low maximum voltage value, the magnitude of which. It is only half the amplitude of the linear voltage of the three-phase power supply.

A device for charging the storage capacitor is also known. | containing a three-phase AC source, a bridge rectifier made on six sub-conductors and an output connected via inductive resistance to the plates; a storage capacitor, and the input to the outputs of a three-phase AC source through three reactive current-limiting resistances.

This device has a relatively low maximum charge voltage, equal to the amplitude value of the linear voltage of a three-phase AC source, and low specific energy indices due to the use of six semiconductor devices.

Claims (3)

The closest in technical essence to the invention is a device for charging a storage capacitor containing a three-phase one: -; A current with six phase outgrowths, three chains, each 1e of which the HEH consists of a series of GVD, 1N “lined lily of the other villages and a kondiyator, the magnitudes of the reactive resistances on the source's materiel are absolutely equal to each other, and the plate is free each capacitor is connected to the corresponding phase output, and three valves, two of which are uncontrolled, and one controllable, with the controllable power supply of its own cathode connected to the storage capacitor, and the anode of the first uncontrolled valve connected to the point of connection of the capacitor and the line throttle of the first chain 3. However, the known device has a relatively low maximum charge voltage on the storage capacitor, the value of which is O.ZCP. de O is the quality factor of the circuit, its state and of two capacitors, two linear chokes and two phases of the alternating current source, ETF is the amplitude value of the phase voltage of the three-phase power source. The aim of the invention is to increase the maximum charge voltage on the storage capacitor. The goal is achieved by the fact that a device for charging an accumulating capacitor, containing a three-phase AC source with six phase leads, three circuits each of which consist of successively connected linear throttles and a capacitor, the magnitudes of the reactances at the source frequency are equal in absolute value between each other, and the free plate of each capacitor is connected to the corresponding phase output, and three valves, two of which are uncontrollable, and one is controlled, and the pack the equal valve is connected by its cathode to the accumulator capacitor, and the anode of the unmanaged first valve is connected to the connection point of the capacitor and the line throttle of the first circuit are additionally equipped with two capacitors, and the free phase terminals are connected to the corresponding free terminals of the linear chokes, and one additional capacitor - -included between the combined terminals of the capacitor and the stopoft linear throttle of the third phase, the other one connected with the corresponding phase wiring and 8X8-8 the first and second circuits, respectively, the combined phase output and the output of the third circuit of the third circuit are connected to the cathode, and the second circuit to the anode of the second uncontrolled valve, while the combined capacitor and linear throttle terminals of the second are connected to the cathode of the first uncontrolled valve , the first circuit to the free plate of the storage capacitor, and the third circuit to the anode of the controlled valve. Such a circuit solution allows to increase the maximum charge voltage on the storage capacitor, which exceeds the amplitude value of the phase voltage of a three-phase AC source, which, while preserving the mass and dimensions of the device, provides a significant increase in the electrical energy stored by the storage capacitor in one charge cycle. Yes. The drawing shows a circuit diagram of a device for charging a storage capacitor. The device for charging the storage capacitor contains a three-phase AC source with six phase leads 1-6, three circuits, each consisting of a linear throttle 7 (8.9), a capacitor 10 (11.12), phase windings 13 (1 , 15) two uncontrolled valves 16 and 17, two additional capacitors 18 and 19, one of which (l8) is connected between the connection point of the capacitor 11 and the line throttle 8 of the second circuit and the connection point of the capacitor 12 and the line throttle 9 of the third circuit, the other - 19 is connected between phase terminals 1 and 3, accumulative A capacitor 20, a controllable valve 21, and a thyristor voltage control and control unit 22, the uncontrollable valve 16 being anode connected to the phase terminal 3, and the cathode to the phase terminal 5, the uncontrolled valve 17 connected by the anode to the connection point of the linear throttle 7 and the capacitor 10 of the main circuit, and the cathode to the point of connection of the linear throttle 8 and the capacitor 11 of the second circuit, the storage capacitor 20 is connected to the anode of the uncontrolled valve 17 with a negative capacitor, the positive electrode with the cathode 21 It is connected to the connection point of the capacitor 12 and the additional capacitor 18. The device for charging the storage capacitor operates as follows. Each phase winding 13 (1, 15 together with a linear choke 7 (8.9) and capacitor 10 (11,12) form successive I1C-circuit, whose inductive and capacitive impedances at the source frequency are equal in modulus of the source, due to what is the resonance of voltages, in which the instantaneous values of the resonant voltages arising on the inductive-capacitive elements of each circuit are equal in absolute value to each other and opposite in phase. Prg.1 this is due to the use of a three-phase source in the cameo per An alternating phase windings with instantaneous phase windings are instantaneous: the values of resonant voltages t on the corresponding inductive-bone elements of all three circuits and, in particular, three linear thrusts x 7-9, are shifted relative to each other by 120 e. degrees, their amplitudes equal to Q-, where Q is the quality factor of a circuit containing one phase winding 13 (H, 15), one linear choke 7 (3.9) and one capacitor 10 (11.12), Etf phase voltage amplitude. When the Q factor of the loop is on the order of 20-30 s, the accuracy level sufficient for engineering calculations can be excluded from consideration of the voltage values on the phase windings, since they are significantly less than the voltage values that appear on the inductive-capacitive elements of the successive resonant circuits. With the closed controlled valve 21, electromagnetic processes taking place in the device proceed as follows. In the time interval at. . which instantaneous value 39 & . the total voltage added from the instantaneous values on the linear throttles x 8 and 9 and the additional capacitor 18 is applied to the anode of the uncontrolled valve 1b and is positive with respect to its cathode, it opens and the charging current of the additional capacitor 18 flows through it. this supplement-- The capacitor 18 is charged until the voltage is -ViC) E-rf. In the time interval at which the instantaneous value of the total voltage, which is the sum of the instantaneous values of the voltages on the linear throttles x. 7 and 8 and an additional condensate 19, is applied to the anode of the uncontrollable valve 17 and is positive with respect to its cathode, it opens, and the charging current of the additional capacitor 19 flows through it. At the same time, the additional capacitor 19 is also charged before the voltage equal to .E1-f. Since the amplitudes of the voltages at the linear throttles x 7 and 8 are out of phase by 120 electrical degrees. and - with the open controlled valve 21, these chokes in the charge circuit of the storage capacitor 20 are provided with counter-connected, the maximum value of the voltage to which the drive can be charged - the i-th capacitor 20 is composed of the voltages on the additional capacitors 18 and 19 and linear throttles x 7 and 8 and the storage capacitor 20 is charged, and its maximum voltage is equal to QE, Block 22 monitors the voltage on the phase windings 13-15 and on the storage capacitor 20, as well as by applying control pulses a control electrode 21 provides the ability to control the voltage level to which a storage capacitor 20 is required to charge. Claim of Invention A device for charging a storage capacitor containing a three-phase AC source with six phase leads, three circuits, each consists of .. successively connected linear throttles and a capacitor, the reactive resistances of which at the source frequency are equal in absolute value to each other, and the freedom one plate of each capacitor is connected to the corresponding phase output, and three valves, two of which are uncontrolled, and one controlled, the controlled valve with its cathode connected to a storage capacitor, and the anode of the first uncontrolled valve connected to the point of capacitor and linear connection Drosel of the first circuit, characterized in that, in order to increase the maximum voltage on the storage capacitor, it is additionally equipped with two capacitors, and the free phase terminals are connected They are connected to the corresponding free terminals of the linear chokes, with one additional coefficient connected between the combined outputs of the capacitor and the line chokes of the second and third circuits, the other between the combined corresponding phase output and the output line linear throttle, respectively, of the first and second circuits the throttles of the third circuit are connected to the cathode, and the second circuit - to the anode of the second uncontrolled valve; the combined terminals of the linear throttle capacitor of the second circuit are connected enes to the cathode of an uncontrolled first valve, the first circuit - the free plate of the storage capacitor, and the third chain - to the anode of a controllable valve. Sources of information taken into account in the examination 1. The copyright certificate CCCR №, cl. H 02 M 7/06, 1977. 2. USSR author's certificate number 323853, cl. H 03 K 3/53, 1972. 3. Author's certificate of the USSR according to the application N 2596778/07, cl. H 02 M 7/06, 09/25/78 (prototype)