SU921054A2 - Device for charging reservoir capacitors - Google Patents

Description

() DEVICE FOR CHARGING CAPACITY DRIVES

I

The invention relates to an electrical equipment, in particular to secondary sources, and can be used to power pulsed optical quantum generators and pulsed radio installations.

A device for charging capacitive accumulators is known which uses inductive-capacitive transducers HZ.

The drawbacks of the device are the poor use of the transformer, the low power factor and the large installed power of the equipment.

The closest in technical essence to the invention is a device for charging capacitive storage, according to the author. ev / № 790133

containing two bridge rectifiers connected by input diagonals to an AC network through matching transformers and a current-limiting reactor, a charge choke

connected in series with the input diagonal bridge rectifiers, and a bypass valve connected in parallel to the output diagonal of one of the bridge rectifiers to the charging choke, and a capacitive drive; The charging choke is connected between the output diagonals of the bridge rectifiers, parallel to the output diagonal of the second

A 10 bridge rectifier and an additional second bypass valve are connected to the charge choke, and a capacitive drive is connected between the positive output terminal

15 diagonals of the first bridge rectifier and a negative terminal of the output diagonal of the second bridge rectifier t2.

Claims (2)

A disadvantage of this device is the low reliability of operation due to significant fluctuations in the power transmitted from the rectifier to the accumulators. 39 The purpose of the invention is to increase the reliability of the device by reducing the power fluctuations. To achieve this goal, between the outputs of bridge rectifiers, the first additional controlled valve and the additional storage device are connected in series, parallel to them and in series with each other, an additional first uncontrolled valve, a discharge choke and a second uncontrolled valve, one of the terminals of which is connected to a point connection of the first Auxiliary controlled ventilator and the additional accumulator, and in series with the main accumulator and one of the outputs of the bridge rectifiers, is connected in Ora additional controllable veYatil. Fig. 1 shows a circuit diagram of the device proposed; in fig. Figure 2 shows current and voltage timing charts on a drive. The device for charging capacitive accumulators contains bridge rectifiers 1 and 2, which are connected to the cathode and anode of the bypass valve 3 by their positive leads, and negative terminals to the cathode and anode of the second bypass valve k, respectively. Charger choke 5 is connected in series with rectifiers 1 and 2. Transformers 6 and 7 rectifiers 1 and 2 through the current limiting reactor 8 have an outlet for connecting an AC power source, Capacitive accumulators 9 are connected to rectifiers 1 and 2 through a controlled valve 10. An additional capacitive storage device 11 is connected to rectifiers 1 and 2 through the second controlled valve 12. To the outputs of the additional capacitive storage device 11, a valve 13 is connected out of control. To the terminals of the controlled valve 12 is connected through a discharge valve 1 choke 15 in FIG. 2 The concepts are as follows: curve 16 — time diagram of the charge current of the main accumulators 9f curve 17 time diagram of the voltage on the main accumulator 9, curve 18 — time diagram of the charge and discharge current of the additional accumulator 11, curve 19 the time diagram of the voltage on the additional drive 11. The device for charging capacitive drives works as follows. During operation, capacitive storage devices 9 are periodically discharged to the load. At the beginning of the next charge cycle or when the circuit is started, the current in the charged choke 5 of the libra is zero, or it has a value that is much less than the short-circuit current of the rectifiers 1 and 2, therefore the rectifiers 1 and 2 through the bypass valves 3 and k work in parallel capacitive accumulators 9-The charge current is determined by the value of the inductive resistance of the reactor 8, through which the rectifiers 1 and 2 are supplied with power from the alternating current network, and the magnitude of the voltage on the accumulators 9- When the voltage on the accumulators 9 increases, their currents , rectifier currents 1 and 2 and the currents of the valves 3 and 4 decrease, and the current of the charge throttle 5 which, through the open valves 3 t and 10 connected in parallel with the accumulators, increases. As soon as the increasing current of the throttles 5 is compared with the decreasing currents of the rectifiers 1 and 2, the currents of the bypass valves 3 and 4 become equal to zero, and the valves 3 are closed. Rectifiers 1 and 2 are connected in series through the charging choke 5 on. capacitive drives 9. through which at the time of switching equal currents flow. The parallel connection of the rectifiers 1 and 2 is replaced by a serial connection. The moment of switching the circuit is determined by the inductance value of the charge throttle 5 by the reactance value of the reactor 8 and the capacitance of the accumulators 9- After switching the circuit, the charging process of the accumulators 9 continues, and at the end of the charge cycle the accumulators 9 are charged to The no-load voltage of two series-connected rectifiers 1 and 2. When the main drives 9 are charged, the control valve 12 is turned on to a predetermined voltage value. Yelnia accumulator 11 through the valve 12 to the rectifier and 1 m 2obespechivaet off controlled switching valve 10 and the straightening Miguel 1 and 2 in parallel circuit. After the control valve 10 is shut off and its control properties are restored, the bone stores 9 are discharged to the load. The off time state of the controlled valve 10 is determined by the recovery time of the control properties of the control valve 10, the discharge time of the accumulators 9 to the load and the recovery time of the control properties of the switching devices through which the accumulators 9 discharge the load. During this time, the rectifiers 1 and 2 operate on an additional accumulator 1-1, which is charged to a voltage exceeding the residual voltage on the main accumulators 9 after being applied to the load. This ensures that the control valve 10 is reliably turned on when the control signal is turned off and the valve 12 is turned on. After the control valve 10 is turned on, additional storage 1 is discharged through the discharge choke 15 valve 1 and the control valve 10 to the main accumulators 9. The discharge choke 15 provides the oscillatory nature of the discharge and limits the rate of increase of the current in the valve 10. After the additional accumulator 11 is discharged to a voltage equal to zero, the valve 13 is turned on, which ensures the removal of energy from the discharge The throttle 15 and prevents the recharge of the additional storage device 11. Introduction to the charging circuit of controlled valves 10 and 12 ensures reliable operation of arc pulsed devices that are powered by capacitive storage devices 9 The invention allows to operate at a higher bit frequency, pulsed currents during periods of discharge and restoration of the resistance of arc devices after discharge have values comparable with the initial value of the charge current of the accumulators. During the discharge of the accumulators and during the restoration of the control properties of the pulsed switching devices, the bridge rectifiers 1 and 2 are disconnected from the accumulators 9. Introduction to the circuit of the additional accumulator 11 ensures that the rectifiers T and 2 are loaded during the discharge of the main accumulators 9 thereby reducing power fluctuations consumed from the AC network. Since the capacity of the additional storage device 11 is less than the capacity of the main storage device 9, the voltage across it increases rapidly, which makes the power consumption from the network closer to the average value. The introduction of the discharge throttle 15 and the valves 13 and} k provides is-. the use of energy stored in the additional storage device 11 to increase the charge rate of the main storage devices at low voltages, which leads to a decrease in the fluctuations in the power consumed from the network and to increase the reliability of the device. Claims of Invention A device for charging capacitive drives according to the authors. St. N 790133 is different in that, in order to increase the Reliability of the device in operation by reducing the power fluctuations, between the outputs of the rectifiers are connected in series the first additional controlled valve and the additional drive, in parallel to them and subsequently connected to each other the first uncontrolled valve, the discharge throttle and the second uncontrolled valve, one of the terminals of which is connected to the connection point of the first additional controlled valve and the additional accumulator, and tionary with the main drive and zdnym outputs of rectifiers included a second additional controllable valve. Sources of information taken into account in the examination 1. The author's certificate of the USSR N- 565388, cl. H 03 K 3/53 1977. 2. USSR author's certificate number 790133, cl. H 03 K 3/53, 1971 (prototype). L zl one i- 5Z  A 10 i L / i