SU790133A1 - Device for charging capacitive accumulators - Google Patents

Description

one

The invention relates to electrical engineering, in particular to secondary sources, and can be used to power pulsed optical quantum generators / pulsed 5 welding machines and pulsed radio installations.

A device for charging capacitive accumulators is known, consisting of series-connected inductive-10 volt-capacitor rectifier converter and capacitive storage device 1.

The disadvantage of this device is that the active activity significantly fluctuates during charging. five

The closest in technical essence to the present invention is a device for charging capacitive storage, containing two bridge rectifiers connected by 20 diagonals to an AC network through matching transformers and a current-limiting reactor, a charging choke connected in series with the diagonals bridge rectifiers, and a bypass valve connected in parallel to the output diagonal of one of the bridge rectifiers and a charged rosel, and capacitive storage

The disadvantage of the described device is the unequal loading of rectifiers and transformers, which worsens the use of circuit elements and reduces the efficiency.

The purpose of the invention is to equalize the power consumed by the elements of the device and to increase the efficiency.

The goal is achieved by the fact that in a device for charging capacitive storage, containing two bridge rectifiers connected by input diagonals to an AC network through matching transformers and a current-limiting reactor, a charging choke connected in series with the input diagonals of bridge rectifiers and a bypass valve connected in parallel with the output diagonal of one of the bridge rectifiers and the charging choke, and the capacitive storage device, the charging choke is connected between the output diagonal E vyp- bridge. The drivers, parallel to the output diagonal of the second bridge rectifier and the charged choke are connected to an additionally introduced second bypass valve, and a capacitive drive is connected between the positive terminal of the output diagonal of the first bridge rectifier and the negative terminal of the output diagonal of the second bridge rectifier.

The drawing shows a diagram of a device for charging capacitive drives.

The device for charging capacitive accumulators contains bridge rectifiers 1 and 2, which are connected to the cathode and anode of the bypass valve 2 with positive terminals of the output diagonals, respectively, and with the negative terminals of the output diagonals of the second bypass valve 4, the capacitive drive 5 is connected to the positive output of the output diagonal of the bridge rectifier 1 and the negative output of the output diagonal of the bridge rectifier, 2, the charging choke 6 is connected in series with the bridge rectifier By the driver 1 and 2, and the input diagonals of the rectifiers through transformers 7 and 8 and the current-limiting reactor 9 are connected to the AC network.

When the device is operating, capacitive storage 5 is periodically discharged to the load. At the beginning of the next cycle of charging or starting the circuit, the current in the charged choke 6 is either zero or has a value that is much less than the short-circuit current of the bridge rectifiers 1 and 2, therefore the bridge rectifiers 1 and 2, respectively, through the bypass valves 4 and 3 operate in parallel on the capacitive drive 5. The charging current is determined by the value of the inductive resistance

current-limiting reactor 9 through which the bridge rectifiers 1 and 2 are fed from the AC mains, and the magnitude of the voltage on the capacitive storage 5. When the voltage increases

capacitive storage 5 their current currents. bridge rectifiers J and 2 and the currents of the bypass valves 3 and 4 are reduced, and

The charge choke 6 current, which is open across valves 3 and 4 and connected in parallel with the capacitive storage, is increased. As soon as the increasing current of the charge droplets 6 is compared with the decreasing currents of the bridge rectifiers 1 and 2, the currents in the bypass valves will be zero and they will close. The bridge rectifiers 1 and 2 will be connected in series through the charging choke b to the capacitive drive 5, which, at the instant of switching, have equal currents. The parallel connection of the bridge rectifiers 1 and 2 is replaced by a serial one. The moment of switching the circuit is determined by the magnitude of the inductance of the charge

throttle 6, the magnitude of the reactance of the current-limiting reactor 9 and the capacitance of the capacitive storage 5. After switching the circuit, the charging process of the capacitive storage continues and at the end of the charging cycle the capacitive storage is charged to a voltage close to the values of two series connected bridge rectifiers 1 and 2. with an increase in the frequency of the discharges, the voltage at the end of the charge cycle decreases, while the amount of active power consumed from the network remains unchanged.

The inclusion of a charge throttle between successively connected bridge rectifiers and the introduction of a second bypass valve ensures the parallel operation of bridge rectifiers and the same power load of bridge rectifiers and matching transformers at the beginning of the charge cycle. Equal current loading of bridge rectifier valves provides increased efficiency.

invention formula

A device for charging capacitive accumulators containing two bridge rectifiers connected by input diagonals to an AC network through matching transformers and a limiting reactor, a charging choke connected in series with the input diagonals of bridge rectifiers, and a bypass valve connected in parallel to the output diagonal one of the bridge rectifiers and the charging choke, and a capacitive storage device, characterized in that, in order to equalize the power consumed by the elements of the device, and In terms of efficiency, the charge choke is connected between the output diagonal of bridge rectifiers, parallel to the output diagonal of the second bridge rectifier and the charging choke is connected to an additionally introduced second bypass valve and a capacitive drive connected between the positive terminal of the output diagonal of the first bridge rectifier and the negative terminal of the output diagonal of the second bridge rectifier.

Sources of information taken into account in the examination

1. Mil x A.I., Kubyshin V.E. and Volkov I.V. Inductive-capacitive converters .. Kiev, Naukova Dumka, 1964, p. 304.

2. USSR author's certificate 310333, cl. H 02 K 7/04, 07.27.71 PROTOTYPE;).

Claims (1)

Claim A device for charging capacitive accumulators containing two bridge rectifiers connected by input diagonals to an AC network through matching transformers and a current-limiting reactor, a charging choke connected in series with the input diagonals of bridge rectifiers, and a bypass valve connected in parallel to the output diagonal of one of the bridge rectifiers and charging throttle and capacitive drive, characterized in that, in order to equalize the power consumed by the elements of the device, and eniya efficiency, charging choke is connected between the output of bridge rectifier diagonals parallel to the output of the second diagonal of the bridge rectifier and the charging choke connected additionally introduced second bypass valve, and a capacitive accumulator is connected between the positive output terminal of the first diagonal of the bridge rectifier and the negative output terminal of the second diagonal of the bridge rectifier.