SU412674A1 - - Google Patents

Description

The invention relates to radio engineering and pulse technology.

A voltage multiplier is known, which contains a storage capacitor, diodes, and two inductive energy storages are connected in parallel with the voltage source, with each of them carrying a thyristor, between which the switching capacitor is connected between the anodes.

The purpose of the invention is to stabilize the consumed mondality from a voltage source. For this purpose, two counter-switched diodes are connected between the thyristor anode, the common point of which is connected to a voltage source through a capacitor.

The drawing shows a diagram of the proposed multiplier.

It contains a source / DC voltage, a four-arm bridge consisting of two inductive drives 2 and 3, two thyristors 4 and 5, the diagonal of which includes a switching capacitor 6 and a circuit consisting of two opposite diodes 7 and 10 connected by cathodes. 8, a storage battery of capacitors 9, the H terminal of which is connected to the common point of the separation diodes 7 and 8, and the terminal is not connected to the common point of inductive drives 2 and 5, the control unit of the thyristhoralignant 10 N key 11, which can be both mechanical and tiris tornom.

In the initial position, the key is open and the control unit1 gives out impulses to the control values of the thyristors. The thyristors are in a non-conducting state, the current does not flow through the IJ inductive drives. When the key is turned on, the voltage source is applied to the control unit. The control unit begins to generate pulses that are alternately fed at a fixed frequency to the thyristor control circuits. The pulse period can be adjusted within wide limits. When a pulse is received from the control unit into the control circuit of one of the thyristors, for example 4, thyristor 4 opens and starts charging the accumulator 2 along the circuit: plus source of thread 7, tip 2, transformer 4 and minus of source of thread. At the same time, a switching capacitor 6 is charged from the power supply source / through tip 3 and tuner 4 to powered supply voltage / charging switch is charged. After a certain time, set by the frequency of the control unit, the control emulsion arrives at the thyristor 5. The thyristor 5 opens and the voltage of the switching capacitor 6 is applied to the driver 4. The receiver 4 is closed, the charge circuit of drive 2 is broken and}; The inductive storage device 2 is discharged simultaneously to a capacitor 6 and a storage battery of capacitors 9. At the same time, the capacitor 6 is not rechargeable, and the battery of capacitors 9 is recharged by the energy stored in storage device 2. Simultaneously with the discharge of storage device 2, the inductive storage device 3 is charged. along the circuit: plus power supply /, accumulator, thyristor 5 and minus power supply /. After a time interval determined by block 10, the control pulse arrives at thyristor 4. Thyristor 4 opens and capacitor 6 discharges to thyristor 5. Thyristor 5 closes and the charging circuit of accumulator 3 is broken. The process of charging accumulator 3 is similar to the above described process of charging accumulator 2. With this.m, it should be noted that the energy accumulated in inductive storage device 2 (or 3) when it is discharged is distributed between the switching capacitor 6 and storage capacitor 9 proportional to their capacitors, and the voltage up to which capacitor 9 can be charged is determined by the class of thyristors and valves used and the class of insulation of the circuit elements, since the value is e. d. caNroinduction arising from the rupture of an inductive storage circuit has no other limitations.

Thus, the process of charging and discharging inductive drives is repeated at a frequency set by the control units until the voltage on the storage capacitor 9 reaches a predetermined value, after which the switch turns off the power supply circuit.

Subject invention

The voltage multiplier on the thyristors containing the storage capacitor, the codes, and parallel to the voltage source, two inductive energy storage devices are connected, with each of which are connected in series thyristors, between the anodes of which the switching capacitor is connected, and the control circuits of the thyristors are connected to the output of the control pulse generator , characterized in that, in order to stabilize the power consumption from the voltage source, between the anodes of the thyristors are connected two opposing diodes, the common point of which is connected via a storage capacitor to a source of radiation.