SU411636A1 - - Google Patents

Description

one

The invention can be used to convert a direct current of a predetermined voltage into a direct current of a lower voltage.

DC disconnectors are known with parallel-capacitive switching, between which the cathode and the anode of the power and switching thyristors are an extinguishing capacitor, the anode of the power thyristor is connected to the positive pole of the voltage source, and the cathode to the negative pole of the voltage source through the load containing relaxation oscillators of control pulses and switching diodes.

To increase stability, the frequency when changing the load in the proposed chopper parallel to the power thyristor is connected an additional source of constant voltage, in series with which the relaxation generator is switched, controlling the switching thyristor, and the relaxation generator controlling the power thyristor is connected to the source in parallel. The primary windings of the control pulse transformers are introduced at the price of the switching diodes of the relaxation generators.

The drawing is a schematic diagram of the described chopper.

Power thyristor 3 is switched on in the circuit of direct current source 1 and load 2. The power circuit consists of switching thyristor 4, quenching capacitor 5, overcharged 6 and diode 7. Parallel to thyristor 3, a low-power source 8 of constant voltage, a reverse diode 9 and a relaxation generator assembled on resistance 10, capacitor 11, dinnstore 12 and control transformer 13. Parallel to the resistance 14, a relaxation generator assembled on the resistance 15, a capacitor 16, a dynistor 17 and a control pulse transformer 18 is turned on. Sources 1 and 8 are separated by a diode 19.

After switching on the power source I, the quenching capacitor 5 is charged with the polarity indicated in the drawing without brackets. When voltage is applied to the control circuits, the capacitor 11 begins to charge and with a time delay defined by the parameters of the / C circuit 10, 11, a distor 12. turns on. From the control transformer 13 a pulse is sent to turn on the power thyristor 3. 11, the relaxation generator determines the duration of the pause. The pulse duration begins after switching on the thyristor 3. The voltage drop across the resistance 14 is applied to the C-circuit 5, 16 of the relaxation generator, which determines the pulse duration. When the dynistor 17 is turned on, an impulse is issued to turn on the switching thyristor 4, after which the thyristor 3 is quenched.

The process of gaigeni thyristor 3 is as follows. The capacitor 5, after opening the thyristor 4, is recharged along the circuit: capacitor 5 - choke 6 - thyristor 4 - thyristor 3 with the polarity indicated on the drawing in brackets. After that, a reverse recovery current flows through the thyristor 3, which represents the discharge current of the capacitor 5 along the circuit: capacitor 5 - thyristor 3 - diode 7. The closing capacity of the thyristor is restored in the opposite direction.

The recovery time of the control of the thyristor 3 is ensured by the discharge of the capacitor 5 through the load on the circuit: source 1 - diode 7 - capacitor 5 - load 2. On the same circuit, the capacitor is charged by the polarity indicated without brackets. The frequency of operation of the chopper is determined by the parameters of the elements of the relaxation generators producing control pulses, and does not depend on the magnitude of the load.

Subject invention

A DC chopper with parallel-capacitive switching, between the cathode and anode of the power and switching thyristors of which the quenching capacitor is connected, the anode of the power thyristor is connected to the positive pole of the voltage source, and the cathode to the negative pole of the voltage source through a load containing relaxation control pulse generators on switching diodes, exeptly, and so that, in order to increase frequency stability with changing load, parallel to the power thyristor is connected additional source of constant voltage, in series with which is included

a relaxation generator controlling a switching thyristor, and a generator controlling a power thyristor are connected to the source in parallel, with the primary windings of the control pulses transformers being introduced into the circuit of the switching diodes of the relaxation generators.