SU1262655A1 - Pulse shaper - Google Patents

Abstract

The invention relates to a converter technique and can be used in phase control systems of thyristor converters. The aim of the invention is to increase reliability. For this purpose, in the pulse shaper thyristors 1 and 2, resistors 3 and 4 and capacitor 5 are connected according to a trigger circuit. When the control pulse of the thyristor 1 is turned on, the capacitor 5 is charged to the value of the supply voltage. The control pulse then arrives at the thyristor 2 and opens it, the thyristor 1 is closed due to the voltage on the capacitor 5 applied to it with the opposite polarity. The capacitor 5, discharged through the primary winding of the pulse transformer 6, forms in the secondary winding its pulse with an exponential trailing front. 1 yl. (L to O) ate SP

Description

The invention relates to a conversion technique and can be applied in phase control systems of thyristor converters.

The aim of the invention is to increase reliability.

The drawing shows a diagram of the proposed pulse shaper.

Thyristors 1 and 2, resistors 3 and 4, and capacitor 5 are connected by a trigger circuit. The windings of pulse transformers 6 and 7, forming pulses for the thyristors of the converter, operating, for example, in antiphase, are connected in parallel to the thyristors through diodes 8 and 9. Power is supplied from a constant voltage source. ,

Resistors 3 and 4 are selected from the condition that the current in the circuit is higher than the holding current of the thyristors.

When the thyristor 1 is turned on by the control pulse, the capacitor 5 is charged to the value of the supply voltage along the circuit ·: ⁿ + power supply resistor 4 - capacitor 5 - thyristor 1 - power source.

Then the control pulse arriving at thyristor 2 opens it, ^{1 the} voltage of capacitor 5 is applied with reverse polarity to thyristor 1, closing it. The capacitor 5, discharging through the primary winding of the pulse transformer 6, generates a pulse with an exponential trailing edge in the secondary winding. Under the influence of EMF self-induction arising in the winding. pulse transformer, capacitor 5 is recharged (in units of microseconds) with reverse polarity. This voltage is maintained on it through the circuit: + power supply resistor 3 - capacitor 5 - open thyristor 2 - power supply until a control pulse arrives at thyristor 1. When a control pulse is applied to thyristor 1 · capacitor 5 is discharged to the winding ^{, 0 of} pulse transformer 7 closing the thyristor 2, the capacitor 5 is recharged again, and so on.

A limited number of elements, the use of one capacitor for two pulse shapers. the presence of a constant voltage source in each thyristor converter makes the driver circuit simple and reliable.

Claims (1)

The invention relates to a converter technique and can be applied to phase control systems with thyristor converters. The aim of the invention is to increase reliability. The drawing shows the scheme of the proposed pulse shaper. Thyristors 1 and 2, resistors 3 and 4 and capacitor 5 are connected according to the trigger circuit. The windings of pulse transformers 6 and 7, forming pulses for the thyristors of the converter, operating, for example, in antiphase, through diodes 8 and 9 are connected in parallel to the thyristors. Power is supplied from a constant voltage source. Resistors 3 and 4 are selected from the condition of providing a current in the circuit that is greater than the holding current of the thyristors. When the control pulse of the thyristor 1 is turned on, the capacitor 5 is charged to the value of the supply voltage along the circuit -: + power supply resistor 4 - capacitor 5 - thyristor. 1 - - power supply. A control pulse, which then arrives at thyristor 2, opens its voltage of capacitor 5 with reverse polarity to thyristor 1, closing it. Condenser 5, discharging through the primary winding of the pulse transformer 6, forms in the secondary winding its pulse with an exponential falling front. Under the action of EMF induction itself, arising in the winding of a pulse transformer, the capacitor 5 is recharged (in units of microseconds) with reverse polarity. This voltage is maintained across the circuit: + power supply resistor 3 - capacitor 5 - open thyristor 2 - - power source before the arrival of the control pulse to the thyristor 1. When the control pulse is applied to the thyristor 1, the capacitor 5 is discharged to the winding of the pulse transformer 7, closing the thyristor 2, the capacitor 5 recharges again and. The limited number of elements, the use of one capacitor for two pulse formers, the presence of a constant voltage source in each thyristor converter of the source makes the circuit of the driver simple and reliable. The invention The pulse shaper containing thyristors connected in parallel, the anodes of which are connected via. the capacitor and through the regulators are connected to the positive output of the power source, pulse transformers, some of the primary windings of which are connected to the cathodes of the thyristors and connected to the negative terminal of the power source, diodes characterized in that, in order to improve reliability, the other conclusions of the primary pulse windings transformers through diodes are connected to a common point of connection of thyristor anodes and resistors, and the secondary windings of pulse transformers are connected to terminals for connecting thyristor loading zki.