SU1376192A1 - A.c. thyristor gate - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to improve the weight and size parameters. With a positive half-period of the supply voltage 4, the leading thyristor 2 is open. At the same time, the charging capacitor 9 is charged. When the voltage of the network 4 is changed through the control electrode of the transistor analogue 12 of the thyristor, opening it, the current flows to the discharge of the charging capacitor 9c. When the transistor analogue 12 is opened, the driven thyristor 3 opens with the discharge current of the charging capacitor 9. For opening the transistor analog 12 requires a small current, the charging current of the charging capacitor 9 is insignificant and the power allocated to the resistor 6 is insignificant, and thus the goal is achieved. 1 il. § (L

Description

The invention relates to electrical engineering, mainly to converter technology, and can be used in thyristor units to power actuator actuators

The purpose of the invention is the improvement of overall dimensions and reliability. ^ d

The drawing shows a schematic diagram of a thyristor key "

The key consists of a load 1, which is an actuating electromagnet, a leading thyristor 2, a slave 15 thyristor 3 connected in opposite directions, through which the load 1 is connected to the supply network 4, source 5 of the external signal, current limiting resistor 6, diodes 7 and 20 8, charging capacitor 9, resistor 10, shunt RC circuit 11, transistor analog of thyristor 12, fuse 13. The control electrode and cathode of the leading thyristor 2 are connected to the source, the slave thyristor 3 is connected to the load 1 by the cathode, and the control an electrode to the cathode of the transistor analog of thyristor 12. whose anode is connected to the positive terminal of the charging capacitor 9 and the cathode of the second diode 8, the anode of which is connected to the first terminal of the current-limiting resistor bi by the control electrode of the transistor analog of thyristor 12. Between the cathode of the driven thyristor 3 and the anode the second diode includes a resistor 10. The second output of the current-limiting resistor 6 through the diode 7 and the fuse 13 sub-dd keys to one of the terminals for connecting the power supply 4 “The second terminal for connected connecting the supply network through the leading thyristor 2 and the slave thyristor 3 to the negative pole of the charging capacitor 9. An RC shunt circuit 11 is connected in parallel with load 1.

The key works as follows.

With a positive half-cycle of the voltage of the supply network 4 and the opening potential of the external signal source 5, the leading thyristor 2 is unlocked, ensuring that the working current flows through this load half-load 1. At the same time, the charging capacitor 9 is charged along the circuit: diode 7, current-limiting resistor 6, diode 8, charging capacitor 9, open lead thyristor 2. In this case, the transistor analog of thyristor 12 is closed by a bias voltage on diode 8 and there is no current through the junction electrode – cathode of the driven thyristor 3. By the time the positive half-wave of the mains voltage ends, the positive potential at the anode of the diode 8 becomes less than the potential of the positive pole of the charging capacitor 9, the diode 8 closes and the charging capacitor 9 stops charging.

With a further decrease in the voltage of the supply network 4, the discharge current of the charging capacitor 9 begins to flow through the control electrode of the transistor analog of the thyristor 12 along the positive pole of the charging capacitor 9 through the circuit — the anode-controlled electrode of the transistor analog of the thyristor 12 — resistor 10 — the negative pole of the charging capacitor 9 This current opens the transistor analog of the thyristor 12 and the discharge current of the charging capacitor 9 flows through the circuit, the positive pole of the charging capacitor 9 - anode-cathode junction Access the transistor analogue thyristor 12 - transition control electrode - cathode driven thyristor 3 - negative pole charging capacitor 9. When switching the voltage supply 4 via a leading zero thyristor 2 is closed.

With a negative half-cycle of the voltage of the supply network 4, the opening of the slave thyristor 3 is carried out by the discharge current of the charging capacitor 9 only when the transistor analog 12 of the thyristor is opened during the negative half-wave of the voltage of the supply network 4. The parameters of the elements are selected so that the charge of the capacitor 10 flows almost the entire positive half-cycle of the voltage of the supply network 4, and its discharge, which determines the current of the control electrode of the driven thyristor'3, provides. the maximum value of this current at a moment close to the moment of opening the slave thyristor 3.

Since an insignificant current is needed to open the transistor analog of thyristor 12, the value of resistor 10 is chosen to be large, and resistor 10 practically does not bypass the portion of the charge circuit of the charging capacitor 9. Therefore, the current flowing through the current-limiting resistor 6 is determined by the charging current of the capacitor 9. In this case, the charging current of the charging capacitor 9 has the greatest value and the power allocated to the resistor 6 is negligible. If the leading thyristor 12 is in the positive half-cycle of the voltage of the supply network 4 closed, then there is no charge of the charging capacitor 9 and the slave thyristor 3 is locked. As a result of this, the operating current does not flow through load 1.

Claims (1)

The formula of the invention is to the source of the external signal, and the cathode of the slave thyristor is the first output terminal, the second terminal of the current-limiting resistor is connected to one of the input terminals through the first diode, and the charge output capacitor is connected to the negative output of the charging capacitor, RC-shunting through the master and slave thyristors the circuit is connected in parallel to the output terminals, which differs in that, in order to improve the overall dimensions and reliability, a second diode and a transistor analog of thyristor are introduced and, while the control electrode of the slave thyristor is connected to an ac-thyristor switch 20 20 containing the master and slave thyristors connected in parallel and through the output leads connected to the input terminals, an external signal source, a current-limiting resistor, a first diode, a charging capacitor , a resistor and an RC shunt, the control electrode and the cathode of the leading thyristor connected to the transistor analog of the thyristor, the anode of which is connected to the positive terminal of the charging capacitor the first cathode of the second diode, the anode of which is connected to the first output of the current-limiting resistor and the control electrode of the transistor analog of the thyristor, and the torus is connected to the cathode of the driven thyristor of the second diode. between and anore zis-