SU1436234A1 - Variable a.c. to a.c. voltage converter - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase efficiency. In the positive half-cycle of the input voltage, the capacitor 13 is charged along the circuit: resistor 10 is the capacitor 13 of the response voltage of the threshold element 14, the thyristor 2 is opened, the load 1 is connected to the voltage source. In the negative half-cycle of the input voltage, the capacitor 13 is partially discharged through the resistor 12 and the resistor 11 is recharged across the circuit. 11 The capacitor 13 is the diode 16. The variable resistor 13 can change the value of the charge voltage of the capacitor 13, thereby adjusting the unlocking angle of the thyristors 1, 2. The charge and discharge circuits of the capacitor 13 are independent with respect to resistors 10 and 11, thereby achieving the goal, 1 slug.

Description

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The invention relates to electrical engineering.

The purpose of the invention is to increase efficiency.

The drawing shows a schematic diagram of the device.

An adjustable AC-to-AC converter contains thyristors 1 and 2, whose power circuits are shunted in the opposite direction by diodes 3 and 4 and connected by anodes to pins 5 and 6 dL of connecting load 7, and resistors 10 and 11 are connected to input pins 8 and 9, between which a variable resistor 12 is connected, parallel to the latter is connected a capacitor 13, to the terminals of which anodes are connected threshold elements 14 and 15 connected by cathodes to control electrodes of thyristors 1 and 2. Between the cathodes of thyristors 1 and 2 and input pins 8 and 9 include additional diodes 16 and 17.

The Converter operates as follows.

When an alternating voltage supply is applied to the input terminals 8 and 9, the capacitor 13 across the circuit is charged to the positive half-cycle. Resistor 10 — capacitor 13 — additional diode 17. When the voltage across the capacitor 13 reaches the threshold element 14, the thyristor 2 opens 13 - the threshold element 14 - the control electrode of the thyristor 2. Through the thyristor 2, the diode 3 and the auxiliary diode 17, the load 7 is connected to the voltage source.

In the negative half-cycle of the input voltage, the capacitor 13 is partially discharged through resistor 12 and the resistor 11 is recharged across the circuit. 11 - capacitor 13 - additional diode 16. Variable resistor 12 can change the value of the capacitor charge voltage 13

0

five

0

50

,

five

thereby unlocking the thyristors 1 and 2 by adjusting the unlocking angle of the threshold elements 14 and 15. In this case, the time constant of the charge circuit of the capacitor 13 is ioCi3 iiCi3, where Cis is the eMkocTb capacitor 13; 10 and and - resistances of resistors 10 and 11.

In contrast to the known discharge of capacitor 13 through the control electrodes of thyristors 1 and 2, the resistors 10 and II occur, i.e. the charge and discharge circuits of the capacitor 13 are independent with respect to resistors 10 and I.

In addition, as the resistors increase in resistance, the current consumed by the phase control unit decreases and there will be no loss of power when the capacitor is discharged.

Claims (1)

Invention Formula Adjustable AC voltage to AC converter containing two thyristors, the power circuits of which are oppositely diode-connected and connected by anodes to the corresponding terminals for connecting the load, a resistor is connected to each input terminal, a capacitor is connected between the free terminals of the resistors, - shunted by a variable resistor, to the terminals of which anodes are connected to threshold elements connected by cathodes to control electrodes of corresponding thyristors, except for , two additional diodes, characterized in that, in order to increase efficiency, additional diodes are connected in series to the power circuits of the respective thyristors, the cathodes of the additional diodes are connected to the input terminals, and the anodes are connected to the cathodes of the corresponding thyristors and the connection points of the variable resistor, capacitor and anodes corresponding threshold elements.