SU750680A1 - Voltage doubler - Google Patents

Description

(54) VOLTAGE DOUBLE

one

The invention relates to a converter technique, in particular to voltage doubling rectifiers.

Voltage multipliers made according to diode-capacitor circuit 1 are known.

The drawback of the devices is that when the current is injected through the charging capacitor, the load resistance is significantly shunted, which slows down the increase in the load current during the transient process. This may be highly undesirable, for example, when powered from a rectifier with a doubling of the voltage of the relay protection and automation devices.

Closest to the proposed voltage doubler contains two circuits connected to the input pins, each of which is formed by a series connection of a diode and a capacitor, the diodes of the circuits being connected to each other in a consistent manner, and the common point of each circuit is connected to one m from the output pins as well as resistor 2.

The disadvantage of a doubler is low speed. In addition, the limiting resistor included in the network and creates a smaller current limit through the capacitor, does not contribute to the removal of network power through the load.

The purpose of the invention is to increase quickly, act.

This goal is achieved by the fact that in a voltage doubler containing two circuits connected to the input terminals, each of which is formed by the series connection of a diode and a capacitor,

10 moreover, the diodes of the circuits are connected to each other in a sequential manner, and the common point of each circuit is connected to one of the output pins, as well as a mid-point resistor and an additional bottom, the specified resistor is connected between the capacitors of the circuits, and the middle point is connected to one input pin, and the common point of the diodes - to another input pin. The drawing shows a scheme for doubling 20 stress bodies.

The circuit contains diodes 1 and 2, storage capacitors 3 and 4, load resistance 5, resistor 6 with an average output and additional diode 7.

The device works as follows.

When the polarity of the clamps of the network passes diode 1, the voltage on the capacitor 3 is supplied through the left half of the resistor 6. Under these conditions, the current impulse through the capacitor 3, the resistance of which is zero at the first moment, is limited by the left half of the resistor 6, the latter also contributes to the direction of the network energy to create a current through the capacitor 4 and the load 5.

Thus, the proposed device provides the acceleration of the transition process.

When the polarity of the network terminals passes diode 2, the voltage on the capacitor 4 is supplied through the right half of resistor 6, and the role of this half of resistor 6 is similar to the left.

When diodes 1 and 2 do not pass, the capacitors 3 and 4, being connected in series and according to, are discharged through the resistance of the load 5 and through the diode 7, the resistor 6, and therefore there is no energy loss in the latter.

Claims (2)

1. Automation of production and industrial electronics. 1962, vol. 1, p. 175 2. USSR author's certificate for application No. 1196437/07, cl. H 02 M 7/10, 1967 (prototype). about