SU575636A1 - Pulsed dc voltage stabilizer - Google Patents

Description

(54) PULSE STABILIZER OF PERMANENT TRANSFER

The invention relates to a jt secondary power supply with pulse-switching regulation.

DC voltage pulse stabilizers are known.

A known DC voltage pulse regulator containing inductive

The power plug and key element connected parallel to the stabilizer output to the filter capacitor through a blocking diode and controlled from the output voltage sensor through a relay element, the filter input bypassing the diode and a serial key connected to the power supply circuit

A relay element with a current sensor connected to an ij throttle circuit. The closest technical solution to the invention is a dc voltage regulator containing series-connected key regulating element, i, a cd filter and a dc voltage converter with an output transformer connected to the rectifier A driver that has leads to connect

Loads to which the input is connected to a DC amplifier. The output of the amplifier is connected to the input of a zero-organ connected to the output of the sawtooth current generator, the input of which is connected to the additional winding of the output transformer of the converter. The output of the zero-organ through the matching unit is connected to the control, the input of the keys of the regulating element 2.

The known device is not protected from overloads, including those that occur during switching on, when the capacitors of the smoothing filters are charged. This reduces its reliability.

The aim of the invention is to improve the reliability of the stabilizer by protecting it against overloads.

The goal is achieved by the fact that in the proposed DC voltage pulse regulator, an output current sensor is connected to the open circuit of the LCD filter and the output current is connected to the null organ.

1 u 4ejn is represented by the principal element1.) The drawing of a pulsed DC voltage stabilizer.

Soda absorber (.1LI1 key pei-element 1, LiCIj-Hfibrp 2 and constant voltage converter 3 with output transformer 4 connected to rectifier 5j with terminals for connecting the load. A rectifier 6 is connected to the rectifier input , the output connected to the input of the nullorgan 7, to which the reamer of the sawtooth current 8s is also connected, is connected to the auxiliary winding of the output transformer 4, the output of the zero-organ is connected to the control input of the key regulator 9 guide member 1. The output current gap LCD-Value a filter 2 including sensors 10 which, connected to the output of the zero-body 7,

In the normal operating mode, the output voltage of the device is stabilized by the change in the duty cycle of the output pulses of the regulating element 1. With overload; the level of which is determined by the parameters of the output current sensor 10, a current flowing through the input of the zero-organ 7 appears in the output circuit of the latter. The current increases as the overload increases and switches the device to the current stabilization mode by increasing the duty cycle of the regulating element 1. When This amplitude of the current pulses is limited by the response threshold of the current sensor 10.

Regulator 1 is protected against overload occurring during the transition process of switching on the source. Such an overload occurs, in particular, when charging the storage capacitor 11 of the filter 2. In the absence of protection, the current flowing through the regulating element may many times exceed the current of the steady state.

When performing a regulating element on transistors, the latter should be designed for such an overload. In addition, when a capacitor 11 is charged, the transistor of the dimming element 1 usually goes out of saturation and is dispersed by moshr

spine in mi O) g: jjaa 6il.1ia than in steady state. As a result, the reliability of the stabilizer 1 decreases, especially when it is operated from a 220 V mains, when the input voltage is large and the transistors of the regulating element do not have the necessary current and power reserves,

In the proposed stabilizer, the capacitor is charged with short current pulses of limited amplitude and the transistor of the regulating element 1 does not go out of saturation, which ensures its reliable operation during the transient switching on process.

Thus, the proposed voltage regulator is protected from overloads occurring both in the output circuit and during the transient after switching on the device. This reduces the likelihood of the output of transistors and other elements of the power circuit of the stabilizer, and thereby increases its reliability.

Claims (2)

1. Author's certificate of the USSR No. 4®5432, M.kl. & 05 G 1/56, 1974. 2. USSR author's certificate cl. Q 05 F 1/64. 1976. HD-t