SU983686A1 - Dc voltage pulse stabilizer - Google Patents

Description

The invention relates to a technique of secondary power supply of electronic devices, in particular, to pulsed (key) DC voltage regulators, and is intended for use in communications equipment and computer technology.

Pulse voltage regulators are known, which contain a power, control part and an overload protection unit l L3.

Closest to the invention is a DC voltage regulator containing a regulating transistor, the emitter of which is connected to the input terminal, the collector is connected via a DLC filter to the output terminal of the same name and the base to the output of the control unit, one of the inputs of which is connected to the output pins of the stabilizer, and the overload protection unit, having in its composition a threshold element, one of the inputs of which is connected to the collector of the control transistor l5j.

However, this DC voltage regulator has the disadvantage that the voltage that is of great importance at the closed state stage of the control transistor is constantly applied to the input of the threshold element.

n: and a low value in the open state of the control transistor. It is at this stage that the threshold element should catch a slight increase in the voltage value caused by the beginning of the output of the regulating transistor from the saturation (as a result of current overload. At the closed state stage of the regulating transistor, the threshold element is useless

5 this with a significant input overload. This reduces the reliability of the device as a whole. In addition, a similar mode of operation of the threshold element in this device makes it difficult to achieve high accuracy of operation, since on the one hand it must withstand large voltage overloads (up to several tens of volts), and on the other hand

25 must be able to catch small voltage variations (within 1 in). Consequently, in such a voltage regulator, it is difficult to achieve high precision overload current limiting.

The purpose of the invention is to increase reliability while improving the accuracy of overload current limiting.

The goal is achieved by the fact that an analog switch connected between the emitter of the regulating transistor and another input of the threshold element, the output of which is connected to another input of the control unit, is connected to the zagdat block of the pulse voltage regulator and the control input of the analog switch is connected to the output control unit.

The drawing shows a DC voltage regulator circuit.

The stabilizer contains a regulating transistor 1, a choke 2 of the DLC filter 3, a control unit 4, and an overload protection unit 5 including a threshold element b and an analog switch 7 connected between the emitter of transistor 1 and the input of the threshold element b, the other input of which is connected with collector of transistor 1,. and the output is connected to the control unit 4.

The output of the control unit 4 is connected to the base of the transistor 1 and the control input of the analog switch.

The stabilizer works as follows.

In the absence of a signal from the output of the control unit 4 (signal O), the regulating transistor 1 is closed. At this time, the collector-emitter voltage of the closed transistor 1 is not applied to the inputs of the threshold element 6, since the analog switch 7 is also closed as a result of supplying a signal O to its control input. At the output of the threshold element b, there will be a signal O, corresponding to No signal overload.

When the signal from the output of the control unit 4 (signal 1) appears, the control transistor 1 is open and the bank is filled, the analog switch 7 is open, because a signal 1 is sent to its control output. At the same time, the collector voltage is applied to the inputs of the threshold element 6 the emitter of the regulating transistor 1 and the output of the threshold element 4 will be a signal O, corresponding to the signal of no overload.

In the overload mode, when a signal is generated from the output of the control unit 5 (signal 1), the control transistor 1 goes out of voltage, the voltage

the collector-emitter of the regulating transistor 1 applied to the inputs of the threshold element 6 through the open analog switch 7 is increased and at the output of the threshold element 6

Signal 1 appears, corresponding to the presence of an overload signal, which is fed to control unit 4 and turns off the stabilizer.

Thus, the introduction of analog

The key and the change in the relationship between the regulating transistor and the porojroBbJM element allows, in comparison with a known device, firstly to exclude the input of a high-voltage threshold element of the closed regulating transistor, which increases the reliability of both the protection unit and the stabilizer in Overall / secondly, to improve the accuracy of limiting the overload current by increasing the sensitivity of the threshold element.

Claims (3)

1. Author's certificate of the USSR W 450151, cl. G 05 F 1/58, 1973. 2. USSR author's certificate number 593208, cl. G 05 F 1/58, 1976. 3. USSR author's certificate for application number 2953217 / 24-07, 07.07.80 (prototype), Gn I + H " L: --№ ± 1 GL -f §