SU1453390A1 - Stabilized power supply source - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the systems of secondary power supply of electronic equipment. The purpose of the invention is to increase the reliability of the source. When overvoltage occurs at the source output by means of the output voltage sensor 20, transistor 14 is turned on, thereby ensuring that the protective transistor 12 is turned off and the transistor 23 of the self-holding cascade is turned on. The current limiting resistor 24 serves simultaneously to increase the blocking bias of the transistor 23 in the normal mode. Capacitor 25 provides reliable initial power up of the proposed power source. 1 il.

Description

The invention relates to electrical engineering and can be used in secondary power supply systems of electronic equipment.

The purpose of the invention is the increase in reliability.

The drawing shows a functional diagram of a stabilized power source.

A device with input outlets and 2 and output terminals 3 and 4 contains a DC voltage stabilizer 5 with a sequential regulating element 6 included in the positive potential bus. The stabilizer 5 includes a resistive current sensor 7, an output voltage resistive sensor .8, a reference voltage element 9, and an error signal amplifier 10, consisting of a differential amplifier, a matching stage, and a current protection stage (nodes 9 and 10 can be combined into a 142EN1B type chip ) The device also includes an overvoltage protection unit 11 at the source output with a protective transistor 12 connected between terminal 1 and the stabilizer-6 input terminal. The node 11 includes a differential amplifier on transistors 13-15, blocking the cascade on transistor 16, a reference voltage element on transistors 17 and 18 and a zener diode 19, resistive 35 output voltage sensor 20, matching cascade on transistors 21 and 22, self-holding cascade on transistor 23, current-limiting resistor 24, starting capacitor 25. 40

The differential amplifier, the element of the reference voltage and the matching stage can be combined in the integrated circuit 142EN1B. The base of the transistor 23 is connected to the output 45 of the potential output of the differential amplifier, the collector to the potential output of the input of the blocking stage, and the emitter circuit to the combined terminals of the resistor 24 and the collector of transistors 21-22 of the matching stage.

The device operates as follows.

When power is applied to terminals 1 and 2, the transistor 12 is turned on and the stabilizer 5 provides a stable output voltage at the output outputs Z. and 4. Protection against overcurrent and short circuit at the output is carried out using the current sensor 7 and the current protection cascade, which is part of the amplifier 10.

Protection against overvoltages at the source output, arising for any reason (for example, during the breakdown of element 6), is carried out by the sensor 20 when the transistor 14 is unlocked and the transistor 23 is unlocked, which enables the transistor 16 to be unlocked, thereby blocking the tripped protection state. At the same time, transistors 21, 22 and 12 are turned off, disconnecting the stabilizer 5 from the power supply. The initial reliable locking of the transistor 23 is provided by an additional locking effect due to the shunt action of the capacitor 25, and after turning on the transistors 21 and 22, an additional locking bias is provided by the resistor 24.

Improving the reliability of the source is achieved by increasing the locking bias applied to the emitter junction of the transistor of the self-holding cascade under normal conditions, and eliminating the flow of the base current of this transistor when the device is initially turned on.

Claims (1)

SUMMARY OF THE INVENTION A stabilized power supply comprising a DC voltage stabilizer with a series regulating element included in a potential bus and an output surge protection unit with a protective transistor included in a potential bus between the input terminal and the stabilizer input terminal, consisting of a differential amplifier, a reference input which is connected to the output of the reference voltage element, and the signal input to the output of the output voltage sensor matching transistor a circuit connected between the output of the differential amplifier and the emitter junction of the protective transistor and equipped with a current-limiting resistor in the supply circuit, a blocking transistor cascade connected in parallel with the input of the matching transistor cascade, a self-wiping cascade of 1454590 with a transistor, the base of which is connected to the output potential output of the differential amplifier, and the - with a potential output of the input of the blocking transistor cascade, characterized by the fact that, in order to increase by reliability, a capacitor is inserted into it, connected in parallel with the emitter junction of the transistor of the self-holding circuit, and the emitter circuit of the indicated transistor is connected to the combined outputs of the current-limiting resistor and collectors of transistors of the matching cascade.