SU1280683A1 - Stabilized power source - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to sources of secondary power supply for electronic equipment. The purpose of the invention is to simplify the design of the source by using the auxiliary voltage regulator 2 for both starting and controlling the main voltage regulator 1. In the first case, the voltage divider 4 enters the feedback loop of the auxiliary voltage regulator 2, stabilizing the starting voltage at its output, and in the second case, due to the closed separation diode 5, it is transferred to the external regulating circuit of the main voltage regulator 1, also includes a reverse voltage sensor 3 (Oi link and auxiliary voltage regulator 2. I or so. HcE 00 with 00 SLE. & amp.

Description

The invention relates to electrical engineering and can be used in power supply systems of electronic equipment in the presence of stringent requirements for the weight and size characteristics of the supply complex.

The purpose of the invention is to simplify the design of a stabilized power source by using an auxiliary voltage regulator both for starting and controlling the main voltage regulator.

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

The stabilized power supply contains the main I and auxiliary 2 voltage regulators with individual regulators and internal control units (not shown). As regulator 1, an adjustable transistor voltage converter can be used, and as regulator 2, a transistor regulating element of the series type with an error signal amplifier and a reference voltage element. The stabilized power supply also includes a feedback voltage sensor 3, made for example in the form of a rectifier and filter, voltage divider 4, separation diode 5. The regulator of the main voltage regulator 1 is connected to the input source pins. ka, designed to connect the primary network of direct current, and the power outputs - with the output terminals of the source, designed to connect the loads. The common power input of the auxiliary controller 2, m-e, the power supply input to its regulator and the internal control unit, is connected to the input terminals of the source. The sensor input 3 of the feedback voltage is connected to. measuring output (with the measuring secondary winding) of the main voltage regulator 1, and the output - with the power input of the internal control unit of the latter connected through the voltage divider 4 to the control input of the auxiliary voltage regulator 2 (to the signal input of its internal control unit). Dividing diode 5 is connected between the output of the auxiliary voltage regulator 2 (the output of its regulating organ) and the power input of the internal control unit of the main voltage regulator 1. The signal input of this control unit is connected directly to the output of auxiliary voltage regulator 2.

The stabilized power source operates as follows.

The voltage of the primary network is fed to the power input of the regulator of the main voltage regulator 1 and the common power input of the auxiliary voltage regulator 2. Through the open regulator of the auxiliary voltage regulator 2 and the separation diode 5, the network voltage is supplied to the power input of the internal control unit of the main voltage regulator 1. When the network voltage is low, when the transistor of the regulator of the auxiliary voltage regulator 2 is open and pushed, the internal control unit of the main voltage regulator 1 (supplying generator, pulse width modulator, preamplifier, etc.) starts up. ). At the same time, the voltage at the output of sensor 3 is small, and its high diodes are closed. When the network voltage increases, the voltage stabilizes at the output of the auxiliary controller 2, the voltage (the input of the voltage divider 4 and the power input of the internal control unit of the main voltage regulator 1). The negative feedback signal passes through the loop: the output of the regulator of the auxiliary voltage regulator 2, the isolation diode. 5, the voltage divider 4, the internal control unit and the control input of the regulator of the auxiliary voltage regulator 2. At the same time, the voltage at the output of sensor 3 is still low and its high diodes are still closed.

Claims (1)

A further increase in network voltage causes the diodes of the rectifier of sensor 3 to open, its output voltage, and the voltage at the input and output of divider 4 to increase. The internal control unit of the auxiliary voltage regulator 2 closes the transistor of its regulator. causes, in turn, a decrease in the voltage at the signal input of the internal control unit of the main voltage regulator 1. Any change in the voltage on this signal input determines the corresponding effect on the regulator of the main regulator 1 voltage, ensuring that all its output voltages are stable, including the voltage on the output of the sensor 3. In this mode, the external control loop is formed which includes the regulator of the auxiliary voltage regulator 2, the internal control unit and the regulator of the main voltage regulator 1, the feedback voltage sensor 3, the voltage divider 4 and the internal voltage regulator nny auxiliary control unit 2 the regulator voltage. At the same time, the voltage on the sensor 3 transforms the output voltage 1e of the regulator of the auxiliary voltage regulator 2, the separation diode 5 is closed and the internal control unit of the main voltage regulator 1 is powered from the sensor 3. In the proposed stabilized power supply ( in contrast to the known ones in the external control loop of the main voltage regulator 1 are absent as separate nodes of the reference voltage source, the voltage divider, the comparison unit and the error signal amplifier and. Instead, similar functional units of the auxiliary regulator are used. 2 voltage, to a large extent, thus participates not only in the process of starting the main voltage regulator 1, but also during its control. Simplification of the design of a stabilized power supply causes its operational reliability. Claims of the Invention A stabilized power source containing a main regulator. the voltage, the regulator of which is connected to the input terminals of the source for connecting the primary direct current network, and the power outputs to the output terminals of the source for connecting the loads, auxiliary voltage regulator, the input voltage of which is connected to the input source terminals, a feedback voltage sensor, the input of which is connected to the measuring output of the main voltage regulator, and the output to the supply input of the internal control unit neither the latter, connected via a voltage divider to the control input of the auxiliary voltage regulator, characterized in that, for the purpose of simplification due to the use of the auxiliary voltage regulator both for starting and controlling the main voltage regulator, between the output the auxiliary voltage regulator and the power input of the internal control unit of the main voltage regulator are inputd splitter and the signal input of the said control unit is connected to the output auxiliary of the voltage regulator itself.