SU506837A1 - DC Voltage Stabilizer - Google Patents

Description

one

The invention relates to power supply devices and can be used in power supply units for radio equipment, electronic computers and other objects.

DC voltage stabilizers are known, containing the main power source, through a regulator and a filter connected to the output, a measuring organ made according to a differential amplifier circuit on transistors, the bases of which are connected respectively to a reference voltage source and an output voltage resistive divider output voltage emitters - the collector transitions of which are connected in series with limiting resistors and an additional power source one of the poles of which is connected to a common length, a differential amplifier with transistors with a current stabilizer in the collector circuit through a relay element connected to the said regulator, and an auxiliary power source, one of whose poles is connected to a common bus, and the other is connected through resistors to the combined emitters of the specified differential amplifier and collectors of the transistors of the measuring body.

However, the known devices are not characterized by a sufficiently high dynamic stability of the output voltage, determined in this case by the threshold voltage of the emitter-base transition of the transistor of the suppressor device.

In order to increase the dynamic stability of the output voltage in the proposed stabilizer, the base transistors of the differential amplifier are connected to the collectors of measuring transistors and emitters of additionally introduced transistors, the bases of which are connected to the middle terminals of the resistance transistors of the measuring body, and the collectors are connected to the bases of suppressor transistors emissions, and the collector of one of them, connected to the output of the device, through the limiter This resistor is connected to the emitter of another transistor.

The stabilizer circuit shown in the drawing.

The source of the input voltage 1 of the stabilizer can be a battery or a mains transformer with a rectifier. The output of the source 1 through the regulator 2, the filter 3 is connected to the load. The measuring body forming the first

the stabilizer feedback amplifier cascade is made on transistors 4, 5 of the pp type, the base of the first of them is connected to the source of the reference voltage 6, and the base of the second is a divider (resistors 7, 8) to the output of the stabilizer. The collectors of transistors 4 and 5 are connected, respectively, through resistors 9, 10 and 11, 12 to the negative pole of an auxiliary power source of constant voltage 13, as well as to the bases of transistors 14, 15 of the pnp type, which form a differential amplifier (II stage ). The latter is also powered from auxiliary source 13.

A current stabilizer 16 is turned on in the collector circuit of transistors 14 and 15 (can be made on a pn-type transistor with a zener diode in the base circuit), which ensures a stable amount of current in the zmittercollector circuit of transistor 14 in the steady state mode. The output of stage II is connected via relay element 17 to the input of regulatory authority 2. Control signals to the bases of the emission suppression transistors (negative 18, positive 19) are supplied from the collectors of transistors 20 and 21, respectively, whose bases and emitters are "cross-connected to the outputs of the differential amplifier transistors 4, 5. Resistors 22, 23 provide the necessary displacements of transistors 18, 19, and resistors 24, 25, 26, 27 are included in the emitter circuits of these transistors and transistors of the I and II cascades.

In the static mode of operation of the stabilizer, the collector voltages of the transistors 4, 5 of the measuring body are equal. This is determined by the fact that the relay element is controlled via the second differential amplifier, the inputs of which are supplied by the collector voltage of the measuring element, and the current stabilizer ensures the operation in the amplification mode of the transistors 14, 15 of the second stage. At the same time, transistors 20, 21 are locked, and therefore transistors 18, 19 are also locked. Output voltage is controlled by a key regulator 2, which is controlled through element 17, the input of which is supplied from the collector of transistor 14.

As the output voltage of the stabilizer increases in a transient mode, the collector voltage of transistor 5 decreases and transistor 4 increases, causing the potential of the emitter of transistor 21 relative to the base to become negative, which leads to unlocking it, and therefore unlocking the transistor 19, which during the transition process shunts the stabilizer output, preventing the occurrence of a positive release. Upon completion of the transient, transistors 21 and 19 are locked again.

When the output voltage of the stabilizer decreases in a transient mode, the conductivity of transistor 4 increases and the conductivity of transistor 5 decreases, causing the potential of the emitter of transistor 20 to become negative relative to the base, which leads to unlocking of transistors 20 and 18, thereby charged

a capacitor or battery is connected to the output of the stabilizer. As a result, the occurrence of negative emissions is prevented. After the transient, the transistors are locked.

20 and 18, and the power supply continues to be carried out only from the main source 1. The described voltage regulator provides high dynamic stability and has high technical and economic

indicators due to the absence of power consumption by the emission suppression device in the static mode of operation.

Claims (1)

Invention Formula A DC voltage regulator containing a main power source through a regulator and a filter connected to the output, a measuring organ made according to a differential amplifier circuit on transistors, the bases of which are connected respectively to a source of reference voltage and an output resistor of a voltage divider output voltage, the emitter-collector transitions of which are connected in series with limiting resistors and an additional power source, one of whose poles are connected to a common bus, a differential amplifier with transistors with a current regulator in the collector circuit, through a relay element connected to a regulating body, and an auxiliary power source, one of the poles which is connected to the common bus, and the other through resistors is connected to the combined emitters of the said differential amplifier and collectors of the transistors of the measuring organ, characterized in that In order to increase the dynamic stability of the output voltage, the bases of the transistors of the differential amplifier are connected to the collectors of the measuring organ transistors and emitters of additionally introduced transistors, the bases of which are connected to the middle terminals of the resistor dividers connected to the collectors of the measuring transistors, and the collectors of emission suppressors and the collector of one of them, connected to the output of the device, is connected to the em via a limiting resistor itter of another transistor. f 811 Pgs .JrLiLJi