SU1682984A1 - Dc voltage stabilizer - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the development of secondary power sources. The goal is to increase reliability by reducing the power dissipation in modes close to the short circuit mode (short-circuit). The device contains a regulating composite transistor 1 on at least two transistors, a differential amplifier 5 DC, a source 4 of the reference voltage, two current-stabilizing two-terminal 2 and 3, a sensor 8 of the current and two dividers 6 and 7 of the voltage. The regulating composite transistor 1 has two control inputs associated with the corresponding outputs of amplifier 5. By introducing diode 10 between the second control input of transistor 1 and the output of amplifier 5 in modes close to the short-circuit mode, the power dissipation of transistor 1 decreases This is due to the displacement of the diode 10 in the opposite direction and accordingly prevents the flow of current through the pass-through transistor of the regulating composite transistor 1. 1 Il. Yo

Description

The invention relates to electrical engineering and can be used in the development of sources of secondary power supply of electronic equipment for general purposes.

The purpose of the invention is to increase reliability by reducing the power dissipation in modes close to short circuit.

The drawing shows a schematic diagram of a DC voltage stabilizer.

The stabilizer contains a regulating composite transistor 1 on at least two transistors, the first 2 and second 3 current-stabilizing two-terminal devices, a reference voltage source 4, a differential DC amplifier 5, the first 6 and second 7 voltage dividers, a current sensor 8 and a protective transistor 9. The first power the output of the composite transistor 1 together with the first outputs of the two-terminal 2 and 3 are connected to the input output. The second power terminal of the composite transistor 1 through the current sensor 8 is connected to the output terminal connected to the emitter of the protective transistor 9. The first control input of the composite transistor 1 is connected to the second terminal of the first two-terminal 2, the first output of the DC amplifier 5 and the collector of the protective transistor 9. First input DC amplifier 5 is connected to the output of the first voltage divider 6, the extreme terminals of which are connected respectively to a common bus and output terminal, Ecor output of the second two-terminal device 3 through a voltage reference 4 is connected to a common bus. The output of the source 4 is connected to the second input of the DC amplifier 5. The output of the second voltage divider 7 is connected to the base of the protective transistor 9, and its extreme terminals are connected respectively to a common bus and a common point of the second power terminal of the composite transistor 1 and the current sensor 8. The common output of the DC amplifier 5 is connected to a common bus, and the second control input of the composite transistor 1 is connected to the base of the pass-through transistor. A diode 10 is connected between the second output of the DC amplifier 5 and the second control input of the composite transistor 1.

The DC voltage stabilizer operates as follows.

When the input voltage is applied, the second two-terminal 3 maintains the reference voltage at the output of the source 4, which opens the composite transistor 1. A voltage appears at the output terminal, a part of which is output from the first divider 6 at the input of the DC differential amplifier 5 with the output voltage of source 4. Received the difference controls the conductivity of the composite transistor 1, ensuring that the output voltage is maintained at a given level. In normal operation, the sum of the voltages of the current sensor 8 and the output voltage of the second divider 7 is insufficient to open the protective transistor 9 and the latter does not affect the operation of the stabilizer. When the load current increases, the output voltage of the current sensor 8 increases, which leads to the protective transistor 9 opening up. Part of the current of the first two-terminal 2 branches off, bypassing the control input of the composite transistor 1. The output voltage of the stabilizer begins to decrease, which causes a decrease in the output voltage of the second voltage divider and further unlocking protective transistor 9. The output voltage continues to fall. When it decreases below the output voltage of the source 4, the collector junction of the corresponding transistor of the DC differential amplifier 5 is unlocked. However, the diode 10 is biased in the opposite direction, which prevents the flow of current, unlocking the last element of the composite transistor 1. In this case, a further decrease in the load resistance leads to a drop in the output voltage and current of the composite transistor 1, i.e. reduced power dissipation.

Thus, reliable protection of the stabilizer against short circuit is realized.

Claims (1)

Claim A DC voltage stabilizer comprising a regulating composite transistor on at least two transistors, two current-stabilizing two-terminal, a reference voltage source, a differential DC amplifier, two voltage dividers, a current sensor and a protective transistor, the first power output of the composite control transistor and the first poles of the current-stabilizing two-terminal connected to the input terminal, the second power terminal of the composite control transistor through a current sensor is connected to the output terminal connected to the emitter of the protective transistor, while the regulating composite transistor is made with two control inputs, the first of which is connected to the second pole of the first current-stabilizing two-terminal, to the collector of the protective transistor and to the first output of the differential DC amplifier, the first input of which is connected respectively, to the common bus and the output terminal, the second pole of the second current-stabilizing two-terminal device through the reference voltage source with an output connected to w to the other input of the differential DC amplifier, connected to a common bus, the output of the second voltage divider is connected to the base of the protective transistor, and its extreme terminals are connected respectively to the common bus and to the connection point of the second power terminal of the regulating composite transistor with a current sensor, a common terminal the differential amplifier of direct current 5 is connected to a common bus, and the base of the pass-through transistor is used as the second control input of the regulating composite transistor, which differs in That, in order to increase reliability of 10 by reducing the power dissipation in the modes close to the short-circuit mode, it introduced a diode connected between the second output of the differential amplifier to15 constant ka and a control input regulating compound transistor.