SU1403045A1 - D.c. voltage stabilizer with built-in overload protection - Google Patents

Abstract

The invention is adapted to electrical engineering and can be used in various power supply devices for electrical and radio equipment. The goal is to increase the output voltage stability over a wide range of load current and input voltage. At the moment the input voltage is supplied, the transistor 3 opens and goes into saturation mode, with the result that the stabilizer is brought to the operating state. When the output voltage reaches its nominal value, Zener diode 9 is punched, transistor 4 opens, shunts the input of transistor 3 and closes it. As a result, the shunt resistor 2 does not participate in the operation after the start of the stabilizer, which ensures a high stability of the output voltage in a wide range of variation of the input voltage and load current. In the nominal mode of operation, the differential amplifier controls the operation of the control transistor I and the output voltage of the stabilizer is automatically maintained at a constant 1 slug. tA SS (L

Description

about with about

i4 01

The invention relates to electrical engineering and can be used in various power supply devices of electrical radio equipment.

The purpose of the invention is to increase the stability of the supply voltage in a wide range of variation of the load current and the input voltage.

The drawing shows a diagram of a constant voltage stabilizer with self-protection against overloads.

The stabilizer contains a regulating transistor I connected to the input bus by the emitter to the input terminal, and the collector to the output terminal I of the stabilizer, to which I also connect the shunt resistor 2 after 1 with the additional transistor 3, the collector of which is connected to the input terminal the stabilizer, and the base to the collector of the control transistor 4, to which is connected: also a resistor 5, the other output of which is connected to the collector of the transistor 3 and the resistor 6j which is the DUAL terminal connected to the base of the regulating: transistor, resistor 7, 1 connected to the base of transistor 4, the emitter of which is connected to the negative terminal of the stabilizer, which is also connected to the resistor 8, | zener diode 9, connected in series with the resistor 7 and another | water connected to the collector of the regulating transistor 1, to which {are connected in series | resistor 10 and reference stabilizer frpoH 11, DRUG1S-1 terminal connected to the negative terminal of the zener diode and to the common point of the resistor 10 And zener diode 11 ene base of transistor 12 of differential amplifier transistors 12 and 13, which are connected to the emitters other ryvod resistor 8, to the collector of the transistor. 12, the base of the regulating transistor 1 is connected, to the collector of which the collector of the transistor 13 is connected, the base of which is connected to the midpoint of the resistive voltage divider 14, which is connected to the pins of the stabilizer in parallel with the smoothing capacitor 15.

The stabilizer works in the following way.

At the moment the input voltage is applied, transistor 3 opens and goes into saturation mode. Through the shunt resistor 2, the voltage is applied to the output of the stabilizer, which leads to the operating state of the whole stabilizer. When the output voltage reaches its nominal value, Zener diode 9 is punched and transistor 4 is opened, which shunts the input of transistor 3, locking it. From this moment on, the shunt resistor 2 is disconnected and does not affect the operation of the stabilizer. Due to the fact that the shunt resistor after starting the stabilizer does not participate in the work, the stability of the output voltage in a wide range of variation of the input voltage and load current is provided.

Q At rated operation

diff (1) A potential amplifier on transistors 12 and 13 controls the operation of the control transistor 1 and the output voltage of the stabilizer is automatically kept constant. As the load current increases, the current through the transistor 12 increases. As a result, the conductivity of the control transistor 1 increases, which tends to keep the output voltage constant with the increased load. Stabilizing the output voltage continues until the current through the transistor 12 reaches the maximum value determined by the Zener diode 9, the resistor 8 and the voltage between the base and the emitter of the transistor 12. The output voltage will continue to fall with the load increases until until transistor 12 is fully closed. The control transistor 1 is also locked in this case, and the output voltage of the stabilizer drops almost to zero.

Following the locking of the control transistor 1, the transistor 4 is closed, and the transistor is unlocked. The short-circuit current is limited by the resistance value of the shunt resistor 2, then the protection operates in the current stabilization mode in the self-oscillating mode. /

Thus, disconnecting the shunt resistor in the stationary mode allows increasing the stability of the output voltage when the load current changes and expands the range of application of the stabilizer in different

0

five

0

3 .biO

power supply devices operating with a load current fluctuation from P1ul to a given nominal

value.

Claims (1)

Claims of the Inverter DC voltage regulator with self-protection against overloads, containing a regulating transistor connected to the input bus by the emitter to the input terminal, and a collector to the output terminal, a DC differential amplifier, one input of which is connected to the output of the source of the reference voltage at the Zener diode and the limiting resistor, the other input is connected to the output of the output voltage divider, and the output to the base of the regulating transistor directly and through the first resistor to the input terminal, with lazhivayuschy capacitor in paral- s for output, an upstream transistor, the emitter of which is connected to a common bus, a chain of series-connected resistors and a zener diode, a shunt resistor and a second resistor, characterized in that, in order to increase stability in the wide range of load current and input voltage, the shunt resistor is connected in parallel to the control transistor through the collector-emitter junction of an additional transistor, the base of which is connected to the collector of the control transistor directly but also through the second resistor to the input terminal, while the base of the control transistor is connected through the specified chain of series-connected resistors and a zener diode to the collector of the control transistor.