SU1081634A1 - D.c.voltage stabilizer - Google Patents

Abstract

A CONSTANT VOLTAGE STABILIZER containing a regulating element connected in series to the power bus, a measuring-amplifier and a feedback node connected by inputs to the output outputs, d output to the control input of the regulating element, and a protection node consisting of a resistive current sensor connected to a common bus, a voltage divider connected by one output to the input output of a common bus and to one of the current sensor outputs, a transistor whose emitter is connected to the midpoint of the voltage divider, the base and the circuit to another output of the current sensor, and the collector to the control input of the regulating element, characterized in that, in order to increase the efficiency, an output for connecting an additional constant voltage source relative to the common bus, a resistor and a zener diode, at the same time, the zener diode is connected between the power output pin and the other output of the voltage divider to which (L one of the terminals of the resistor is connected, the other output of which is connected to the output FOR connecting an additional voltage source.

Description

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4 1 The invention relates to electrical engineering and can be used in power supply devices of automation units, communication facilities and computer technology. A stabilizer with adjustable output voltage and overload and short circuit protection is known, consisting of a regulating transistor, a comparison circuit, a current protection circuit and an actuator. The disadvantage of this stabilizer is its low efficiency due to a large drop in voltage. on the current sensor. The closest to the invention according to its essential features is a DC voltage regulator containing a regulating transistor, a comparison circuit, a current sensor included in the common bus, a protection transistor whose base is connected to the common bus, the emitter is at the midpoint of the resistive protection divider, and collector - with the base of the regulating transistor z. A disadvantage of the known stabilizer is low efficiency in the nominal mode, since considerable power is dissipated on the current sensor resistor. The purpose of the invention is to increase the efficiency. The goal is achieved by the fact that the DC stabilizer contains a regulating element connected in series to the power bus, a feedback measuring and amplifying unit connected by inputs to the output terminals, and an output to the controlling input of the regulating element and a protection node; consisting of a resistive current sensor connected to the common bus, a voltage divider connected by a single pin to the common point input terminal and to one of the current sensor outputs, the transistor The emitter of which is connected to the midpoint of the voltage divider, the main circuit is to another output of the current sensor, and the collector is connected to the control input of the regulating element, and a circuit was inserted to connect an additional source of DC voltage relative to the common tires, resistor and zener diode, while the zener diode is connected between the power output terminal and the other output of the voltage divider to which one of the resistors 4 resistors is connected, the other output of which is connected to the output for connecting an additional source apr wife The drawing shows a circuit diagram of a constant voltage stabilizer. The device comprises a regulating element 1, a feedback measuring amplifier 2, a resistive current sensor 3 included in the common bus, a protection transistor 4, a voltage divider on resistors 5 and 6, a ballast resistor 7, a zener diode 8 and a second ballast resistor 9. The constant voltage stabilizer operates as follows. When the supply voltage is applied at the output of the stabilizer, an output voltage equal to the voltage difference between the supply voltage and the voltage on the power regulating transistor 1 appears. The output voltage is stabilized when the supply voltage changes due to the voltage drop on the regulating element through the node 2 feedback. The overvoltage and short circuit protection of the stabilizer is provided by limiting the output current level by means of the protection transistor 4, which closes the regulating element when the voltage at the transition emitter - baz exceeds the unlocking voltage of transistor 4. When overloading or short-circuiting transistor 4 the action is closed and the protection is terminated. The voltage of the Zener diode 8 and the resistance values of the resistors 5 and 6 and the current sensor 3 are selected as follows. So that at an overcurrent that does not exceed the maximum allowed, transistor 4 is closed. In the overload mode, the current opens the protection transistor 4, and the transistor 1 begins to close and the voltage at the output of the stabilizer decreases. In the short circuit mode, the output voltage drops to zero and the voltage divider on the resistors 5 and 6 is powered by the voltage of the Zener diode 8. To open transistor 4, a rather small voltage drop on the sensor 3. Thus, a small short-circuit current is sufficient to maintain no protection scheme. Also in the case of stabilizer overload, the magnitude of the overload current is less than for a device without an additional parametric stabilizer. By selecting the voltage of the Zener diode 8 and the resistors in an appropriate way, the value of the short-circuit current can be significantly reduced, so that in stabilizers with an increased output voltage (100-200V) the power released by the control transistor during the short-circuit fault is nominal mode. After the fault is removed, the circuit automatically returns to its original operating state. In the proposed stabilizer, the efficiency is increased, since in the overload modes the insignificant power is allocated.

Claims (1)

A DC voltage stabilizer containing a regulating element connected in series to the power bus, a measuring and amplifying feedback unit connected by inputs to the output terminals, and an output to the control input of the regulating element, and a protection unit consisting of a resistive current sensor included in the common bus voltage divider connected by one output to the input terminal of the common bus and to one of the terminals of the current sensor, transistor, the emitter of which is connected to the midpoint of the voltage divider, the base circuit b - to another terminal of the current sensor, and the collector - to the control input of the regulating element, characterized in that, in order to increase efficiency, a terminal is inserted into it for connecting an additional DC voltage source relative to the common bus, a resistor and a zener diode, while the zener diode is on between the power output terminal and the other terminal of the voltage divider, to which one of the terminals of the resistor is connected, the other terminal of which is connected to the terminal for connecting an additional voltage source.