SU832546A1 - Dc voltage stabilizer - Google Patents

Description

The invention relates to means for maintaining a constant voltage with protection against overcurrents and can be used in the development of radio and television equipment.

Known pulsed DC voltage regulator with overload protection, in which transistors of various types of conductivity are used as regulating and amplifying transistors [1]. The required protection effect here is achieved by installing a current sensor in the power circuit (in the form of a resistor), which causes a noticeable decrease in 1 efficiency of the device.

The closest technical solution to the proposed one is a DC voltage stabilizer, which contains an input LC filter with a dross 20 in one of the supply buses, a serial control transistor connected by an emitter to an EU filter choke, a measuring and amplifying unit with a reverse transistor conductivity with respect to the control input connected to the output terminals, and the output to the control input of the control transistor, a thyristor, the control electrode of which is through a limiting resistor odklyuchon protection to the collector of the transistor, a resistive voltage divider, one output of which is connected to the positive bus, and the other - to the common point of a series circuit of a diode and a capacitor shunting the input filter inductor [2].

The purpose of the invention is the expansion of functionality.

This goal is achieved by the fact that in the constant-voltage stabilizer, the emitter of the protection transistor is connected to the emitter of the regulating transistor, and the base is connected to the midpoint of the resistive voltage divider, the thyristor anode is connected to the emitter of the measuring amplifier amplifier transistor, and its cathode is connected through the resistor to the common point of the serial circuit from the diode and capacitor.

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

The stabilizer contains an LC filter consisting of a reactor 1 and a capacitor 2, a regulating transistor 3, _ connected in series with a load 4, a measuring and amplifying unit on an amplifying transistor 6 having opposite conductivity with respect to the regulating transistor 3, a protective transistor 7, a collector which through a limiting resistor 8 is connected to the control electrode of the thyristor 9, a diode 10, to the cathode of which a capacitor 11, a resistor 12, and a resistive divider 13 are connected.

The device operates as follows. ’

The capacitor 11 is charged through the diode 10 to the amplitude value of the voltage of the inductor 1. When the load current changes, the capacitor voltage changes by the value of a3 · Idr, where 15 ^k to ^{is the} active resistance of the inductor winding. Thus, the active resistance of the filter inductor winding is a current sensor. The potential of the base, determined by the position of the engine 20 of the resistive divider 13, determines the response current of the protection. When the operating current of the base of the transistor 7 is biased in the opposite direction and it is locked.

In this mode, the protection unit does not have any effect on the operation of the stabilizer. As the load current increases above a predetermined value, the voltage across the capacitor increases

11, the base potential of the transistor 7 becomes negative and it opens.

A current begins to flow through the limiting resistor ’and the thyristor control electrode, which opens the thyristor. > At the same time, a negative voltage is applied to the emitter 55 of the transistor 6, locking the transistor and thereby stopping the flow of the load current.

To re-enable 40 VA devices after eliminating the cause of the overload, it is enough to turn off the supply voltage for a short time.

Thus, in the presence of a filter inductor in the proposed device, reliable protection is provided for any type of overload without a special current sensor, while _{7 a} change in the supply voltage has a very insignificant effect on the accuracy of the protection operation (of the order of a few percent). The proposed technical solution can be used both in linear and in pulse voltage stabilizers.

Claims (2)

The invention relates to the maintenance of constant voltage with overcurrent protection and is to be used in the development of radio and television equipment. There is a known DC voltage regulator with overload protection, in which transistors of various types of conductivity 1 are used as regulating and amplifying transistors. The necessary protection effect here is achieved by installing a current sensor in the power circuit (in the form of a resistor), which causes a noticeable reduced efficiency of the device. The closest technical solution to the present invention is a DC voltage regulator, containing an input LC filter with a choke in one of the power lines, a series regulating transistor connected by an emitter to the LC filter choke, a measuring and amplifying node with a reverse transistor relative to the regulating , the input is connected to the output pins, and the output is connected to the direct FFD input of the regulating transistor, the thyristor / control electrode of which is connected via a limiting resistor to ollektoru transistor protection resistive voltage divider, one output of which is connected to the positive bus, and the other - to the common point of a series circuit of a diode and a capacitor, shunt choke input filter 2. The purpose of the invention - raaiirenie functionality. The goal is achieved by the fact that in a constant voltage stabilizer the emitter of the protection transistor is connected to the emitter of the regulating transistor, and the base is connected to the middle point of the resistive voltage divider, the anode of the thyristor is connected to the emitter of the transistor measuring amplifier node, and its cathode is connected to the common point through the resistor serial circuit of the diode and capacitor. The drawing shows a schematic diagram of a constant voltage regulator. The stabilizer holds the LC filter, consisting of droplets 1 and capacitor 2, regulating transistor 3, connected in series with load 4, measuring-amplifying node 5 on amplifying transistor 6, having opposite conductivity with respect to regulating transistor 3, protective transistor 7, whose collar is connected to a control resistor through a limiting resistor 8, a thyristor 9 electrode, a diode 10, to the cathode of which a capacitor 11 is connected, a resistor 12 and a resistive divider 13. The device operates as follows. The capacitor 11 is charged through the diode 10 to the amplitude value of the voltage of the throttle 1. When the load changes, the voltage of the capacitor changes by the value of i3 Cdr, where RAO is the resistance of the winding of the throttle. Thus, the resistance of the winding of the droplets of the filter is a current sensor. The base potential determined by the position of the slider of the resistive divider 13 determines the protection response current. With the operating current, the base of the transistor 7 is shifted in the opposite direction and it is locked. In this mode, the protection node has no effect on the operation of the stabilizer. With an increase in the load current above a predetermined value, the voltage on the capacitor 11 increases, the potential of the base of the transistor 7 becomes negative and it opens. Through the limiting resistor 8 and the control electrode of the thyristor 9, a current flows that opens the thyristor. At the same time, a negative voltage is applied to the emitter of transistor 6, blocking the transistor and thereby terminating the load current. To re-enable the device after eliminating the cause of the overload, it is sufficient to turn off the power supply for a short time. Thus, with the presence of filter throttles in the proposed device, the scaffold is protected against any kind of overload without a special current sensor, and the change in the supply voltage has a very small effect on the accuracy of the protection (of the order of a few percent). The proposed solution can be used both in linear and in impulse voltage stabilizers. Claims A DC voltage stabilizer containing an input LC filter with a choke in one of the supply buses, a series regulating transistor connected by an emitter to the filter LC choke, a measuring amplifier node with a reverse-conducting transistor relative to the regulating input connected to the output terminals, and an output - with the control input of the control transistor, the thyristor, the control electrode of which through the limiting resistor is connected to the collector of the protection transistor, resistive a voltage divider, one output of which is connected to the positive side of the busbar, and the other to the common point of the series circuit from the diode and capacitor shunting the input filter choke, characterized in that, in order to expand the functionality, the emitter of the protection transistor is connected to the emitter of the control transistor, and the base is connected to the midpoint of the resistive divider. voltage, the thyristor anode is connected to the emitter of the measuring-amplifier transistor, and its cathode is connected to a common point through a resistor Flax IE circuit diode and capacitor. Sources of information taken into account during the examination 1. USSR author's certificate 433467, cl. G 05 F 1/58, 1972. 2. USSR author's certificate according to the application 2471363, cl. G 05 F 1/58, 1977.