SU857954A1 - Electric power supply device - Google Patents

Description

The invention relates to a power source, in particular to semiconductor voltage stabilizers, and can be used to protect the current of various automation devices and radio equipment, power from two stabilized power sources. A voltage regulator is known, which is a single voltage regulator containing a regulating element, a DC amplifier with a comparison circuit, a current regulator and a protective device 1). When building a power supply device containing several voltage regulators of this type, the main disadvantage of the known stabilizer is the impossibility of simultaneously disconnecting all stabilized voltage sources in the event of an overload of at least one of them. Closest to the present invention is an electrical power supply device containing two compensatory voltage stabilizers, the bases of regulating transistors of which are connected to their collectors through transistor current regulators and protective resistors, and through collector-emitter junctions of amplifying transistors are connected to a common bus, the emitters of protective transistors are connected to the emitters of the corresponding transistors - current stabilizers, and the bases of the protective transistors are connected to the collectors and the emitter through resistors am appropriate control transistors 12). The drawbacks of the device are the complexity of the protection device due to the presence of a common switching element, and also the reliability is not high enough due to the large number of elements of the protection circuit. The purpose of the invention is to simplify the device and increase its reliability. The goal is achieved by the fact that in the power supply device the collector of the protective transistor of the first voltage regulator is connected to the base of the amplifying transistor of the second voltage regulator through the limiting resistor, and the collector of the protective transistor of the second voltage regulator

through a limiting resistor connected to the base of the amplifying transistor of the first voltage regulator.

The drawing shows a diagram of the power supply device.

The device contains two compensatory stabilizers 1 and 2, base regulating transistors 3 and 4, which are connected to their collectors through transistor stabilizers 5 and 6 of the current and protective resistors 7 and 8, respectively, and are connected through a collector-emitter junction of amplifying transistors 9 and 10 With a common body bus, the emitters of the protective transistors I and 12 are connected to the emitters of the corresponding transistors 13 and 14 of current stabilizers 5 and 6, the bases of the protective transistors 11 and 12 are connected via resistors 15 and 16, 17 and 18 to the collector m and emitters regulating transistors 3 and 4, respectively. The collector of the protective transistor 11 of the voltage stabilizer 1 is connected via a limiting resistor 19 to the base of the amplifying transistor 10 of the voltage regulator 2, and the collector of the protective transistor 12 of the voltage regulator 2 is connected via the limiting resistor 20 to the base of the amplifying voltage transistor 9 of the voltage regulator 1.

The device works as follows.

When the voltage Ug5i and UgyjHa are applied, the outputs of the voltage regulators 1 and 2 appear to be stabilized voltages (output) of calculus 2, respectively. When overloading through a TSEC or a short zolvakaniya at the output of the voltage regulator, for example, 1, the voltage across the protective resistor 7 increases, and the protective transistor 11 opens, which in turn causes the current stabilizer 5 and control transistor 3 to be closed. At the same time, the collector current of the transistor 11 begins to flow through the base circuit of the amplifying transistor 10 of the voltage regulator 2. The flow through the base target of the additional current transistor 10 causes the regulating transistor 4 of the voltage regulator 2 to shut down. This in turn leads to the opening of the protective transistor 12 and the flow of its collector current through the base circuit of the amplifying transistor, 9 of the voltage regulator 1. So

Thus, a positive feedback occurs, which promotes the closing of the regulating transistors 3 and 4. Closing the latter contributes to an increase in the current flowing through the resistors 15 and 16, 17 and 18, which in turn leads to the opening of the protective transistors 11 and 12. The protective transistors remain in the open state, despite the complete closing of the control transistors 3 and 4 and the cessation of the flow of current through the protective resistors 7 and 8 of the respective voltage regulators 1 and 2.

Thus, in case of overcurrent or short circuit, one of the voltage stabilizers simultaneously shuts down both voltage regulators.

This device has a much simpler protection circuit, which contributes to improving the reliability of the device.

Claims (1)

1. Shtilman R.I. Microelectronic voltage regulators, Technique, Kiev, 1976, p. 23-24, fig. 4 years 2, USSR Copyright Certificate No. 2615940/07, cl. G 05 F 1/58, 1978.