SU826319A1 - Dc voltage stabilizer - Google Patents

Description

(54) DC VOLTAGE STABILIZER

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The invention relates to electrical engineering and can be used in power supply devices of various kinds of electronic equipment and computer technology.

A linear voltage regulator is known that additionally contains a protective transistor and an optocoupler, the emitter junction being connected between the reference source of the stabilizer and the output of a voltage divider in the circuit: the base of the composite transistor is a common stabilizer bus, and its collector is connected to the output of the stabilizer via an LED of the optocoupler, a photothyristor which shunts the specified voltage divider 1.

The disadvantage of this stabilizer is the lack of self-protection against overloads and the use of inertial actuators, such as an optocoupler, in the protection nodes, which is not always permissible in terms of specifications.

The closest to the proposed function and technical essence is a DC voltage regulator, containing a serial regulator and a two-stage feedback amplifier, connected to the midpoint of a voltage divider connected in parallel with the output capacitor and output terminals, and between the base the output transistor of the regulator and the output of the feedback amplifier are switched on the bas-emitter junction of the matching transistor 2.

The disadvantage of the known stabilizer is that the characteristic of the overload mode does not have a clearly defined protection threshold, which in some cases is not acceptable. In addition, there is no smooth switching on and a surge in output voltage and current is possible, i.e., spontaneous operation of the protection when switched on, if the load is

this stabilizer will have a capacitive character. There is no self-control of the exit from the stabilization mode after saturation of the regulator with unacceptable deviations of the input

Claims (2)

(decrease) and output (increase) of voltages and load current (in case of overload), since the available protection does not work, and a sharp increase in ripples at the output of the stabilizer can lead to failure of a number of computer-powered devices. The purpose of the invention is to enhance the functionality of the stabilizers of the infrastructure and to provide protection by self-monitoring of the exit from the stabilization mode due to saturation of the regulator, as well as simplification. The goal is achieved by the fact that in the DC voltage regulator a self-control and protection node and a soft start-up node are inserted, the sensor of the self-control node and the protection is included between the matching transistor collector and the total width, and the actuator is connected between the entered resistor and diode, connected by their other outputs to the input terminal and the input of the feedback amplifier, respectively, and the soft start node is connected between the input terminals and its output is connected to the output of the first stage direct feedback. In order to simplify and provide adjustment and self-blocking, the self-control and protection node is made in the form of a reed switch, the winding and normally open contact group of which are connected between the collector of the matching transistor and the total thickness and the additionally inserted resistor, respectively. FIG. 1 shows the structural scheme of the proposed voltage regulator; in fig. 2 is a schematic diagram of the practical implementation of a voltage stabilizer with protection and self-control mode of operation. The device contains a soft-start node 1 at the input, an output capacitor with a voltage divider 2, regulator 3 on two transistors, the collector of the matching transistor which has a free output 4, and the base of this transistor is connected to the output of a two-stage feedback amplifier 5 connected to the specified divider 2 of the output voltage, the output of the first stage of the amplifier 5 is connected to the output of the soft-start node -1 and to the resistor 6, the second output of which is connected to the collector of the control transistor. The device also contains additionally introduced self-monitoring and protection node, in order to simplify and provide adjustment and blocking, which consists of winding 7 of the gercon relay (node sensor) and reed switch 8 for short circuit (actuating element of the node), resistor 9 and blocking diode 10, winding 7 is connected between the total stabilizer width and output 4, which is also connected to the input of the amplifier 5 and the input of the stabilizer on the part of the regulator 3, respectively, through series-connected resistor 9, reed switch 8 and blocking di one 10. The stabilizer works as follows. In the nominal mode of operation, the positive voltage at the input of the amplifier 5 is greater than the voltage on the winding 7, while the blocking diode 10 is locked and eliminates the effect on the operation mode of the amplifier 5. With an increase in the load current, the base current of the regulator main transistor 3 increases, and the collector current of its matching transistor, the voltage drop across the winding 7 increases and when the preset level is reached, the reed switch 8 is activated, self-blocking from the input voltage through the resistor 9. At the same time, the diode 10 unlocks c, the transistor of the first stage of the amplifier 5 is fully opened, which leads to the locking of the regulator 3 and thus the current protection function. In this state, the device is located before the input voltage is removed, after which it can be switched on again. When the input voltage decreases below the allowable value determined by the level of the output stabilized voltage and the lowest allowable saturation voltage of the regulator-op by 3, the transistors of the regulator 3 are fully opened and the voltage on the winding 7 also increases to the level of the reed switch 8. The same thing happens when the output voltage increases ™ leading to the regulator 3. At the start of the stabilizer, due to the presence of the soft start node, the indicated saturation and the reed switch will not happen. Expansion of functionality is achieved by monitoring the state of the regulator, i.e., self-checking of the stabilizer mode and, in case of its deviation from the normal, turn off the stabilizer by locking the regulator. Simplification of the device is achieved because: winding 7 (Fig. 2) is introduced instead of the load resistor of one of the regulating transistors of the regulator; in the same input node, the two above-mentioned functionalities are combined, i.e. protection and self-monitoring of the operation mode; the proposed node provides for the possibility of adjusting the protection threshold and controlling and blocking it in the event of a trigger, which means there is no need to introduce additional elements for this. Claim 1. Stabilizer DC, containing a serial regulator and a two-stage feedback amplifier, the input connected to the midpoint of the voltage divider connected in parallel to the output capacitor and output terminals, and between the base of the output transistor regulator and the output of the amplifier reverse connection, a base-emitter junction of a matching transistor is included, characterized in that, in order to extend the functionality and provide protection, a self-monitoring and protection node and a soft-start node are introduced, the sensor of the self-monitoring and protection node is connected between the collector of the matching transistor and the total width, and the actuator is connected between the inserted resistor and diode connected by its other terminals to the input terminal and the feedback amplifier input, respectively and a soft start node is connected between the input terminals, and its output is connected to Bbixoj the house of the first cascade feedback amplifier. 2. Stabilizer according to claim 1, characterized in that, in order to simplify and provide adjustment and self-blocking, the self-control and protection node is designed as a reed switch, the winding and normally open contact group of which are connected between the collector of the matching transistor and the total thickness and the entered resistor respectively. Sources of information taken into account in the examination 1 USSR author's certificate No. 588539, cl. G 05 F 1/58, 1975. 2 USSR author's certificate No. 584297, cl. G 05 F 1/56, 1976. P f Wws