SU961035A1 - Low voltage power source with protection - Google Patents

Description

(54) LOW-VOLTAGE POWER SUPPLY WITH PROTECTION

Claims (2)

The invention relates to electrical engineering and can be used in the development of low-voltage power supplies with protection against overvoltages, short circuits and output overvoltages, designed to power electronic equipment. Protected power sources are known that contain a regulating transistor, an actuating unit and terminals for connecting a power source 1. A disadvantage of the known power sources is low reliability. The closest to the proposed technical essence and the achieved result is a low-voltage power source containing a bridge rectifier, in the two first adjacent arms of which are connected thyristors and two second arms — the first and second diodes, with the bridge rectifier input connected to the output winding of the transformer, the input winding of which is connected to the terminals for connecting the network, and the output of the bridge rectifier is connected to the inputs of the stabilizer, one output terminal of which is connected to one of the terminals for connecting the load, the second terminal for connecting which is connected to the second output terminal of the stabilizer via an emergency mode sensor, in parallel with which is connected a control unit with a relay actuator, while the control electrodes of the bridge rectifier thyristors are connected to the first terminals of the first and second resistors, respectively, and the third diode 2. A disadvantage of the known source of power is the low efficiency in the area of low input voltages. The aim of the invention is to increase the efficiency. The goal is achieved by the fact that the low-voltage power supply is equipped with a transistor, additional third and fourth resistors and two additional rectifiers, and the transformer is equipped with two additional output windings, to the terminals of each of which are connected the inputs of the corresponding additional voltages, the positive outputs of which are connected extended to the collector of the transistor and the first output of the third additional resistor, the second output of which is connected to the negative output of the second and simultaneously with the anode of the third diode, whose cathode is connected to the base of the transistor and to the first output of the fourth additional resistor, the second pin of which is connected to the second contact of the first and second resistors, and the negative output of the first additional rectifier The mittel is connected to the cathodes of the thyristors of the Bridge Rectifier. FIG. 1 shows the principal. electrical low voltage power supply; in fig. 2 - stress diagrams. The power source (Fig. 1) contains a single-phase transformer 1, to one of the secondary windings of which the main bridge rectifier is connected, consisting of diodes 2 and 3 and controlled gates (thyristors) 4 and 5, a stabilizer 6, connected by its input to the bridge to the rectifier, and the output connected to the load 7 and the sensor 8 emergency mode, control protection and overload protection unit 9 control relay 10, two additional 1P) 1x rectifier 11 and 12 connected by their inputs to the additional output winding transformer connected by positive poles, the negative pole of the first of them is connected to the cathodes of thyristors 4 and 5, the positive pole of the second additional rectifier is connected to the first by an additional resistor 13, the collector of the transistor 14, the negative pole of the second additional rectifier through an additional diode 15 is connected to the base of the transistor 14 and the second additional resistor 16. The emitter of the transistor is through the opening contact 17 of the actuator 10 and the main resistors 18 and 19 are connected to the control is gate electrodes of the thyristors of the bridge main rectifier. The power supply protection authority is as follows. When the source is overloaded, the voltage drop on the sensor 8 is enough to trigger the protection control unit 9 on the actuating element 10. At the same time, the contact 17 of the actuating element is opened and the control circuit of the thyristor electrodes is de-energized. The bridge rectifier is turned off, the overload mode is eliminated. In the absence of overload or short circuit, at the source output, the thyristors of the bridge rectifier are controlled as follows. An additional rectifier 11 forms a smoothed output voltage of 12-15 V (voltage U of Fig. 2). The second additional rectifier 12 forms a non-smoothed output voltage with an amplitude of 12-15 V as well (voltage Do, Fig. 2). The zero-crossing points are the moments of natural switching of this rectifier circuit with active or inductive loads, i.e. at these moments one of the thyristors must turn on and the other off. At moment 1, when the voltage on the anode of the switching on thyristor, the passage through the zero value becomes positive, in the control circuit of the thyristor, due to the action of the voltage U (Fig. 2), the current, which is greater than the running current, is already active. Therefore, there is no delay in switching on the thyristors with respect to the moments of natural commutation, i.e. the switching on delay angle a is zero, and there is no decrease in the average value of the rectified voltage. Thus, there is no need to overestimate the voltage rectified by the bridge, which provides an increase in the efficiency of the power source. Invention A low-voltage power supply with protection containing a bridge rectifier, in the first two adjacent arms of which the thyristors are connected and the first and second diodes in the two second arms, the input of the bridge rectifier being connected to the output winding of the transformer, the input winding of which is connected to terminals for network connection, and the output of the bridge rectifier is connected to the inputs of the stabilizer, one output of which is connected to one of the terminals for connecting the load, the second terminal for connecting which connected to the second output of the stabilizer through an emergency mode sensor, in parallel with which a control unit with a relay actuator is connected, the control electrodes of the bridge rectifier thyristors are connected to the first terminals of the first and second resistors, respectively, and the third diode, characterized in that in order to increase the efficiency, it is equipped with a transistor, 110 additional third and fourth resistors and two additional sensors, and a transformer syabzh Two additional output windings, each of which are connected to the inputs of the corresponding additional rectifiers, the positive outputs of which are connected to the collector of the transistor and the first output of the third additional resistor, the second output of which is connected to the negative terminal of the second additional rectifier and simultaneously with the third anode a diode whose cathode is connected to the base of the transistor and to the first output of the fourth auxiliary resistor, the second output of which is connected via the opening contact of the relay actuator to the second terminals of the first and second resistors, and the negative terminal of the first additional rectifier is connected to the cathodes of the thyristors of the bridge rectifier. Sources of information taken into account in the examination 1. USSR author's certificate number 448451, cl. H 02 H 7/12, 1974. 2. USSR author's certificate number 547142, cl. H 02 H 7/12, 1976. Network 0- FI.2.