SU983682A1 - Electric power supply system - Google Patents

Description

The invention relates to electrical engineering and can be used in secondary power supply systems and automation devices and computer technology.

Known power supply systems with protection, containing control elements, sensors and actuators £ 11.

The closest in technical essence to this invention is a power supply system containing at least two secondary power sources, each of which consists of a control element, a control input connected to the outputs of the comparison unit and an actuator, an output parameter sensor, to the output of which an input circuit is connected first optocoupler £ 2j.

A disadvantage of the known power supply system is the dependence of the operability of the group protection circuit on the voltage level at the input of the first source. Indeed, when the voltage U g> x disappears at the input of the first source, its output voltage drops to zero, therefore, under the condition of group protection, all sources of the power supply system combined by group protection must be disconnected through the triggering of optocouplers.

Thus, the failure of the Upy voltage at the input of the first source leads to a failure of the group protection circuit of the power supply system.

The purpose of the invention is to increase reliability.

The goal · is achieved by the fact that the OR gate, the output of which is connected to the input of the actuating element, and the second optocoupler, the input circuit of which is connected in series with the input circuit of the first optocoupler, the output of which is connected to the first input of the logic element, is introduced into each power supply system in the power supply system OR its power source, and the output of the second optocoupler is connected to the second input of the logic element OR another power source.

Each optocoupler contains a light emitting diode and a phototransistor, while the emitter of the phototransistor of the first optocoupler is connected to the common bus, and the collector is connected to the first input of the OR logic element of its power supply, the emitter of the phototransistor of the second optocoupler is connected to the common bus, and the collector is connected to the second input of the logical element OR another power source. 5

The actuating element is made on a thyristor connected between the control input of the regulating element and the common bus, and the control electrode is connected to the output of the OR logical element.

The drawing shows a diagram of a power supply system.

The power supply system contains $ secondary sources 1, 1.1 - 1 _and power supply, each of which contains a control element 2, a comparison unit 3, an output parameter sensor 4, transistor optocouplers 5 'and 6, light emitting diodes 7 and 8 of which are connected in series with the output bus sequentially and connected between the comparison unit and the sensor of the output parameter, the Executive Element on the thyristor 9, 25 the anode of which is connected to. the input of the regulatory element, the cathode is connected to a common bus, and the control electrode with the output of the logical element OR 10, and phototransistors 11 and 12 30 optocoupler pairs 5 and 6.

The proposed device operates as follows.

In the normal mode of operation of the power supply system, when the output 35 voltages of all secondary power sources are within acceptable limits, the sensors 4 of the output parameters are in a state in which current flows in light-emitting diodes' 7 and 8 optocoupler pairs up to 5 and 6. Phototransistors 11 and 12 optocouplers 5 and 6 _{L of} saturated inputs to OR gates 10 low voltage levels, so the control inputs of the thyristors 9, low voltage, locked thyristors 9.

When disconnecting the output voltage of at least one secondary power supply 1 from the acceptable limits, the sensor 4 output parameter ^e this source breaks the supply circuit of the light emitting diodes 7 and 8 optocouplers 5 and 6, the phototransistors 11 and 12 optocouplers 5 and 6 are locked at the input logic element 55 OR 10 of this and the next source number · 14 + 1 receives a high voltage level. At the control inputs of the respective thyristors 9, high voltage levels occur. Thyristors 9 turn on, turning off their secondary power sources, turning on one source turns off the next power source by number, therefore, turning off one of the sources turns off the entire power supply system. Since in the proposed device, the operation of the protection circuit occurs during blanking; the light emitted from both diodes 7 and 8 are optronic! pairs 5 and 6, and the protection circuit in each secondary source is supplied from the input voltage of the same source, the operability of the group protection circuit does not depend on the input voltage level of one or more sources of the power supply system.

The positive effect of the proposed invention, which consists in increasing reliability by eliminating the dependence of the performance of the group protection circuit on the input voltage level of one or more sources of the power supply system, is ensured by the fact that the protection circuit is activated when the light emitting diodes are extinguished, and the protection circuit is powered in each secondary power source carried out from the input voltage of the same source.

Claims (3)

The invention relates to electrical engineering and can be used in secondary power supply systems and automation devices and computer technology. The power supply systems with protection are known, containing regulating elements, sensors and actuators 1 J. The closest to the technical essence of this invention is a power supply system containing at least two secondary power sources, each of which consists of a regulating element controlled by The input of the comparator unit connected to the output and the actuator element, the output parameter sensor, to the output of which is connected the input circuit of the first optocoupler 2J. A disadvantage of the known power supply system is the dependence of the efficiency of the group protection circuit on the voltage level at the input of the first source. Indeed, when the voltage at the input of the first source disappears, its output voltage drops to zero, therefore, according to the group protection condition, all sources of the power supply system, united by the group protection, must be disconnected through the operation of the rptron pairs. Thus, the loss of voltage U0) (at the input of the first source leads to the failure of the group protection circuit of the power supply system. The purpose of the invention is to increase reliability. The goal is achieved by the fact that in the power supply system the OR power element is connected to each power supply with the input of the actuator, and the second optocoupler, the input circuit of which is connected in series with the input circuit of the first optocoupler, the output of which is connected to the first input of the logic element OR its source The power supply unit and the output of the second optocoupler are connected to the second input of the logic element OR of another power source. The optocoupler contains a light emitting diode and transtotransistor, while the emitter of the phototransistor of the first optocoupler is connected to the common thickness, and the collector is connected to the first input of the logic element OR of its power supply, the emitter The phototransistor of the second optocoupler is connected to the common bus, and the collector is connected to the second input of the logic element OR of another power source. The executive element is made on a thyristor connected between the control input of the regulating element and the common bus, and the control electrode is connected to the output of the logical element OR. The drawing shows a power supply system diagram. The power supply system contains secondary sources 1, 1.1 - l | / f power, each of which contains a regulating element 2 connected in series to the output bus, a comparison unit 3, an output parameter sensor 4, transistor optocouplers 5 and b, and light-emitting diodes 7 and 8 are connected in series and connected between the comparison unit and the output parameter sensor, the executive element on the thyristor 9, the anode of which is connected to the input of the regulating element, the cathode is connected to the common bus, and the control electrode with the output of the logic element OR 10, and phototransistors 11 and 12 optocouplers 5 and 6. The proposed device operates as follows. In the normal mode of operation of the power supply system, when the output voltages of all secondary power sources are within acceptable limits, the sensors of the 4 output parameters are in a state in which optical current pairs 5 and 8 flow through the optical emitting diodes 7 and 8. The phototransistor 11 and 12 optocouplers 5 and 6 are saturated at the inputs of logic elements OR 10 low voltage levels, therefore, at the control inputs of thyristors 9 low voltages, thyristors 9 are locked. When the output voltage of at least one of the secondary power supplies 1 is disconnected from the permissible limits, sensor 4 of the output parameter of this source breaks the power supply circuit of the light-emitting diodes 7 and 8 of optocouplers 5 and 6, phototransistors 11 and 12 of the optronic pairs 5 and 6 are locked and at the input of the logical element OR 10 of this and the next source number 14 + 1, a high voltage level is applied. At the control inputs of the corresponding thyristors 9, high levels of voltage are produced. Thyristors 9 are turned on by turning off their secondary power sources, turning on one source turns off the next power source number, and therefore turning off one of the sources turns off the entire power supply system. Since in the proposed device, the protection circuit is activated when the light-emitting diodes 7 and 8 of the optocoupler pairs 5 and b are extinguished, and the protection circuit in each secondary source is powered from the input voltage of the same source, the operation of the group protection circuit does not depend on the level Input Voltage of one or more power supply sources. The positive effect of the proposed invention, which is to increase reliability by eliminating the dependency of the performance of the group protection circuit on the input voltage level of one or more sources of the power supply system, is ensured by the fact that the protection circuit is activated when the light emitting diodes is extinguished, and the secondary circuit is powered power is supplied from the input voltage of the same source. Claim 1. A power supply system comprising at least two secondary power sources, each of which consists of a control element, a control input connected to the outputs of the comparison unit and an actuator element, an output parameter sensor, the output of which is connected to the input circuit of the first Optocoupler, different so that, in order to increase reliability, the logical element OR, the output of which is connected to the input of the actuating element, and the second A ptron, the input circuit of which is connected in series with the input circuit of the first optocoupler, the output of which is connected to the first input of the OR logic element of its power source, and the output of the second optocoupler is connected to the second input of the OR logic element of another power source. 2. The system of claim 1, wherein each optocoupler includes a light-emitting diode and a phototransistor, the emitter of the phototransistor of the first optocoupler is connected to a common bus, and the collector is connected to the first input of the logic element OR of its power supply, the emitter of the phototransistor of the second optocoupler is connected with the common bus, and the collector is connected to the second input of the logic element OR of another power source. 3. The system of claim 1, wherein the actuating element is made on a thyristor connected between the control input of the regulating element and the common bus, and the control electrode is connected to the output of the OR logic element. Sources of information taken into account when exported 1. USSR author's certificate number 696433, cl. G 05 F 1/58, 1977. 2. Authors certificate of USSR M 688903, cl. G 05 F 1/58, 1976.