SU662924A1 - Overload-protected power supply source - Google Patents

Description

(54) POWER SUPPLY SOFTWARE PROTECTION

one

FIELD OF THE INVENTION The present invention relates to the radio and electrical industries, automation and measurement technology.

Power supply devices are known to be protected by an alternating current circuit with anti-parallel switching of thyristors 1.

The closest technical solution to this invention is a power source with overload protection, containing two oppositely connected thyristors in the AC circuit, the corresponding diode, a limiting resistor, connected to the anode of one of the indicated diodes to the control electrode of each of which A transformer with at least two secondary windings, each of which is connected to a corresponding secondary source of constant voltage with leads for connecting Neither the load nor the overload sensor in the output circuit, the control protection body, the input terminals of which are connected to the indicated overload sensors, is an additional element 2.

A disadvantage of the known device is its complexity, which impairs reliability indicators.

The purpose of the invention is to simplify the device and increase reliability.

Claims (1)

This goal is achieved by the fact that in the power supply with overload protection, an executive element is connected between the other output of the indicated limiting resistor and the anode of another of the indicated diodes, and between the cathode of each of the indicated thyristors and the anode of the corresponding diode an additional diode is connected in the forward direction, In addition, the actuator and the control unit of the protection are made in the form of a key amplifier on the transistor, bias Zener diode and optocouplers, and the LEDs of the actuator optocouplers This device is connected to the collector circuit of the key amplifier transistor, and its photo thyristors are connected anti-parallel to the control circuit of these thyristors, the LEDs of the protection control optocouplers are connected in parallel to the overload sensors, and their photo thyristors between the base of the key transistor of the key amplifier and the bias zenerode cathode, the anode of which connected to the emitter of the specified transistor. FIG. I and 2 are schematic diagrams of a power source with overload protection. The source contains, in an alternating current circuit, anti-parallel thyristors 1, 2, each of the control electrodes of which bypass two diodes 3, 4, a limiting resistor 5, and an actuating element 6, a transformer 7 with at least two secondary windings, each of which is connected to the corresponding secondary sources ° overload sensors 9 ... 9 and load 10 ... 10, the control protection body 11, the input terminals of which are connected to the overload sensors 9 ... 9. The protection control element and the actuating element 6 are made on optocouplers 12 ... 12, the light diodes 13 ... 13 of which are connected in parallel with the overload sensors 9 ... 9, and the photo thyristors 14 ... 14 between the cathode of the bias zener diode and the base of the transistor 16, on resistors 17, 18, 19, on optocouplers 20, 21, photothyristors 22, 23 of which are connected in parallel to the control circuit of thyristors 1, 2, and their LEDs 24, 25 are included in the collector circuit of the transistor 16. The device shown in fig. 1, works as follows. In normal operation, i.e., when there are no overloads and short circuits at the outputs, the voltage taken from the overload sensors 9 ... 9 is not enough to trigger the control of protection 1, and the actuating element 6. is closed. Through each half-cycle of alternating voltage, the control current passes through diodes 3 and 4, actuator 6, and a limiting resistor 5. For example, at a positive field of alternating voltage at the upper terminal Ugx, the thyristor control current I flows through a diode 4 connected to the thyristor 2, the executive element 6, the limiting resistor 5, the control electrode of the thyristor 1. The diode 3 connected to the thyristor 1 is protective against reverse polarity in the next half period, the diode 4 connected to the thyristor 2 is protective m herein in half. In this mode, one of the thyristors 1, 2 opens through each half-diode and the alternating current voltage goes to the transformer 7, the trans is formed and supplied to the source 8 ... 8 and the load 10 ... 10 In the emergency mode, i.e. when the resistance of one of the loads 10 ... 10 becomes less than the permissible value, the voltage on the corresponding overload sensor 9 ... 9 increases (or simultaneously on several overload sensors). The protection control unit 11 activates and switches off the actuating element 6. When the backward half-wave of the mains voltage passes, the thyristor which is in the conducting state when the element 6 is disconnected closes, disconnecting the alternating voltage source from the transformer 7, i.e. from sources 8 ... 8 and loads 10 ... Yu. The device shown in FIG. 2, works as follows. In normal operation, the voltage removed from the overload sensors 9 ... 9 is not enough to turn on the LEDs 13 ... 13 and the photo thyristors 14 ... 14 of the optocouplers 12 ... 12 are in the off state, resulting in a transistor 16 The key amplifier is in the on state (the base current flows through the resistor 18), a current limited by the resistor 17 flows through the LEDs 24, 25 of the optocouplers 20, 21, and the photo thyristors 22, 23 are turned on every Utx. When current flows through one of the two photo thyristors, the reverse polarity is created on the other. In this mode, one of the thyristors I, 2 is opened through each half-cycle, and the AC voltage is fed to the transformer 7, transformed and fed to sources 8 ... 8 and loads 10 ..-. 10 In emergency operation, i.e. when the resistance values of one of the loads are less than the allowable ones, the voltage on the corresponding overload sensor 9 ... 9 (or on several sensors at the same time) increases. The radiation energy of one or several LEDs 13 ... 13 becomes sufficient to affect one of the photo thyristors 14 ... 14. The voltage of the locking bias 15, fed from the Ugorv source through the resistor 19, is fed through one of the included photo thyristors 14 ... 14 to the base of the transistor 16 of the key amplifier. It closes and flows through the LEDs 24, 25 of optocouplers 20, 21. When voltage Ui passes through a zero value, one of the included photo thyristors 22, 23 of optocouplers 20, 21 is turned off and the control circuit of the corresponding power thyristor I (or 2) is interrupted and the reverse side of the half-wave of the supply voltage closes and turns off the source voltage from the transformer 7 and ultimately from loads 10 ... 10 The claims 1. The power supply with overload protection, containing in the circuit