SU830362A1 - Power supply source protestion device - Google Patents

Description

one

The invention relates to electrical engineering and pcvdioelectronics and can be used to control electrical installations from overloads and short circuits.

A power supply protection device is known, which contains a protective transistor, the collector circuit of which includes a switching relay winding, and an emitter circuit through a diode connected to one of the ends of the stabilizer load current sensor, and an output voltage divider of the stabilizer with zener diodes. flj.

A disadvantage of this device is that it is triggered by pickups arising in the overload sensors under the influence of a number of switching devices, as well as single short-term overloads occurring at the moment of switching, or overloads caused by the starting currents.

The closest technical solution to the proposed is a protection device, containing an output transistor, the emitter of which is connected to the common bus, the base is connected to one of the terminals of the first resistor, the collector is connected to one of the terminals of the first diode and one of the outputs of the operating relay, the other terminal of which is connected with an input terminal, the closing relay contacts are connected between the input and output terminals, overload sensors, one outputs of which are connected to the common bus, and a holding transistor, the base of which is connected to one them from the conclusions of the serial chain of the second and third resistors, and the collector with one of the conclusions of the fourth resistor 2,

five

The disadvantage of this device is low noise immunity.

The purpose of the invention is to improve the noise immunity of the device.

The goal is achieved

0 in that the power source protection device containing the output transistor, the emitter of which is connected to the common bus, the base is connected to one of the terminals of the first resistor, the collector is connected to one of the terminals of the first diode and one of the outputs of the operating relay, the other terminal of which is connected with input terminal

0 between the input and output pins. overload sensors, one outputs of which are connected to the common bus, and a holding transistor, the base of which is connected to one of the terminals of a series circuit of the second and third resistors, and a collector with one of the terminals of the fourth resistor, introduced two diodes and three capacitors, one The terminals of the first and second capacitors and the emitter of the holding transistor are connected to the common bus, the collector of the holding transistor is connected through the second diode to the other outputs of the overload sensors, and through the third diode to the common point and another terminal of the first resistor, another terminal of the first capacitor, and one of the terminals of the third capacitor, the other terminal of which and another terminal of the fourth resistor are connected to the input terminal, the other terminal of the second capacitor is connected to the common point of the series circuit, the other terminal of which is connected to another conclusion of the first diode. The drawing shows a diagram of a power source protection device. The device contains the output transistor 1, the first resistor, 2, the first diode 3, the executive relay 4, one of the outputs of which is connected to the output terminal 5, the holding transistor b, the second and third resistors 7 and 8, the fourth resistor 9. The collector of the holding transistor b through the second diode 10 is connected to the overload sensors 11, and through the third diode 12 to the common connection point of the inserted first 13 and third 14 capacitors. The second capacitor 15 is connected to a common point of the series circuit of the second 7 and third 8 resistors. To provide one-sided conductivity, the circuit may contain diodes 16 and 17. The output terminal 18 of the protection device is connected to the input terminal 5 via the closing contacts 19 and 20 of relay 4. As an overload sensor 11, any device can be used that connects to overload or short circuit common bus 21 to the holding transistor 1. The overload sensors 11 can be on the network AC and DC. The device works as follows. When the mains voltage is switched on, the current through the resistance 9, diode 12 and resistance 2 goes to the base of transistor 1 and opens it. Relay 4 is turned on, and voltage across the contacts 19 and 20 is applied to the load. In case of overloads or short circuits, the signal of the common bus from the overload sensors 11 is connected to the input of the output transistor 1, the base of the ranzistor 1 is provided. The voltage of the network through the diode 3, the resistances 8 and 9 goes to the base of the clamping transistor 6, the transistor 6 is open, the transistor 1 is closed. In this case, contacts 19 and 20 of relay 4 are washed out and an Overload signal is given. To re-enable the power supply, it is necessary to disconnect the mains voltage and then re-enable the circuit. Diode 17 serves to protect the circuit from reversal of the supply voltage. The overload sensors 11, the signal from which enters the protection circuit, can be either constant or alternating current. The constant delay time of driver unit 2 and 13 is chosen less than the duration of the half-waveform of the signal coming from the AC overload sensor, but must be longer than the half-period of its second or third harmonic. In the event that the overload sensors 11 are affected by a disturbance with a duration less than the time constant t RZ-CO, the transistor 1 remains in the open state due to the energy stored by the capacitor 13. In the event of single overload pulses longer than constant of the discharge time of the capacitor 13, the transistor 1 closes for a time determined by the difference between the duration of the overload pulse and the discharge time of the capacitor 13. At this time, the storage capacitor 15 is charged. About a pulse or a series of pulses, the capacitor 15 did not have time to charge to the voltage required to open the transistor 6, the circuit remains on, i.e. transistor 1 is open, transistor 6 is closed. If the capacitor 15 has managed to charge to the amount of voltage required to open the transistor 6, the protection circuit operates. The charge time of the capacitor is chosen not more than 1-2 ms and should not exceed the release time of the contacts of relay 4. To protect devices with long transients at the moment of switching on, a capacitor 14 is inserted into the circuit. At the moment of switching on, a charge current passes through the capacitor 14 enters through the resistance 2 into the base of transistor 1 and keeps it in the on state. Once the capacitor 14 is charged, it does not affect the overall performance of the circuit. The value of the capacitor 14 is chosen so that the constant charge time of the capacitor is equal to or greater than the duration of the transition process at the moment of switching on the load to the supply network.

Thus, the inclusion of additional capacitors in the protection device makes it possible to protect the circuit from false alarms caused by short-term interference.

Claims (1)

Invention Formula A power source protection device containing an output transistor whose emitter is connected to a common bus, a base to one of the terminals of the first resistor, a collector is connected to one of the terminals of the first diode and one of the outputs of the operating relay, the other terminal of which is connected to the input terminal relays are connected between the input and output pins, overload sensors, one outputs of which are connected to the common bus, and a transistor holding the base of which is connected to one of the terminals of the series first and third resistors, and the collector - with one of the conclusions of the fourth resistor, which is based on the fact that increased noise immunity; two diodes and three capacitors are inserted in it; one terminals of the first and second capacitors and the emitter of the holding transistor are connected to the common bus, the collector of the holding transistor is connected via the second diode to other outputs of the overload sensors, and through the third diode with a common point connecting another pin of the first resistor, another pin of the first capacitor and one of the leads of the third capacitor, the other pin of which and the other pin of the fourth resistor are connected to the input pin, the other A second terminal of the second capacitor is connected to the common point of the series circuit, another terminal of which is connected to a different terminal of the first diode. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 496546, cl. G 05 F 1/58, 1976. 2, USSR Author's Certificate No. 479099, cl. G 05 F 1/58, 1976. fS nafjyytHa / ffjaffpt / sfra 20