SU1274066A1 - Device for protection of power source - Google Patents

Abstract

The invention relates to electrical engineering, in particular to devices for controlling and protecting a power source. The aim of the invention is to extend the functionality by limiting the current when a capacitive load is switched on. When the device is turned on, the current flows through the following circuits: positive terminal of device resistor 9 - transistor 7 - first relay winding 1 - threshold element 6. - divider on resistors 4.5 load - common terminal of device, as well as positive output of device opening contact 2-3 relays 1 - the resistor 3 - the second winding of the relay 1 general output of the device. At the same time, relay 1 is in its initial state, since current, p1) 1 flowing through the second winding of relay 1 is less than the current flowing through the first winding of relay 1. When voltage rises to the load capacitance, threshold element 6 is turned off. The current through the first winding of relay 1 stops and the current flows, mS (L n, transistor 7. At the same time, the closed contact of relay 1 opens and turns off the second winding of relay 1. When the power supply is turned off, the voltage at the input of threshold element 6 decreases. Threshold element 6 turns on , the current flows through the first winding of the relay 1 and it is reset to its original position. 1 Il.

Description

The invention relates to devices for controlling and protecting a power source and can be used in automation devices and computing devices. The purpose of the invention is to eliminate functional capabilities by limiting the current when a capacitive load is switched on. The drawing shows a diagram of the proposed device. The device contains a polarized double-winding relay 1 with a switching 2-1, closing 2-2 and opening 2-3 contacts, the first resistor 3, the voltage divider on the resistors 4 and 5, the threshold element 6, the transistor 7, the Zener diode 8, the second 9 and third 10 resistors. The first winding of relay 1 is turned on between its closing contact 2-2 and the output of threshold element 6, the first input of which is connected to the output of a voltage divider on resistors 4 and 5 connected between the terminals for connecting the load, and the second input is connected to the output of the reference source voltage, the second winding of the relay is connected through the first resistor 3 between the common negative terminal of the device and the opening contact 2-3 of relay 1 ,, the switching contact 2-1 of which is connected to the positive output terminal of the device, the third resistor 10 turns on between the base of the transistor 7 connected to the anode of the Zener diode 8 and the common output of the device, the second resistor 9 is connected between the cathode of the Zener diode 8 connected to the switching contact 2-1 of relay 1 and the emitter of the transistor 7, the collector of which is connected to the relay contact 2-2 of the relay one; connected to the positive terminal for connecting the load. The device works as follows. When the primary power source is turned on, the voltage at the input terminals of the device begins to increase and the current flows through the circuits: positive output of the device - resistor 9 - transistor 7 - parallel in parallel first winding of relay 1 - open voltage element 6 - voltage divider on resistors 4 and 5 - capacitive load - common output of the device, as well as positive output of the device; 62 - opening contact 2-3 relays 1 - resistor 3 - second relay winding 1 - common output of the device. At the same time, relay 1 remains in its initial state, since the current flowing through the second winding of relay 1, due to the presence in its circuit of a series-connected resistor 3, is less than the current flowing through the first winding of relay 1. When the voltage rises on the voltage meter from the output of the voltage divider on the resistors 4 and 5 becomes greater than the reference voltage, the threshold element 6 turns off and breaks the circuit of the current flowing through the first winding of relay 1, thereby eliminating the influence of the first winding on the operation of relay 1. As a result, as soon as the current Erez second relay coil 1 becomes greater than the actuation current, the relay 1 is switched with a delay equal to the response time. During this time, the entire starting current of the capacitive load flows completely. As a result of switching relay 1, the normally closed contact 2-3 breaks the current path through the second winding of relay 1, i.e. both relays are de-energized, and the closing contact 2-2 bypasses the resistor 9 and transistor 7 as a result, the load current then flows through the switching 2-1 and the closing 2-2 contacts. By selecting a Zener diode 8 and resistors 9 and 10, it is possible to limit the starting current for a value at which the surge at the terminals of the power supply does not exceed the allowable value. When the first power supply is disconnected, the voltage at the output of the voltage divider at resistors 4 and 5 decreases and as soon as it becomes less than the reference voltage, the threshold 6 switches on and restores the current circuit through the first winding of relay 1, while relay 1 returns to its initial state Namely, it de-energizes the resistor 9 and the transistor 7 and restores the current circuit through the second winding of the relay 1. The use of the proposed device allows, along with the voltage control function of the power supply source. NIL expands its functionality by limiting the start-up load capacitive load hacks, Racter. Formula A device for protecting a power source containing a two-winding polarized relay, the first winding of which is connected between its closing contact and the output of the threshold element, whose input is connected to the output of a resistive voltage divider connected between the terminals for connecting the load, the second winding is connected through a resistor between do a common negative terminal of the device and a disconnecting contact; a relaying contact of which is connected to a positive input terminal of the device, characterized by In order to extend the functionality by limiting the current when a capacitive load is switched on, a Zener diode, a transistor and two resistors are introduced, the first of which is connected between the base of the transistor connected to the Zener diode anode and the common output of the device, with the switching contact of the relay and the emitter of the transistor, the collector of which is connected to the closing contact of the relay connected to the positive terminal for connecting the load.

Claims (1)

Claim A device for protecting a power source 5, comprising a double-wound polarized relay, the first winding of which is connected between its make contact and the output of the threshold element, the input of which is connected to the output of the resistive voltage divider connected between the terminals for connecting the load, the second winding is connected through a resistor between the common negative terminal the device and the NC contact of the relay, the switching contact of which is connected to the positive input terminal of the device, characterized in that, for the purpose of expanding the functionality by limiting the current when turning on the capacitive load, a zener diode, a transistor and two resistors are introduced, the first of which is connected between the base of the transistor connected to the zener diode anode and the general output of the device, the second is connected between the zener diode cathode connected to the relay switching contact and the transistor emitter whose collector is connected to the circuit (Kayuyuu relay contact connected | to the positive terminal for connecting the load.