SU1156162A2 - Device for closing relay at reduced supply voltage - Google Patents

Abstract

DEVICE FOR INCLUSION OF THE RELAY WITH DECREASED WARMING + / "POWER SUPPLY ON AUT." St. L 957311, characterized in that, in order to improve operational reliability, a nonlinear semiconductor element and a second diode are introduced into it, the nonlinear semiconductor element being connected between the base of the transistor and the junction of the first diode, and the second diol between the other terminal of the limited limit, and 1

Description

The invention relates to electrical engineering and can be used in network switching devices of responsible consumers of an object having a limited energy source of power sources. According to the main author. St. No. 957311, a device for energizing a relay at reduced power supply, comprising diodes, a current-limiting and charging resistors, a booster capacitor, a thyristor, a transistor, a control key and an RC chain, forming two parallel circuits connected in series with a control key, one of which consists from series-connected resistor and transistor, and the other from series-connected relays, thyristor, diode and current-limiting resistor. Parallel to these circuits, the time for setting the R-C chain is included. The boost capacitor is connected by one plate to the junction of the charging resistor and the collector of the transistor, and the other junction of the capacitor is connected to the junction of the anode of the diode and the cathode of the thyristor. The thyristor control electrode is connected to the midpoint of the time of the R-C master circuit. The base of the transistor is connected to the junction of the cathode of the diode with a current-limiting resistor, which is bridged by a relay contact. However, this device is unreliable, since the transistor is turned off by a voltage drop across the current-limiting resistor until the charge-booster capacitor is charged, which eliminates the possibility of applying a double voltage source to the winding of the relay. In addition, some of the energy stored by the booster capacitor after unlocking the transistor is discharged uselessly through the capacitor, the time of the R-C supply circuit and the thyristor control electrode, which further weakens the effect of the capacitor on the voltage gain of the power source and can lead to failure of the thyristor. The purpose of the invention is to increase operational reliability. This goal is achieved by introducing a nonlinear semiconductor element and a second diode into the device for switching on the relay at low voltage, the nonlinear semiconductor element being connected between the base of the transistor and the connection point of the current limiting diode, and the second diode between the other terminal current limiting resistor and transistor emitter. The drawing shows a schematic diagram of the proposed device. The device for switching relay at low voltage supply contains a current-limiting resistor 1 and a diode 2 connected between a common bus and a negative plate of a booster capacitor 3, the positive plate of which is connected to one of the terminals of the charging resistor 4 and the collector of the key transistor 5 The device is turned on by a control key 6, one of the terminals of which is connected to one of the terminals of the charging resistor 4 and the collector of the key transistor 5. The device is turned on with the key y 6, one of the terminals of which is connected to one of the pins, the relay 7 and the other terminal of the charging resistor 4, and the other to the 1st power supply. The other end of the relay coil 7 is connected to the anode of the thyristor 8, the cathode of which is connected to the anode of diode 2, and the control electrode to the midpoint of the master circuit time, consisting of resistor 9 and capacitor 10. A cut-off diode is connected between the total thickness and current limiting resistor 1 11, connected by a cathode to a common busbar, and by an anode to a junction of a current-limiting resistor with a negative capacitor plate 10. The current-limiting resistor is shunted by a closing contact 12 of relay 7, and a common point of resistor 1 and diode 2 is connected to the ba 5 through the second transistor 13. The Zener diode device operates as follows. In the initial state, switch 6 is open, all elements of the device are de-energized. When the switch 6 is closed, the charge booster capacitor 3 starts charging through the charging resistor 4, diode 2, current-limiting. resistor 1 and diode P. At the same time, through time resistor 9, the charging time of the capacitor 10 begins to charge, the charging time of which is longer than that of capacitor 3. When the voltage reached on the capacitor 10 is sufficient for breakdown of the zener diode 13, the thyristor 8 and the transistor 5 are unlocked. In this case, the capacitor 3 is connected by the negative plate to the winding of the relay 7, and the positive winding is connected to the common bus. Thus, the double voltage of the power source, formed by the series connection of the voltage source E and the voltage of the charged capacitor 3, is applied to the winding of the relay 7. The relay also operates with its closing contact P1untizes the resistor 1. At the same time, the transistor is locked, preventing the capacitor 3 from overcharging reverse voltage. The diode 11 blocks the discharge circuit of the capacitor 3 through the control transition of the thyristor 8 with the open transistor 5, 34

the diode 2 protects the transistor 5 from breakdown, which allows the relay to be switched by forcing a capacitor with 3. a voltage equal to twice the introduction of a blocking diode into the Zener diode device;

the base of the key transistor allowed the boost voltage boost capacitor

charge the booster condensation through the thyristor control transition, which

torus to the value of the voltage source pi increased the reliability of the device.

1156162 voltage source, and

Claims (1)

DEVICE FOR INCLUDED- NIA RELAY WITH REDUCED NOW ZHENI FOOD by ed. St. No. 957311, characterized in that, in order to increase operational reliability, a nonlinear semiconductor element and a second diode are introduced into it, the nonlinear semiconductor element being connected between the base of the transistor and the connection point of the current limiting resistor and the first diode, and the second diode between the other terminal of the current limiting resistor and emitter of the transistor. cl 05 ie>