SU1089684A1 - Voltage indicator - Google Patents

Abstract

A VOLTAGE SIGNAL CONTAINER containing a capacitor whose negative overview is connected to one output of the first winding of a polarized relay and the cathode of the first diode, and the positive plate through a resistor connected to the negative output of the voltage source and cathode of the second diode, the anode of which is connected to another output of the first winding relay, which is indicated by the fact that, in order to simplify the circuit and increase reliability, it is equipped with an additional diode, and the second winding of the polarized relay series with the first, wherein the said diodes each corresponding shunt winding field Risp Call relays except m-th is positive plate of the capacitor is connected through a positive terminal dopolnitelnyydiod istochnig ka voltage.

Description

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The invention relates to a voltage monitoring device and can be used as a load switch to a backup power source in automation systems. A voltage detector with a polarized relay with two windings is known. One winding is connected between the power supply circuits | and the power source is parallel to the load. In series with this winding, a thyristor is connected. The second winding of the polarized relay and the thyristor are connected in series and connected in parallel with the capacitor, while the control electrode of the thyristor is connected to the connecting circuit with a polarity locking the thyristor. A high-resistance resistor is connected between the common for the capacitor and the first winding of the points and the control electrode of the thyristor. The magnitude of this resistance is limited by the control current; sufficient to unlock the thyristor 1. The disadvantages of the known signaling device are poor immunity if the power source and the signaling device are at a considerable distance from one another. As a result of the interference, the thyriser can open and cause a false positive of the polarized relay. It is known a voltage presence signaling device containing a polarized relay, the first and second windings of which are connected between the output power sources in parallel to the load, a diode and a capacitor-biased resistor are sequentially connected to the first winding, a thyristor and a second diode are connected in series to the second winding. The control electrode of the thyristor is connected to the negative supply voltage circuit. The resistor is connected between the cathode and the control electrode of the thyristor. This voltage presence detector has a low reliability and limited scope due to the dependence of cxeivftir performance on load parameters. Interferences in the power pins as a result of load or external electromagnetic fields can cause false alarm triggered. The closest in technical essence to the present invention is a voltage detector containing a power source, a capacitor, the negative lining of which is connected to the output of the first winding of a polarized relay and the cathode of the first diode, and the positive lining through a resistor is connected to the power supply minus and the cathode the second diode, the anode of which is connected to another output of the first winding of the polarized relay. The indicator is equipped with an optocoupler and a second capacitor, while the positive output of the power source is connected in series with one output of the resistor and the positive facing of the capacitor, in parallel with which the polarized winding is connected, the relay with a series-connected in the forward direction thyristor optocoupler. Another polarized relay winding is connected between the negative side of the capacitor and the anode of the diode, the cathode of which is connected to the second output of the resistor and the anode of the optical diode of the optocoupler, the cathode of which coejj iHHeH with the second anode, and the iodine of the latter is connected to the negative capacitor plate. In addition, the LED of the optocoupler is shunted by a second condensate rum 3j. The disadvantages of the known signaling device: the torus consists in a complicated circuit for turning on the windings of a polarized relay, the need to maintain the circuit parameters within certain limits, for example, the current through the optocoupler diode, this reduces the reliability of the device. The purpose of the invention is to simplify the scheme and noBbmeiffle its reliability. The goal is reached by the fact that the voltage detector containing a capacitor, the negative circuit of which is connected to one output of the first winding of a polarized turnip and the cathode through a resistor is connected to the negative terminal of the voltage source and the cathode of the second diode, the anode of the KOTOpoj is connected to another output of the first winding of the polarized relay, is supplied with an additional diode, and the second winding of the polarized relay is switched on in counter-series with the first, with the aforementioned diodes each corresponding winding of a polarized turnip is shunt; in addition, a positive capacitor plate is connected via an additional diode to the positive terminal of the voltage source. The drawing shows a voltage switch circuit. The positive terminal of the voltage source 1 is connected to the anode of the diode whose cathode is connected to the positive plate of capacitor 3 and one output of the discharge resistor A. The negative plate of the capacitor is connected to the positive end of the first winding 5 of the polarized relay 6 and the cathode of the first shunt diode 6, negative end The first relay winding is connected to the negative end of the second winding 7 of the relay and to the anodes of the first and second shunt diodes 6 and 8, the positive end of the second winding 7 of the relay is connected to the cathode of the second shun of the diode 8, the second output of the discharge resistor 4 and the negative output of the source 1 voltage. Contacts 9-10. polarized relays and 9-I1 can be used to signal and transfer the load to a backup voltage source. The detector works as follows. When the voltage source is turned on, diode 2, capacitor 3, relay coil 5, and diode 8 pass a charging current pulse, as a result of which the relay operates and remains in this state as long as voltage is present at the power supply terminals. When the voltage at the source pins disappears, capacitor 3 is discharged across the circuit, capacitor - resistor 4 - winding 7 relays - diode 6 - capacitor, a discharge current pulse triggers the relay, which is turned off in this state until not according to voltage. The use of the proposed detector allows to simplify the scheme. by counter-switching of the windings of a polarized relay, shunted by counter-switched diodes, to improve reliability and noise immunity, since the switching of the windings of a polarized relay depends on the pulses of charge and discharge currents of the capacitor and is almost insensitive to load fluctuations and line disturbances connection. In addition, the device allows refusing the use of thyristors and optocouplers in voltage switch circuits.

Claims (1)

the circuit of which is connected to one terminal of the first winding of the polarized relay and the cathode of the first diode, and the positive plate through the resistor is connected to the negative terminal of the voltage source and the cathode of the second diode, the anode of which is connected to the other terminal of the first winding of the polarized relay, which , in order to simplify the circuit and increase reliability, it is equipped with an additional diode, and the second winding of the polarized relay is turned on in series with the first, while the mentioned diodes shunt each the corresponding winding of the polarized relay, in addition, the positive capacitor plate is connected via an additional