SU1115157A1 - Device for checking voltage variation - Google Patents

Abstract

A DEVICE FOR MONITORING THE CHANGE OF VOLTAGE, containing a two-terminal with negative resistance, the first output of which through a resistor is connected to a positive polarity power source, and a source of controlled voltage, characterized in that, it additionally introduces a switch and a negative polarity power supply connected to the second output of the two-terminal network The main resistance, the first output of which is connected via a diode to the output of a switch, the control input of which is connected to the bus of a source of controlled voltage.

Description

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ate

The invention is intended to generate signals at the time of the generation or absence of a controlled voltage used in electrical protection devices. Control devices are known that contain a trigger on transistors that controls the signaling element ij. A disadvantage of this device is its small functionality. Closest to the invention is a device for controlling voltage changes, containing a two-pole with negative resistance, the first terminal of which is connected via a resistor with a power source to a 2J controlled voltage bus. A disadvantage of the known device is its small area of use. The goal of embracement is to extend the functionality by providing memory while simultaneously increasing the gain. This goal is achieved by the fact that in a control device containing a two-pole with negative resistance, the first output of which is connected via a resistor to a positive polarity power source and a source of controlled voltage, is additionally introduced. A switch and a negative polarity power supply connected to the second . a two-terminal output with negative resistance, the first output of which is connected via a diode to an output switch, the control input of which is connected to the bus of a source of controlled voltage. FIG. 1 shows a functional diagram of the proposed device; in fig. 2 shows an example of the implementation of this circuit with an electromechanical relay; in fig. 3 - diagrams of input and output voltages. The circuit contains sources 1 and 2 of different polarity, two-terminal 3 with negative resistance, switch 4, control, output 5 of which is connected to source 6 of controlled voltage, diode 7, resistors 8 and 9, and button 10 is normally closed As a two-pole 3 with negative resistance, a gas-filled lamp can be used, which is an element necessary for ensuring the memory and the signaling element of the presence (absence) of the input signal and also as element 3 Use a dynistor, thyristor, in the circuit of the control electrode of which a zener diode, avalanche or single junction transistor is included. As a switch 4, you can use a transistor (Fig. 1), an electromechanical relay (Fig. 2) or a mechanical switch (in those devices where it is required to know whether the switch operated or not). As source 6 of a controlled voltage, a voltage source with its internal or external resistance can be used. The voltage of source 1 is selected by a lower turn-on voltage of the two-terminal 3 with negative resistance, but a large drop in the voltage on the two-terminal 3 in its switched-on state. The magnitude of the voltage of source 2 is chosen such that the total value of the voltages of sources 1 and 2 is greater than the switching voltage of the two-port 3. In FIG. 1, the switch 4 is made on the transistor I, the base of which is connected to the control input 5 connected to the source 6 of the controlled current, for the case when it is necessary to monitor the continuity of the current of the source 6 of positive polarity. If it is necessary to control the moment of occurrence of the source current .6, then take this source of opposite polarity, i.e. negative, .and.base transistor And. connected through resistor .12 to a source of positive polarity, on. example with a source 2. voltage. . FIG. 2 shows an example of the implementation of the switch 4 on the electromechanical. nical relay, the winding of which is connected to the source 6 of the controlled voltage. In the initial state, the output 13 of the switch 4 is connected to the zero potential bus, since the transistor 11 is saturated with current through the resistor 12 from. source 2 voltage In this state, the currents of diode 7 and resistors 8 and 9, and at the outputs Ugyj, and their outputs, the voltage is approximately zero, flow through output 13. The two-port 3 with negative resistance is turned off (if it is a gas-filled lamp, then it is extinguished). When a controlled voltage appears on control input 5, switch 4 is turned off (time i), since the transistor closes the voltage based on negative polarity from current source 6. The output resistance becomes high, as a result of which the voltage at its output 13 increases and the voltage increases at the anode of diode 7, and consequently, at two-terminal 3 with negative resistance. When the voltage on the two-pole reaches the voltage of its switching on, the voltage drop on the two-pole 3 with a negative resistance abruptly decreases and the difference of the negative voltage is equal to the voltage of the power supply 1 and the voltage across the two-pole 3 applied to the anode diode 7 is locked and this voltage difference is supplied through diode 14 to the output bus. In this case, a negative polarity voltage is generated at the output of UftbiH, and a positive polarity at the output of U outflow 2. Let at time r the signal at the input 5 of the switch 4 becomes zero and the switch 4 returns to its original state, since the transistor 11 re-enters the sitting mode and its output 13 will appear again connected to the zero potential bus. However, the voltage of HaUebix (He changes, since the 7 "diode is displaced in the opposite direction (it does not conduct the current, at the same time |, 2 becomes equal to zero, i.e. switching element 4 enters as in the signal amplifier circuit, and in the memory circuit. In the event that a gas-filled ampa is used as element 3, then at the moment -ti it lights up to continuously indicate a short-term change in the monitored signal, regardless of whether the switch 4 is turned off or on. switch 4 further about control functions of any kind. according to commands from a source 6. The proposed scheme provides not only memory, but also a large current gain. The current gain, which is the ratio of the current on the UB bus, to the control current for example, if a dinistor is used as an element 3, the current through itself up to 10 A and connected to a current of 1 mA is equal to 10. Due to the fact that switch 4 simultaneously participates in the two functions of memory and control, and gas-filled lamp 3 is involved in the memory and signaling function, the proposed scheme, with a small number of elements used, has a wider functionality and greater reliability. To return the control device to the initial state, a short current interruption through the two-port 3 is required, for example, by opening the button 10.

Claims (1)

DEVICE FOR MONITORING VOLTAGE CHANGE, containing a two-pole with negative resistance, the first output of which through a resistor is connected to a power supply of positive polarity, and a source of controlled voltage, characterized in that, in order to expand the functionality by providing memory while increasing the gain, in it is additionally introduced a switch and a power supply of negative polarity connected to the second terminal of the two-terminal with negative m resistance, the first output of which through the diode is connected to the output of the switch, the control input of which is connected to the bus of the source of the controlled voltage.