SU694931A1 - Device for controlling the presence of voltage in phase lines - Google Patents

Description

one

The invention relates to voltage monitoring devices in network phases and can be used in ship control systems.

A device for monitoring and signaling damage to a three-phase network, containing a three-phase rectifier connected to the load, and a single-phase rectifier connected to the load control unit, equipped with a pulse transformer and a thyristor, connected between the zero points of the full-wave three-phase rectifier, and the secondary winding of the pulse the transformer is connected to the base-emitter junction of the transistor, the collector-emitter junction of which is connected to the single-phase rectifier 1.

The disadvantage of such a device is that when two or three phases are simultaneously damaged, the transistor does not open, resulting in a voltage drop across the capacitor, indicating a network failure, occurs with a constant time determined by the values of the capacitor capacitance and the input resistance connected to it measuring circuit. Thus, with the simultaneous damage of two or three phases, the speed of the device decreases.

Closest to the invention is a device for monitoring the presence of voltage in phases, containing a capacitor, a three-phase rectifier connected to the phases of the network to which transistor 2 is connected via a resistor.

The disadvantages of this device for controlling the presence of voltage in the phases lie in its complexity, and

also in unsatisfactory reliability of the control. For example, when an electrode of a transistor breaks or if it breaks, or when there are short circuits in the pulse generator and converter, regardless of the state of the network phases, a fault signal does not form the network phase, and if the winding of the relay or damping resistance is broken, a false signal of phase failure is generated network.

The purpose of the invention is to simplify the device and increase the reliability of monitoring the presence of voltage in the phases.

The goal is achieved by the fact that a device for controlling the presence of voltage in phases, containing a capacitor, a three-phase rectifier connected to the phases of the network to which a transistor is connected through a resistor, is equipped with two LEDs, one of which is connected between

middle point of a three-phase rectifier

and the collector of the transistor, the base of which is connected to the said resistor, and the emitter is connected via a capacitor to the midpoint of the rectifier and through another LED to the neutral wire.

The drawing shows a circuit diagram of the proposed device for monitoring the presence of voltage in the phases.

The device for monitoring the presence of voltage in the phases contains a capacitor 1, a three-phase rectifier 2, to the outputs of which transistor 3 is connected through a resistor 4, LEDs 5, 6 connected to the collector and emitter circuits of the transistor, respectively.

The device operates to control the presence of voltage in the phases as follows.

When there is a voltage at the input of the device, the capacitor 1 is charged to the amplitude value of the phase voltage through the LED 6. During the charging of the capacitor 1, the transistor 3 is locked by the voltage that occurs on the LED 6 as a result of the flow of the charging current through it of the capacitor 1. Value the voltage on the capacitor 1 differs from the instantaneous value of the voltage at the output of the three-phase rectifier 2, since the latter contains a variable component. At times when the value

voltage values on capacitor 1. exceeds the instantaneous value of the voltage at the output of the rectifier 2, the charge of the capacitor 1 stops as a result of the displacement of the LED 6 in the opposite direction. At the same time, the discharge of capacitor 1 across the circuit begins: positively charged capacitor 1, LED 5, collector-emitter junction of transistor 3, negatively charged capacitor plate 1. Base current required for unlocking transistor 3 at the moment of discharge of capacitor 1 is set by resistor four.

The parameters of the LEDs 5 and 6 are selected so that, if there is voltage in all phases of the network, only the LED 5 is lit due to the discharge current flowing through it of the capacitor 1.

When the voltage disappears in one or two phases of the network, the value of the variable component at the output of the three-phase rectifier 2 increases significantly, which leads to an increase in the charge current of the capacitor 1 and, as a result, the lighting of the LED 6.

The state of LEDs 5 and 6 during normal operation, as well as in the event of a device malfunction to monitor the presence of voltage in the phases, is given in the table.

Claims (2)

If it is necessary to automatically decipher the signals of the optical fibers 5, 6, the latter can be replaced by thyristor optocouplers associated with the inputs of the corresponding logical processing unit. In the described device, continuous testing of its operability is ensured, thereby increasing the reliability of monitoring the presence of voltage in the phase K. network. Claims An apparatus for monitoring the presence of voltage in phases, containing a capacitor, a three-phase rectifier connected to the phases of the network to which a transistor is connected through a resistor, characterized in that, in order to simplify the device and increase the quality of control, it is equipped with two LEDs, one of which is connected between the middle point of the three-phase rectifier and the collector of the transistor, the base of which is connected to the resistor, and the emitter is connected to the middle point of the rectifier through a capacitor, and Another LED is with a neutral wire. Sources of information taken into account during the examination 1. USSR author's certificate No. 316148, cl. H 02 H 3/24, 1969. 2. USSR author's certificate number 375730, cl. H 02 H 3/24, 1970 / C2) t 7K