SU1035718A1 - Device for monitoring three-phase network phase breaking - Google Patents

Abstract

DEVICE FOR CONTROL OF THE CURRENT OF A THREE-PHASE NETWORK PHASE, containing a three-phase rectifier connected to the monitored network, the positive terminal of which is connected to the anode of the dyad and the negative terminal from the negative terminal of the capacitor and the output terminal of the voltage divider, the output of which is connected to the trans-j base the thyristor optocoupler, the anode of the LED of which is connected to the first output of the limiting resistor, and the photothyristor is connected to the signaling circuit, the zener diode, characterized in that, in order to increase operational reliability of the device, as well as its simplification, the cathode of the diode is connected to the first output of the resistor, which by its second output is connected to the point common to the positive terminal of the capacitor and the second output of the limiting resistor, to the first terminal of which the collector of the transistor is connected, and its emitter is connected to the point the cathode of the LED of the optocoupler and the anode of the Zener diode, the cathode of the Zener diode is connected to the negative terminal of the three-phase rectifier, and to (L the positive terminal of the three-phase rectifier) Mitel is connected to the second output: voltage divider.

Description

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SP

00 The invention relates to electrical engineering and can be used in three-phase voltage control systems of low-voltage power supplies. A device for monitoring and signaling the disappearance of one or more phases, comprising a three-phase rectifier, isolation diodes, capacitors, a chain of series-connected first thyristor, closed contacts of the control button and load, and a second thyristor, in the control electrode circuit of which From the serially connected normally open contacts of the control button and the resistor C the disadvantage of this device is that, when three phases disappear for a long time, one temporarily provided long term signaling of this, since the alarm time, the time constant is limited discharge capacity. In addition to this, the signaling is turned on at the moment when the monitored voltage is applied, and to turn it off, the button must be pressed, which is not always convenient and necessary; . NSSH closer to the technical essence of the present invention is a device for protection against unbalance of phase voltages of a three-phase network, containing a three-phase rectifier, the output of which through a diode is connected in parallel with a capacitor and a resistor voltage divider connected to the output of the divider The collector is connected to a common point of a diode, a capacitor and a divider through an optocoupler diode and two series-connected resistors, the midpoint of which is through a zener diode and a parallel A capacitor connected to it is connected to the emitter of a transistor connected to the common point of the diode, a rectifier parallel to the output of which the third resistor 2 is connected. However, this device is unreliable in operation and cannot be made from common semiconductor devices as the absolute majority of those produced by low-power flint transistors have a maximum permissible constant emitter voltage - the base is of the order of several volts, and in this circuit this voltage can be significantly large at the moments of the maxima of the rectified voltage and may be 380 V for the network, exceeding 70 V, since it is equal to the potential difference between the emitter and the base, and the value of the emitter potential relative to the negative pole of the rectifier is equal to the maximum voltage value. The base of the same rectifier pole is equal to the voltage at the output of the divider, which must be less than the minimum of the straightened voltage. The difference between the maximum and minimum of the rectified voltage curve for a 380 V mains network is 72 V. If you set a lower level of operation on the divider to signal phase imbalance, the voltage emitter-base will increase further. Therefore, in this circuit it is impossible to apply widespread silicon transistors. The purpose of the invention is to increase the operational reliability of the device by reducing the number of elements and the applied switching circuit of the transistor, thereby reducing the emitter-base voltage to a value less than the maximum allowed emitter-base voltage, as well as simplifying the design and improving manufacturability by reducing the number elements and possibilities of using transistors of wide application. To achieve this goal, a three-phase network containing a three-phase rectifier connected to the monitored network is connected to the monitored phase breaker, the positive terminal of which is connected to the anode of the diode, and the negative terminal to the negative terminal of the capacitor and the first one. the output of the voltage divider, the output of which is connected to the base of the transistor, the thyristor optocoupler, the anode of the LED of which is connected to the first output of the limiting resistor, and the photo thyristor is connected to the alarm circuit; a resistor and a zener diode, the cathode of the diode is connected to the first output of the resistor, which by its second output is connected to a point common to the positive terminal of the capacitor and the second output of the limiting resistor, to the first terminal of which the collector of the transistor is connected, and its emitter is connected to the point connecting the cathode the optocoupler diode and the Zener diode anode, with the stabilitron cathode connected to the negative output of the three-phase rectifier, and the second output of the splitter is connected to the positive output of the three-phase rectifier In the proposed device, the transistor is connected in such a way that between the emitter and the base, at the time of the loss of one of the phases, there can be a voltage no more than a voltage drop across the Zener diode connected in the forward direction, which is For 1 V, less than the maximum Allowable DC voltage between the emitter and the base for most low-power silicon transistors. The drawing shows a diagram of the proposed device. The three-phase rectifier input 1 is connected to a monitored network, and the output is connected to a chain consisting of diode 2, resistor 3, capacitor 4. Parallel to this chain is a voltage divider 5 consisting of connected series and variable resistors. The collector of transistor b is connected to a limiting resistor 7, the other output of which is connected to a point between resistor 3 and capacitor 4, the base of transistor b is connected to the output of a variable resistor in voltage divider 5, and the emitter of transistor b is connected to a Zener diode 8 connected to the output rectifier 1. A LED of thyristor optocoupler 9 is connected to the collector and emitter of the transistor b, and the thyristor of this optocoupler is connected to a protection or alarm circuit (not shown). The device works in the following way. After a controlled voltage is applied, if all phases are present in the circuit, the output of the rectifier 1 causes a constant pulsating voltage. Through the diode 2 and the resistor 3, the charge current of the capacitor 4 begins to flow. The charge time of the capacitor 4 is determined by the nominal values of the capacitor 4 itself and resistor 3 and is sufficient to prevent the alarm from switching on due to non-simultaneous phase supply by the input switching devices. By that time, when the voltage on the capacitor 4 is sufficient for the LED of the optocoupler 9 to emit 1 light pulse, the transistor b will open with a positive base potential relative to the emitter and shun the LED of the optocoupler 9. Thus, the transistor 6 is in a saturated state as long as the voltage is one. out of several phases it will not disappear or will not decrease to the level at which the alarm should be triggered. This level is determined by the difference between voltage. the output of the divider and the drop in voltages at the base – emitter junction and at the zener diode. By changing the output voltage from the divider, you can change the trigger level of the device. Thus, the pulse voltage pulse at the output of the rectifier 1 will have dips sufficient for the base potential of the transistor b to become negative with respect to the emitter, and the transistor b to close for the time of the dip. When closed, the transistor b stops bypassing the LED of the optocoupler 9, through the limiting resistor 7, the LED of the optocoupler 9, the Zener diode 8 current flows to the discharge of the capacitor 4, the LED emits a light pulse to the photo thyristor of the optocoupler 9, which turns on the protection or alarm circuit. Since the power supply circuit of the photothyristor of the optocoupler 9 is independent of the power supply of the device, the signaling occurs and lasts for an unlimited time in the event of the disappearance of all three phases. The technical and economic effect of using the proposed device reaches-I due to its simplification and increasing reliability by reducing the number of elements included in it (by one capacitor and two resistors) due to the fact that the emitter-base voltage of the transistor does not exceed 1V That in turn allows any common transistors to be applied to the device.

Claims (1)

DEVICE FOR MONITORING A THREE-PHASE NETWORK CIRCUIT, containing a three-phase rectifier connected to the monitored network, the positive terminal of which is connected to the anode of the diode, and the negative terminal is connected to the negative terminal of the capacitor and the first terminal of the voltage divider, the output of which is connected to the base of transistor 1, a thyristor optocoupler , the anode of the LED of which is connected to the first output of the limiting resistor, and the photo-thyristor is included in the signal circuit, a resistor and a zener diode, characterized in that, in order to increase the operation The device’s reliability, as well as its simplification, the cathode of the diode is connected to the first terminal of the resistor, which is connected to the second terminal to a point common to the positive terminal of the capacitor and the second terminal of the limiting resistor, to the first terminal of which the collector of the transistor is connected, and its emitter is connected to the point combining the cathode of the optocoupler LED and the zener diode anode, and the zener diode cathode is connected to the negative terminal of the three-phase rectifier, and connected to the positive terminal of the three-phase rectifier the second output of the voltage divider. _na SU .. „1035718