SU680080A1 - Relay-type measuring power source - Google Patents

Description

The invention relates to the field of relay protection of elements of electrical systems. Semiconductor and voltage test organs are known, based on a comparison of the input voltage with a given l. A voltage measuring device is also known, the current at the input of which appears only when the instantaneous value of the input voltage exceeds the operation voltage | 2. Such a voltage measuring body is necessary when controlling elements of relay protection devices using the ECONOMY current of the measuring body, e.g., to perform backup devices. This voltage measuring unit contains a constant voltage source, a comparison unit for diodes and a ballast resistor, a null indicator that detects the fact that the input voltage exceeds the voltage of the constant voltage source, and an output element connected to the output. indicator. This device is closest to the proposed device in its technical essence and the achieved result. The disadvantage of this voltage measuring device is that the amplitude of the input current does not have a certain minimum value, but gradually increases from zero when the input voltage rises above the trigger voltage. This is due to the fact that when the input voltage is close to the voltage at the output of the DC voltage source, due to the voltage drop on the internal resistance of the input voltage source, both of the comparison circuit diodes are open at the same time. In this case, the current flowing through the ballast resistor from the DC voltage source reduces the value of the current flowing from the input voltage source. The chain of the invention is extended functional capabilities. This goal is achieved by the fact that a relay measuring body containing an adjustable constant voltage source, two diodes whose cathodes are combined, the anode of the first diode is connected to one input terminal of the measuring organ, and the anode of the second diode is connected to the positive polarity of the source the voltage of the ballast resistor, one pin of which is connected to the point of combining the diodes, and the other to the negative polarity of the source of the regulated DC voltage, a null indicator, the first the input terminal of which is connected to another input terminal of the measuring organ, the second to the negative terminal; polarity of the source of adjustable constant voltage, and the output connected to the input of the output element, additionally equipped with a series-connected reistor and a control key connected parallel to the ballast peaiCTOpy In this case, the control input of the control key and the control input of the variable direct voltage source are connected to the output of the null indicator. FIG. 1 is a schematic diagram of a relay voltage measuring body, FIG. 2 shows voltage and current patterns. The measuring organ contains a source of controlled constant voltage 1, two diodes 2 and 3, the cathodes of which are combined, the anode of diode 2 is connected to the input terminal 4 of the measuring organ, and the anode of the diode is the 3rd terminal of the positive polarity of the source-controlled constant voltage 1. The ballast resistor 5 is connected to one of the terminals at the J point of the cathodes combining, diodes 2 and 3, and the other to the negative polarity of the DC voltage source 1. The zero indicator 6 is connected to the second input terminal of the measuring terminal power supply, and another to the negative polarity of the DC voltage source 1. A parapet-ballast resistor 5 is connected to a circuit consisting of a resistor 7 and a control key 8. The output of the null indicator 6 is connected to the input of the output element 9, as well as with the control inputs of the key 8 and the source of adjustable constant capacitance 1. The device is designed so that in the absence of signals at the control inputs, the key 8 is open, and the voltage at the output of the source of adjustable constant voltage: l mjix. in fig. 2 a) equal to the response voltage of the measuring organ. When switched on for alternating voltage, the measuring body works as follows. If the instantaneous value of the input voltage is lower than the response voltage of the measuring unit, equal to the voltage at the output of the constant voltage source 1, then the diode 2 is locked and the current in the input circuit does not flow through the zero indicator b. The signal at the output of the null indicator 6 is absent, therefore there is no signal at the output of the output element 9, the key 8 is open, and the voltage at the output of the source of the regulated DC voltage 1 is equal to the response voltage of the measuring element. If the instantaneous value of the input voltage (voltage Uc in Fig. 2a) begins to exceed the voltage at the output of source 1 (voltage, y ka of Fig. 2a), then diode 2 opens, and through zero indicator 6 begins to flow the value of resistance 5, the current causing it to trip. From the output of the null indicator to the control inputs of the key 8 of the constant voltage source 1 and the output element 9 signals are received. In this case, the switch 8 is closed, and the resistor 7 is connected in parallel with the resistor 5, and the voltage value at the output of the source 1 is set to a lower tripping voltage (voltage UT ,,, V in Fig. 2 a). Moreover, the difference mvzhbl ./ is applied by the voltage search,), and U-bbbtx is greater than the value of the voltage drop on the internal resistance of the input voltage source when the input current flows. With such ratios between the input voltage at the output of the constant voltage source, diode 2 is open, and diode 3 is reliably closed. Therefore, a current will flow in the input circuit (current 1 in Fig. 2b), determined by the value of the resistance of resistor 7, which is significantly less than the resistance of resistor 5. When the instantaneous value of the input voltage drops below the voltage UjjCxeMa, it returns to its initial state. Thus, if the instantaneous value of the current voltage 5 keni is greater than the response time of the measuring op amp, then a current impulse with an amplitude of no less than a predetermined value flows in the input circuit. At the same time, discontinuous signals appear at the input of output element 9, which output element 9 converts into a continuous signal. Using the described device allows one to obtain a jump-like increase in the current at the input of the measuring relay body during its operation, which makes it possible to control the elements of the relay protection devices not only with the help of the output voltage, but also with the help of the input current. rmul The invention Relay voltage measuring device containing an adjustable DC voltage source, two diodes, the cathodes of which are combined, the anode of the first diode connected to one input terminal of the measuring organ, and the anode of the second diode to the positive polarity of the source of adjustable DC voltage , ballast resistor, one output of which is connected to the point of combining the diodes, and the other - to the conclusion of the negative polarity of the source vvguli - - .. Kvir .i ,, 4 III xi 1 nniVCI LJQ t At finite DC voltage, zero The indicator, the first input terminal of which is connected to another input terminal of the measuring organ, the second to the negative polarity of the source of adjustable constant voltage, and the output connected to the input of the output element, characterized in that, in order to expand its functionality, a paratshlno ballast resistor connected in series, newly introduced resistor and a controllable key, the control input of which and the control input of the source of the regulated constant voltage are connected to move the null indicator. Sources of information taken into account in the examination 1.Greivulis A.P., Lielpēteris E. Ya., Putninish V, I Semiconductor relays and voltages, M., Energii, 1970. 2.Research of principles and development of recommendations for implementation } devices for back-up failure of switches and protection of repaired cable networks, report of the Ivanovo Power Engineering Institute, inv. number B 495126, Ivanovo, 1974., p. 5O - 53.

s (Pui. g