SU1050030A1 - Current relay with dependant operate time delay - Google Patents

Abstract

RELAY CURRENT WITH DEPENDENT EXTRACT TIME OF OPERATING TIME, containing an integrating operational amplifier, in which the series-connected integrating capacitor and the first diode are connected to the negative feedback circuit, the second diode and the first resistor are connected in the positive feedback circuit, and the inputs are connected in series through the positive feedback circuit connected in series the third diode and the second resistor and connected to the first voltage divider, included between the negative pole of the source pi An input and current-to-voltage converter, as well as an integrating capacitor discharge unit, made on a two-transistor analogue of a single junction transistor, connected by a power input through a second voltage divider to a negative power supply source, and parallel to an integrating capacitor to a third diode, and a pulse counter, the reset input of which through the third resistor is connected to the cathode of the second diode, and the power input is combined with the reset input through a smoothing capacitor AND Connected to the positive pole of the power source, characterized in that, in order to increase operating reliability by increasing the return coefficient of the relay, an additional transistor S and two connected in series (L additional resistors connected between the positive pole of the power source and the non-inverting input of the integrating operational amplifier, while the common point of additional resistors is connected to the input of the record of the pulse counter and the collector of the additional transistor, which The emitter is connected to the second voltage divider, and the base is connected to the matching input of the pulse counter and the cathode of the third diode.

Description

The invention relates to electrical engineering and can be used in low voltage AC networks. A semiconductor current relay is known, which contains transistors, zener diodes, and a capacitor 1. However, in the indicated relay there is practically no possibility of adjusting the response time delay, which makes it difficult to use it in protection with dependent response time characteristics. It is also known to have a current relay containing an operational integrating amplifier, a bit switch connected in parallel to the integrating capacitor, and a pulse counter. A disadvantage of the known device is a low return ratio due to the presence of a positive feedback circuit. In addition, the direct connection between the output of the operational amplifier and the input of the “Record counter” does not ensure reliable operation of the counter due to the lack of compatibility of the output pulse parameters of the operational amplifier with those required for the operation of the integrated counters. The aim of the invention is to increase operational reliability by increasing the return coefficient of the relay. The goal is achieved by the fact that, in a current dependent response time response relay, comprising an integrating operational amplifier, which has a series-connected integrating capacitor and a first diode, the second connected are connected in the negative feedback circuit. diode and first resistor. and the inputs are connected via a third diode and a second resistor connected in series and connected to the first voltage divider connected between the negative pole of the power source and the input current converter to voltage, as well as an integrating capacitor discharge unit made on a two-transistor analog of a single junction transistor, connected by the power input through the second voltage divider to the negative pole of the power source, and the control input parallel to the integrating capacitor to the diode, and A pulse, the reset input of which through the third resistor is connected to the cathode of the second diode, and the power input is combined with the reset input through a smoothing capacitor and connected to the positive pole of the power source, an additional transistor and two series-connected additional resistors connected between the positive pole of the power source and non-inverting input integrating operational amplifier, with a common point of additional resistors connected to the write input of the pulse counter and ollektoru additional transistor whose emitter is connected to the second voltage divider, and base - to consent the input pulse counter and the cathode of the third diode. The drawing is a schematic diagram of the device. The integrating operational amplifier 1 is negatively coupled, consisting of the integrating capacitor 2 and the first diode 3, a positive feedback consisting of the second diode 4 and the first resistor 5, the inputs of the amplifier being combined by the second resistor 6 and the third diode 7 and connected to the first voltage divider, made on the resistors 8 and 9, which are connected between the power source (-UnMT.) and the input current converter to the voltage (+ U6x.)., The discharge unit 10 of the integrating capacitor 2 contains two transistors C and 12 and resistor 13 and is connected to a power source (-UnnT.) ;. through the second voltage divider, made on resistors 14 and 15. A pulse counter 16 is connected by a reset input through the third resistor 17 to diode 4, its power input is combined via a smoothing capacitor 18 with a reset input and connected to a power source (-fUnMT.), Additional resistors 19 and 20 are connected between the power supply (+ ipit.). and non-inverting input of the integrating operational amplifier 1. An additional transistor 21 is connected by a collector to the write input of the counter 16 pulses, an emitter to the resistor 15, and a base to the matching input of the counter 16 pulses. The device works as follows. So far, the voltage (+ UBX). Is proportional to the current in the protected network. below the relay actuation level, the current flowing through the resistor 8, below the absolute value of the current flowing through the resistor 9, from the source (-UnnT.), the polarity of the output voltage, the output of the operational amplifier 1 is positive, the diode 3 is locked, and the integrating capacitor 2 discharge. At the same time, a small positive potential is applied to the inverting input of the operational amplifier through the open feedback circuit 4 through the open diode 4 and the resistors 5 and 6, acting on the input of the amplifier 1 according to the negative bias signal set by the resistor 9.

Claims (1)

CURRENT RELAY WITH DEPENDENT CHARACTERISTIC OF THE DELAY OF TIME OF OPERATION, containing an integrating operational amplifier, in which the integrating capacitor and the first diode are connected in series in the negative feedback circuit, the second diode and the first resistor are connected in series, and the inputs are connected through series-connected the third diode and the second resistor and are connected to the first voltage divider connected between the negative pole of the power source and an input current-to-voltage converter, as well as an integrating capacitor discharge unit, made on a two-transistor analog of a single-junction transistor, connected by a power input through a second voltage divider to the negative pole of the power source, and a control input parallel to the integrating capacitor to the third diode, and a pulse counter, the reset input of which through the third resistor it is connected to the cathode of the second diode, and the power input is combined with the reset input through a smoothing capacitor and connected to to the live power supply pole, characterized in that, in order to increase operational reliability by increasing the relay return coefficient, an additional transistor and two additional resistors connected in series are connected between the positive power supply pole and the non-inverting input of the integrating operational amplifier, the point of additional resistors is connected to the input of the pulse counter record and to the collector of the additional transistor, in which the emitter is connected to rum voltage divider, and the base - to the matching input of the pulse counter and the cathode of the third diode. >