CS224215B1 - Circuitry of an apparatus for measuring maximum electric quantities - Google Patents

Abstract

BACKGROUND OF THE INVENTION The invention relates to the connection of a measuring device for measuring the maximum measured electrical quantities, especially in the long term detection of transient and random control states circuits and protection devices. Detection of random fault conditions in control circuits and safety devices are still implemented by long-term oscillographic measurement, which requires constant service, and is costly so it is unsuitable for continuous measurement ρχ · ο operational maintenance.

Description

Connection of the measuring device for measuring the maximum measured electrical quantities

BACKGROUND OF THE INVENTION The invention relates to the connection of a measuring device for measuring maximum electrical quantities to be measured, in particular for the long-term detection of transient and accidental failure states of control circuits and protection devices.

The detection of accidental fault conditions in control circuits and protection devices has so far been carried out by long-term oscillographic measurement, which requires constant operation, and is expensive, making it unsuitable for continuous measurement ρχ · ο operational maintenance.

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These disadvantages of the prior art are overcome by wiring. A measuring device for measuring the maximum measured electrical quantities according to the invention, characterized in that it is constituted by a signal amplifier provided with an input terminal associated with a mechanical switch which is. connected to a voltage to frequency converter, which is reconnected to the mechanical switch. and furthermore, with the signal former also connected to it, whereby the mechanical switch is connected to a start-stop measuring circuit, which is connected to a blocking circuit of the measured signal connected to two pulse counters. Mechanical switch: is connected to an electrical switch connected to a frequency divider connected to an oscillator and to a cycle of measuring cycle intervals, to a memory override circuit and a pulse counter reset circuit »The mechanical switch is further coupled to a pulse counter reset circuit and circuit the measurement cycle of the cycle being measured and the memory overwrite circuit connected to the pulse counter reset circuit and the measured signal block circuit, and the first memory circuit of the first pulse counter and the second memory overwrite circuit connected to the second memory circuit of the second pulse counter, wherein the pulse counter resetting circuit is connected to both pulse counters, and a pulse counter overfill indicating circuit, wherein the second memory circuit is connected to a second decoder connected to the second display. The second memory circuit is further coupled to a comparator circuit to which the output of the second pulse counter is also connected and to which an evaluation circuit connected to a second mechanical switch is connected which is further connected to the second memory overwrite circuit and that the output of the first memory circuit is coupled with the first decoder to which the first display is connected.

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The advantage of connecting the meter according to the invention is that it allows to evaluate the state of the counter and the memory into which only the higher state of the counter is introduced and where the memory content is indicated by the display until the time of manual reset. When using a digital measuring instrument, which can measure voltage, current, frequency, count pulses and quantities derived from these basic quantities, it is possible to monitor, in addition to the instantaneous value indicated by the measuring instrument, also the maximum value of the measured quantity in the monitored period.

Its further advantage is that it can be used for long-term detection of transient and accidental failure conditions in control wiring and protection devices, for example when measuring generator load, as well as for checking.

The flow rate of the measuring device for measuring the maximum measured electrical quantities according to the invention is illustrated by way of example in the block diagram of the drawing.

According to an exemplary embodiment, the connection of the measuring device for measuring maximum electrical quantities consists of an input terminal 1, for supplying the measured signal, a signal amplifier 2, which is connected to the input 1 of the mechanical switch 2 by its output 2. Mechanical switch 2 ΰθ with its first output. 6 is connected to the input 2 of the voltage to frequency converter 8, which by its output 2 is connected to the second input 10 of the mechanical switch which is further connected with its second output 11 to the input 12 of the signal transformer. connected to the third input 15 of the mechanical switch The mechanical switch 2 áleθ is still connected by its third output 29 to the input 40 of the start-sto.p measurement circuit 39. Output 38 of circuit 39 of stop-start measurement

-4 224 215 is coupled to the first input 37 of the measurement signal blocking circuit 34, whose output 35 is coupled to the input 74 of the second pulse counter 76 and to the first input 70 of the first pulse counter 69. Čtgrtý output 16 of the power switch 2 d ^e connected to the input 17 of her electric switch 18 which has a first outlet 19 connected to first input 28 of the divider 27 frequency. The second input 26 of the frequency divider 27 is connected to the output 25 of the oscillator 24. The second output 20 of the electronic switch 18 is connected to the input 21 of the cycle measurement interval 22, the θ-first input 51 of the memory override circuit 47 and the first input 42 of the counter reset circuit 41. 69 and 76 pulses. The fifth output 30 of the mechanical switch 2 is connected to the second input 43 of the reset circuit 41 of the pulse counters 69 and 76. The output 23 of the cycle measurement interval circuit 22 is coupled to the second input 50 of the memory override circuit 12. The first output 48 of the memory override circuit 47 is coupled to the third input 45 of the counter reset circuit p9.76 ^{and the} second input 36 of the blocking circuit 34 of the measured signal. The second output 4.9 of the memory overwrite circuit 47 is coupled to the first input 77 of the first memory circuit 79. The third output 52 of the memory overwrite circuit 47 is coupled to the first input of the second memory overflow 52. The first pulse counter reset circuit 46 is connected to the second input 72 of the first pulse counter 69 and to the input 73 of the second pulse counter 22. The second output 44 of the reset pulse counter circuit 41, is connected to the first input 33 of the overflow indication circuit 31 of the first pulse counter 69, and to the second input 66 of the second memory override circuit 65. The first output 68 of the first 6% pulse counter is coupled to the second input 32 of the first pulse counter overload circuit 31. The output 67 of the second memory rewriting circuit 65 is

224 215 connected to the first input 83 of the second memory circuit 87. The second output J1 of the first: pulse counters 61 is connected to the second input J8 of the first memory circuit J9. The output 80 of the first memory circuit J9 is connected to the input 81 of the first decoder 84. The output 82 of the first decoder 84 is coupled to the input 83 of the first display 85. The output 75 of the second pulse counter 76 is coupled to the second input 86 of the second memory circuit 87 and simultaneously to the first input 55 of the reference circuit 53. ; the input 90 of the second decoder 91 and simultaneously with the second input 54 of the comparator circuit 53. The output 56 of the comparator circuit is connected to the input 57 of the evaluation circuit 59. The output 55 of the evaluation circuit 59 is connected to the input 60 of the second mechanical switch 61. input 64 of the second memory rewriting circuit 65. The output 92 of the second decoder 11 is connected to the input 93 of the second display 94.

Voltage and current measurements are given as an example. The measured signal is connected to the input terminal 1, which is connected to the signal amplifier 2. From the signal amplifier 2 the measured signal is fed to the mechanical switch J, from which to the converter 8 the voltage to the frequency and from it back to the mechanical switch J.

For frequency measurement or pulse counting, the measured signal is fed from the mechanical switch J to the signal former 13, from which it is fed back to the mechanical switch J. The adjusted signal is fed from the mechanical switch J to the measurement start-stop circuit 39 from which the measured signal blocking circuit 34 from which it proceeds to the first pulse counter 69 and simultaneously to the second pulse counter 76. The signal from the first pulse counter 69 is fed to a first memory circuit 79, from which to a first decoder 84 and therefrom to a first display 85, on which continuous data is recorded

- value of measured quantity. The resetting of both the pulse counters 69 and 76 is: the memory overwriting of the first panel circuit 79 of the first pulse counter 60 is performed by a circuit consisting of an oscillator 24 from which the frequency, e.g. 100 kH, is fed to the frequency heir 22 to the electronic switch 18 and therefrom to the mechanical switch 2 by which the desired frequency is selected. The required frequencies are routed from the electronic switch 18 to the memory rewriting circuit 47 and the circuit 41 for resetting both the pulse counters 69 and 76, which are interconnected with the blocking circuit 34 of the measured signal. From the memory overwrite circuit 47, a pulse is applied to the first memory circuit 22 to transcribe the state of the first counter 69 via the first decoder 84 to the first display 85.

From circuit 41 for resetting both counters ₁ t2 reset pulse 76 is fed to two counters I2> 26 · from the first counter 69, the signal provided to circuitry 21 an indication overflow counter which is indicated optically. The measured signal from the second counter 76 is passed to the second memory circuit 87, further to the second decoder 91 and therefrom to a second display 94 on which the maximum value of the measured variable is recorded. In addition, the measured quantity from the second counter 16 is fed to a comparison circuit 53, in which the measured quantity outputting from the second, memory circuit 87 is further introduced. When the two measured quantities are identical or the measured value is higher from the second counter 26 unlocking the evaluation circuit 59 and at the same time unlocking the second memory overwrite circuit 65 through the second mechanical switch 61, and thereby to overwrite the state of the second counter 76 over the second memory circuit 82, the second decoder 61 to the second display 21;

Claims (1)

Connection of a measuring instrument for measuring maximum electrical quantities, characterized in that it consists of a signal amplifier (2) provided with an input terminal (1) connected to a mechanical switch (5) which is connected to a voltage / frequency converter (8) coupled to the mechanical switch (5) and further coupled to the signal former (13) also connected back to it, wherein the mechanical switch (5) is coupled to the measurement start / stop circuit (3 #) which is coupled to the interlock circuit (34) measured signal connected to two pulse counters (69,76) and where the mechanical switch (5) is connected, to the electronic switch (18), which is connected to a frequency divider (27), connected to an oscillator (24) and a circuit (22) measuring cycle interval, further with the memory overwrite circuit (47) and with the pulse counter reset (41) circuit, where the mechanical switch (5) is further coupled to the reset circuit (41) pulse counters (69,76) and cycle measurement interval (22) with a memory overwrite circuit (47) associated with the pulse counter reset (41) and pulse blocking (34) circuit (34), and further a first memory circuit (79) of the first pulse counter (69) and a second memory rewriting circuit (65) associated with the second memory circuit (87) of the pulse counter (76), wherein the counter (41) of resetting the counters (69), The pulse counter is connected to both pulse counters (69,76), the pulse counter (31,76) indicating circuit (31) where the second memory circuit (87) is connected to the second decoder (91) connected to the second pulse counter. a display (94) and wherein the second memory circuit (87) is further coupled to the comparison circuit (53) to which the output of the second pulse counter (76) is also connected - 8 224 21S and to which an evaluation circuit (59) »connected to a second mechanical switch (61) is connected, further connected to a second memory rewriting circuit (65) and that the output of the first memory circuit (79) is connected to a first decoder (84) to which the first display (85) is connected.