SU842599A1 - Voltage overshoot and undershoot statistic analyzer - Google Patents

Description

The invention relates to a measuring technique and can be used in the instrumental control of the quality indicators of electrical energy. The statistical analysis of the Tqp voltage surge amplitudes is known, which contains a voltage converter in a pulse-pulse code, a delay element, a counter, a memory register, a decoder, AND, OR elements, a code-analog converter, a differential trigger, a switch, and an output recorder. are narrow functionality. The closest to the proposed is a multilevel analyzer of emissions and voltage dips, containing a differentiator, threshold elements, a driver, an additional threshold element, elements of IE, AND, counters G2. The disadvantage of this converter is the considerable time it takes to measure one-two emissions and voltage dips. The purpose of the invention is to reduce the measurement time. The goal is achieved by the fact that in a statistical analyzer of emissions and voltage dips, containing threshold elements; a differentiator, a control threshold element, emission counters, and AND and NOT elements, with the input of each i-element AND connected by the output to the input of the corresponding emission counter; connected to the output of the i-th threshold element, and the second input is connected through the corresponding element NOT to the output (i + l) of the th threshold element, the input to the analyzer Lemma is connected, through a differentiator to the control input to the entire threshold element, the shaper of the module, the zero-body , second control threshold element, dip counters, two write control blocks, additional AND elements, the first two inputs of each t-additional additional element AND connected by an output to the input of the corresponding dip counter, soy parallel with the same inputs -ToVo of the main element I, and the input of the second control threshold element is connected to the output of the differentiator, the direct output of the first

And the inverse output of the second control. The thresholds are connected to the dynamic inputs of the first and second recording control units, respectively, the first static input of which is connected to the direct, the second to the inverse outputs of the null organ, and the inputs of the zero-organ and the imaging unit of the module are connected to the input terminal of the analyzer. connected to the inputs of the measuring threshold elements, the outputs of the first and second blocks of the control of recording emissions and dips are connected to the third inputs, respectively, of the main and additional elements And in each channel, and the first inputs of the main and additional elements and n-tion channel unit connected to the bus capacity.

FIG. Figure 1 shows a block diagram of a statistical analyzer of emissions and voltage dips; FIG. 2, are stress time diagrams on the elements of the block diagram.

The analyzer contains a shaper 1 module, measuring threshold elements 2, NOT elements 3, elements 4, additional elements 5, emission counters b, 7 counters, differentiator 8, first control threshold element 9, recording control blocks 10 and 11 ( control blocks 10 and 11 are double-ended AND match schemes, one of whose inputs is dynamic), the second control threshold element 12 is null-organ 13.

The device is made n-channel, the operation levels of the measuring threshold elements of the 2 channels are arranged according to a uniform law with a step of L. The positive and negative response levels of the threshold elements 9 and 12 correspond to the critical rate of change of the actions. network voltage, the modulus of which is equal to 1% / s.

Exceeding the value of this derivative is a sign of voltage fluctuation. The input of the device is the deviation of the mains voltage from its nominal value (Fig. 2a) and the U-Yvvp voltage.

The operation of the circuit device is as follows.

When the derived voltage decreases below 1% / s at time T (Fig. 2), the voltage at the output of the second control of the threshold element 12 disappears; however, the recording control unit 11 is not ready for operation, because the control logic potential is zero. Organ 13 is attached to the static input of the recording control unit 10.

When changing the voltage Ll (t) and c, the control logic potential is present at the direct output of the null organ 13, thus preparing the write control unit 10 for operation. At time T, (Fig. 2, when the derivative decreases and becomes less than 1% / s, the voltage at the control threshold element 9 disappears and the output of the emission control unit 10 appears to pulse the third inputs of all the elements 4. K By this time, the seventh channel is prepared for operation, therefore, after gating elements 4, a single pulse is recorded in the emission counter 6 of the seventh channel of the analyzer.With voltage values U (t) U n, the module shaper 1 inverts the voltage deviation relative to Y (Fig. 2).

The device circuit in this case works in the following way.

At the inverse output of the null organ 13, a control level is applied to the static input of the recording control unit 11 and prepares this unit for operation. At time T, when the derivative becomes less than 1% / s, the voltage disappears at the output of the second control threshold element 12 and at the output of the dip recording control unit 11 a pulse appears that gates the third inputs of each channel of the additional elements 5. So As the fourth channel is prepared at time Tj, after gating the elements 5, a single pulse is recorded in the dip channel counter 7 of the fourth channel. Thus, each ejection and failure of the voltage U (t) under investigation is decoded, with each ejection and failure being counted by a counter whose number corresponds to the magnitude of the voltage ejection and failure of the voltage under study. After accumulating a sufficient amount of information on the contents, the analyzer counter builds the emission and dip distribution functions, which estimate the quality of the voltage of the electrical network under study.

The proposed statistical analyzer of emissions and voltage dips allows two characteristics to be obtained simultaneously (emission distribution function and dips distribution function), which helps to reduce the measurement time by half compared to known devices.

Formula / invention

A statistical analyzer of emissions and voltage dips, containing threshold elements, a differentiator, a control threshold element, emission counters and AND and NOT elements, and the input of each i-th element AND connected by the output to the input of the corresponding emission counter is connected to the output of the i-th the second element is connected via the corresponding element NOT to the output of the (i + 1) th threshold element, the analyzer input terminal is connected via a differentiator to the input of the control threshold element, characterized by that, in order to save the measurement time, it additionally introduced a module driver, a null organ, a second control threshold element, dip counters, two recording control blocks, additional AND elements, with the first two inputs X1 of the 1 st additional I element,. connected by the output to the input of the corresponding dips counter, connected in parallel with the same inputs of the i-th main element AND, and the input of the second control threshold element is connected to the output of the differentiator, the direct output of the first and inverse The second output of the second control threshold elements is connected to the dynamic inputs of the first and second recording control units, respectively, the first static input of which is connected to the forward, the second - to the inverse outputs of the zero-organ, and the inputs of the zero-organ and the imaging module are connected to the input terminal of the analyzer , while the output of the imaging module is connected to the inputs of the measuring threshold elements, the outputs of the first

10 and the second emission control and outflow control units are connected to the third inputs of the main and additional elements AND of each channel, respectively, and for the first time the inputs of the main and additional elements of the I-n channel are connected to the unit potential bus.

Information sources,

20

taken into account in the examination

1. Zhulev V.I. and others. Statistical analyzer emission amplitudes. Sat Automation of measurements. Proceedings of RRTI. R Zana, 1974, no. 9,

with. 10-17.

25

2. USSR author's certificate No. 591.781, class 01 R 19/04, 1-976.

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x: 2ii

KlX

Claims (1)

Claim A statistical analyzer of surges and voltage dips containing threshold elements, a differentiator, a control threshold element, emission counters, and AND and NOT elements, and the input of each i-th element And connected to the output of the corresponding threshold meter by the output is connected to the output of the ΐth threshold element, and the second input is connected through the corresponding element NOT to the output of the (1 + 1) -th threshold element, the input terminal of the analyzer is connected through a differentiator to the input of the control threshold element, characterized in that then, in order to reduce the measurement time, it is additionally introduced. A module driver, a zero-organ, a second control threshold element, dip counts, two control units for recording 15, additional elements And, the first two inputs of each 1st additional element And, connected by an output to the input of the corresponding counter of 20 shafts, connected in parallel with the same inputs of the i-th main element And. and the input of the second control threshold element, connect to the output of the differentiator, direct output 25 of the first and inverse the second output of the second control threshold elements are connected to the dynamic inputs of the first and second recording control units, respectively, the first static input of which is connected to the direct one, the second to the inverse outputs of the null organ, and the inputs of the null organ and the module former are connected with the input terminal of the analyzer, while the output of the module driver is connected to the inputs of the measuring threshold elements, the outputs of the first and second control units for recording emissions and dips are connected to the third inputs, respectively, of the main of the second and additional elements AND of each channel, and the first inputs of the main and additional elements of the And η-th channel are connected to the unit potential bus.