SU662944A1 - Voltage quality analyzer - Google Patents

Description

(54) ANALYSIS: POWER QUALITY VOLTAGE

Claims (2)

The invention relates to computing. A voltage quality analyzer is known, which contains an input circuit, a block for distinguishing voltage oscillations, k. the outputs of which are connected to the recording pulse counters l. However, the device has errors introduced by the unit in dividing the voltage capacitances due to the imperfect characteristics of the separation diodes and key circuit elements, as well as the leakage currents of the storage capacitors. The device performs a statistical analysis of the TRL. voltage fluctuations in the electrical network. A known voltage quality analyzer contains a converter whose output is connected to the inputs of the measuring threshold elements and a differentiator whose output is connected to the input of the threshold element, the first output of which is connected to the input of the OR-I element and the input (3) of the DK trigger, and the second the output through the time delay unit is connected to the input (K) of the 3K flip-flop and to the installation input of the zero level distributor, the output of which is through the OR-I element is connected to the information outputs of the measuring threshold elements, recording gates The outputs of which are connected to the inputs of pulse counters 2j However, the device has limited functionality and low-accuracy operation. The purpose of the invention is to expand the functionality and improve accuracy. This is achieved in that the voltage quality analyzer containing a transmitter, measuring threshold elements, an OR-AND element, a level distributor, a LC trigger, a differential Trp, a threshold element, a time delay unit, a gate, and a pulse counter are entered into a pulse generator, an additional counter pulses, a decoder, a switch, a driver and a multi-pole switch, with direct information outputs of the measuring threshold elements, outputs of level distributors, the second output of the threshold element and the output of the driver is connected to the corresponding inputs of a multi-pole switch, the first inputs of the valves, records, except for the smaller record recorder, are combined and connected to the first output of the multi-pole switch, and the second inputs of all recording valves are connected respectively to all outputs of the multi-pole switch except the first, and the input of the driver through a series-connected switch, a decoder, an additional pulse counter and a pulse generator connected to the input of the converter an electrical circuit for the device shown in Figure 1; On .fig.2 and 3 - timing charts of the device. The device contains a converter 1 that converts an alternating voltage of the industrial frequency into the changing part of its actual value, measuring threshold elements 2, element OR-AND 3, a switchboard of 4 levels, a multi-pole switch 5 for two positions, valves 6 of the record, pulse counters 7 , a differentiator 8, a threshold element 9, a time delay block 10, a DKtrigger 11, a generator of 12 pulses, a counter of 13 pulses, a decoder 14, a switch 15 and a driver 16 of a single gating pulse. The device operates in two modes .. -, - 1--: In the first mode, the multi-pole switch 5 is located in position K. Before the measurement starts, the counters 7, the distributor 4 and. trigger 11 is in the zero state. The voltage from the output of converter 1 is fed to the inputs of the measuring threshold elements 2 and the differentiator 8. The triggering levels of the measuring threshold elements 2 are arranged according to a uniform law and differ from each other by the same value uU. At the moment of time (Fig. 2), the derivative voltage reaches the value of 1%, the threshold element is triggered and opens the element OR3, and also triggers the trigger 11 into a single state. voltage trigger 11 is applied to the input of the first channel's valve b, however, recording information into counter 7 does not produce b, since the valve is locked with zero voltage from the inverse output of the threshold element 9. As the voltage changes further, the voltage Ugj exceeds the level of operation The measuring threshold element 2 (point 1 in Fig. 2) appears at the output of the element YLI-I3, a pulse arrives at the input of the distributor 4 and transfers it to state 1. The control voltage appears at the nep: goM output of the receiver 4 and is applied to the input of the valve 6. At the same time, the trigger 11, which removes the control and signal from the input of the valve 6, goes to zero state. When the threshold of element 2 is triggered (point 2 in Fig. 2), the distributor. 4 is re-6 44 into state 2 — the control voltage disappears on its first output and rises on the second. At the time of iz (Fig. 2), the derivative voltage becomes less than 1% per second. The threshold element 9 releases the closing element OR-AND 3 and applying a gate voltage to the other inputs of the gates. In this case, a unit is recorded in counter 7, the voltage from the output of unit 10 returns valve 4 to its original zero state, and is prepared for deciphering the next voltage oscillation. The device operates in the same way with a negative voltage derivative While the module Ui is decreasing up to a value of 1% for a sec. (for example, at time tg of FIG. 2) threshold element 9 is triggered, opening the OR-AND element 3. releasing the measuring threshold element 2 results in the appearance of a single voltage pulse at its inverse output and -Sledovatelno, in the appearance of a pulse at the output of the distributor 4, which in this case is set izmev releasing state ritelnogo threshold element 2 results in installation of the distributor 4 to state 2, etc. Total on the interval t, -. 6 pulses go to the output of the distributor 4, the distributor 4 is set to state 6. After the end of the voltage fluctuation and 5x, the unit is recorded in the counter 7. The ria curve sections of the investigated voltage with the values of the derivative and less than 1% per second. element: OR-AND 3 is closed for pulses from the outputs of the measuring threshold elements 2. Therefore, when triggered (or released) of the measuring threshold elements 2 in such areas (for example, at point 10), the status of the distributor 4, the trigger 11 does not change and the information is not recorded in the counters 7. Writing into counter 7 occurs when small voltage fluctuations occur, the flow of which is not accompanied by triggers (or releases) of the measuring threshold elements 2 (for example, in the tg-tfe section / Fig. 2). 7, the distribution of voltage fluctuations in the electrical network is constructed, according to which the quality of the voltage is assessed, the second mode of operation of the device is the deviation analysis mode, voltage. When analyzer is working in this mode, multiband switch 5 is set to O. The position of the switch 15 sets the sampling interval T of the random process of the voltage of the electrical network and (t) (FIG. 3). During the operation of the device, some of the measuring threshold e / 1ements 2 are in the actuated state. In such a state, there are measuring threshold elements 2, whose setting values are lower than the analyzed voltage U (t However, the counting channels of these elements are triggered only when the strobe of the entire sampling pulse from the output of the driver 16 occurs (at moments tj ... Td, Fig. 3). The generator 12 generates the output square rectangular impulses. These pulses are counted by the counter 13. The state of the counter 13 is decoded by the decoder 14. When a signal appears at the output and the coder 14 by the former 16 is developed narrow the gating pulse is the input of all gates 6, and the voltage process under study is sampled. As a result, the samples are written one at that number 7 for which the inequality holds, where if (nTp) is the value of the voltage U under study (t) - at the time of the p-sample; UcpaB, the response voltage of threshold element 2 of the i-channel After the measurements are completed, a histogram of voltage deviations is constructed from the contents of the meters 7, which can be used to evaluate the quality of the voltage. Invention A voltage quality analyzer containing a converter, the output of which is connected to the inputs of the measuring threshold elements and a differentiator, the output of which is connected to the input of the threshold element, the first output of which is connected to the input of the threshold element, the first output of which is connected to the input of the OR-AND element input (3) -PC-trigger, and the second output through the time delay block is connected to the input (K) of the EKtrigger and to the input of the zero setting, level distributor, the output of which is connected to and through the OR-AND element formational outputs of measurement thresholds, and recording gates, the outputs of which are connected to the inputs of pulse counters, characterized in that, in order to expand the functionality and improve the accuracy of operation, a pulse generator, an additional pulse counter, a decoder / switch, a driver are entered into it and a multi-pole switch, with forward the information outputs of the measuring threshold elements, the outputs of the level distributors, the second output of the threshold element and the output of the driver Inen with the corresponding inputs of a multi-pole switch, the first inputs of recording gates, except for the smaller recording gates, are combined and connected to the first output of the multi-pole switch, and the second inputs of the recording gates are connected respectively to all outputs of the multi-pole switch except the first input of the forcing device via serially connected switch, decoder , an additional pulse counter and a pulse generator are connected to the input of the converter. Sources of information taken into account in the examination 1. The author's certificate of the USSR 510722, 06 q 7/18, - 1976. 2. Authors certificate USSR 455489, MKI H 03 K 17/62, 1974, 662944 12 g 13 t f / wS.2