SU1748103A1 - Electronic electric power counters testing bed - Google Patents

Abstract

Use: verification and adjustment of electronic electricity meters. SUMMARY OF THE INVENTION: The device comprises a checkable electricity meter 1, a stabilized current source 4, a stabilized voltage source 6, a reference digital printing meter 1 of voltage, a reference digital printing meter 9 of current, a digital printing meter 17. 4-10-9-10-1-4, 6 - 1 - 6, 6 - 7 - 6. 1 - 13. 1 - 7. 1 - 9. 2 illsl-h4 ^ 00so

Description

The invention relates to electrical measuring equipment and can be used to calibrate electronic electricity meters.

A device for calibrating meters is known, which contains stabilized power sources connected to the current and potential windings of the meter being monitored, as well as to a reference wattmeter, and a device for counting pulses generated by the meter.

The disadvantage of this device is a significant loss of time to perform the measurement.

As a prototype, a device containing stabilized current and voltage sources, reference digital current and voltage meters and a period meter can be taken, the output of a stabilized current source connected via a standard digital printing current meter to the current input of a rotatable counter, the output of a stabilized voltage source power supply is connected to a potential controlled turntable and to the measuring input of a reference digital printing voltage meter, a measuring input from eritel period connected to the output power metal Telemetering emogo counter.

The disadvantage of the prototype is due to the fact that even stabilized power sources have some instability (0.5-1.5%), which is usually associated with drift, for example, temperature, their characteristics. This is usually associated with the heating of sources, changes in room temperature, and the effect of solar radiation. All this leads to a measurement error for the reason that the readings of the reference instruments are taken at different times, the readings of the voltmeter and ammeter refer to a certain moment in time, and the reading of the pulse period meter refers to the length of time.

The purpose of the invention is to improve accuracy.

The goal is achieved by the fact that the output of the telemeasurement of the meter being turned on is connected to the control inputs of the reference digital printing current and voltage meters.

Significant differences in the connection between the output of the tele meter measurement and the control inputs of the reference instruments.

electricity 1 (a single-phase meter is taken as an example). The current winding 2 of the meter is connected to the stabilized current source 4, and the voltage winding 5 to the stabilized voltage source 6. These sources are connected to a voltage meter 7 with a printing device 8 and a current meter 9 (through a current-measuring shunt 10) with a printing device 11.

The counter 1 has an output of 12 telemetry, to which a period meter 13 with a printing prefix 14 is connected, as well as control inputs 15-17 of printing prefixes 8.11, 14 meters 7, 9 and 13.

The device works as follows.

When sources 4 and 6 turn on and feed the windings of the monitored counter, respectively, with shock U and voltage Ue, this mode corresponds to the simulation of power P U6l4, so that counter 1 generates 12 pulses at output, the period T of which is inversely proportional to power P, i.e. -k K

where K is a constant coefficient known from the passport data of the counter.

The pulses from the output 12 of the counter 1 are generated (Fig. 2) at the time points to, ti, t2. Each pulse arrives at the control inputs 15-17 of the meters 7, 9.13; at the moment of arrival of the pulse, the corresponding meter is printed. FIG. 2 shows as an example the values of power Po- (U6 U) o - 10236 kW, Pl (U6 l4) i - 10228 kW, P2 (U6 14) 2 10240 kW

and the corresponding period values Ti 0.10349 s, T2 - 0.20368 s,

From these data, the actual numerical values of the coefficient K are determined; in this example

k, t, () ° + (U6U) i

-2082.11 kW -s,

Y.j. (U l4) i-KU6 14) 2

-2084,5kW-s.

so the error of the controlled counter is 4.15%.

Compared with the case of multi-time readings or the case of readings at one point in time, the bench under consideration with readings at the ends of period T provides a reduction in error by an amount equal to about half of the source instability zone.

Usually, sources are used with an accuracy of 0.5–1.5% due to temperature drift, so that the error in estimating meter readings decreases to 0.25– 0.7%.

The technical and economic efficiency of the proposal consists in reducing the error in performing the verification operation, namely the fraction of the error associated with the instability of the power sources in terms of the temperature or radiation drift.

Claims (1)

Claims of the invention A bench for checking electronic electricity meters, containing stabilized current sources and voltages. reference digital current and voltage meters, a period meter, with the output of a stabilized current source connected via a standard digital printing current meter to a current the input of the counter to be tested, the output of the stabilized voltage source is connected to the potential input of the counter to be tested and to the measurement input of the reference digital printing voltage meter, the measurement input of the period meter is connected to the output of the telemetry of the counter to be counted. different in that. that, in order to improve accuracy, telemetry output The calibrated counter is connected to the control inputs of the reference digital printing current and voltage meters. T - O, 20549 T. V4-T, Tj- Oh, 2036 & T. c-to-t, Figs. T,