Regulation 7(1)(a)
1.—(1) The following tests shall not be carried out until the voltage circuits of meters under test and the voltage circuits of the working standard integrating meters have been energised for a period of one hour or half an hour if a current of not less than either 10 per cent. of basic current or 5 per cent. of marked current is applied to the current circuits of the meters, provided that the non-registration test may be carried out during the pre-heating period.
(2) Sub-paragraph (1) shall not apply to a meter which the examiner is satisfied is capable of full operation as soon as it is energised.
Commencement Information
I1Sch. 3 para. 1 in force at 1.8.1998, see reg. 1
2.—(1) Induction meters shall be tested to ensure that when the current circuits are open and a voltage of 110 per cent. of the marked voltage is applied to the voltage circuits, rotors cease to rotate before completing one revolution.
Commencement Information
I2Sch. 3 para. 2 in force at 1.8.1998, see reg. 1
(2) Static meters shall be tested for non-registration by one of the following methods—
(i)When subjected to the test conditions specified in paragraph 2(1), the meter shall not emit more than one output pulse over the minimum test period determined in paragraph (ii);
(ii)the minimum test period shall be computed by the formula—
No math image to display
where
=
minimum test period
=
number of pulses per kWh emitted by the meter
=
number of elements
=
declared system voltage
=
maximum current.
For transformer-operated meters, k and Im must either both relate to primary values or both relate to secondary values.
When static meters are fitted with inhibiting circuits, they may be tested for non-registration with a current which is less than threshold current in respect of a meter of that type and at a voltage of 100 per cent. of the marked voltage of the meters under test. Meters shall not emit more than one output pulse over a minimum test period determined as follows—
No math image to display
where
=
minimum test period
=
declared system voltage
=
total current of all phases
=
number of pulses per kWh emitted by the meter
=
power factor.
3.—(1) Apparatus used for determining the errors of meters during these tests shall comply with directions.
(2) The rate of advance of a meter over a test period shall be obtained by reading the electro-mechanical register or electronic display on or connected to the meter or by monitoring the rotation of the disc or pulse output of the meter.
(3) For any test load applied to the meters under test, the load applied to a working standard integrating meter shall not be less than 25 per cent. or more than 125 per cent. of its full load rating.
(4) For a working standard wattmeter, the applied load shall not be less than 40 per cent. or more than 100 per cent. of its full scale or range reading.
Commencement Information
I3Sch. 3 para. 3 in force at 1.8.1998, see reg. 1
4. The tests in table 2 shall be carried out by one of the following methods—
Commencement Information
I4Sch. 3 para. 4 in force at 1.8.1998, see reg. 1
(1) A long period dial test where the advance of a kWh display, which is part of or connected to a meter under test, is compared with the advance of a precision kilowatt-hour meter;
(2) A short period test where the rate of advance of a meter under test is compared to the rate of advance of a precision kilowatt-hour meter; or
(3) A short period test where the actual rate of advance of a meter, when tested under constant power conditions over a specified test period, is compared to the calculated rate of advance for those conditions.
5.—(1) All tests shall be carried out under the reference conditions specified in table 1.
Commencement Information
I5Sch. 3 para. 5 in force at 1.8.1998, see reg. 1
(2) Tests may be carried out at a temperature outside the temperature range given in table 1, but within the range 15 degrees centigrade to 30 degrees centigrade, provided that a correction is made in relation to the reference temperature by using the mean temperature co-efficient of the meters under test and the working standard meter(s) used for determining meter errors.
(3) The meter position requirement given in table 1 applies to induction meters only. Tolerance applies to a horizontal reference line or edge on the meter, such as the lower edge of the terminal block.
(4) When testing polyphase meters—
(a)the order of the phases shall correspond to the sequence shown on the connection diagram;
(b)the voltages shall be balanced so that the voltage between any line and neutral or between any two lines shall not differ by more than 1.5 per cent. from the mean of the corresponding voltages;
(c)the currents shall be balanced so that the current in any conductor shall not differ by more than 2.5 per cent. from the mean of these currents; and
(d)the phase displacement between the current and corresponding phase to neutral voltage shall not differ from other current and voltage phase displacements by more than 3 degrees at any power factor under any load condition specified in table 2.
(5) The test given in table 1 in respect of external magnetic induction shall be carried out during commissioning or after major modification or refurbishing of a meter testing system. The test is carried out at 0.1 Ib unity power factor with the meters normally connected to determine the errors—
(a)for single phase meters, after reversing both current and voltage connections, for which half the difference between the two errors is the value of the variation;
(b)for polyphase meters, by making two additional measurements after each of the connections to the current circuits and to the voltage circuits are changed over 120 degrees but with the phase sequence unaltered, for which the greatest difference between each error determined and the mean of the three errors is the value of the variation.
(6) Where all the errors of meters are determined by the method B or method C test, an additional test in accordance with method A shall be carried out. The method A test shall be carried out at one of the loads used for the method B or method C test. The error obtained by the method A test shall not differ by more than 0.6 per cent. from the error obtained at the same load value by the method B or method C test.
(7) The tests described in paragraph 4 shall continue until the error of meters can be calculated within a tolerance of not greater than plus or minus 0.2 per cent.
(8) The method A test may be used for intermediate and high loads, at unity power factor and at 0.5 power factor, and the method B or method C test for the low load, provided that an additional method B or method C test is carried out at one of the test load values used for the method A test.
6.—(1) Every meter shall be tested at each of the loads specified in table 2.
(2) The ratio errors shall be determined for voltage transformers intended for use with meters but not tested with a meter.
(3) Current transformers intended for use with meters but not tested with a meter shall be tested from 5 per cent. to 120 per cent. of rated current.
Commencement Information
I6Sch. 3 para. 6 in force at 1.8.1998, see reg. 1
7.—(1) (a) All induction meters with more than one register shall be tested on one register in accordance with paragraphs 5 and 6 and on each and every other register at a low load using the method A, method B or method C test and at an intermediate or high load using the method A test.
(b)For the same load conditions the maximum permitted difference between the error on one register, expressed as a percentage, and the error on any other register, expressed as a percentage, is 1 per cent.
(c)Every register change mechanism shall be tested for correct operation with an applied voltage of 90 per cent. of the declared system voltage.
Commencement Information
I7Sch. 3 para. 7 in force at 1.8.1998, see reg. 1
(2) (a) All static meters with more than one register shall be tested on one register in accordance with paragraphs 5 and 6.
(b)On static meters with more than one register—
(i)where the total units are the sum of all the registers, a further test shall be carried out on each and every other register using method A but
(ii)where the total units are recorded on one register, only that register is required to be tested in accordance with paragraphs 5 and 6.
8.—(1) Every polyphase meter shall be tested on a circuit having a phase relationship for which that meter is designed, provided that three phase, four wire polyphase meters may be tested without current in the neutral conductor.
(2) Polyphase meters shall be tested by using—
(a)a polyphase kilowatt-hour energy standard;
(b)2 or 3 single phase kilowatt-hour energy standards; or
(c)2 or 3 single phase wattmeters.
Commencement Information
I8Sch. 3 para. 8 in force at 1.8.1998, see reg. 1
9.—(1) The error permitted for—
(a)single phase and polyphase whole current meters and
(b)single phase and polyphase transformer operated meters when tested with transformers connected
shall not exceed plus or minus 1.9 per cent. for test numbers 1, 2, 3 and 4 in table 2.
(2) The error permitted for both single phase and polyphase transformer operated meters, when tested without transformers connected, shall not exceed plus or minus 1.4 per cent. for test numbers 1, 2, 3 and 4 given in table 2.
(3) The error permitted for polyphase whole current meters and transformer operated meters, when tested with transformers connected, shall not exceed plus 2 per cent. or minus 3 per cent. for test numbers 5 and 6 given in table 2.
(4) The error permitted for polyphase transformer operated meters, when tested without transformers connected, shall not exceed plus 1.5 per cent. or minus 2.5 per cent. for test numbers 5 and 6 given in table 2.
(5) Where current and voltage transformers are intended to be used with meters and are not tested connected to a meter then the error of the transformers at any load point throughout the rated range shall not exceed 0.5 per cent.
| Influence quantities | Reference value | Tolerance |
|---|---|---|
| Ambient temperature | Reference temperature or, if not indicated, 23°C. | ±2° |
| Meter position | Vertical | ±3° |
| Voltage | Reference voltage | ±1.5% |
| Frequency | Reference frequency of 50Hz | ±0.5% |
| Voltage and current waveform | Sinusoidal form | Distortion factor <5% |
| External magnetic induction at the reference frequency (paragraph 5(5)) | Zero | Induction value that does not produce a relative error variation of more than ±0.3% |
| Test load in terms of marked current | |||||||
|---|---|---|---|---|---|---|---|
| Test number and load | Power factor | Basic/maximum | Maximum continuous | Long range | Short range | Meter type | Polyphase meter load |
| 1 (high) | 1 | Imax | 100% | 100%–200%(Note 1) | 100%–125% (Note 1) | Single and polyphase | Balanced |
| 2 (intermediate) | 1 | Ib or 125%Ib | Any load between 25%–75% of the value specified for test number 1 (Note 1) | Single and polyphase | Balanced | ||
| 3 (low) | 1 | 5%Ib | 1.67% (Note 2) | 5% | 5% | Single and polyphase | Balanced |
| 4 (inductive) | 0.5 (Note 3) | Ib or Imax | 100% | The same value selected for test number 1 | Single and polyphase | Balanced | |
| 5 (element) | 1 | Ib | 100% | The same value selected for test number 1 | Polyphase | One phase loaded in turn | |
| 6 (inductive) (element) | 0.5 (Note 3) | Ib | 100% | The same value selected for test number 1 | Polyphase | One phase loaded in turn | |
Note 1 Where a range is given, any value within that inclusive range may be selected.
Note 2 For maximum continuously rated prepayment meters, the low load test value may be twice the value shown.
Note 3 For test numbers 4 and 6, the inductive power factor shall be between 0.45 and 0.55 inclusive.
Commencement Information
I9Sch. 3 para. 9 in force at 1.8.1998, see reg. 1