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Document 32026L0706
Directive (EU) 2026/706 of the European Parliament and of the Council of 11 March 2026 amending Directive 2014/32/EU as regards measuring systems for electric vehicle supply equipment and compressed gas dispensers, and electricity, gas and thermal energy meters (Text with EEA relevance)
Directive (EU) 2026/706 of the European Parliament and of the Council of 11 March 2026 amending Directive 2014/32/EU as regards measuring systems for electric vehicle supply equipment and compressed gas dispensers, and electricity, gas and thermal energy meters (Text with EEA relevance)
Directive (EU) 2026/706 of the European Parliament and of the Council of 11 March 2026 amending Directive 2014/32/EU as regards measuring systems for electric vehicle supply equipment and compressed gas dispensers, and electricity, gas and thermal energy meters (Text with EEA relevance)
PE/58/2025/REV/1
OJ L, 2026/706, 20.3.2026, ELI: http://data.europa.eu/eli/dir/2026/706/oj (BG, ES, CS, DA, DE, ET, EL, EN, FR, GA, HR, IT, LV, LT, HU, MT, NL, PL, PT, RO, SK, SL, FI, SV)
In force
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Official Journal |
EN L series |
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2026/706 |
20.3.2026 |
DIRECTIVE (EU) 2026/706 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL
of 11 March 2026
amending Directive 2014/32/EU as regards measuring systems for electric vehicle supply equipment and compressed gas dispensers, and electricity, gas and thermal energy meters
(Text with EEA relevance)
THE EUROPEAN PARLIAMENT AND THE COUNCIL OF THE EUROPEAN UNION,
Having regard to the Treaty on the Functioning of the European Union, and in particular Article 114 thereof,
Having regard to the proposal from the European Commission,
After transmission of the draft legislative act to the national parliaments,
Having regard to the opinion of the European Economic and Social Committee (1),
Acting in accordance with the ordinary legislative procedure (2),
Whereas:
|
(1) |
One of the objectives of Directive 2014/32/EU of the European Parliament and of the Council (3) is to guarantee the functioning of the internal market with regard to measuring instruments. Pursuant to Article 6 of that Directive, measuring instruments falling within the scope of that Directive are to meet the essential requirements set out in Annex I and in the relevant instrument-specific Annexes to that Directive. |
|
(2) |
The scope and the associated essential requirements covered by Directive 2014/32/EU were established by Directive 2004/22/EC of the European Parliament and of the Council (4), of which Directive 2014/32/EU is a recast. Technical requirements have remained unchanged for more than 20 years. In the meantime, new measuring instruments that do not fall within the scope of Directive 2014/32/EU have appeared on the market. That is the case, in particular, for measuring systems for electric vehicle supply equipment (EVSE) and measuring systems for compressed gas dispensers, which are important for the successful development of clean mobility. Moreover, Directive 2014/32/EU does not set out requirements for thermal energy meters for cooling applications. In addition, in relation to electricity and gas meters, Directive 2014/32/EU does not adequately provide for the use of direct current, hydrogen or other fuel gases that can be used as alternatives to more traditional fuel gases, nor does it allow for full advantage to be taken of smart metering which plays an important role in achieving the Union’s climate objectives. Therefore, it is appropriate to amend both the scope of Directive 2014/32/EU and the essential requirements set out in the Annexes to that Directive in a targeted way in order to take technological developments into account. The placing on the market of measuring instruments should be addressed in a systematic and comprehensive way through a general revision of Directive 2014/32/EU, including a revision of Annex I and instrument-specific Annexes, such as Annex III covering water meters, to adapt the current Union framework to technological developments. |
|
(3) |
Annexes I, IV, V and VI to Directive 2014/32/EU should be amended as they are no longer technology-neutral and do not provide essential requirements corresponding to new technologies, which provide improved protection to consumers. |
|
(4) |
Annex I to Directive 2014/32/EU should be amended in order to take into account the rollout of smart gas and electricity meters and the new measuring instruments in the new instrument-specific Annexes. |
|
(5) |
Annex IV to Directive 2014/32/EU should be amended to take into account the growing use of hydrogen and other fuel gases that can be used as alternatives to more traditional fuel gases and the rollout of smart gas meters. |
|
(6) |
Annex V to Directive 2014/32/EU should be amended to take into account the rollout of smart electricity meters and to update that Directive with regard to instruments measuring direct current. |
|
(7) |
A new annex to Directive 2014/32/EU should be inserted in order to address the need for harmonised essential requirements with regard to measuring systems for EVSE, irrespective of their intended application, while ensuring that no retrofitting obligations are imposed as regards existing charging stations. |
|
(8) |
Annex VI to Directive 2014/32/EU should be amended to include thermal energy meters for cooling applications in order to avoid additional certification for such products at national level. |
|
(9) |
The increased use of compressed gases, such as hydrogen and natural gas, requires the insertion of a new annex to Directive 2014/32/EU as regards measuring systems for compressed gas dispensers, while ensuring that no retrofitting obligations are imposed as regards existing compressed gas dispensers. |
|
(10) |
Since the objective of this Directive, namely to ensure that measuring instruments on the internal market satisfy the requirements with regard to providing for a high level of protection of the public interests as set out in this Directive while guaranteeing the functioning of the internal market, cannot be sufficiently achieved by the Member States but can rather, by reason of its scale and effects, be better achieved at Union level, the Union may adopt measures, in accordance with the principle of subsidiarity as set out in Article 5 of the Treaty on European Union. In accordance with the principle of proportionality, as set out in that Article, this Directive does not go beyond what is necessary in order to achieve that objective. |
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(11) |
In order to enable economic operators to supply stocks of measuring instruments that are in conformity with Directive 2014/32/EU, it is necessary to provide for reasonable transitional arrangements that allow the making available on the market and putting into use of measuring instruments that have already been placed on the market in accordance with that Directive before the date of application of the national measures transposing this Directive. Furthermore, specific transitional arrangements should be put in place to allow economic operators to prepare for the application of the harmonised requirements regarding measuring systems for EVSE and measuring systems for compressed gas dispensers. |
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(12) |
In order to avoid any delay in the rollout of measuring instruments after the date of application of this Directive, it is important that, by the date of application of this Directive, a sufficient number of conformity assessment bodies are authorised to carry out conformity assessments applying the new requirements for measuring instruments and are therefore notified to the Commission accordingly. For the same reason, such notified bodies should be able to issue certificates for the measuring instruments defined in the instrument-specific Annexes II, III and V to this Directive before the date of application of this Directive. |
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(13) |
In order to provide sufficient time for manufacturers to adapt their products to the essential requirements set out in the Annexes to this Directive, it is necessary to provide for reasonable transitional arrangements that allow the making available on the market and putting into use of measuring instruments that have been placed on the market for which national certificates were issued or for which a certificate was issued under Directive 2014/32/EU before the date of application of the national measures transposing this Directive, and that will fall within the scope of Directive 2014/32/EU from the date of entry into force of this Directive. |
|
(14) |
Directive 2014/32/EU should therefore be amended accordingly, |
HAVE ADOPTED THIS DIRECTIVE:
Article 1
Directive 2014/32/EU is amended as follows:
|
(1) |
in Article 2, paragraph 1 is replaced by the following: ‘1. This Directive applies to the measuring instruments defined in the instrument-specific Annexes III to XII (instrument-specific Annexes) concerning water meters (MI-001), gas meters and conversion devices (MI-002), active electrical energy meters (MI-003), measuring systems for electric vehicle supply equipment (EVSE) (MI-011), thermal energy meters (MI-004), measuring systems for the continuous and dynamic measurement of quantities of liquids other than water (MI-005), measuring systems for compressed gas dispensers (MI-012), automatic weighing instruments (MI-006), taximeters (MI-007), material measures (MI-008), dimensional measuring instruments (MI-009) and exhaust gas analysers (MI-010).’ |
|
(2) |
Annex I is amended in accordance with Annex I to this Directive; |
|
(3) |
Annex IV is amended in accordance with Annex II to this Directive; |
|
(4) |
Annex V is amended in accordance with Annex III to this Directive; |
|
(5) |
the text set out in Annex IV to this Directive is inserted as Annex Va; |
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(6) |
Annex VI is amended in accordance with Annex V to this Directive; |
|
(7) |
the text set out in Annex VI to this Directive is inserted as Annex VIIa. |
Article 2
1. By way of derogation from Article 7(2) of Directive 2014/32/EU, Member States shall not impede the making available on the market and putting into use of measuring instruments that are in conformity with that Directive on 8 April 2026, and that have been placed on the market before 10 October 2028.
2. By way of derogation from Article 7(2) of Directive 2014/32/EU, Member States shall not impede the making available on the market and putting into use of measuring instruments defined in Annexes Va and VIIa of that Directive, as amended on 9 April 2026, that are in conformity with the national law of a Member State and that have been placed on the market before 10 April 2030.
3. By way of derogation from Article 7(2) of Directive 2014/32/EU, certificates covering measuring instruments that fall within the scope of that Directive, as amended on 9 April 2026, whether those certificates are issued pursuant to national law which transposes Directive 2014/32/EU or pursuant to other national law, before 10 October 2028, shall remain valid until the expiry of their validity, and in any case no longer than 10 April 2038.
Article 3
1. By 10 April 2028, Member States shall adopt and publish the measures necessary to comply with this Directive. They shall immediately inform the Commission thereof.
They shall apply those measures from 10 October 2028.
When Member States adopt those measures, they shall contain a reference to this Directive or be accompanied by such a reference on the occasion of their official publication. The methods of making such reference shall be laid down by Member States.
2. Member States shall communicate to the Commission the text of the main measures of national law which they adopt in the field covered by this Directive.
Article 4
By way of derogation from Directive 2014/32/EU, conformity assessment bodies which comply with that Directive, as amended on 9 April 2026, may be notified in accordance with that Directive, as amended on 9 April 2026, before 10 October 2028. Such notified bodies may carry out the conformity assessment procedures laid down in that Directive, as amended on 9 April 2026, and issue certificates for measuring instruments defined in Annexes II, III and V to this Directive in accordance with that Directive as amended on 9 April 2026, before 10 October 2028.
Article 5
This Directive shall enter into force on the twentieth day following that of its publication in the Official Journal of the European Union.
Article 6
This Directive is addressed to the Member States.
Done at Strasbourg, 11 March 2026.
For the European Parliament
The President
R. METSOLA
For the Council
The President
M. RAOUNA
(1) OJ C, C/2025/1192, 21.3.2025, ELI: http://data.europa.eu/eli/C/2025/1192/oj.
(2) Position of the European Parliament of 10 February 2026 (not yet published in the Official Journal) and decision of the Council of 26 February 2026.
(3) Directive 2014/32/EU of the European Parliament and of the Council of 26 February 2014 on the harmonisation of the laws of the Member States relating to the making available on the market of measuring instruments (OJ L 96, 29.3.2014, p. 149, ELI: http://data.europa.eu/eli/dir/2014/32/oj).
(4) Directive 2004/22/EC of the European Parliament and of the Council of 31 March 2004 on measuring instruments (OJ L 135, 30.4.2004, p. 1, ELI: http://data.europa.eu/eli/dir/2004/22/oj).
ANNEX I
Annex I to Directive 2014/32/EU is amended as follows:
|
(1) |
in the part ‘DEFINITIONS’, in the table, seventh row, second column, the third indent is replaced by the following:
|
|
(2) |
the part ‘ESSENTIAL REQUIREMENTS’ is amended as follows:
|
ANNEX II
Annex IV to Directive 2014/32/EU is amended as follows:
|
(1) |
the title is replaced by the following:
‘GAS METERS AND CONVERSION DEVICES (MI-002)’; |
|
(2) |
the first paragraph is replaced by the following: ‘The relevant requirements set out in Annex I, the specific requirements set out in this Annex and the conformity assessment procedures listed in this Annex apply to gas meters and conversion devices defined in this Annex, intended for residential, commercial and light industrial use.’; |
|
(3) |
in the part ‘DEFINITIONS’, the table is amended as follows:
|
|
(4) |
Part I is amended as follows:
|
|
(5) |
Part II is amended as follows:
|
|
(6) |
the following Part IIa is inserted: ‘PART IIa SPECIFIC REQUIREMENTS GAS CALORIFIC VALUE DETERMINING DEVICES A gas calorific value determining device sends, locally or remotely, signals to the energy conversion device. For a gas calorific value determining device, the essential requirements for a gas meter shall apply, if applicable. In addition, the requirements set out in points 9a to 9f shall apply. 9a. Base conditions for converted quantities The manufacturer shall specify the following:
9b. MPE
The gas calorific value determining device shall not exploit the MPEs or systematically favour any party. 9c. Permissible effect of disturbances The critical change value is the greater of the two following values:
9d. Durability After an appropriate durability test, taking into account the period of time estimated by the manufacturer, has been performed, the following criteria shall be satisfied:
9e. Suitability A gas calorific value determining device shall be capable of detecting when it is operating outside the operating ranges stated by the manufacturer and shall register the following for measurement accuracy:
9f. Units Calorific value shall be displayed in joules and/or watt-hours, or their decimal multiples, per unit of mass or volume at base conditions.’. |
ANNEX III
Annex V to Directive 2014/32/EU is amended as follows:
|
(1) |
the part ‘DEFINITIONS’ is amended as follows:
|
|
(2) |
the part ‘SPECIFIC REQUIREMENTS’ is amended as follows:
|
ANNEX IV
‘ANNEX Va
MEASURING SYSTEMS FOR ELECTRIC VEHICLE SUPPLY EQUIPMENT (MI-011)
The relevant requirements of Annex I, the specific requirements of this Annex and the conformity assessment procedures listed in this Annex apply to measuring systems for EVSE.
DEFINITIONS
A measuring system for EVSE is a system that includes all relevant metrological functions related to the conductive transfer (either direction), at a specified transfer point, of active electrical energy between EVSE (such as charging stations for electric vehicles) and electric vehicles (such as motor vehicles, rail engines, boats, vessels and aircraft).
Such measuring systems shall not be considered as utility measuring instruments as referred to in Annex I.
The metrological functions in a measuring system for EVSE can also be provided by an active electrical energy meter for which a conformity assessment procedure has been successfully completed in accordance with Annex V to this Directive. The result of that conformity assessment shall be taken into account when performing the conformity assessment for the measuring system for EVSE as set out in this Annex.
|
I |
= |
the electrical current flowing through the measuring system for EVSE at the transfer point; |
|
Ist |
= |
the lowest declared value of I at which the measuring system for EVSE registers electrical energy, and, for AC only, also at unity power factor (polyphase measuring systems with balanced load); |
|
Imin |
= |
the value of I above which the error lies within base maximum permissible errors (BMPEs), and, for AC only, also polyphase measuring systems with balanced load; |
|
Itr |
= |
the value of I above which the error lies within the smallest BMPE corresponding to the class index of the measuring system for EVSE; |
|
Imax |
= |
the maximum value of I for which the error lies within the BMPEs; |
|
U |
= |
for AC, root mean square (RMS) value of the electrical voltage applied by or to the measuring system for EVSE at the transfer point; for DC, value of the electrical voltage supplied to or from the measuring system for EVSE at the transfer point; |
|
Un |
= |
the specified reference voltage(s); |
|
f |
= |
the frequency of the voltage supplied by or to the measuring system for EVSE, for AC measuring systems only; |
|
fn |
= |
the specified reference frequency, for AC measuring systems only; |
|
PF |
= |
power factor = cosφ = the cosine of the phase difference φ between I and U, for AC measuring systems only; |
|
harmonic |
= |
part of a signal that has a frequency that is an integer multiple of the fundamental frequency of the power input to the measuring system for EVSE, the fundamental frequency being, generally, the nominal frequency, fn, for AC measuring systems only; |
|
d |
= |
distortion factor which is the ratio of the RMS value of the harmonic content to the RMS value of the fundamental term, and which is equal to the total harmonic distortion using the fundamental as the reference, for AC measuring systems only; |
|
MMQ |
= |
minimum measured quantity of energy delivered in a transaction for which the manufacturer specifies that the measuring system for EVSE will meet the MPE of the measuring system for EVSE’s accuracy class; |
|
transfer point |
= |
point at which an electric vehicle is connected to the measuring system for EVSE; |
|
critical fault |
= |
failure of the device when subjected to a disturbance in which the device appears to function correctly, but where the legally relevant data is incorrect or the shift in the accuracy of the measurements exceeds that specified in the tests; |
|
Base Maximum Permissible Error (BMPE) |
= |
extreme values of the error (of indication) of the measuring system for EVSE, when the current (AC EVSE and DC EVSE) and voltage (DC EVSE) are varied within the intervals given by the rated operating conditions, and when that EVSE is otherwise operated at reference conditions. |
SPECIFIC REQUIREMENTS
1. Accuracy
The manufacturer shall specify the class index of the measuring system for EVSE. The class indices are defined as: Class A, B and C.
Accuracy shall be determined at the transfer point.
If energy exchanged at the transfer point is in the form of DC, then DC energy shall be the measurand; if AC energy is exchanged at the transfer point, then AC active energy shall be the measurand.
For the purposes of Annex I, the overall MPE shall be determined as the root of the quadratic sum of BMPE and the allowable error shifts for variations in frequency, voltage and temperature.
2. Rated operating conditions
The manufacturer shall specify the rated operating conditions of the measuring system for EVSE, in particular, the values of fn, Un, Ist, Imin, Itr and Imax, the temperature range, and, for DC measuring systems, also the output voltage range.
For the current values specified, the measuring system for EVSE shall fulfil the conditions given in Table 1.
Table 1
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|
Class A |
Class B |
Class C |
|
Ist |
≤ 0,05 × Itr |
≤ 0,04 × Itr |
≤ 0,04 × Itr |
|
Imin |
≤ 0,5 × Itr |
≤ 0,5 × Itr |
≤ 0,3 × Itr |
|
Imax |
≥ 10 × Itr |
≥ 10 × Itr |
≥ 10 × Itr |
The voltage, frequency and power factor ranges within which the measuring system for EVSE shall satisfy the BMPE requirements are specified in Table 2.
For AC measuring systems:
|
(a) |
the voltage, frequency and power factor ranges shall be at least:
|
|
(b) |
the measuring system for EVSE shall operate correctly when the supply voltage distortion is less than 10 % and the load current distortion is less than 3 % at all harmonics indices; |
|
(c) |
the MMQ shall be: MMQ ≤ 0,1 kWh. |
For DC measuring systems, the following shall apply:
|
(a) |
the output voltage range that can be measured by the measuring system for EVSE shall be between the lowest and the highest rated output voltage; |
|
(b) |
the MMQ shall be: MMQ ≤ 1 kWh. |
3. BMPEs
When current (AC measuring systems and DC measuring systems) and voltage (DC measuring systems) are varied within the intervals given by the rated operating conditions, and when the measuring system for EVSE is otherwise operated at reference conditions, the percentage errors shall not exceed the limits given in Table 2 for the specified class index.
Table 2
|
|
BMPEs in percent at reference conditions and defined load current levels |
|||
|
Current |
Power factor (only for AC) |
A (2 %) |
B (1 %) |
C (0,5 %) |
|
Ist ≤ I < Imin |
> 0,9 |
± 25 |
± 15 |
± 10 |
|
Imin ≤ I < Itr |
> 0,9 |
±2,5 |
±1,5 |
± 1 |
|
Itr ≤ I < Imax |
> 0,9 |
± 2 |
± 1 |
±0,5 |
The measuring system for EVSE shall not exploit the BMPEs or systematically favour any party.
4. Operating requirements
For measuring systems for EVSE including a cable with its connector between the point at which the energy is measured and the transfer point (“cable with connector”), either of the following shall apply:
|
(a) |
the cable with connector is not replaceable and is secured by an appropriate hardware seal; or |
|
(b) |
if the cable with connector is intended to be replaceable while the measuring system for EVSE is under seal, it shall be:
|
The replacement of the cable with connector shall not affect the metrological properties of the measuring system for EVSE.
5. Permissible effects
5.1. General
The measuring system for EVSE shall be designed and manufactured in such a way that when exposed to disturbances critical faults do not occur and shifts in the accuracy of the measurements do not exceed the values given in points 5.2 and 5.3.
When there is a foreseeable high risk due to lightning or where overhead supply networks are predominant, the metrological characteristics of the measuring system for EVSE shall be protected.
5.2. Effect of disturbances
In the case of a disturbance, the legally relevant data shall be correct or the shift in the accuracy of the measurements shall not exceed 1,0 BMPE even if the measuring system for EVSE appears to function correctly. Ceasing to function is not a critical fault. If a disturbance interrupts a transaction, either of the following shall apply:
|
(a) |
the transaction is concluded when the disturbance occurs; or |
|
(b) |
the transaction continues when the disturbance is removed. |
5.3. Effect of influence quantities
When the load current is held constant at a point within the rated operating range with the measuring system for EVSE otherwise operated at reference conditions, and when any single influence quantity is varied from its value at reference conditions to its extreme values specified in Tables 3 and 4, the variation of error shall be such that the additional percentage error is not outside the values for error shift specified in Tables 3 and 4. The measuring system for EVSE shall continue to function after the completion of each of those tests.
Table 3
|
Influence quantity |
Current |
Limits for temperature coefficient (%/K) for the measuring system for EVSE of class |
Type of Current |
||
|
A (2 %) |
B (1 %) |
C (0,5 %) |
|||
|
Temperature coefficient, c, over any interval of the temperature range, which is not less than 15 K and not greater than 23 K (i) |
Itr ≤ I ≤ Imax |
±0,1 |
±0,05 |
±0,03 |
AC and DC |
Table 4
|
Influence quantity |
Value |
Current |
Maximum permissible error shift (%) for the measuring system for EVSE of class |
Type of Current |
||
|
|
|
|
A (2 %) |
B (1 %) |
C (0,5 %) |
|
|
Self-heating |
Continuous current at Imax |
Imax |
± 1 |
±0,5 |
±0,25 |
AC and DC |
|
Conducted disturbances, low frequency |
2 kHz–150 kHz |
Itr ≤ I ≤ Imax |
± 3 |
± 2 |
± 2 |
AC and DC |
|
Continuous (DC) magnetic induction of external origin |
200 mT at 30 mm from magnetic core surface |
Itr ≤ I ≤ Imax |
± 3 |
±1,5 |
±0,75 |
AC and DC |
|
Magnetic field (AC, power frequency) of external origin (ii) |
400 A/m |
Itr ≤ I ≤ Imax |
±2,5 |
±1,3 |
±0,5 |
AC and DC |
|
Radiated, RF, electromagnetic fields |
f = 80 MHz–6 000 MHz, Field strength ≤ 10 V/m |
Itr ≤ I ≤ Imax |
± 3 |
± 2 |
± 1 |
AC and DC |
|
Conducted disturbances, induced by radio frequency fields (ii) |
f = 0,15 MHz–80 MHz, Amplitude ≤ 10 V |
Itr ≤ I ≤ Imax |
± 3 |
± 2 |
± 1 |
AC and DC |
|
Operation of ancillary devices |
Ancillary devices operated with I = Itr and Imax |
Itr ≤ I ≤ Imax |
±0,7 |
±0,3 |
±0,15 |
AC and DC |
|
Voltage variation (ii) |
0,9 × Un to 1,1 × highest Un |
Itr ≤ I ≤ Imax |
± 1 |
±0,7 |
±0,2 |
AC |
|
Frequency variation of mains (ii) |
Each fn ± 2 % |
Itr ≤ I ≤ Imax |
±0,8 |
±0,5 |
±0,2 |
AC |
|
Harmonics in voltage and current circuits (ii) |
d < 5 % I d < 10 % U |
Itr ≤ I ≤ Imax |
± 1 |
±0,6 |
±0,3 |
AC |
|
Reversed phase sequence (AC 3-phase only) (ii) |
Any two phases interchanged |
Itr ≤ I ≤ Imax |
±1,5 |
±1,5 |
±0,1 |
AC |
Table notes:
|
(i) |
In the case of a measuring system for EVSE with an active electrical energy meter for which a conformity assessment procedure has been successfully completed in accordance with Annex V to this Directive, the temperature test can be limited to a check of correct functioning at the extreme temperatures foreseen in the measuring system for the EVSE enclosure. |
|
(ii) |
Not required for a measuring system for EVSE with an active electrical energy meter for which a conformity assessment procedure has been successfully completed in accordance with Annex V to this Directive if the specifications meet or exceed those of the accuracy class specified by the manufacturer. |
6. Units
The electrical energy measured shall be displayed in kilowatt-hours or their decimal multiples.
7. Putting into use
Member States shall ensure that the intended use determines the foreseen and foreseeable practical working conditions, namely the rated operating conditions, so that the measuring system for EVSE is suitable for its use.
CONFORMITY ASSESSMENT
The conformity assessment procedures referred to in Article 17 that the manufacturer can choose between are:
B + F or B + D or G or H1.’.
ANNEX V
Annex VI to Directive 2014/32/EU is amended as follows:
|
(1) |
the part ‘DEFINITIONS’ is amended as follows:
|
|
(2) |
the part ‘SPECIFIC REQUIREMENTS’ is amended as follows:
|
ANNEX VI
‘ANNEX VIIa
MEASURING SYSTEMS FOR COMPRESSED GAS DISPENSERS (MI-012)
The relevant requirements of Annex I, the specific requirements of this Annex and the conformity assessment procedures listed in this Annex apply to measuring systems intended for the continuous and dynamic measurement of quantities (mass and, if applicable, energy) of compressed gases, (CG).
Such measuring systems shall not be considered as utility measuring instruments as referred to in Annex I.
DEFINITIONS
|
Meter |
An instrument designed to measure continuously and to ensure the memorisation and display of the quantity of gas, at metering conditions, flowing through the measurement transducer in a closed, fully charged conduit. |
|
Calculator |
A part of a meter that receives the output signals from the measurement transducers, and possibly from associated measuring instruments, and displays the measurement results. |
|
Associated measuring instrument |
An instrument connected to the calculator for measuring certain quantities, which are characteristic of the gas, with a view to making a correction and/or conversion. |
|
Conversion device |
A part of the calculator, which by taking into account the characteristics of the gas, automatically converts the mass of the gas into the amount of energy delivered or received. |
|
Measuring system |
A system that comprises, in addition to the meter itself, a transfer point, gas piping and all devices required to ensure correct measurement or intended to facilitate the measuring operations. |
|
Compressed gas dispenser |
A system intended for the fuelling of vehicles (such as motor vehicles, rail engines, boats, vessels and aircraft) with compressed gaseous fuel. |
|
Transfer point |
Physical location at which the gas is defined as being delivered or received. |
|
Self-service arrangement |
An arrangement that allows customers to use a measuring system for the purpose of obtaining gas for their own use. |
|
Self-service device |
A specific device that is part of a self-service arrangement and that allows one or more measuring systems to perform in that self-service arrangement. |
|
Minimum measured quantity (“MMQ”) |
The smallest quantity of gas for which the measurement is metrologically acceptable for the measuring system. |
|
Direct indication |
The indication of mass and, if applicable, energy, corresponding to the measure that the meter is physically capable of measuring. Note: The direct indication may be converted into another quantity using a conversion device. |
|
Interruptible |
A measuring system is considered as interruptible when the gas flow can be stopped easily and rapidly. |
|
Non-interruptible |
A measuring system is considered as non-interruptible when the gas flow cannot be stopped easily and rapidly. |
|
Flowrate range |
The range between the minimum flowrate (Qmin) and maximum flowrate (Qmax). |
SPECIFIC REQUIREMENTS
1. Rated operating conditions
The manufacturer shall specify the rated operating conditions for the measuring system, in particular:
|
1.1. |
The flowrate range The flowrate range is subject to the following conditions:
|
|
1.2. |
The properties of the gas to be measured by the instrument by specifying the name, the type or the following relevant characteristics of that gas such as:
|
|
1.3. |
The nominal value of the AC voltage supply and/or limits of the DC voltage supply. |
2. Accuracy classification and MPEs
|
2.1. |
The MPE on the indication of measured or converted amounts transferred at the transfer point is set out in Table 1. |
Table 1
|
Type of compressed gas measuring systems |
Accuracy Class (MPE [% of measured value]) |
|
Compressed hydrogen measuring systems |
2,0 |
|
Other compressed gas measuring systems |
1,5 |
The MPE on the MMQ equals twice the value given in Table 1.
|
2.2. |
The MMQ of a measuring system shall have the form 1 × 10n, 2 × 10n, or 5 × 10n authorised units of mass or energy, where n is a positive or negative whole number, or zero.
The MMQ shall satisfy the conditions of use of the measuring system; except in exceptional cases, the measuring system shall not be used for measuring quantities less than that MMQ. |
|
2.3. |
The measuring system shall not exploit the MPEs or systematically favour any party. |
3. Maximum permissible effect of disturbances
|
3.1. |
The effect of an electromagnetic disturbance on a measuring system shall be one of the following:
|
|
3.2. |
The critical change value is the greater of the following values:
|
4. Durability
For systems fitted with meters with moving parts, after an appropriate durability test, taking into account the period of time estimated by the manufacturer, has been performed, the following criterion shall be satisfied:
the variation of the measurement result after such durability test, when compared with the initial measurement result, shall not exceed two fifths of the MPE.
5. Suitability
|
5.1. |
For any measured quantity relating to the same measurement, the indications and, if applicable, printouts provided by various devices, including those devices that are part of a self-service arrangement, shall have the same scale interval and the results shall not deviate from one another.
The scale interval of a CG measuring system shall not exceed 1,5 % of the MMQ. |
|
5.2. |
It shall not be possible to divert the measured quantity in normal conditions of use unless it is readily apparent. |
|
5.3. |
During the warm-up time of the CG measuring system, no measurements shall take place. |
5.4. Instruments for direct sales
|
5.4.1. |
A measuring system for direct sales shall be provided with means for resetting the display to zero.
It shall not be possible to divert measured gas downstream of the meter during a filling operation. |
|
5.4.2. |
The display of the quantity on which the transaction is based shall remain until all parties in the transaction have accepted the measurement result. |
|
5.4.3. |
Measuring systems for direct sales shall be interruptible. |
|
5.4.4. |
Measuring systems for direct sales shall display measurement results in units of mass and, if applicable, energy. |
5.5. Additional requirements for the display
|
5.5.1. |
It shall not be possible to reset displays on the measuring systems to zero during a measurement. |
|
5.5.2. |
The start of a new measurement shall be inhibited until the display has been reset to zero. |
|
5.5.3. |
Where a measuring system is fitted with a price display, the difference between the indicated price and the price calculated from the unit price and the indicated quantity shall not exceed the smallest currency unit. However, that difference is not required to be less than the smallest monetary value. |
6. Power supply failure
A measuring system shall either be provided with an emergency power supply device that will safeguard all measuring functions during the failure of the main power supply device or be equipped with means to save and display the data present in order to permit the conclusion of the transaction in progress and with means to stop the flow of gas at the moment of failure of the main power supply device.
7. Units of measurement
The metered quantity shall be displayed in kilograms, or their decimal multiples or submultiples, and, if applicable, in joules or watt-hours, or their decimal multiples.
CONFORMITY ASSESSMENT
The conformity assessment procedures referred to in Article 17 that the manufacturer can choose between are:
B + F or B + D or H1 or G.’.
ELI: http://data.europa.eu/eli/dir/2026/706/oj
ISSN 1977-0677 (electronic edition)