,as a % of V n,in millilitres,
from 50 to 100,,3,
from 100 to 200,3,,
from 200 to 300,,6,
from 300 to 500,2,,
from 500 to 1 000,,10,
from 1 000 to 5 000,1,,

Liquified gas or mixture of gases having a flammable range with air at 20°C and a standard pressure of 1,013 bar,12 bar,
Liquified gas or mixture of gases not having a flammable range with air at 20°C and a standard pressure of 1,013 bar,13.2 bar,
Compressed gases or gases dissolved under pressure not having a flammable range with air at 20°C and a standard pressure of 1.013 bar,15 bar,

20 %,50 %,80 %,
50 to 80 ml,3.5 bars,2.8 bars,2.5 bars,
< 80 to 160 ml,3.2 bars,2.5 bars,2.2 bars,
< 160 to 220 ml,2.8 bars,2.1 bars,1.8 bars,

20 %,50%,80%,
50 to 70 ml,1.5 bar,1.5 bar,1.25 bar,
< 70 to 150 ml,1.5 bar,1.5 bar,1 bar,
Water bath maintained at 20°C,accurate to ± 1°C,
Calibrated laboratory scales (balance),accurate to ± 0.1 g,
Chronometer (stopwatch),accurate to ± 0.2 s,
Graduated scale, support and clamp,graduations in cm,
Gas burner with support and clamp,,
Thermometer,accurate to ± 1°C,
Hygrometer,accurate to ± 5%,
Pressure gauge,accurate to ± 0.1 bar,

Name of product,,
Net volume,,Can 1,Can 2,Can 3,
Initial level of filling,,%,%,%,
Dispenser distance,Test,1,2,3,1,2,3,1,2,3,
15 cm,Ignition?,,,,
,Y or N,,,,
30 cm,Ignition?,,,,
,Y or N,,,,
45 cm,Ignition?,,,,
,Y or N,,,,
60 cm,Ignition?,,,,
,Y or N,,,,
75 cm,Ignition?,,,,
,Y or N,,,,
90 cm,Ignition?,,,,
,Y or N,,,,
Observations — including can position,,,,,
Chronometer (stopwatch),accurate to ± 0,2 s,
Water bath maintained at 20 °C,accurate to ± 1 °C,
Calibrated laboratory scales (balance),accurate to ± 0,1 g,
Thermometer,accurate to ± 1 °C,
Hygrometer,accurate to ± 5 %,
Pressure gauge,accurate to ± 0.1 bar,
Cylindrical test vessel,as detailed below,
Graduated scale, support and clamp,gradations in cm,
Fire-resistant watchglass roughly 150 mm in diameter,,
Chronometer (stopwatch),accurate to ± 0,2 s,
Candle, wax taper, match or lighter,,
Calibrated laboratory scales (balance),accurate to ± 0,1 g,
Water bath maintained at 20°C,accurate to ± 1 °C,
Thermometer,accurate to ± 1 °C,
Hygrometer,accurate to ± 5 %,
Pressure gauge,accurate to ± 0.1 bar,

(1),Alanroot oil (Inula helenium),97676-35-2,
(2),Allylisothiocyanate,57-06-7,
(3),Benzyl cyanide,140-29-4,
(4),4 tert-Butylphenol,98-54-4,
(5),Chenopodium oil,8006-99-3,
(6),Cyclamen alcohol,4756-19-8,
(7),Diethyl maleate,141-05-9,
(8),Dihydrocoumarin,119-84-6,
(9),2,4-Dihydroxy-3-methylbenzaldehyde,6248-20-0,
(10),3,7-Dimethyl-2-octen-1-ol (6,7-Dihydrogeraniol),40607-48-5,
(11),4,6-Dimethyl-8-tert-butylcoumarin,17874-34-9,
(12),Dimethyl citraconate,617-54-9,
(13),7,11-Dimethyl-4.6,10-dodecatrien-3-one,26651-96-7,
(14),6,10-Dimethyl-3.5,9-undecatrien-2-one,141-10-6,
(15),Diphenylamine,122-39-4,
(16),Ethyl acrylate,140-88-5,
(17),Fig leaf, fresh and preparations,68916-52-9,
(18),trans-2-Heptenal,18829-55-5,
(19),trans-2-Hexenal diethyl acetal,67746-30-9,
(20),trans-2-Hexenal dimethyl acetal,18318-83-7,
(21),Hydroabietyl alcohol,13393-93-6,
(22),4-Ethoxy-phenol,622-62-8,
(23),6-lsopropyl-2-decahydronaphthalenol,34131-99-2,
(24),7-Methoxycoumarin,531-59-9,
(25),4-Methoxyphenol,150-76-5,
(26),4-(p-Methoxyphenyl)-3-butene-2-one,943-88-4,
(27),1-(p-Methoxyphenyl)-1-penten-3-one,104-27-8,
(28),Methyl trans-2-butenoate,623-43-8,
(29),6-Methylcoumarin,92-48-8,
(30),7-Methylcoumarin,2445-83-2,
(31),5-Methyl-2,3-hexanedione,13706-86-0,
(32),Costus root oil (Saussurea lappa Clarke),8023-88-9,
(33),7-Ethoxy-4-methylcoumarin,87-05-8,
(34),Hexahydrocoumarin,700-82-3,
(35),Peru balsam, crude (Exudation of Myroxylon pereirae (Royle) Klotzsch),8007-00-9,
(36),2-Pentylidene-cyclohexanone,25677-40-1,
(37),3.6,10-Trimethyl-3.5,9-undecatrien-2-one,1117-41-5,
(38),Verbena oil (Lippia citriodora Kunth),8024-12-2,
(39),Musk ambrette (4-tert-Butyl-3-methoxy-2,6-dinitrotoluene),83-66-9,
(40),4-Phenyl-3-buten-2-one,122-57-6,
(41),Amyl cinnamal,122-40-7,
(42),Amylcinnamyl alcohol,101-85-9,
(43),Benzyl alcohol,100-51-6,
(44),Benzyl salicylate,118-58-1,
(45),Cinnamyl alcohol,104-54-1,
(46),Cinnamal,104-55-2,
(47),Citral,5392-40-5,
(48),Coumarin,91-64-5,
(49),Eugenol,97-53-0,
(50),Geraniol,106-24-1,
(51),Hydroxy-citronellal,107-75-5,
(52),Hydroxy-methylpentylcyclohexenecarboxaldehyde,31906-04-4,
(53),Isoeugenol,97-54-1,
(54),Oakmoss extracts,90028-68-5,
(55),Treemoss extracts,90028-67-4,

(1),Anisyl alcohol,105-13-5,
(2),Benzyl benzoate,120-51-4,
(3),Benzyl cinnamate,103-41-3,
(4),Citronellol,106-22-9,
(5),Farnesol,4602-84-0,
(6),Hexyl cinnamaldehyde,101-86-0,
(7),Lilial,80-54-6,
(8),d-Limonene,5989-27-5,
(9),Linalool,78-70-6,
(10),Methyl heptine carbonate,111-12-6,
(11),3-methyl-4-(2.6,6-trimethyl-2-cyclohexen-1-yl)-3-buten-2-one,127-51-5,


Aluminium,5 625,1 406,70 000,
Antimony,45,11,3,560,
Arsenic,3,8,0,9,47,
Barium,1 500,375,18 570,
Boron,1 200,300,15 000,
Cadmium,1,3,0,3,17,
Chromium (III),37,5,9,4,460,
Chromium (VI),0,02,0,005, 0,053 ,
Cobalt,10,5,2,6,130,
Copper,622,5,156,7 700,
Lead,2,0,0,5,23,
Manganese,1 200,300,15 000,
Mercury,7,5,1,9,94,
Nickel,75,18,8,930,
Selenium,37,5,9,4,460,
Strontium,4 500,1 125,56 000,
Tin,15 000,3 750,180 000,
Organic tin,0,9,0,2,12,
Zinc,3 750,938,46 000,

Nickel,CMR 2,In toys and toy components made of stainless steel. In toy components which are intended to conduct an electric current,

TCEP,115-96-8,5 mg/kg (content limit),
TCPP,13674-84-5,5 mg/kg (content limit),
TDCP,13674-87-8,5 mg/kg (content limit),
Bisphenol A,80-05-7,0,04 mg/l (migration limit) in accordance with the methods laid down in EN 71-10:2005 and EN 71-11:2005.,
Formamide,75-12-7,20μg/m 3 (emission limit) after a maximum of 28 days from commencement of the emission testing of foam toy materials containing more than 200 mg/kg (cut-off limit based on content),
1,2-benzisothiazol-3(2H)-one,2634-33-5,5 mg/kg (content limit) in aqueous toy materials, in accordance with the methods laid down in EN 71-10:2005 and EN 71-11:2005,
Reaction mass of: 5-chloro-2- methyl-4-isothiazolin-3-one (EC no. 247-500-7) and 2-methyl-2H -isothiazol-3-one (EC no. 220-239-6) (3:1),55965-84-9,1 mg/kg (content limit) in aqueous toy materials,
5-Chloro-2-methyl-isothiazolin-3(2H)-one,26172-55-4,0,75 mg/kg (content limit) in aqueous toy materials,
2-methylisothiazolin-3(2H)-one,2682-20-4,0,25 mg/kg (content limit) in aqueous toy materials,
Phenol,108-95-2,5mg/l (migration limit) in polymeric materials in accordance with the methods laid down in EN 71-10:2005 and EN 71-11:2005 10mg/kg (content limit) as a preservative in accordance with the methods laid down in EN 71-10: 2005 and EN 71-11:2005.,
I,=,Module A,
II,=,Modules A2, D1, E1,
III,=,Modules B (design type) + D, B (design type) + F, B (production type) + E, B (production type) + C2, H,
IV,=,Modules B (production type) + D, B (production type) + F, G, H1,


,,minimum value,minimum value,maximum value,
I,0,001 g ≤ e,100 e,50 000,,
II,0,001 g ≤ e ≤ 0,05 g,20 e,100,100 000,
0,1 g ≤ e,50 e,5 000,100 000,
III,0,1 g ≤ e ≤ 2 g,20 e,100,10 000,
5 g ≤ e,20 e,500,10 000,
IIII,5 g ≤ e,10 e,100,1 000,
— its verification scale interval e i,with e (i + 1) > e i,
— its maximum capacity Max i,with Max r = Max,
— its minimum capacity Min i,with Min i = Max (i – 1),
,and Min 1 = Min,

i  =  1, 2, …r, i  =  partial weighing range number, r  =  the total number of partial weighing ranges,
Class,Verification scale interval (e),Minimum capacity (Min),Number of verification scale intervals,
,,Minimum value,Minimum value n = ((Max i ) / (e (i+1) )),Maximum value n = ((Max i ) / (e i )),
I,0,001 g ≤ e i,100 e1,50 000,,
II,0,001 g ≤ e i ≤ 0,05 g,20 e1,5 000,100 000,
0,1 g ≤ e i,50 e1,5 000,100 000,
III,0,1 g ≤ e i,20 e1,500,10 000,
IIII,5g ≤ e i,10 e1,50,1 000,

Load,Maximum permissible error,
Class I,Class II,Class III,Class IIII,
0 ≤ m ≤ 50 000 e,0 ≤ m ≤ 5 000 e,0 ≤ m ≤ 500 e,0 ≤ m ≤ 50 e,± 0,5 e,
50 000 e < m ≤ 200 000 e,5 000 e < m ≤ 20 000 e,500 e < m ≤ 2 000 e,50 e < m ≤ 200 e,± 1,0 e,
200 000 e < m,20 000 e < m ≤ 100 000 e,2 000 e < m ≤ 10 000 e,200 e < m ≤ 1 000 e,± 1,5 e,
Measurand,The measurand is the particular quantity subject to measurement,
Influence quantity,An influence quantity is a quantity that is not the measurand but that affects the result of measurement.,
Rated Operating Conditions,The rated operating conditions are the values for the measurand and influence quantities making up the normal working conditions of an instrument.,
Disturbance,An influence quantity having a value within the limits specified in the appropriate requirement but outside the specified rated operating conditions of the regulated measuring instrument. An influence quantity is a disturbance if for that influence quantity the rated operating conditions are not specified.,
Critical change value,The critical change value is the value at which the change in the measurement result is considered undesirable.,
Material Measure,A material measure is a device intended to reproduce or supply in a permanent manner during its use one or more known values of a given quantity.,
Direct sales,A trading transaction is direct sales if: — the measurement result serves as the basis for the price to pay; and — at least one of the parties involved in the transaction related to measurement is a consumer or any other party requiring a similar level of protection; and — all the parties in the transaction accept the measurement result at that time and place.,
Climatic environments,Climatic environments are the conditions in which regulated measuring instruments may be used. To cope with climatic differences, a range of temperature limits has been defined.,
Utility,A utility is regarded as a supplier of electricity, gas or water.,

Upper temperature limit,30 o C,40 o C,55 o C,70 o C,
Lower temperature limit,5 o C,-10 o C,-25 o C,-40 o C,
M1,This class applies to instruments used in locations with vibration and shocks of low significance, e.g. for instruments fastened to light supporting structures subject to negligible vibrations and shocks transmitted from local blasting or pile-driving activities, slamming doors, etc.,
M2,This class applies to instruments used in locations with significant or high levels of vibration and shock, e.g. transmitted from machines and passing vehicles in the vicinity or adjacent to heavy machines, conveyor belts, etc.,
M3,This class applies to instruments used in locations where the level of vibration and shock is high and very high, e.g. for instruments mounted directly on machines, conveyor belts, etc.,
E1,This class applies to instruments used in locations with electromagnetic disturbances corresponding to those likely to be found in residential, commercial and light industrial buildings.,
E2,This class applies to instruments used in locations with electromagnetic disturbances corresponding to those likely to be found in other industrial buildings.,
E3,This class applies to instruments supplied by the battery of a vehicle. Such instruments shall comply with the requirements of E2 and the following additional requirements: — voltage reductions caused by energising the starter-motor circuits of internal combustion engines, — load dump transients occurring in the event of a discharged battery being disconnected while the engine is running.,
Minimum Flowrate (Q 1 ),The lowest flowrate at which the water meter provides indications that satisfy the requirements concerning the maximum permissible errors (MPEs.),
Transitional Flowrate (Q 2 ),The transitional flowrate is the flowrate value occurring between the permanent and minimum flowrates, at which the flowrate range is divided into two zones, the ‘upper zone’ and the ‘lower zone’. Each zone has a characteristic MPE.,
Permanent Flowrate (Q 3 ),The highest flowrate at which the water meter operates in a satisfactory manner under normal conditions of use, i.e. under steady or intermittent flow conditions.,
Overload Flowrate (Q 4 ),The overload flowrate is the highest flowrate at which the meter operates in a satisfactory manner for a short period of time without deteriorating.,
Minimum flowrate (Q min ),The lowest flowrate at which the gas meter provides indications that satisfy the requirements regarding maximum permissible error (MPE).,
Maximum flowrate (Q max ),The highest flowrate at which the gas meter provides indications that satisfy the requirements regarding MPE.,
Transitional flowrate (Q t ),The transitional flowrate is the flowrate occurring between the maximum and minimum flowrates at which the flowrate range is divided into two zones, the ‘upper zone’ and the ‘lower zone’. Each zone has a characteristic MPE.,
Overload Flowrate (Q r ),The overload flowrate is the highest flowrate at which the meter operates for a short period of time without deteriorating.,
Base conditions,The specified conditions to which the measured quantity of fluid is converted.,

1.5,≥ 150,≥ 10,1.2,
1.0,≥ 20,≥ 5,1.2,
Class,1.5,1.0,
Q min ≤ Q < Q t,3 %,2 %,
Q t ≤ Q ≤ Q max,1.5 %,1 %,
I,=,the electrical current flowing through the meter;,
I n,=,the specified reference current for which the transformer operated meter has been designed;,
I st,=,the lowest declared value of I at which the meter registers active electrical energy at unity power factor (polyphase meters with balanced load);,
I min,=,the value of I above which the error lies within maximum permissible errors (MPEs) (polyphase meters with balanced load);,
I tr,=,the value of I above which the error lies within the smallest MPE corresponding to the class index of the meter;,
I max,=,the maximum value of I for which the error lies within the MPEs;,
U,=,the voltage of the electricity supplied to the meter;,
U n,=,the specified reference voltage;,
f,=,the frequency of the voltage supplied to the meter;,
f n,=,the specified reference frequency;,
PF,=,power factor = cosφ = the cosine of the phase difference φ between I and U.,
1 For Class B electromechanical meters I min ≤ 0.4 ∙ I tr shall apply.,


I st,≤ 0.05 ∙ I tr,≤ 0.04 ∙ I tr,≤ 0.04 ∙ I tr,
I min,≤ 0.5 ∙ I tr,≤ 0.5 ∙ I tr,≤ 0.3 ∙ I tr,
I max,≥ 50 ∙ I tr,≥ 50 ∙ I tr,≥ 50 ∙ I tr,

I st,≤ 0.06 ∙ I tr,≤ 0.04 ∙ I tr,≤ 0.02 ∙ I tr,
I min,≤ 0.4 ∙ I tr,≤ 0.2 ∙ I tr 1,≤ 0.2 ∙ I tr,
I n,= 20 ∙ I tr,= 20 ∙ I tr,= 20 ∙ I tr,
I max,≥ 1.2 ∙ I n,≥ 1.2 ∙ I n,≥ 1.2 ∙ I n,


,Operating temperatures,Operating temperatures,Operating temperatures,Operating temperatures,
,+ 5 °C … + 30 °C,– 10 °C … + 5 °C or + 30 °C … + 40 °C,– 25 °C … – 10 °C or + 40 °C … + 55 °C,– 40 °C … – 25 °C or + 55 °C … + 70 °C,
,,,,,
Meter class,A,B,C,A,B,C,A,B,C,A,B,C,
Single phase meter; polyphase meter if operating with balanced loads,
I min ≤ I < I tr,3.5,2,1,5,2.5,1.3,7,3.5,1.7,9,4,2,
I tr ≤ I < I max,3.5,2,0,4.5,2.5,1,7,3.5,1.3,9,4,1.5,
Polyphase meter if operating with single phase load,
I tr ≤ I < I max , see exception below,4,2.5,1,5,3,1.3,7,4,1.7,9,4.5,2,
For electromechanical polyphase meters the current range for single-phase load is limited to 5I tr ≤ I ≤ I max,



Reversed phase sequence,1.5,1.5,0.3,
Voltage unbalance (only applicable to polyphase meters),4,2,1,
Harmonic contents in the current circuits,1,0.8,0.5,
DC and harmonics in the current circuit,6,3,1.5,
Fast transient bursts,6,4,2,
Magnetic fields; HF (radiated RF) electromagnetic field; Conducted disturbances introduced by radio-frequency fields; and Oscillatory waves immunity,3,2,1,
Meter,An instrument designed to measure continuously, memorise and display the quantity at metering conditions of liquid 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 transducer(s) and possibly, from associated regulated 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 liquid, with a view to make a correction and/or conversion.,
Conversion Device,A part of the calculator which by taking account of the characteristics of the liquid (temperature, density, etc.) measured using associated regulated measuring instruments, or stored in a memory, automatically converts: — the volume of the liquid measured at metering conditions into a volume at base conditions and/or into mass, or — the mass of the liquid measured at metering conditions into a volume at metering conditions and/or into a volume at base conditions Note: A conversion device includes the relevant associated measuring instruments.,
Base conditions,The specified conditions to which the measured quantity of liquid at metering conditions is converted.,
Measuring System,A system that comprises the meter itself and all devices required to ensure correct measurement or intended to facilitate the measuring operations.,
Fuel dispenser,A measuring system intended for the refuelling of motor vehicles, small boats and small aircraft.,
Self-service arrangement,An arrangement that allows the customer to use a measuring system for the purpose of obtaining liquid for his own use.,
Self-service device,A specific device that is part of a self-service arrangement and which allows one of more measuring systems to perform in this self-service arrangement.,
Minimum measured quantity (MMQ),The smallest quantity of liquid for which the measurement is metrologically acceptable for the measuring system.,
Direct indication,The indication, either volume or mass, corresponding to the measure and that the meter is physically capable of measuring.,
,
Note:,
The direct indication may be converted into another quantity using a conversion device.,
Interruptible/non-interruptible,A measuring system is considered as interruptible/non-interruptible when the liquid flow can/cannot be stopped easily and rapidly.,
Flowrate range,The range between the minimum flowrate (Q min ) and maximum flowrate (Q max ).,

Fuel dispensers,Not Liquefied gases,10: 1,
Liquefied gases,5: 1,
Measuring system,Cryogenic liquids,5: 1,
Measuring systems on pipeline and systems for loading ships,All liquids,Suitable for use,
All other measuring systems,All liquids,4: 1,

,Accuracy Class,
,0.3,0.5,1.0,1.5,2.5,
Measuring systems (A),0.3 %,0.5 %,1.0 %,1.5 %,2.5 %,
Meters (B),0.2 %,0.3 %,0.6 %,1.0 %,1.5 %,

V < 0.1 L,4 × value in Table 2, applied to 0.1 L,
0.1 L ≤ V < 0.2 L,4 × value in Table 2,
0.2 L ≤ V < 0.4 L,2 × value in Table 2, applied to 0.4 L,
0.4 L ≤ V < 1 L,2 × value in Table 2,
1 L ≤ V < 2 L,Value in Table 2, applied to 2 L,

0.3,0.5,1.0,1.5,2.5,
Temperature,± 0.3 °C,± 0.5 °C,± 1.0 °C,
Pressure,Less than 1 MPa: ± 50 kPa From 1 to 4 MPa: ± 5 % Over 4 MPa: ± 200 kPa,
Density,± 1 kg/m 3,± 2 kg/m 3,± 5 kg/m 3,

0.3,Measuring systems on pipeline,
0.5,All measuring systems if not differently stated elsewhere in this Table, in particular:,
,fuel dispensers (not for liquefied gases),,
,measuring systems on road tankers for liquids of low viscosity (< 20 mPa.s),
1.0,Measuring systems for liquefied gases under pressure measured at a temperature equal to or above – 10 °C,
Measuring systems normally in class 0.3 or 0.5 but used for liquids,
,whose temperature is less than – 10 °C or greater than 50 °C,
,whose dynamic viscosity is higher than 1,000 mPa.s,
,whose maximum volumetric flowrate is not higher than 20 L/h,
1.5,Measuring systems for liquefied gases under pressure measured at a temperature below – 10 °C (other than cryogenic liquids),
2.5,Measuring systems for cryogenic liquids (temperature below – 153 °C),
Automatic weighing instrument,An instrument that determines the mass of a product without the intervention of an operator and follows a predetermined programme of automatic processes characteristic of the instrument.,
Automatic catchweigher,An automatic weighing instrument that determines the mass of pre-assembled discrete loads (for example prepackages) or single loads of loose material.,
Weight labeller,An automatic catchweigher that labels individual articles with the weight value.,
Weight/price labeller,An automatic catchweigher that labels individual articles with the weight value, and price information.,
Automatic gravimetric filling instrument,An automatic weighing instrument that fills containers with a predetermined and virtually constant mass of product from bulk.,
Discontinuous totaliser (totalising hopper weigher),An automatic weighing instrument that determines the mass of a bulk product by dividing it into discrete loads. The mass of each discrete load is determined in sequence and summed. Each discrete load is then delivered to bulk.,
Continuous totaliser,An automatic weighing instrument that continuously determines the mass of a bulk product on a conveyor belt, without systematic subdivision of the product and without interrupting the movement of the conveyor belt.,
Rail-weighbridge,An automatic weighing instrument having a load receptor inclusive of rails for conveying railway vehicles.,
In case of AC voltage supply,:,the nominal AC voltage supply, or the AC voltage limits.,
In case of DC voltage supply,:,the nominal and minimum DC voltage supply, or the DC voltage limits.,


0 < m ≤ 50,000,0 < m ≤ 5,000,0 < m ≤ 500,0 < m ≤ 50,± 0.5 e,± 1 e,
50,000 < m ≤ 200,000,5,000 < m ≤ 20,000,500 < m ≤ 2,000,50 < m ≤ 200,± 1.0 e,± 1.5 e,
200,000 < m,20,000 < m ≤ 100,000,2,000 < m ≤ 10,000,200 < m ≤ 1,000,± 1.5,± 2 e,


,,,Minimum,Maximum,
XI,Y(I),0.001 g ≤ e,50,000,,
XII,Y(II),0.001 g ≤ e ≤ 0.05 g,100,100,000,
,,0.1 g ≤ e,5,000,100,000,
XIII,Y(a),0.1 g ≤ e ≤ 2 g,100,10,000,
,,5 g ≤ e,500,10,000,
XIIII,Y(b),5 g ≤ e,100,1,000,
1 For i = r the corresponding column of Table 2 applies with e replaced by e r .,

,,Minimum value 1 n = Max i /e (i+1) For i = r the corresponding column of Table 2 applies with e replaced by e r .,Maximum value n = Max i /e i,
Y(I),0.001 g ≤ e i,50,000,,
Y(II),0.001 g ≤ e i ≤ 0.05 g,5,000,100,000,
,0.1 g ≤ e i,5,000,100,000,
Y(a),0.1 g ≤ e i,500,10,000,
Y(b),5 g ≤ e i,50,1 000,
class Y(I),:,100 e,
class Y(II),:,20 e for 0.001 g ≤ e ≤ 0.05 g, and 50 e for 0.1 g ≤ e,
class Y(a),:,20 e,
class Y(b),:,10 e,
Scales used for grading, e.g. postal scales and garbage weighers,:,5 e,

m ≤ 50,7.2 %,
50 < m ≤ 100,3.6 g,
100 < m ≤ 200,3.6 %,
200 < m ≤ 300,7.2 g,
300 < m ≤ 500,2.4 %,
500 < m ≤ 1,000,12 g,
1,000 < m ≤ 10,000,1.2 %,
10,000 < m ≤ 15,000,120 g,
15,000 < m,0.8 %,

0.2,± 0.10 %,
0.5,± 0.25 %,
1,± 0.50 %,
2,± 1.00 %,

0 < m ≤ 500,± 0.5 d t,
500 < m ≤ 2,000,± 1.0 d t,
2,000 < m ≤ 10,000,± 1.5 d t,

0.5,± 0.25 %,
1,± 0.5 %,
2,± 1.0 %,

0.2,± 0.1 %,
0.5,± 0.25 %,
1,± 0.5 %,
2,± 1.0 %,

0.2,d ≤ 50 kg,
0.5,d ≤ 100 kg,
1,d ≤ 200 kg,
2,d ≤ 500 kg,
Load (m) in verification scale intervals (d),MPE,
0 < m ≤ 500,± 0.5 d,
500 < m ≤ 2,000,± 1.0 d,
2,000 < m ≤ 10,000,± 1.5 d,
‘For Hire’,:,The operating position in which the fare calculation is disabled,
‘Hired’,:,The operating position in which the fare calculation takes place on the basis of a possible initial charge and a tariff for distance travelled and/or time of the trip,
‘Stopped’,:,The operating position in which the fare due for the trip is indicated and at least the fare calculation based on time is disabled.,

I,0.1,0.1,0.1,
II,0.3,0.2,0.2,
III,0.6,0.4,0.3,

,I,II,III,
i ≤ 1 mm,0.1,0.2,0.3,
1 mm < i ≤ 1 cm,0.2,0.4,0.6,
Line measure,A capacity serving measure marked with a line to indicate nominal capacity.,
Brim measure,A capacity serving measure for which the internal volume is equal to the nominal capacity.,
Transfer measure,A capacity serving measure from which it is intended that the liquid is decanted prior to consumption.,
Capacity,The capacity is the internal volume for brim measures or internal volume to a filling mark for line measures.,


Transfer measures,,,
< 100 ml,± 2 ml,– 0,
+ 4 ml,
≥ 100 ml,± 3 %,– 0,
+ 6 %,
Serving measures,,,
< 200 ml,± 5 %,– 0,
+ 10 %,
≥ 200 ml,± (5 ml + 2.5 %),– 0,
+ 10 ml + 5 %,
Lambda,Lambda is a dimensionless value representative of the burning efficiency of an engine in terms of air/fuel ratio in the exhaust gases.,


CO fraction,from 0 to 5 % vol,
CO 2 fraction,from 0 to 16 % vol,
HC fraction,from 0 to 2,000 ppm vol,
O 2 fraction,from 0 to 21 % vol,
λ,from 0.8 to 1.2,


CO fraction,± 0.03 % vol ± 5 %,± 0.06 % vol ± 5 %,
CO 2 fraction,± 0.5 % vol,± 0.5 % vol,
,±5 %,± 5 %,
HC fraction,± 10 ppm vol,± 12 ppm vol,
,± 5 %,± 5 %,
O 2 fraction,± 0.1 % vol,± 0.1 % vol,
,± 5 %,± 5 %,

,CO,CO 2,O 2,HC,
Class O and class I,0.01 % vol,0.1 % vol,0.01 % vol for measurand values below or equal to 4 % vol, otherwise 0.1 % vol.,1 ppm vol,