
Article 1 
The legal units of measurement within the meaning of this Directive which must be used for expressing quantities shall be:

((a)) those listed in Chapter I of the Annex;
((b)) those listed in Chapter II of the Annex only in those Member States where they were authorised on 21 April 1973;
((c)) those listed in Chapter III of the Annex only in those Member States where they were authorized on 21 April 1973 and until a date to be fixed by those States. This date may not be later than 31 December 1994;
((d)) those listed in Chapter IV of the Annex only in those Member States where they were authorized on 21 April 1973 and until a date to be fixed by those States. This date may not be later than 31 December 1999.
Article 2 

((a)) The obligations arising under Article 1 relate to measuring instruments used, measurements made and indications of quantity expressed in units of measurement.
((b)) This Directive shall not affect the use in the field of air and sea transport and rail traffic of units, other than those made compulsory by the Directive, which have been laid down in international conventions or agreements binding the Community or the Member States.
Article 3 

1. For the purposes of this Directive ‘supplementary indication’means one or more indications of quantity expressed in units of measurement not contained in Chapter I of the Annex accompanying an indication of quantity expressed in a unit contained in that Chapter.
2. The use of supplementary indications shall be authorised.
3. However, Member States may require that measuring instruments bear indications of quantity in a single legal unit of measurement.
4. The indication expressed in a unit of measurement listed in Chapter I shall predominate. In particular, the indications expressed in units of measurement not listed in Chapter I shall be expressed in characters no larger than those of the corresponding indication in units listed in Chapter I.
5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Article 4 
The use of units of measurement which are not or are no longer legal shall be authorized for:

— products and equipment already on the market and/or in service on the date on which this Directive is adopted,
— components and parts of products and of equipment necessary to supplement or replace components or parts of the above products and equipment.
However, the use of legal units of measurement may be required for the indicators of measuring instruments.
Article 5 
International standard ISO 2955 of 15 May 1983, ‘Information processing — Representations of SI and other units for use in systems with limited character sets’ shall apply in the field covered by paragraph 1 thereof.
Article 6 
Directive 71/354/EEC shall be repealed on 1 October 1981.
. . . . .

Article 6a 
Issues concerning the implementation of this Directive and, in particular, the matter of supplementary indications shall be further examined, and if necessary the appropriate measures adopted in accordance with the procedure referred to in Article 18 of Council Directive 71/316/EEC.
Article 6b 
The Commission shall monitor market developments relating to this Directive and its implementation with regard to the smooth functioning of the internal market and international trade and shall submit a report on those developments, accompanied by proposals where appropriate, to the European Parliament and to the Council by 31 December 2019.
Article 7 

((a)) Member States shall adopt and publish before 1 July 1981 the laws, regulations and administrative provisions necessary to comply with this Directive and shall inform the Commission thereof.
They shall apply these provisions from 1 October 1981.
((b)) As from the date of notification of this Directive, Member States shall also ensure that the Commission is informed, in sufficient time to enable it to submit its comments, of any draft laws, regulations or administrative provisions which they intend to adopt in the field covered by this Directive.
Article 8 
This Directive is addressed to the Member States.
ANNEX
CHAPTER I
1.  1.1. 

Quantity Unit
Name Symbol
Time second s
Length metre m
Mass kilogram kg
Electric current ampere A
Thermodynamic temperature kelvin K
Amount of substance mole mol
Luminous intensity candela cd

Definitions of SI base units:


 Unit of time
The second, symbol s, is the SI unit of time. It is defined by taking the fixed numerical value of the caesium frequency ΔνCs, the unperturbed ground-state hyperfine transition frequency of the caesium 133 atom, to be 9 192 631 770 when expressed in the unit Hz, which is equal to s–1.
 Unit of length
The metre, symbol m, is the SI unit of length. It is defined by taking the fixed numerical value of the speed of light in vacuum c to be 299 792 458 when expressed in the unit m/s, where the second is defined in terms of ΔνCs.
 Unit of mass
The kilogram, symbol kg, is the SI unit of mass. It is defined by taking the fixed numerical value of the Planck constant h to be 6,626 070 15 × 10–34 when expressed in the unit J s, which is equal to kg m2 s–1, where the metre and the second are defined in terms of c and ΔνCs.
 Unit of electric current
The ampere, symbol A, is the SI unit of electric current. It is defined by taking the fixed numerical value of the elementary charge e to be 1,602 176 634 × 10–19 when expressed in the unit C, which is equal to A s, where the second is defined in terms of ΔνCs.
 Unit of thermodynamic temperature
The kelvin, symbol K, is the SI unit of thermodynamic temperature. It is defined by taking the fixed numerical value of the Boltzmann constant k to be 1,380 649 × 10–23 when expressed in the unit J K–1, which is equal to kg m2 s–2 K–1, where the kilogram, metre and second are defined in terms of h, c and ΔνCs.
 Unit of amount of substance
The mole, symbol mol, is the SI unit of amount of substance. One mole contains exactly 6,022 140 76 × 1023 elementary entities. This number is the fixed numerical value of the Avogadro constant, NA, when expressed in the unit mol–1 and is called the Avogadro number.
The amount of substance, symbol n, of a system is a measure of the number of specified elementary entities. An elementary entity may be an atom, a molecule, an ion, an electron, any other particle or specified group of particles.
 Unit of luminous intensity
The candela, symbol cd, is the SI unit of luminous intensity in a given direction. It is defined by taking the fixed numerical value of the luminous efficacy of monochromatic radiation of frequency 540 × 1012 Hz, Kcd, to be 683 when expressed in the unit lm W–1, which is equal to cd sr W–1, or cd sr kg–1 m–2 s3, where the kilogram, metre and second are defined in terms of h, c and ΔνCs.
 1.1.1. 

Quantity Unit
Name Symbol
Celsius temperature degree Celsius °C

Celsius temperature t is defined as the difference t = T – T0 between the two thermodynamic temperatures T and T0 where T0 = 273,15 K. An interval or difference of temperature may be expressed either in kelvins or in degrees Celsius. The unit ‘degree Celsius’ is equal to the unit ‘kelvin’.
 1.2.  1.2.1. 

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.2.2. 
Units derived coherently from SI base units are given as algebraic expressions in the form of products of powers of the SI base units with a numerical factor equal to 1.
 1.2.3. 

Quantity Unit Expression
Name Symbol In terms of other SI units In terms of SI base units
Plane angle radian rad  m · m–1
Solid angle steradian sr  m2 · m–2
Frequency hertz Hz  s–1
Force newton N  m · kg · s–2
Pressure, stress pascal Pa N · m–2 m–1 · kg · s–2
Energy, work; quantity of heat joule J N · m m2 · kg · s–2
Power, radiant flux watt W J · s–1 m2 · kg · s–3
Quantity of electricity, electric charge coulomb C  s · A
Electric potential, potential difference, electromotive force volt V W · A–1 m2 · kg · s–3 · A–1
Electric resistance ohm Ω V · A–1 m2 · kg · s–3 · A–2
Conductance siemens S A · V–1 m–2 · kg–1 · s3 · A2
Capacitance farad F C · V–1 m–2 · kg–1 · s4 · A2
Magnetic flux weber Wb V · s m2 · kg · s–2 · A–1
Magnetic flux density tesla T Wb · m–2 kg · s–2 · A–1
Inductance henry H Wb · A–1 m2 · kg · s–2 · A–2
Luminous flux lumen lm cd · sr cd
Illuminance lux lx lm · m–2 m–2 · cd
Activity (of a radionuclide) becquerel Bq  s–1
Absorbed dose, specific energy imparted, kerma, absorbed dose index gray Gy J · kg–1 m2 · s–2
Dose equivalent sievert Sv J · kg–1 m2 · s–2
Catalytic activity katal kat  mol · s–1


Units derived from SI base units may be expressed in terms of the units listed in Chapter I.

In particular, derived SI units may be expressed by the special names and symbols given in the above table; for example, the SI unit of dynamic viscosity may be expressed as m–1 · kg · s–1 or N · s · m–2 or Pa · s.
 1.3. 
Factor Prefix Symbol
1024 yotta Y
1021 zetta Z
1018 exa E
1015 peta P
1012 tera T
109 giga G
106 mega M
103 kilo k
102 hecto h
101 deca da
10-1 deci d
10-2 centi c
10-3 milli m
10-6 micro μ
10-9 nano n
10-12 pico p
10-15 femto f
10-18 atto a
10-21 zepto z
10-24 yocto y
The names and symbols of the decimal multiples and submultiples of the unit of mass are formed by attaching prefixes to the word ‘gram’ and their symbols to the symbol ‘g’.

Where a derived unit is expressed as a fraction, its decimal multiples and submultiples may be designated by attaching a prefix to units in the numerator or the denominator, or in both these parts.

Compound prefixes, that is to say prefixes formed by the juxtaposition of several of the above prefixes, may not be used.
 1.4. 
Quantity Unit
Name Symbol Value
Volume litre 1 or L 1 l = 1 dm3 = 10-3 m3
Mass tonne t 1 t = 1 Mg = 103 kg
Pressure, stress bar bar 1 bar = 105 Pa

The prefixes and their symbols listed in 1.3 may be used in conjunction with the units and symbols contained in Table 1.4.
2. 
Quantity Unit
Name Symbol Value
Plane angle revolution*  1 revolution = 2 π rad
grade* or gon* gon* 1 gon=π200 rad
degree ° 1°=π180 rad
minute of angle ′ 1′=π1080010800rad
second of angle ″ 1″=π648000648000rad
Time minute min 1 min = 60 s
hour h 1 h = 3 600 s
day d 1 d = 86 400 s

The prefixes listed in 1.3 may only be used in conjunction with the names ‘grade’ or ‘gon’ and the symbol ‘gon’.
3. 
Quantity Unit
Name Symbol Definition
Energy Electronvolt eV The electron volt is the kinetic energy acquired by an electron in passing through a potential difference of 1 volt in vaccum
Mass Unified atomic mass unit u The unified atomic mass units is equal to 1/12 of the mass of an atom of the nuclide 12C.The prefixes and their symbols listed in 1.3 may be used in conjunction with these two units and with their symbols.
4. 
Quantity Unit
Name Symbol Value
Vergency of optical systems dioptre*  1 dioptre = 1 m-1
Mass of precious stones metric carat  1 metric carat = 2 × 10-4 kg
Area of farmland and building land are a 1 a = 102 m2
Mass per unit length of textile yarns and threads tex* tex* 1 tex = 10-6 kg · m-1
Blood pressure and pressure of other body fluids Millimetre of mercury mm Hg(*) 1 mm Hg = 133,322 Pa
Effective cross-sectional area Barn b 1 b = 10-28 m2The prefixes and their symbols listed in 1.3 may be used in conjunction with the above units and symbols, with the exception of the millimetre of mercury and its symbol. The multiple of 102a is, however, called a ‘hectare’.
5. 
Combinations of the units listed in Chapter I form compound units.

CHAPTER II
Field of application Unit
Name Approximate value Symbol
 
Road traffic signs, distance and speed measurement mile 1 mile = 1 609 m mile
yard 1 yd = 0,9144 m yd
foot 1 ft = 0,3048 m ft
inch 1 in = 2,54 × 10-2 m in
Dispense of draught beer and cider; milk in returnable containers pint 1 pt = 0,5683 × 10-3 m3 pt

Transaction in precious metals troy ounce 1 oz tr = 31,10 × 10-3 kg oz tr
The units listed in this Chapter may be combined with each other or with those in Chapter I to form compound units.

CHAPTER III

QUANTITIES, NAMES OF UNITS, SYMBOLS AND APPROXIMATE VALUES
Length
inch 1 in = 2·54 × 10-2 m
foot 1 ft = 0·3048 m

mile 1 mile = 1 609 m
yard 1 yard = 0·9144 m
Area
square foot 1 sq ft = 0·929 × 10-1 m2
acre 1 ac = 4 047 m2
square yard 1 sq yd = 0·8361 m2
Volume
fluid ounce 1 fl oz = 28·41 × 10-6 m3
gill 1 gill = 0·1421 × 10-3 m3
pint 1 pt = 0·5683 × 10-3 m3
quart 1 qt = 1·137 × 10-3 m3
gallon 1 gal = 4·546 × 10-3 m3
Mass
ounce (avoirdupois) 1 oz = 28·35 × 10-3 kg
troy ounce 1 oz tr = 31·10 × 10-3 kg
pound 1 lb = 0·4536 kg
Energy
therm 1 therm = 105·506 × 106 J

Until the date to be fixed under Article 1 (c), the units listed in Chapter III may be combined with each other or with those in Chapter I to form compound units.

CHAPTER IV
Field of application Unit
Name Approximate value Symbol
 
Marine navigation fathom 1 fm = 1,829 m fm
Beer, cider, waters, lemonades and fruit juices in returnable containers pint 1 pt = 0,5683 × 10-3 m3 pt
fluid ounce 1 fl oz = 28,41 × 10-6 m3 fl. oz
Spirit drinks gill 1 gill = 0,142 × 10-3 m3 gill
Goods sold loose in bulk ounce(avoir dupois) 1 oz = 28,35 × 10-3 kg oz
pound 1 lb = 0,4536 kg lb
Gas supply therm 1 therm = 105,506 × 106 J therm
Until the date to be fixed under Article 1 (d), the units listed in this Chapter may be combined with each other or with those in Chapter I to form compound units.
