- Latest available (Revised)
- Point in Time (26/06/2013)
- Original (As adopted by EU)
Directive 2013/35/EU of the European Parliament and of the Council of 26 June 2013 on the minimum health and safety requirements regarding the exposure of workers to the risks arising from physical agents (electromagnetic fields) (20th individual Directive within the meaning of Article 16(1) of Directive 89/391/EEC) and repealing Directive 2004/40/EC
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The following physical quantities are used to describe the exposure to electromagnetic fields:
Electric field strength (E) is a vector quantity that corresponds to the force exerted on a charged particle regardless of its motion in space. It is expressed in volt per metre (Vm–1). A distinction has to be made between the environmental electric field and the electric field present in the body (in situ) as a result of exposure to the environmental electric field.
Limb current (IL) is the current in the limbs of a person exposed to electromagnetic fields in the frequency range from 10 MHz to 110 MHz as a result of contact with an object in an electromagnetic field or the flow of capacitive currents induced in the exposed body. It is expressed in ampere (A).
Contact current (IC) is a current that appears when a person comes into contact with an object in an electromagnetic field. It is expressed in ampere (A). A steady state contact current occurs when a person is in continuous contact with an object in an electromagnetic field. In the process of making such contact, a spark discharge may occur with associated transient currents.
Electric charge (Q) is an appropriate quantity used for spark discharge and is expressed in coulomb (C).
Magnetic field strength (H) is a vector quantity that, together with the magnetic flux density, specifies a magnetic field at any point in space. It is expressed in ampere per metre (Am–1).
Magnetic flux density (B) is a vector quantity resulting in a force that acts on moving charges, expressed in tesla (T). In free space and in biological materials, magnetic flux density and magnetic field strength can be interchanged using the magnetic field strength of H = 1 Am–1 equivalence to magnetic flux density of T (approximately 1,25 microtesla).
Power density (S) is an appropriate quantity used for very high frequencies, where the depth of penetration in the body is low. It is the radiant power incident perpendicular to a surface, divided by the area of the surface. It is expressed in watt per square metre (Wm–2).
Specific energy absorption (SA) is an energy absorbed per unit mass of biological tissue, expressed in joule per kilogram (Jkg–1). In this Directive, it is used for establishing limits for effects from pulsed microwave radiation.
Specific energy absorption rate (SAR), averaged over the whole body or over parts of the body, is the rate at which energy is absorbed per unit mass of body tissue and is expressed in watt per kilogram (Wkg–1). Whole-body SAR is a widely accepted quantity for relating adverse thermal effects to radio frequency (RF) exposure. Besides the whole-body average SAR, local SAR values are necessary to evaluate and limit excessive energy deposition in small parts of the body resulting from special exposure conditions. Examples of such conditions include: an individual exposed to RF in the low MHz range (e.g. from dielectric heaters) and individuals exposed in the near field of an antenna.
Of these quantities, magnetic flux density (B), contact current (IC), limb current (IL), electric field strength (E), magnetic field strength (H), and power density (S) can be measured directly.
ELVs below 1 Hz (Table A1) are limits for static magnetic field which is not affected by the tissue of the body.
ELVs for frequencies from 1 Hz to 10 MHz (Table A2) are limits for electric fields induced in the body from exposure to time-varying electric and magnetic fields.
ELVs for external magnetic flux density from 0 to 1 Hz
The sensory effects ELV is the ELV for normal working conditions (Table A1) and is related to vertigo and other physiological effects related to disturbance of the human balance organ resulting mainly from moving in a static magnetic field
The health effects ELV for controlled working conditions (Table A1) is applicable on a temporary basis during the shift when justified by the practice or process, provided that preventive measures, such as controlling movements and providing information to workers, have been adopted.
ELVs for external magnetic flux density (B0) from 0 to 1 Hz
Sensory effects ELVs | |
---|---|
Normal working conditions | 2 T |
Localised limbs exposure | 8 T |
Health effects ELVs | |
Controlled working conditions | 8 T |
Health effects ELVs for internal electric field strength from 1 Hz to 10 MHz
Health effects ELVs (Table A2) are related to electric stimulation of all peripheral and central nervous system tissues in the body, including the head.
Health effects ELVs for internal electric field strength from 1 Hz to 10 MHz
Frequency range | Health effects ELVs |
---|---|
1 Hz ≤ f < 3 kHz | 1,1 Vm–1 (peak) |
3 kHz ≤ f ≤ 10 MHz | 3,8 × 10– 4 f Vm–1 (peak) |
Sensory effects ELVs for internal electric field strength from 1 Hz to 400 Hz
The sensory effects ELVs (Table A3) are related to electric field effects on the central nervous system in the head, i.e. retinal phosphenes and minor transient changes in some brain functions.
Sensory effects ELVs for internal electric field strength from 1 to 400 Hz
Frequency range | Sensory effects ELVs |
---|---|
1 ≤ f < 10 Hz | 0,7/f Vm–1 (peak) |
10 ≤ f < 25 Hz | 0,07 Vm–1 (peak) |
25 ≤ f ≤ 400 Hz | 0,0028 f Vm–1 (peak) |
The following physical quantities and values are used to specify the action levels (ALs), the magnitude of which are established to ensure by simplified assessment the compliance with relevant ELVs or at which relevant protection or prevention measures specified in Article 5 must be taken:
Low ALs(E) and high ALs(E) for electric field strength E of time varying electric fields as specified in Table B1;
Low ALs(B) and high ALs(B) for magnetic flux density B of time varying magnetic fields as specified in Table B2;
ALs(IC) for contact current as specified in Table B3;
ALs(B0) for magnetic flux density of static magnetic fields as specified in Table B4.
ALs correspond to calculated or measured electric and magnetic field values at the workplace in the absence of the worker.
Action levels (ALs) for exposure to electric fields
Low ALs (Table B1) for external electric field are based on limiting the internal electric field below the ELVs (Tables A2 and A3) and limiting spark discharges in the working environment.
Below high ALs, the internal electric field does not exceed the ELVs (Tables A2 and A3) and annoying spark discharges are prevented, provided that the protection measures referred to in Article 5(6) are taken.
ALs for exposure to electric fields from 1 Hz to 10 MHz
Frequency range | Electric field strength Low ALs (E)[Vm–1] (RMS) | Electric field strength High ALs (E) [Vm–1] (RMS) |
---|---|---|
1 ≤ f < 25 Hz | 2,0 × 104 | 2,0 × 104 |
25 ≤ f < 50 Hz | 5,0 × 105/f | 2,0 × 104 |
50 Hz ≤ f < 1,64 kHz | 5,0 × 105/f | 1,0 × 106/f |
1,64 ≤ f < 3 kHz | 5,0 × 105/f | 6,1 × 102 |
3 kHz ≤ f ≤ 10 MHz | 1,7 × 102 | 6,1 × 102 |
Action levels (ALs) for exposure to magnetic fields
Low ALs (Table B2) are, for frequencies below 400 Hz, derived from the sensory effects ELVs (Table A3) and, for frequencies above 400 Hz, from the health effects ELVs for internal electric field (Table A2).
High ALs (Table B2) are derived from the health effects ELVs for internal electric field related to electric stimulation of peripheral and autonomous nerve tissues in head and trunk (Table A2). Compliance with the high ALs ensures that health effects ELVs are not exceeded, but the effects related to retinal phosphenes and minor transient changes in brain activity are possible, if the exposure of the head exceeds the low ALs for exposures up to 400 Hz. In such a case, Article 5(6) applies.
ALs for exposure of limbs are derived from the health effects ELVs for internal electric field related to electric stimulation of the tissues in limbs by taking into account that the magnetic field is coupled more weakly to the limbs than to the whole body.
ALs for exposure to magnetic fields from 1 Hz to 10 MHz
Frequency range | Magnetic flux density Low ALs(B)[μT] (RMS) | Magnetic flux density High ALs(B) [μT] (RMS) | Magnetic flux density ALs for exposure of limbs to a localised magnetic field [μT] (RMS) |
---|---|---|---|
1 ≤ f < 8 Hz | 2,0 × 105/f2 | 3,0 × 105/f | 9,0 × 105/f |
8 ≤ f < 25 Hz | 2,5 × 104/f | 3,0 × 105/f | 9,0 × 105/f |
25 ≤ f < 300 Hz | 1,0 × 103 | 3,0 × 105/f | 9,0 × 105/f |
300 Hz ≤ f < 3 kHz | 3,0 × 105/f | 3,0 × 105/f | 9,0 × 105/f |
3 kHz ≤ f ≤ 10 MHz | 1,0 × 102 | 1,0 × 102 | 3,0 × 102 |
ALs for contact current IC
Frequency | ALs (IC) steady state contact current [mA] (RMS) |
---|---|
up to 2,5 kHz | 1,0 |
2,5 ≤ f < 100 kHz | 0,4 f |
100 ≤ f ≤ 10 000 kHz | 40 |
Action levels (ALs) for magnetic flux density of static magnetic fields
ALs for magnetic flux density of static magnetic fields
Hazards | ALs(B0) |
---|---|
Interference with active implanted devices, e.g. cardiac pacemakers | 0,5 mT |
Attraction and projectile risk in the fringe field of high field strength sources (> 100 mT) | 3 mT |
Health effects ELVs for frequencies from 100 kHz to 6 GHz (Table A1) are limits for energy and power absorbed per unit mass of body tissue generated from exposure to electric and magnetic fields.
Sensory effects ELVs for frequencies from 0,3 to 6 GHz (Table A2) are limits on absorbed energy in a small mass of tissue in the head from exposure to electromagnetic fields.
Health effects ELVs for frequencies above 6 GHz (Table A3) are limits for power density of an electromagnetic wave incident on the body surface.
Health effects ELVs for exposure to electromagnetic fields from 100 kHz to 6 GHz
Health effects ELVs | SAR values averaged over any six-minute period |
---|---|
ELVs related to whole body heat stress expressed as averaged SAR in the body | 0,4 Wkg–1 |
ELVs related to localised heat stress in head and trunk expressed as localised SAR in the body | 10 Wkg–1 |
ELVs related to localised heat stress in the limbs expressed as localised SAR in the limbs | 20 Wkg–1 |
Sensory effects ELVs from 0,3 GHz to 6 GHz
This sensory effects ELVs (Table A2) is related to avoiding auditory effects caused by exposures of the head to pulsed microwave radiation.
Sensory effects ELVs for exposure to electromagnetic fields from 0,3 to 6 GHz
Frequency range | Localised specific energy absorption (SA) |
---|---|
0,3 ≤ f ≤ 6 GHz | 10 mJkg–1 |
Health effects ELVs for exposure to electromagnetic fields from 6 to 300 GHz
Frequency range | Health effects ELVs related to power density |
---|---|
6 ≤ f ≤ 300 GHz | 50 Wm–2 |
The following physical quantities and values are used to specify the action levels (ALs), the magnitude of which are established to ensure by simplified assessment the compliance with the relevant ELVs or at which relevant protection or prevention measures specified in Article 5 must be taken:
ALs(E) for electric field strength E of time varying electric field, as specified in Table B1;
ALs(B) for magnetic flux density B of time varying magnetic field, as specified in Table B1;
ALs(S) for power density of electromagnetic waves, as specified in Table B1;
ALs(IC) for contact current, as specified in Table B2;
ALs(IL) for limb current, as specified in Table B2;
ALs correspond to calculated or measured field values at the workplace in the absence of the worker, as maximum value at the position of the body or specified part of the body.
Action levels (ALs) for exposure to electric and magnetic fields
ALs(E) and ALs(B) are derived from the SAR or power density ELVs (Tables A1 and A3) based on the thresholds related to internal thermal effects caused by exposure to (external) electric and magnetic fields.
ALs for exposure to electric and magnetic fields from 100 kHz to 300 GHz
Frequency range | Electric field strength ALs(E) [Vm–1] (RMS) | Magnetic flux density ALs(B) [μT] (RMS) | Power density ALs(S) [Wm–2] |
---|---|---|---|
100 kHz ≤ f < 1 MHz | 6,1 × 102 | 2,0 × 106/f | — |
1≤ f < 10 MHz | 6,1 × 108/f | 2,0 × 106/f | — |
10 ≤ f < 400 MHz | 61 | 0,2 | — |
400 MHz ≤ f < 2 GHz | 3 × 10–3 f½ | 1,0 × 10–5 f½ | — |
2 ≤ f < 6 GHz | 1,4 × 102 | 4,5 × 10–1 | — |
6 ≤ f ≤ 300 GHz | 1,4 × 102 | 4,5 × 10–1 | 50 |
ALs for steady state contact currents and induced limb currents
Frequency range | Steady state contact current, ALs(IC) [mA] (RMS) | Induced limb current in any limb, ALs(IL) [mA] (RMS) |
---|---|---|
100 kHz ≤ f < 10 MHz | 40 | — |
10 ≤ f ≤ 110 MHz | 40 | 100 |
Directive 2004/40/EC | This Directive |
---|---|
Article 1(1) | Article 1(1) |
Article 1(2) | Article 1(2) and (3) |
Article 1(3) | Article 1(4) |
Article 1(4) | Article 1(5) |
Article 1(5) | Article 1(6) |
Article 2(a) | Article 2(a) |
— | Article 2(b) |
— | Article 2(c) |
Article 2(b) | Article 2(d), (e) and (f) |
Article 2(c) | Article 2(g) |
Article 3(1) | Article 3(1) |
Article 3(2) | Article 3(1) |
— | Article 3(2) |
Article 3(3) | Article 3(2) and (3) |
— | Article 3(4) |
Article 4(1) | Article 4(1) |
Article 4(2) | Article 4(2) and (3) |
Article 4(3) | Article 4(3) |
Article 4(4) | Article 4(4) |
Article 4(5)(a) | Article 4(5)(b) |
Article 4(5)(b) | Article 4(5)(a) |
— | Article 4(5)(c) |
Article 4(5)(c) | Article 4(5)(d) |
Article 4(5)(d) | Article 4(5)(e) |
Article 4(5)(d)(i) | — |
Article 4(5)(d)(ii) | — |
Article 4(5)(d)(iii) | — |
Article 4(5)(d)(iv) | — |
Article 4(5)(e) | Article 4(5)(f) |
Article 4(5)(f) | Article 4(5)(g) |
— | Article 4(5)(h) |
— | Article 4(5)(i) |
Article 4(5)(g) | Article 4(5)(j) |
Article 4(5)(h) | Article 4(5)(k) |
— | Article 4(6) |
Article 4(6) | Article 4(7) |
Article 5(1) | Article 5(1) |
Article 5(2), introductory wording | Article 5(2), introductory wording |
Article 5(2)(a) to (c) | Article 5(2)(a) to (c) |
— | Article 5(2)(d) |
— | Article 5(2)(e) |
Article 5(2)(d) to (g) | Article 5(2)(f) to (i) |
— | Article 5(4) |
Article 5(3) | Article 5(5) |
— | Article 5(6) |
— | Article 5(7) |
Article 5(4) | Article 5(8) |
— | Article 5(9) |
Article 5(5) | Article 5(3) |
Article 6, introductory wording | Article 6, introductory wording |
Article 6(a) | Article 6(a) |
Article 6(b) | Article 6(b) |
— | Article 6(c) |
Article 6(c) | Article 6(d) |
Article 6(d) | Article 6(e) |
— | Article 6(f) |
Article 6(e) | Article 6(g) |
Article 6(f) | Article 6(h) |
— | Article 6(i) |
Article 7 | Article 7 |
Article 8(1) | Article 8(1) |
Article 8(2) | — |
Article 8(3) | Article 8(2) |
Article 9 | Article 9 |
— | Article 10 |
Article 10(1) | Article 11(1)(c) |
Article 10(2)(a) | Article 11(1)(a) |
Article 10(2)(b) | Article 11(1)(b) |
Article 11 | — |
— | Article 12 |
— | Article 13 |
— | Article 14 |
— | Article 15 |
Article 13(1) | Article 16(1) |
Article 13(2) | Article 16(2) |
— | Article 17 |
Article 14 | Article 18 |
Article 15 | Article 19 |
Annex | Annex I, Annex II and Annex III |
— | Annex IV |
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