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EN 207, CE Marking and Laser Protective EyewearA Guide to Understanding the Standard for Laser User

All products sold in the European Union must be CE marked where a relevant European Directive exists. To sell non-CE marked products is illegal. For laser safety eyewear this means showing conformity to the laser protection requirements of the Personal Protective Equipment (PPE) Directive. Whilst in theory manufacturers can use their own standard to show conformance with the directive, as long as they can show that their standard is sufficiently rigorous, in practice the eyewear is always tested and certified to EN 207 1 (or EN 208 2 for alignment eyewear). Such testing must be carried out by a government approved test house – self certification is not allowed for these standards. Consequently since 1997, when the EN 207 became a harmonised European Standard, all laser protective eyewear sold legally in Europe has been certified to EN 207 or EN 208.

Despite being around for since 1997 EN 207 is still often not well understood. Consequently we are writing a brief explanation here to help users of laser safety eyewear.

Optical Density Specification

Prior to EN 207 laser protective goggles were usually specified by their Optical Density (OD) and this is still a widely used method especially in the USA (where Optical Density is often the only protective information available for the eyewear). The OD of eyewear is the log of the attenuation factor at a given wavelength. Thus eyewear which attenuates Nd:YAG laser radiation by a factor of 1,000,000 has an OD of 6 at 1064 nm. The method for specifying eyewear using optical density involves working out the maximum accessible emission from the laser and dividing it by the Maximum Permissible Exposure (MPE)3 for the laser radiation. The log of this number is the minimum required OD for the eyewear.

Limitations of Optical Density Specification

The problems with this approach are graphically illustrated if we consider a high power CO2 laser emitting at 10600 nm, and some polycarbonate eyewear having an OD > 6 at the same wavelength. The Class 1 Accessible Emission Limit for this wavelength is 10 mW and this power is therefore safe under all exposure conditions. We might therefore expect that the eyewear will protect us against 1,000,000 x 10 mW = 10 kW from the CO2 laser. However, if we place the eyewear in a CO2家里没人半夜就和姐姐 laser beam of even a few hundred watts we find that it is very quickly destroyed and offers little protection (even a 20 W beam will cause immediate burning of the eyewear).

Damage Threshold

So we see that Optical Density alone does not take account of the damage threshold of the material which is used to protect us from the laser radiation – ie the power or energy density (W/m2 or J/m2) which the eyewear will withstand. EN 207 was written to address this problem and takes account of both the Optical Density and the damage threshold of the eyewear.

EN 207 Markings Explained

After testing to EN 207 the laser protective eyewear is awarded various markings which are printed on the eyewear and specify the maximum power and energy densities which the eyewear can protect against at different wavelengths. For instance eyewear may be marked as follows:

  • DI 750 – 1200 L5
  • R 750 – 1200 L6
  • M 750 – 1200 L4

家里没人半夜就和姐姐This means that over the wavelength range 750 – 1200 nm the eyewear has the following ratings:

D L5 I L5 R L6 M L4

家里没人半夜就和姐姐The D, I, R and M refer to CW or different pulse lengths as follows:

  • D – Continuous Wave (CW)
  • I – Pulsed with pulse length > 1 µs and < 250 ms ‘Long Pulse’
  • R – Pulsed with pulse length > 1 ns and < 1 µs, ‘Q-switched’
  • M – Pulsed with pulse length < 1 ns, ‘Femtosecond’4

家里没人半夜就和姐姐The ‘L numbers’ (L5, L6, L4 etc) refer to the maximum power or energy density which the eyewear is specified for. The actual values must be looked up from Table B1 in EN 207 (which for copyright reasons we cannot reproduce here). For the eyewear markings given above, the values are:

  • CW – 1 MW/m2 D L5
  • Long Pulse – 500 J/m2 I L5
  • Q Switched – 5 kJ/m2 R L6
  • Femtosecond – 1.5 J/m2 M L4

家里没人半夜就和姐姐An increase in the L number by 1, will increase the power and energy density values by one order of magnitude. Note however, that EN 207 breaks down the L number table into three wavelength ranges, 180 – 315 nm, 315 – 1400 nm and 1400 – 1,000,000 nm. The relationship between the L numbers and power / energy densities shown above holds only for the 315 -1400 nm wavelength region. For other wavelengths refer to EN 207.

L Numbers and Optical Density

As well as being able to withstand the power of the laser beam without being destroyed, the filter must also be able to attenuate the laser beam in order to protect. During the EN 207 testing, in order for a filter to be given an L rating, the filter must have an Optical Density in excess of the L number, at the specified wavelength. Therefore, in the example shown above, we can deduce that the eyewear has an OD > 6 across the wavelength range 750 – 1200 nm (because it has an R L6 rating across this wavelength range). However, we do not need to worry about calculating the MPEs and accessible emission, because this has already been taken account of in the maximum power / energy densities specified for each L number.

Specifying Eyewear Using EN 207

To specify appropriate L numbers for your laser, do the following:

  1. Determine the minimum laser beam diameter to which a person might be exposed under reasonably foreseeable circumstances.
  2. Calculate the cross-sectional area of the beam at this point
  3. iCalculate the average power density at this point by dividing the average power of the laser by the beam area
  4. Look up the required L number from Table B1 in EN 207. Preceed this number with a D.

Additionally for pulsed lasers:

  1. Calculate the energy density5 by dividing the energy per pulse by the beam area.
  2. For lasers in the wavelength range 400 – 1400 nm, calculate a corrected energy density5 by multiplying the actual energy density5 by N0.25, where N is the total number of pulses in 10 seconds.
  3. Using the energy density5 or corrected energy density5 as appropriate, look up the required L number from Table B1 in EN 207. Precede this with an I for long pulse, R for Q-switched and M for femtosecond or picosecond lasers.

家里没人半夜就和姐姐Thus a 532 nm laser emitting 1 mJ, 7 ns pulses at 10 kHz, and having a minimum accessible beam diameter of 2 mm would require eyewear with the following minimum specification:

  • D 532 L6 (corresponding to 10 MW/m2)
  • R 532 L7 (corresponding to 50 kJ/m2)

家里没人半夜就和姐姐Note that for pulsed lasers the eyewear must have both the correct I, R or M specification (depending on the pulse length) and the correct D specification, to ensure that it is suitable for the laser.

NB: This article is intended to help laser users, Laser Safety Officers and Laser Protection Advisers gain a better understanding of EN 207. It is not intended as an exhaustive study of the subject. For more information refer to the Standard or call Lasermet to discuss.

Notes:

  1. EN 207 Personal eye-protection. Filters and eye-protectors against laser radiation (laser eye-protectors)
  2. EN 208 Personal eye-protection. Eye-protectors for adjustment work on lasers and laser systems (laser adjustment eye-protectors)
  3. Given by Table A1 and A2 in EN 60825-1 : 2007
  4. In actual fact picosecond pulses are also included.
  5. For lasers with pulse lengths less than 1 ns and a wavelength outside the range 315 – 1400 nm, you will need to calculate the peak power density.

To find out more about EN 207, CE Marking and Laser Protective Eyewear, contact us now!

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