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RoHS 3 - The new Directive is effective July 2019!

A s specified in the European Directive 2015/863 beginning the 22nd of July 2019, electronic equipment manufacturers will have to comply with the third revision of the Restriction of Hazardous Substances (RoHS), referenced as RoHS 3. All categories of electrical and electronic equipment are affected except medical devices and monitoring and control instruments, which have until 22 July 2021 to comply to take into account their longer innovation cycles. The "Revision 3" adds four additional restricted substances, listed under phthalate, to the original list of six (see table 1).


Table 2 – The four banned phthalates are widely used across the whole industry

In 2010 some phthalates were on the REACH candidate list or listed in REACH Annex XIV as subject to the authorization process. They were also included in the European Commission's proposal for the recast of the EU Directive on the restriction of hazardous substances (RoHS) in electrical and electronic equipment as priority substances to be assessed for potential restriction. Eight years later, this is now happening.

Since the original listing in REACH, and in the candidate list of Substances of Very High Concern for authorization (SVHC), the risk and toxicity of the four substances, listed below, have been researched by international laboratories.

  • Bis (2-ethylhexyl) phthalate (DEHP)
  • Benzyl butyl phthalate (BBP)
  • Dibutyl phthalate (DBP)
  • Diisobutyl phthalate (DIBP)

The results of more than 10 years of testing and investigation exhibit a very high hypothesis that the effects of exposure to phthalates may affect human reproduction, development and risk of cancer. These results have motivated the European Commission to move the four phthalates from "Observation" to "Restriction and Interdiction".

Phthalates are a group of chemical substances used to soften and increase the flexibility of plastic and vinyl. They are commonly used in all industries from food packaging to cables, in insulation tapes and in some resins, in short they are almost everywhere (see table 2).

This is yet another new challenge for the electronics industry which after reducing the amount of lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls and polybrominated diphenyl ethers, is now further tasked with reducing the amount of the four listed Phthalates to below 1000 ppm in homogeneous material by weight.


Table 1 – From RoHS 1 to RoHS 3

On the way to compliance

As was the case for the previous six restricted substance in RoHS 1st edition and RoHS 2nd edition, due to the high usage of phthalates in electronics equipment - including in power supplies,  designers must work in close cooperation with their suppliers to substitute such materials with "phthalate free" elements and components.

Since some industries (e.g. medical) are more sensitive to the risk of phthalates affecting people (patients), as long ago as 2010 they were informing and educating their suppliers about the forthcoming regulations, anticipating the demand for parts with less than 1000 ppm of the identified substances listed in REACH and SVHC.

Today, a number of companies are offering RoHS 3 compliant substitutes but there is a huge lag in the supply chain which will require some pretty intense work to ensure that all products delivered after 22nd July are compliant. For newly made products, this might not be a major problem, but it could be for products held in stock all over the world.

Are my products complying and what about legacy?

Since the European Directive 2015/863 was released the 31st March 2015, designers have worked with their suppliers to guarantee that all new products pre-comply with the forthcoming regulation, but in some case it has been difficult to replace certain parts (e.g. insulation tape for high voltage transformers), thus delaying the compliance of some products. In three years' time suppliers will have implemented different processes and substances to replace banned phthalates, but there are few questions remaining on special components or parts.

However, if the level of banned phthalates in new products is reduced to below 1000 ppm, the doubt remains for items laying in stock. To be on the safe side, a number of companies have made the decision to run samples through an X-Ray Fluorescence (XRF) analyzer, and if this is not deemed enough to use Fourier Transform Infra-red Spectroscopy (FTIR) testing methods and sometimes Scanning Electron Microscopes (SEM).

The cost for such analysis could be substantial however, in the context of present day market conditions and the effects of component shortages, scraping products without knowing if the level of the four phthalates is below or over the 1000 ppm threshold might cost even more money.

Repair and maintenance, what should I do?

As specified in the Directive, the restriction of DEHP, BBP, DBP and DIBP shall not apply to cables or spare parts for the repair, the reuse, the updating of functionalities or upgrading of capacity of electrical and electronics equipment placed on the market before 22 July 2019, and of medical devices, including in vitro medical devices, and monitoring and control instruments, including industrial monitoring and control instruments, placed on the market before 22 July 2021.

RoHS-1, RoHS-2, RoHS-3, what's next?


RoHS Compliant – Source PRBX/Shutterstock/Olivier Le Moal

"REACH aims to improve the protection of human health and the environment through the better and earlier identification of the intrinsic properties of chemical substances." That means that research on toxicology and its impact on health and the environment will continue in order to identify risks.

As well, the European Chemical Agency has worked on a "Roadmap for SVHC identification and implementation of REACH Risk Management measures from now to 2020" which gives an EU-wide commitment to ensure that all relevant, currently known substances of very high concern (SVHC) are included in the candidate list by 2020. The objective of the SVHC Roadmap is to screen to identify new substances of concern, and to analyze the risk management options (RMO) appropriate to the particular substance of concern.

In today's business environment, electronics engineers must permanently monitor the evolution of REACH and SVCH. With the growing concerns about health and the environment we can expect more substances to be added to the RoHS list, which in some cases may prove to be extremely challenging.

As in many other situations, knowing your industry, being innovative and investing in new technologies is probably the only way to go.

References:

Powerbox (PRBX)
https://www.prbx.com/

Directive 2015/863
https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=uriserv:OJ.L_.2015.137.01.0010.01.ENG

SVHC Roadmap to 2020 implementation
https://echa.europa.eu/svhc-roadmap-to-2020-implementation

Candidate List of substances of very high concern for authorization
https://echa.europa.eu/candidate-list-table


Provided by Patrick Le Fèvre
Chief Marketing and Communications Officer, Powerbox

 

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