Author Archives: Walter Jager

Nanomaterial reporting notice in Canada

A Canadian mandatory survey Notice, published on July 25, 2015, requires that manufacturers and importers of certain nanomaterials report to Environment Canada. The survey was published as a Section 71 Notice under the Canadian Environmental Protection Act (CEPA). It specifies a legal requirement for entities who meet the conditions specified in the Notice to report the information described in the Notice.

This information gathering approach is coordinated with the reporting requirements being launched within the U.S. The two countries undertook a Regulatory Cooperation Council (RCC) Nanotechnology Initiative starting in 2011 to increase alignment in regulatory approaches for nanomaterials between Canada and the US, so the similarity in approach and timing is not surprising.

Environment Canada described the purpose and objective of the Notice is to:

“… gather information on 206 nanomaterials identified as potentially in commerce in Canada from the primary reference list. The information collected from the Notice will support the development of a list of nanomaterials in commerce in Canada by confirming their commercial status, and subsequent prioritization activities for these substances, which may include risk assessment and risk management activities, if required. This will ensure that future decision making is based on the best available information.”

Manufacturers and importers are required to submit a response to Environment Canada if the conditions specified in Schedule 1 and Schedule 2 of the notice are met. Schedule 1 provides a list of substances that require reporting if they meet the definition of nanoscale as provided in the notice.

For the purposes of the Notice, nanoscale means a size range between 1 to 100 nanometres, inclusive, in any one external dimension, or internal or surface structure.

There are 206 substances listed in Schedule 1. The Schedule 1 substances are shown in the Annex to this post for informative purposes only. Reporting is required if greater than 100kg of a nanoscale substance is manufactured or imported during the 2014 calendar year. The importation of the nanoscale substance is relevant whether it’s imported as in substance form, within a mixture or included in a product. The Notice states: “product” excludes “mixture” and “manufactured item”. Exemptions are provided for a few situations such as in transit through Canada, naturally occuring nanomaterials, incidental production, and some agricultural products,

The deadline for reporting is on February 23, 2016.

There are details and subtleties in the survey Notice; please refer to the Notice for the exact legal wording to assess whether or not you are required to report . The survey notice is available from the Canada Gazette part I.

Contact ECD Compliance. We can provide your organization with timely updates on global environmental regulatory requirements and can assist with the Canadian survey Notice.

The substance list is provided for general reference only. Please refer to the Notice for the official substance list.

Annex - Schedule 1 - Substances for reporting if in nanoscale form

CAS RN	Name of the Substance
75-20-7	Calcium carbide (CaC2)
156-62-7	Cyanamide, calcium salt (1:1)
409-21-2	Silicon carbide (SiC)
471-34-1	Carbonic acid calcium salt (1:1)
592-01-8	Calcium cyanide (Ca(CN)2)
1302-87-0	Clays
1303-00-0	Gallium arsenide (GaAs)
1303-11-3	Indium arsenide (InAs)
1303-61-3	Gold sulfide (Au2S3)
1304-76-3	Bismuth oxide (Bi2O3)
1304-85-4	Bismuth hydroxide nitrate oxide (Bi5(OH)9(NO3)4O)
1305-62-0	Calcium hydroxide (Ca(OH)2)
1305-78-8	Calcium oxide (CaO)
1305-79-9	Calcium peroxide (Ca(O2))
1306-23-6	Cadmium sulfide (CdS)
1306-24-7	Cadmium selenide (CdSe)
1306-25-8	Cadmium telluride (CdTe)
1306-38-3	Cerium oxide (CeO2)
1307-96-6	Cobalt oxide (CoO)
1308-04-9	Cobalt oxide (Co2O3)
1308-06-1	Cobalt oxide (Co3O4)
1309-37-1	Iron oxide (Fe2O3)
1309-42-8	Magnesium hydroxide (Mg(OH)2)
1309-48-4	Magnesium oxide (MgO)
1309-55-3	Hausmannite (Mn3O4)
1310-43-6	Iron phosphide (Fe2P)
1313-13-9	Manganese oxide (MnO2)
1313-99-1	Nickel oxide (NiO)
1314-06-3	Nickel oxide (Ni2O3)
1314-13-2	Zinc oxide (ZnO)
1314-22-3	Zinc peroxide (Zn(O2))
1314-23-4	Zirconium oxide (ZrO2)
1314-36-9	Yttrium oxide (Y2O3)
1314-87-0	Lead sulfide (PbS)
1314-98-3	Zinc sulfide (ZnS)
1317-34-6	Manganese oxide (Mn2O3)
1317-35-7	Manganese oxide (Mn3O4)
1317-37-9	Iron sulfide (FeS)
1317-38-0	Copper oxide (CuO)
1317-39-1	Copper oxide (Cu2O)
1317-40-4	Copper sulfide (CuS)
1317-61-9	Iron oxide (Fe3O4)
1327-36-2	Aluminatesilicate
1332-37-2	Iron oxide
1333-84-2	Aluminum oxide (Al2O3), hydrate
1333-88-6	Aluminum cobalt oxide (Al2CoO4)
1344-28-1	Aluminum oxide (Al2O3)
1344-43-0	Manganese oxide (MnO)
1344-54-3	Titanium oxide (Ti2O3)
1345-25-1	Iron oxide (FeO)
7439-89-6	Iron
7440-22-4	Silver
7440-57-5	Gold
7631-86-9	Silica
7757-93-9	Phosphoric acid, calcium salt (1:1)
7758-23-8	Phosphoric acid, calcium salt (2:1)
7758-87-4	Phosphoric acid, calcium salt (2:3)
7778-18-9	Sulfuric acid, calcium salt (1:1)
7778-44-1	Arsenic acid (H3AsO4), calcium salt (2:3)
7783-96-2	Silver iodide (AgI)
7785-23-1	Silver bromide (AgBr)
7789-79-9	Phosphinic acid, calcium salt
7789-80-2	Iodic acid (HIO3), calcium salt
7789-82-4	Molybdate (MoO42-), calcium (1:1), (T-4)-
7790-75-2	Tungstate (WO42-), calcium (1:1), (T-4)-
7790-76-3	Diphosphoric acid, calcium salt (1:2)
9000-11-7	Cellulose, carboxymethyl ether
9004-32-4	Cellulose, carboxymethyl ether, sodium salt
9004-34-6	Cellulose
9004-35-7	Cellulose, acetate
9004-36-8	Cellulose, acetate butanoate
9004-38-0	Cellulose, acetate hydrogen 1,2-benzenedicarboxylate
9004-39-1	Cellulose, acetate propanoate
9004-41-5	Cellulose, 2-cyanoethyl ether
9004-57-3	Cellulose, ethyl ether
9004-58-4	Cellulose, ethyl 2-hydroxyethyl ether
9004-62-0	Cellulose, 2-hydroxyethyl ether
9004-64-2	Cellulose, 2-hydroxypropyl ether
9004-65-3	Cellulose, 2-hydroxypropyl methyl ether
9004-67-5	Cellulose, methyl ether
9004-70-0	Cellulose, nitrate
9005-22-5	Cellulose, hydrogen sulfate, sodium salt
2597852	Cellulose, triacetate
9013-34-7	Cellulose, 2-(diethylamino)ethyl ether
9032-42-2	Cellulose, 2-hydroxyethyl methyl ether
9041-56-9	Cellulose, hydroxybutyl methyl ether
9051-13-2	Cellulose, hydrogen carbonodithioate, sodium salt
9081-58-7	Cellulose, alkali
9088-04-4	Cellulose, carboxymethyl 2-hydroxyethyl ether, sodium salt
10279-57-9	Silica, hydrate
11104-61-3	Cobalt oxide
11104-65-7	Chromium copper oxide
11113-75-0	Nickel sulfide
11115-91-6	Iron manganese oxide
11126-12-8	Iron sulfide
11126-22-0	Silicon oxide
11129-60-5	Manganese oxide
11137-98-7	Aluminum magnesium oxide
11138-49-1	Aluminum sodium oxide
12002-86-7	Silver selenide (AgSe)
12004-35-2	Aluminum nickel oxide (Al2NiO4)
12014-14-1	Cadmium titanium oxide (CdTiO3)
12018-10-9	Chromium copper oxide (Cr2CuO4)
12022-95-6	Iron silicide (FeSi)
12033-07-7	Manganese nitride (Mn4N)
12033-89-5	Silicon nitride (Si3N4)
12035-57-3	Nickel silicide (NiSi)
12035-72-2	Nickel sulfide (Ni3S2)
12037-47-7	Silicon phosphate (Si3(PO4)4)
12060-00-3	Lead titanium oxide (PbTiO3)
12063-19-3	Iron zinc oxide (Fe2ZnO4)
12068-56-3	Aluminum oxide silicate (Al6O5(SiO4)2)
12069-00-0	Lead selenide (PbSe)
12137-20-1	Titanium oxide (TiO)
12141-46-7	Aluminum oxide silicate (Al2O(SiO4))
12160-30-4	Iron potassium oxide (Fe5KO8)
12160-44-0	Iron potassium oxide
12168-85-3	Calcium oxide silicate (Ca3O(SiO4))
12190-87-3	Chromium titanium oxide (Cr2TiO5)
12214-12-9	Cadmium selenide sulfide (Cd2SeS)
12271-95-3	Boron silver oxide (B4Ag2O7)
12442-27-2	Cadmium zinc sulfide ((Cd,Zn)S)
12511-31-8	Silicic acid (H4SiO4), aluminum magnesium salt (2:2:1)
12515-32-1	Cerium tin oxide (Ce2Sn2O7)
12626-36-7	Cadmium selenide sulfide (Cd(Se,S))
12626-81-2	Lead titanium zirconium oxide (Pb(Ti,Zr)O3)
12687-78-4	Lead silicate sulfate
12737-27-8	Chromium iron oxide
12767-90-7	Boron zinc oxide (B6Zn2O11)
12789-64-9	Iron titanium oxide
13463-67-7	Titanium oxide (TiO2)
13565-96-3	Bismuth molybdenum oxide (Bi2MoO6)
13596-12-8	Aluminum fluoride oxide (AlFO)
13767-32-3	Molybdenum zinc oxide (MoZnO4)
13769-81-8	Iron molybdenum oxide (Fe2Mo3O12)
13870-30-9	Silicon sodium oxide (Si3Na2O7)
14059-33-7	Bismuth vanadium oxide (BiVO4)
14987-04-3	Magnesium silicon oxide (Mg2Si3O8)
16812-54-7	Nickel sulfide (NiS)
18820-29-6	Manganese sulfide (MnS)
20344-49-4	Iron hydroxide oxide (Fe(OH)O)
20405-64-5	Copper selenide (Cu2Se)
20667-12-3	Silver oxide (Ag2O)
21548-73-2	Silver sulfide (Ag2S)
22205-45-4	Copper sulfide (Cu2S)
22914-58-5	Molybdenum zinc oxide (Mo2Zn3O9)
24304-00-5	Aluminum nitride (AlN)
24623-77-6	Aluminum hydroxide oxide (Al(OH)O)
25583-20-4	Titanium nitride (TiN)
26508-33-8	Iron phosphide (FeP)
37206-01-2	Cellulose, carboxymethyl methyl ether
39390-00-6	Lead chloride silicate
50815-87-7	Sodium borate silicate
50922-29-7	Chromium zinc oxide
51331-09-0	Cellulose, 2-hydroxyethyl 2-hydroxypropyl ether
51745-87-0	Titanium oxide
53169-23-6	Cerium tin oxide (CeSnO4)
54991-58-1	Aluminum chromium oxide
55353-02-1	Chromium copper iron oxide (Cr2CuFe2O7)
59766-35-7	Zinc oxide sulfate (Zn4O3(SO4))
59794-15-9	Calcium borate silicate
60676-86-0	Silica, vitreous
63231-67-4	Silica gel
63497-09-6	Chromium cobalt iron oxide
64539-51-1	Zinc oxide phosphite (Zn4O3(HPO3))
67762-90-7	Siloxanes and Silicones, di-Me, reaction products with silica
67953-81-5	Octadecanoic acid, polymer with silica and trimethoxy[3-(oxiranylmethoxy)propyl]silane
68310-22-5	Cellulose, acetate butanoate, polymer with (chloromethyl)oxirane, 4,4'-(1-methylethylidene)bis[phenol], triethoxyphenylsilane and 3-(triethoxysilyl)-1-propanamine
68441-63-4	Cellulose, 2-hydroxyethyl methyl ether, reaction products with glyoxal
68512-49-2	Cadmium zinc sulfide ((Cd,Zn)S), copper chloride-doped
68583-46-0	Cellulose, methyl ether, propoxylated
68583-49-3	Cyclotetrasiloxane, octamethyl-, reaction products with silica
68583-58-4	Ethanamine, N-ethyl-N-hydroxy-, reaction products with hexamethylcyclotrisiloxane, silica and 1,1,1-trimethyl-N-(trimethylsilyl)silanamine
68584-81-6	Silane, trimethoxymethyl-, hydrolysis products with silica
68585-82-0	Yttrium oxide (Y2O3), europium-doped
68610-92-4	Cellulose, ether with α-[2-hydroxy-3(trimethylammonio)propyl]-ω-hydroxypoly(oxy-1,2-ethanediyl) chloride
68611-24-5	Phenol, polymer with formaldehyde, magnesium oxide complex
68611-44-9	Silane, dichlorodimethyl-, reaction products with silica
68611-70-1	Zinc sulfide (ZnS), copper chloride-doped
68784-83-8	Yttrium oxide sulfide (Y2O2S), europium-doped
68909-20-6	Silanamine, 1,1,1-trimethyl-N-(trimethylsilyl)-, hydrolysis products with silica
68937-51-9	Silanamine, 1,1,1-trimethyl-N-(trimethylsilyl)-, reaction products with ammonia, octamethylcyclotetrasiloxane and silica
68957-96-0	Cellulose, 2-hydroxyethyl ether, polymer with ethanedial
68987-52-0	Benzenesulfonic acid, octadecenyl-, reaction products with succinic anhydride monopolyisobutenyl deriv., tetraethylenepentamine and zinc oxide
68988-89-6	Silica, [(ethenyldimethylsilyl)oxy]- and [(trimethylsilyl)oxy]-modified
69011-08-1	Chromium titanium antimonate oxide (CrTi10(SbO3)O20)
69012-64-2	Fumes, silica
71077-22-0	Benzoic acid, 2-hydroxy-, polymer with formaldehyde, 4-nonylphenol and zinc oxide (ZnO)
71889-01-5	Silane, chlorotrimethyl-, hydrolysis products with silica
71889-02-6	Silane, trichlorooctadecyl-, hydrolysis products with silica
72162-13-1	Cellulose, carboxymethyl ether, sodium salt, reaction products with bis[(1-oxo-2-propenyl)amino]acetic acid
72869-37-5	Zinc sulfide (ZnS), cobalt and copper-doped
81859-24-7	Cellulose, 2-hydroxyethyl 2-[2-hydroxy-3-(trimethylammonio)propoxy]ethyl 2-hydroxy-3-(trimethylammonio)propyl ether, chloride
85919-51-3	Cellulose, 2-hydroxyethyl methyl ether, polymer with ethanedial
92183-41-0	Cellulose, 2-hydroxyethyl ether, polymer with N,N-dimethyl-N-2-propenyl-2-propen-1-aminium chloride
98616-25-2	Cellulose, ether with α-[3-(dodecyldimethylammonio)-2-hydroxypropyl]-ω-hydroxypoly(oxy-1,2-ethanediyl) chloride
100209-12-9	Silane, trimethoxyoctyl-, reaction products with titanium oxide (TiO2)
103170-24-7	Cellulose, 2-hydroxypropyl methyl ether, reaction products with glyoxal
111774-28-8	Cellulose, 2-hydroxyethyl ether, polymer with N,N-dimethyl-N-2-propenyl-2-propen-1-aminium chloride, graft
112926-00-8	Silica gel, pptd., cryst.-free
112945-52-5	Silica, amorphous, fumed, cryst.-free
116565-74-3	Chromium lead oxide sulfate, silica-modified
124578-08-1	1,3-Butadiene, 2-chloro-, homopolymer, reaction products with zinc oxide
147868-40-4	Cellulose, 2-hydroxypropyl ether, reaction products with 1,6-diisocyanatohexane homopolymer and 2,4-TDI
155240-18-9	Benzenesulfonic acid, dodecyl-, reaction products with succinic anhydride monopolyisobutylene derivs., tetraethylenepentamine and zinc oxide
308075-23-2	Silica gel, aero-

Two Substances added to REACH SVHC Candidate List

The European Chemical Agency (ECHA), on June 15, 2015, added two new substances to the REACH SVHC Canadidate List. The substances are listed in the table below. The Article 33 communication obligations specified in the REACH regulation (Regulation (EC) No 1907/2006) came into effect as soon as the SVHCs were added to the REACH Candidate List,

Name of Substance or Substance Group	EC number	CAS number
1,2-benzenedicarboxylic acid, di-C6-10-alkyl esters; 1,2-benzenedicarboxylic acid, mixed decyl and hexyl and octyl diesters with ≥ 0.3% of dihexyl phthalate (EC No. 201-559-5)	271-094-0 272-013-1	68515-51-5 68648-93-1
5-sec-butyl-2-(2,4-dimethylcyclohex-3-en-1-yl)-5-methyl-1,3-dioxane [1], 5-sec-butyl-2-(4,6-dimethylcyclohex-3-en-1-yl)-5-methyl-1,3-dioxane [2] [covering any of the individual stereoisomers of [1] and [2] or any combination thereof]	-	-

The first substance is a mixture of two alkyl diesters when the mixture contains greater than 0.3% of dihexyl phthlate (DnHP). This SVHC listing will likely be confusing and a challenge for industries to manage. The two primary ingredients with the CAS numbers and EC Tnumbers listed are themselves not SVHCs; the mixture only becomes an SVHC with the Article 33 reporting obligations when it includes greater than 0.3% DnHP.

The second new listing in the REACH Candidate List is a substance group. The primary example listed by ECHA of this substance group is the product sold under the name “karanal” . ECHA indicates that the main use, according to public information, is as a fragrance.

For additional information on developing or assessing an effective REACH SVHC compliance program, contact ECD Compliance.

RoHS Amendment adding Phthalates to Restricted Substances is Published

The European Delegated Directive (EU) 2015/863 officially adding the four (4) Phthalate substances to the EU RoHS Directive was published today, June 4, 2015. The new phthalate restrictions take effect beginning July 22, 2019 for all EEE except category 8 (medical devices) and category 9 (monitoring and control instruments). Category 8 and 9 products have an additional 2 years and need to comply by July 22, 2021. EEE manufacturers and their suppliers now have just over four years to prepare.

The amendment adds the four phthalates shown below to Annex II (Restricted substances referred to in Article 4(1) and maximum concentration values tolerated by weight in homogeneous materials) of the the RoHS Directive . A maximum concentration value of 0.1% w/w in homogeneous material was specified for the phthalates in the amendment.

Four Phthalate Substances to be Added to RoHS Directive

Substance Name	CAS Number	Maximum Concentration in homogeneous material
Bis(2-ethylhexyl) phthalate (DEHP)	117-81-7	0.1%
Benzyl butyl phthalate (BBP)	85-68-7	0.1%
Dibutyl phthalate (DBP)	84-74-2	0.1%
Diisobutyl phthalate (DIBP)	84-69-5	0.1%

Spare Parts and Cables

The official publication of the amendment was delayed by a few months to allow the European Commission time to add verbiage clarifying the implication on cables and spare parts. This new text aligns with the general RoHS intention to allow products to be repaired using the same parts that were used in the original product when if was first put on the EU market. The published amendment states:

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 EEE 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.

Phthalates in Electrical/Electronic Toys

The amendment is also explicit that the phthalates in toys restriction in Annex XVII of the REACH regulation takes precedence over the maximum concentration levels in the RoHS Directive.

What’s the Impact? How to Proceed?

The four phthalates are already listed on the REACH SVHC Candidate List — this gives manufacturers that have REACH SVHC information from their suppliers a head start in assessing the parts and materials that require substitution. However, the different basis for calculating concentration level between REACH and RoHS (article vs. homogeneous material) will undoubtedly create some surprises.

In electrical and electronic equipment (EEE), DEHP is generally considered to be the most commonly used of the four phthalates. DBP and BBP also have known applications; whereas DIBP is considered to have minimal usage within the EEE supply chain.

The results of a study published in 2010 at the IPC APEX conference “Where are REACH SVHC in Electronic Products and Parts?” may provide some insight to the use and prevalence of these substances. The study investigated and compiled analytical test results for the initial batch of SVHCs added to the REACH Candidate List (including 3 of the phthalates just added to RoHS). The analytical testing was performed in Asia, North America, and Europe on EEE and materials typically used in EEE. DEHP was detected above the SVHC threshold (0.1% wt/wt in the article) in 64 of 391 testing results (16%). The study was focused on the REACH SVHC threshold which is based on articles. However, had the study considered a concentration threshold based on homogeneous material, the number of products above the threshold would likely have been much higher.

In the time since 2010, many manufacturers that have been trying to eliminate SVHCs from their product have removed the phthalates from external cables (where they are above 0.1% in the article); but DEHP may still be present in internal cables which are relatively small and for which the phthalate content did not trigger the 0.1% threshold based on imported article.

Additional information on RoHS 2 compliance and RoHS 2 Technical Documentation is available. The amendment to the RoHS Directive is posted on the Official Journal of the EU. ECD Compliance provides services to track environmental regulations and can assist in upgrading your RoHS program to address the phthalate restrictions.

European Parliament Votes Mandatory Conflict Minerals Regulation – May 2015

The European Parliament vote on May 20, 2015 to push back on the European Commission’s proposed voluntary self-certification scheme for a mandatory system of

certification for importers of minerals to produce tin, tungsten, tantalum, and gold (3TG),
third-party audits for refiners and smelters to their check due diligence practices and
information on due diligence measures by downstream companies.

The European Parliament press release states:

In addition, “downstream” companies, that is, the 880 000 potentially affected EU firms that use tin, tungsten, tantalum and gold in manufacturing consumer products, will be obliged to provide information on the steps they take to identify and address risks in their supply chains for the minerals and metals concerned.

The EU proposal potentially covers sourcing from any conflict area, not limiting the scope of the due diligence measures to only the Democratic Republic of Congo (DRC) region.

The press release is available from European Parliament press release.

ECD Compliance clients will be receiving additional analysis and potential impacts of the Parliament’s approved changes in the upcoming Environmental Report.

China RoHS 2 Proposal – May 2015

China RoHS 2 is once again moving forward. An updated draft regulation titled “Management Methods for the Restriction of the Use of Hazardous Substances in Electric and Electronic Products (Draft for Comments)” was released on May 18 for public comment. It reveals several changes compared to the previous 2013 version.

The draft regulation is applicable to the production, sale, and import of electrical and electronic products. Unlike the original China RoHS, the draft does not provide an exclusion for products that are intended for export (presumably to help ensure that exported products meet the RoHS restrictions imposed by other countries).

Similar to the previous China RoHS 2 draft, the scope of products (compared to the original China RoHS) is expanded to “Electrical and electronic products”, but, this time, with an explicit exclusion for power generation, transmission and distribution equipment. The definition of “Electrical and electronic products” refers to devices and accessory products which function by means of current or electromagnetic fields. The definition utilizes the same voltage limits used by the EU RoHS Directive — rated working electrical voltages of no more than 1500 volts direct current and 1000 volts alternating current.

Hazardous substances are defined as the six original RoHS substances, with a seventh entry for other harmful substances, leaving the door open to restrict additional substances.

The draft regulation maintains the marking and communication obligations of the original China RoHS, including the “environmental protection use period” and the table identifying harmful substances and their location in the product. However, the requirements for the table of harmful substances has been clarified/expanded.

Similar to the original China RoHS, a catalog will list products that are subject to substance restrictions. The catalog will be developed and maintained by the Ministry of Industry and Information Technology (MIIT) in consultation with other departments.

A conformity assessment system will be established for ensuring restricted substance conformity of products that are listed in the compliance management catalog. This replaces the CCC certification specified in the original China RoHS.

Requirements on product packaging, which were removed from earlier China RoHS 2 proposals, have now been added back in. The packaging for all manufactured or imported electrical and electronic products must meet all applicable standards and laws. Manufacturers and importers should also adopt the use of materials that are non-hazardous, easily biodegradable and/or facilitate recycling/reuse.

Section III on “Punitive Provisions” identifies requirements that are subject to penalties if not met, including substance restrictions, labelling of the product with the environmental protection use period, names and content of hazardous substances, and packaging conformity. The paragraph on the hazardous substances table is particularly detailed, suggesting that MIIT expects producers and importers to be in full compliance and not take any short-cuts.

The draft is available from the Legislative Affairs Office of the State Council P.R. China (in Chinese). The public comment period ends June 17, 2015.

For additional information, contact ECD Compliance. Clients will be receiving additional analysis and discussion of potential impact of the proposal in the next environmental report.

Principal Consultant of ECD Compliance named as IEEE 1680.1 WG Chair

On April 18, 2015, the IEEE Computer Society Standards Activity Board appointed Walter Jager, principal consultant of ECD Compliance, as the chair of IEEE P1680.1 working group (WG). P1680.1 is undertaking the update of the IEEE 1680.1-2009 standard on “Standard for Environmental Assessment of Personal Computer Products, Including Notebook Personal Computers, Desktop Personal Computers, and Personal Computer Displays”. The standard is used by the EPEAT registry internationally assisting governments and private sector purchasers in identifying computer products that have a reduced impact on the environment.

Paul Eastman, Sponsor Chair – SAB Special Projects, made the annoucement saying, “I am confident that the Working Group will move forward with speed and confidence under his leadership.”

RoHS Exemption 7(b) Renewal Request is Withdrawn

Renewal of EU RoHS exemption 7(b) “Lead in solders for servers, storage and storage array systems, network infrastructure equipment for switching, signalling, transmission, and network management for telecommunications” has had very little support from large multi-national equipment manufacturers and is destined to quietly expire on July 21, 2016.

Quintech Electronics & Communications, Inc. submitted a renewal request for a modified 7(b) exemption with a reduced scope “Lead in solders for RF switching matrices and associated RF signal distribution equipment for telecommunications”, However, the consultants conducting the review notified stakeholders on April 9th, 2015 that the renewal request was withdrawn by the applicant.

There are no remaining renewal requests for exemption 7(b) and therefore, the exemption, which has been a mainstay of the communications, telecommunication, and server equipment industries since 2006, will disappear next July. Once expired, it will not longer be possible for manfucturers, importers and distributers to claim the exemption for products being placed on the EU market except for spare parts to repair old products.

Environment Canada Proposes Restriction of HBCD, PFOA, LC-PFCAs, PBDEs, and PFOS

Proposed Regulations Amending the Canadian Prohibition of Certain Substances Regulations, 2012 were published on April 4, 2015. The proposed amendment adds five substances to the Prohibition Regulations, including the substances:

hexabromocyclododecane (HBCD);
perfluorooctanoic acid, its salts, and its precursors (PFOA);
perfluorocarboxylic acids, their salts, and their precursors (LC-PFCAs);
olybrominated diphenyl ethers (PBDEs); and
perfluorooctane sulfonate and its salts and its precursors (PFOS).

These substances have known uses in a variety of consumer and commercial products including several types of electrical and electronic products. The proposed regulations are available in the Canadian Gazette, part 1. A public comment period is open from April 4, 2015 to June 18, 2015.

In general, the substance restrictions take effect immediately at the coming into force of the regulation. Temporary exemptions and long-term permitted uses have been specified for specific applications for some of the substances.

Contact ECD Compliance for additional information on the proposed regulations and impact of these regulations on your products.

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