Rohs

RoHS: TUV Rheinland of North America
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RoHS
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Shimadzu ROHS Compliance
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Rohs Compliant
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IMR Test Labs
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RoHS & Weee Labels
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The Directive on the Restriction of the Use of Certain Hazardous Substances in Electrical and Electronic Equipment 2002/95/EChttp://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2003:037:0019:0023:EN:PDF (commonly referred to as the Restriction of Hazardous Substances Directive or RoHS) was adopted in February 2003 by the European Union. The RoHS European Union directive took effect on 1 July 2006, and is required to be enforced and become law in each member state. This directive restricts the use of six hazardous materials in the manufacture of various types of electronic and electrical equipment. It is closely linked with the Waste Electrical and Electronic Equipment Directive (WEEE) 2002/96/EC which sets collection, recycling and recovery targets for electrical goods and is part of a legislative initiative to solve the problem of huge amounts of toxic e-waste. In speech, it is often spelled out or pronounced , , , hɑz.

Details Each European Union member state will adopt its own enforcement and implementation policies using the directive as a guide.

RoHS is often referred to as the lead-free directive, but it restricts the use of the following six substances:

Lead

Mercury (element)

Cadmium

Hexavalent chromium (chromium xxx or Cr6+)

Polybrominated biphenyls (PBB)

PBDE (PBDE)

PBB and PBDE are flame retardants used in several plastics.

The maximum concentrations are 0.1% or 1000 Parts per million (except for cadmium, which is limited to 0.01% or 100 ppm) by weight of homogeneous material. This means that the limits do not apply to the weight of the finished product, or even to a component, but to any single substance that could (theoretically) be separated mechanically—for example, the sheath on a cable or the tinning on a component lead.

As an example, a radio comprises a case, screws, washers, a circuit board, speakers, etc. A circuit board comprises a bare Printed circuit board, Integrated circuits, resistors, switches etc. A switch comprises a case, a lever, a spring, contacts, pins, etc. The contact might comprise a copper strip with a surface coating.

Everything that can be identified as a homogeneous material must meet the limit. So if it turns out that the case was made of plastic with 2,300 ppm (0.23%) PBB used as a flame retardant, then the entire radio would fail the requirements of the directive.

In an effort to close RoHS loopholes, in May 2006 the European Commission was asked to review two currently excluded product categories (monitoring and control equipment, and medical devices) for future inclusion in the products that must fall into RoHS compliance. European Commission to Plug RoHS Loophole In addition the commission entertains requests for deadline extensions or for exclusions by substance categories, substance location or weight. EU Invites Comments on Possible RoHS Exemptions

Note that batteries are not included within the scope of RoHS. However, in Europe, batteries are under the European Commission's 1991 Battery Directive (91/157/EEC COUNCIL DIRECTIVE of 18 March 1991 on batteries and accumulators containing certain dangerous substances (91/157/EEC)), which was recently increased in scope and approved in the form of the new battery directive, version 2003/0282 COD, DIRECTIVE 2006/.../EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of on batteries and accumulators and waste batteries and accumulators and repealing Directive 91/157/EEC which will be official when submitted to and published in the EU's Official Journal. While the first Battery Directive addressed possible trade barrier issues brought about by disparate European member states' implementation, the new directive more explicitly highlights improving and protecting the environment from the negative effects of the waste contained in batteries. It also contains a program for more ambitious recycling of industrial, automotive, and consumer batteries, gradually increasing the rate of manufacturer-provided collection sites to 45% by 2016. It also sets limits of 5 ppm mercury and 20 ppm cadmium to batteries except those used in medical, emergency, or portable power-tool devices. Conformity Magazine: The EU’s RoHS and WEEE Directives Though not setting quantitative limits on quantities of lead, lead-acid, nickel, and nickel-cadmium in batteries, it cites a need to restrict these substances and provide for recycling up to 75% of batteries with these substances. There are also provisions for marking the batteries with symbols in regard to metal content and recycling collection information.

The directive applies to equipment as defined by a section of the WEEE directive. The following numeric categories apply:

Large and small household appliances.

IT equipment.

Telecommunications equipment (although infrastructure equipment is exempt in some countries)

Consumer equipment.

Lighting equipment—including light bulbs.

Electronic and electrical tools.

Toys, leisure, and sports equipment.

Medical devices (currently exempt)

Monitoring and control instruments (currently exempt)

Automatic dispensers.

It does not apply to fixed industrial plant and tools. Compliance is the responsibility of the company that puts the product on the market, as defined in the Directive; components and sub-assemblies are not responsible for product compliance. Of course, given the fact that the regulation is applied at the homogeneous material level, data on substance concentrations needs to be transferred through the supply chain to the final producer. An IPC standard has recently been developed and published to facilitate this data exchange, IPC-1752. IPC 1752 for Materials Declaration It is enabled through two PDF forms that are free to use.

RoHS applies to these products in the EU whether made within the EU or imported. Certain exemptions apply, and these are updated on occasion by the EU.

Product Category 8 and 9 exclusions Medical devices, and monitoring and control instruments comprise RoHS Category 8 and Category 9 products respectively. The EU recognizes that these products are manufactured in small numbers and generally have a long product life. Further, these products are often used in mission-critical applications where their failure can reasonably be expected to be extremely disruptive, if not catastrophic. Since the long term effects of lead-free solder, a primary RoHS objective, cannot be known for a period of at least five years following the directive’s application to the remaining eight categories, the EU has established at least a temporary moratorium for Category 8 and 9 products.

In an effort to gain more insight the EU commissioned a study to assess when and if the RoHS directive should be applied to Category 8 and 9 products. Released in July 2006, the Review of Directive 2002/95/EC (RoHS) Categories 8 and 9 – Final Report recommended that Category 8 and 9 products remain exempt from the RoHS directive until 2012 or 2018 depending upon specific product sub-categories and applications. Review of Directive 2002/95/EC (RoHS) Categories 8 and 9 – Final Report Since the EU has not yet adopted this recommendation, the exact timing of RoHS application to Category 8 and 9 products remains uncertain.

Life-Cycle Impact Assessment of Lead-free Solder The United States Environmental Protection Agency |EPA] has published a life-cycle assessment (LCA) of the environmental impacts of lead-free and tin-lead solder, as used in electronic products. Solders in Electronics: A Life-Cycle Assessment For bar solders, when only lead-free solders were considered, the tin/copper alternative had the lowest (best) scores. For paste solders, bismuth/tin/silver had the lowest impact scores among the lead-free alternatives in every category except non-renewable resource consumption. For both paste and bar solders, all of the lead-free solder alternatives had a lower (better) LCA score in toxicity categories than tin/lead solder. This is primarily due to the toxicity of lead, and the amount of lead that leaches from printed wiring board assemblies, as determined by the leachability study conducted by the partership. The study results are providing the industry with an objective analysis of the life-cycle environmental impacts of leading candidate alternative lead-free solders, allowing industry to consider environmental concerns along with the traditionally evaluated parameters of cost and performance. This assessment is also allowing industry to redirect efforts toward products and processes that reduce solders' environmental footprint, including energy consumption, releases of toxic chemicals, and potential risks to human health and the environment. Another life-cycle assessment by IKP, University of Stuttgart, shows similar results to those of the EPA study. Life-Cycle Assessment according to ISO 14040

Life-Cycle Impact Assessment Of BFR-free Plastics The ban on concentrations of brominated flame retardants (BFR) above 0.1% in plastics has had multiple impacts on the plastics foodchain. As more and more products include recycled components, it has become critical to either clearly trace the origin of the recycled material or to analyze its BFR concentration. Plastics with high BFR concentrations are costly to handle, whereas plastics with levels below 0.1% have value as a material to recycle.

There are a number of analytical techniques being developed to allow for the rapid measurement of BFR concentrations. X-ray fluorescence can provide basic information about the presence of bromine (Br), but does not indicate the concentration or specific molecule. IA-Mass is a new technique which has provided good results in industrial environments. The BFR ban has had significant impacts both upstream - plastic material selection - and downstream - plastic material recycling.

RoHS in other regions Asia / Pacific There is also a regulation in China (often referred to as China RoHS) that has the stated intent to establish similar restrictions, but it in fact takes a very different approach. Unlike EU RoHS, where products in specified categories are included unless specifically excluded, there will be a list of included products, known as the catalogue — see Article 18 of the regulation — which will be a subset of the total scope of Electronic Information Products, or EIPs, to which the regulations apply. Initially, products that fall under the covered scope must provide markings and disclosure as to the presence of certain substances, while the substances themselves are not (yet) prohibited. There are some products that are EIPs, which are not in scope for EU RoHS, e.g. radar systems, semiconductor-manufacturing equipment, photomasks, etc. The list of EIPs is available in Chinese and English. China RoHS Solutions The marking and disclosure aspects of the regulation were intended to take effect on July 1, 2006, but were postponed twice to March 1, 2007. There is no timeline for the catalogue yet.

Japan does not have any direct legislation dealing with the RoHS substances, but its recycling laws have spurred Japanese manufacturers to move to a lead-free process in accordance with RoHS guidelines. A Cabinet of Japan#Powers Japanese industrial standard for Marking Of Specific Chemical Substances (J-MOSS), effective from July 1 2006, directs that some electronic products exceeding a specified amount of the nominated toxic substances must carry a warning label. Law for the Promotion of Effective Utilization of Resources from the Japanese Ministry of Economy, Trade and Industry, accessed 2007-10-15

South Korea promulgated the Act for Resource Recycling of Electrical and Electronic Equipment and Vehicles on April 2, 2007. This regulation has aspects of RoHS, WEEE, and ELV. Korean RoHS

North America California has passed SB 20: Electronic Waste Recycling Act of 2003, or ewra. This law prohibits the sale of electronic devices after January 1, 2007, that are prohibited from being sold under the EU RoHS directive, but across a much narrower scope that includes LCDs, CRTs, and the like and only covers the four heavy metals restricted by RoHS. EWRA also has a restricted material disclosure requirement.

Other US states and cities are debating whether to adopt similar laws, and there are several states that have mercury and PBDE bans already. Federal RoHS-like regulation in the US is unlikely in the near to medium term.

Other standards RoHS is not the only environmental standard of which electronic product developers should be aware. Manufacturers will find that it is cheaper to have only a single bill of materials for a product that is distributed worldwide, instead of customizing the product to fit each country's specific environmental laws. Therefore, they develop their own standards, which allow only the lowest common denominator of all allowable substances.

For example, IBM forces each of their suppliers to complete a Product Content Declaration form to document compliance to their environmental standard Baseline Environmental Requirements for Materials, Parts and Products for IBM Logo Hardware Products. So for example, IBM bans decabromodiphenyl ether, even though there is a RoHS exception for this material.

Similarly, here is Hewlett-Packard's environmental standard: General specification for the environment (GSE).

Criticism

Negative effects on product quality and reliability, plus high cost of compliance (especially to small business) are cited as criticisms of the directive, as well as a growing body of research indicating that the life cycle effect of lead free solder is more significant than that of traditional solder materials.

Restricting lead content in solders for electronics requires expensive retooling of assembly lines and different coatings for the leads of the electronic parts. Lead-free solders have a higher melting point requiring higher process temperatures (up to 260 °C, instead of 220-235 °C), driving changes to materials for integrated circuit#packaging, for some circuitboards and components containing plastics. National Institute of Standards and Technology The higher temperature also precludes the use of components that cannot survive the higher temperature.

Lead-free solders are significantly harder, increasing the likelihood of brittle failure instead of plastic deformation which is typical for Lead-containing solders. Such cracks occur due to thermal or mechanical forces acting on components or the circuit board, the former being more common during manufacturing and the latter in the field. Thermal cycling reliability of SnAgCu and SnPb solder joints: a comparison for several IC-packages

The editor of Conformity Magazine wonders if the transition to lead-free solder will not affect long-term reliability of electronic devices and systems, especially in applications more mission-critical than in consumer products, citing possible breaches due to other environmental factors like oxidation. Conformity Magazine: Removal of Lead Shakes Up the Manufacturing Chain This article refers to the Newark InOne "Rohs Legislation and Technical Manual", Newark InOne: Rohs Legislation and Technical Manual which cites these and other "lead-free" solder issues, such as:

warpage or delamination of printed circuit boards,

damage to through-holes, ICs and components on circuit boards, and

added moisture sensitivity, all of which may compromise quality and reliability.

Effect on reliability Admission of reliability problems is found in Annex, item #7, of the RoHS directive itself, granting servers exemption from regulation until 2010. DIRECTIVE 2002/95/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 27 January 2003 on the restriction of the use of certain hazardous substances in electrical and electronic equipment

Another problem that lead-free solders face is the growth of tin whiskers. These thin strands of tin can grow and make contact with an adjacent trace, developing a short circuit. Tin whiskers have already been responsible for at least one failure at a nuclear power plant. Reactor Shutdown: Dominion Learns Big Lesson From A Tiny 'tin Whisker' Other documented failures include satellites in orbit, aircraft in flight, and implanted medical pacemakers.

Reliability decay of low-lead materials may be economically desirable for some consumer product companies because it provides a mechanism to enforce planned obsolescence and replacement. Ironically, this is the opposite of the claimed intent of RoHS legislation.

Some countries have exempted medical and telecommunication infrastructure products from the legislation. Digital Control Systems Inc. Prepares for New Restriction of Hazardous Substances Legislation

Economic Effect There are no de minimus exemptions e.g. for micro-businesses, meaning that some small businesses have closed down, citing the cost of compliance. G1MFG.com has suspended retail operations for the moment ... This economic effect was anticipated and at least some attempts at mitigating the effect were made. Partial Regulatory Impact Assessment of the Draft Statutory Instrument to Implement the European Directive on the Restriction of the Use of Certain Hazardous Substances in Electrical and Electronic Equipment (UK)

Tin phase transformation In an article published in Advanced Packaging, November/December 2006, Glenn A. Rinne of Unitive Electronics, Inc. (an Amkor Company) describes the Tin pest, also known as tin pest, which begins at temperatures below 13 C (about 55 F). Tin pest causes solder joints affected by it to crumble. The effect is difficult to predict and control, because the transformation is slow. Interestingly, the effect was already known more than 100 years ago, as it has been at various times been cited as a factor in the failure of Napoleon's Napoleon's invasion of Russia, and Robert Falcon Scott's South Pole expedition. Hanson, A.C., Inman, G.O., Limitations of Tin as a Packing Material: Allotropic Transformation, Industrial and Engineering Chemistry, vol. 31, no 6, pp 662-663, June 1939Porter, D.A., Easterling, K.E., Phase Transformation in Metals and Alloys, Van Nostrand Reinhold, New York, 1981.

Pros Immediate Health Benefits The use of lead-free solders and components has provided immediate health benefits to electronics industry workers in prototype and manufacturing operations. Contact with solder paste no longer represents the same health-hazard it did before.

Reliability Concerns Appear Unfounded Contrary to the predictions of widespread component failure and reduced reliability, RoHS's first anniversary has passed with little fanfare. One Year Later: The Good News is the Bad News was Wrong Today, millions of compliant products are in use worldwide. Some of the most popular consumer electronics are now RoHS compliant, examples include Apple's iPod portable music players, Dell and HP home computers and servers, and Motorola's RAZR wireless phones.

Many electronics companies keep "RoHS status" pages on their corporate websites. For example, the AMD website states:

"Although lead containing solder cannot be completely eliminated from all applications today, AMD engineers have developed effective technical solutions to reduce lead content in microprocessors and chipsets to ensure RoHS compliance while minimizing costs and maintaining product features. There is no change to fit, functional, electrical or performance specifications. Quality and reliability standards for RoHS compliant products are expected to be identical compared to current packages." AMD Statement on RoHS Compliance:

Poor Flow Properties At Least A Partial Benefit One of the major differences between lead-containing and lead-free solder pastes is the "flow" of the solder in its liquid state. Lead-containing solder has higher surface tension, and tends to move slightly to attach itself to exposed metal surfaces that touch any part of the liquid solder. Lead-free solder conversely tends to stay in place where it is in its liquid state, and attaches itself to exposed metal surfaces only where the liquid solder touches it.

This lack of "flow" -- while typically seen as a disadvantage because it can lead to lesser quality electrical contacts -- can be used to place components tighter than they normally could be placed due to the properties of lead-containing solders.

For example, Motorola reports that their new RoHS wireless device assembly techniques are "...enabling a smaller, thinner, lighter unit." Their Motorola Q phone would not have been possible without the new solder. The lead-free solder allows for tighter pad spacing. Motorola Q: Not Possible without Lead-free Assembly

Companies Go Beyond RoHS - Some Exempt Products Are Now Compliant Research into new alloys and technologies is allowing companies to release RoHS products that are currently exempt from compliance, e.g. computer servers. Dell RoHS Products IBM has announced a RoHS solution for high lead solder joints once thought to remain a permanent exemption. The lead-free packaging technology "...offers economical advantages in relation to traditional bumping processes, such as solder waste reduction, use of bulk alloys, quicker time-to-market for products and a much lower chemical usage rate." IBM Launches Production of Lead-free Packaging Technology IBM Announces Shipment of Lead-free C4 Joints

Literature

Introduction to Implementing Lead-Free Electronics by Jennie S. Hwang. (2004) McGraw-Hill Professional, ISBN 0-07-144374-6.