Mill-Max products labeled with the RoHS symbol are compliant with all three ROHS Directives. All of our products previously described as RoHS (2002/95/EC) and RoHS-2 (2011/65/EC) are also compliant with RoHS-3 (2015/863/EU). Mill-Max RoHS Compliance Statement. REACH Regulation EC No 1907/2006 and the SVHC List. RoHS Compliant 2002/95/EC Pb Features Typical Applications DC input voltage up to 32V 350mA or 700mA constant current output1 Extremely small form factor1 (2.0”x1.2”x0.38”) 18 AWG wires for easy electrical connections Solar & Landscape Lighting Architectural Lighting Track Lighting Automotive & Marine Lighting Portable Lighting & Flashlights.

• Rohs Compliant 2002 95 Ec Driver Download 64-bit
• Rohs Compliant 2002 95 Ec Driver Download 32-bit

RoHS ‘1’

EU DIRECTIVE (2002/95/EC) & EU DIRECTIVE (2008/98/EC)

This is the original RoHS. This regulation is an EU Directive (2002/95/EC) pertaining to the Restriction of Hazardous Substances in Electrical and Electronic Equipment (EEE). It was adopted by the EU in February 2003 and brought into force 1st of July 2006.

RoHS ‘2’

EU DIRECTIVE (2011/65/EU)

RoHS2 is an updated / revised version of the RoHS ‘1’. Rd9700 usb ethernet adapter driver. There are no additions to or difference in the six restricted substances although the amounts of the allowed ppm for some substance are reduced.

RoHS ‘3’

EU DIRECTIVE (2015/863/EU)

RoHS ‘3’ expands the list of prohibited substances from six to ten by adding four new types of phthalates. This directive has already been adopted by the EU legislature. The new list is as follows: Lead (0.1 %) Mercury (0.1 %) Cadmium (0.01 %) Hexavalent chromium (0.1 %) Polybrominated biphenyls (PBB) (0.1 %) Polybrominated diphenyl ethers (PBDE) (0.1 %) Bis(2-ethylhexyl) phthalate (DEHP) (0.1 %) Butyl benzyl phthalate (BBP) (0.1 %) Dibutyl phthalate (DBP) (0.1 %) Diisobutyl phthalate (DIBP) (0.1 %)

CAPACITORS

For the Johanson Technology surface mount High-Q capacitor line, there are RoHS 3 compliant families available.

S-SERIES ARE COMPLIANT WITH RoHS

The S-Series family has lead free, 100% tin plated terminations, and it meets the RoHS directive. This does not include the optional termination code 'T&C' which signifies tin-lead, Sn/Pb, terminations are not RoHS 3 compliant. All S-Series size families (R07, R14 & R15) have lead content way below the 1000ppm threshold in their ceramic body. Therefore, the entire S-Series family is RoHS 3 compliant.

L-SERIES ARE COMPLIANT WITH RoHS

The L-Series 0201 capacitors (R05L) with manufacturing lot codes of 2013 are compliant to the latest RoHS standard (Less than 1000 ppm lead).

The optional termination code 'T&C' which signifies tin-lead, Sn/Pb, terminations are not RoHS 3 compliant.

All other RoHS prohibited materials are non-existent in this family. Therefore, the entire L-Series family is RoHS 3 compliant.

E-SERIES ARE COMPLIANT WITH RoHS

The E-Series family which was designed for low loss, high current and high voltage applications has lead free, 100% tin plated terminations, and it can meet the RoHS directive. This does not include the optional termination code 'T&C' which signifies tin-lead, Sn/Pb, terminations are not RoHS 3 Compliant. All E-Series size families (S42, S48 & S58) are completely lead-free in their ceramic body. Therefore, the entire E-Series family is RoHS 3 compliant.

LASERTRIM

The laser trim capacitor series meets the RoHS directive as long as 'N', 'S', or 'M' dielectrics are shown in the part number.

SINGLE LAYER

The single layer capacitor series mostly meet the RoHS directive. However, some dielectrics do not. Please consult the factory for further clarification. In all instances, the terminations are lead free.

INDUCTORS

RF CERAMIC INDUCTORS ARE COMPLIANT WITH RoHS

Our entire monolithic inductor family is RoHS 3 compliant.

WIREWOUND INDUCTORS ARE COMPLIANT WITH RoHS

For the Johanson Technology wire wound inductors, the entire product family is RoHS 3 compliant (all prohibited materials are absent). Wire wound inductors also have lead free terminations, regardless of date of manufacture.

RF INTEGRATED PASSIVE COMPONENTS

RF Components

For our RF component line, including filters (LPF, HPF, BPF, and Filter-Baluns ), antennas, couplers, baluns, matched impedance balun-filters and diplexers, the entire product family is RoHS 3 compliant (all prohibited materials are absent).

New Product Road Map

Johanson Technology Inc. is constantly working with customers to design and manufacture components to keep up with industry standards. All new products will have minimal if not any substances of very high concern. Check the Johanson Technology website (www.johansontechnology.com) site periodically for future updates.

REACH Certification

The European Commission Environment is constantly adding substances of very high concern to their registered substances list. Currently manufacturers are required to certify their products one time per calendar year. During the time a certification is valid substances may be added which will not apply to aging certification until next calendar year. Currently Johanson Technology Inc. receives their certification on February of each year.

European Commission Environment: http://ec.europa.eu
European Chemicals Agency: http://echa.europa.eu

EU RoHS

Molex’s most significant legislative driver for creating products that are more environmentally-friendly is the European Union’s Directive 2002/95/EC on the restriction of the use of certain hazardous substances in electrical and electronic equipment, typically referred to as EU RoHS (Restriction of Hazardous Substances), which went into effect 1 July 2006. Now that it’s been four years since this legislation became active, it’s a good opportunity to reflect on it.

EU RoHS prohibits six groups of substances: lead, mercury, hexavalent chromium, polybrominated biphenyls, and polybrominated diphenylethers are each prohibited above 0.1% by weight, and cadmium is prohibited above 0.01% by weight. Some of these substances are naturally-occurring impurities, so the EU defined acceptable limits. EU RoHS also allows these substances in higher concentrations in certain applications if no alternatives exist; each of these scenarios is an ‘exemption.’

Molex is primarily a manufacturer of components, so EU RoHS does not apply directly to Molex. However, RoHS applies to Molex’s customers, and therefore Molex must provide compliant products. While there was some limited use of cadmium, hexavalent chromium, and decabromodiphenylether in Molex products (as colorants, coatings, and flame retardants, respectively), lead was used significantly by Molex: many terminals were coated with a tin-lead plating on the solderable interface. Once EU RoHS was proposed, it became evident Molex would have to cease using tin-lead plating on many products.

Rohs Compliant 2002 95 Ec Driver Download 64-bit

Pure-tin platings have been used for decades by Molex, so we had the experience needed to remove lead. One primary concern of switching to pure tin was the growth of tin whiskers (tin filaments that grow from a plating and, once touching another terminal, can cause a short). To mitigate the growth of tin whiskers, Molex terminals typically have a nickel underplate.

While Molex had the expertise to convert tin-lead to pure tin, EU RoHS, which is continually changing, presented a number of other challenges. One challenge of recent memory is the annulment of the decabromodiphenylether exemption. The EU legislators initially allowed decabromodiphenylether in plastics, but this exemption was overturned; Molex had only three months to convert products to use an acceptable flame retardant. Most exemptions, fortunately, have an expiration date years in advance, and this allows Molex and our suppliers the necessary time to convert products to newer, safer alternatives.

Rohs Compliant 2002 95 Ec Driver Download 32-bit

Recently, the EU legislators have been working on re-writing RoHS (referred to as a recast). This process attempts to make the legislation more clear based on how it was implemented and enforced in the past four years. The recast is not yet complete, but we’ll discuss this in a future blog posting.