Technical Library: 2006 (Page 1 of 2)

RoHS: Five Years Later

Technical Library | 2011-12-01 16:57:22.0

Are electronics any “greener” than before RoHS? It is a fair question to ask. With the advent of RoHS on July 1, 2006, and more recently REACH, one might be inclined to answer that it is greener than it was. We will take a look at this question in several

Indium Corporation

Developing An Effective, Fast-Curing, Environmentally Sound Conformal Coating

Technical Library | 2010-02-10 23:50:23.0

The electronics industry has recently undertaken the transition to lead-free processing as a direct consequence of the RoHS directive, which came into force in July 2006. However, this is unlikely to be the last transition required since the European Solvent Emissions Directive, 1999 is starting to be implemented and enforced by national governments. This is resulting in pressure on larger manufacturers, currently emitting more than 5 tonnes of solvent vapour per annum to take steps to limit and reduce their emissions.

Chase Electronic Coatings

Wave Solder Parameter Chart

Technical Library | 2006-05-13 13:07:53.0

This Excel Spreadsheet calculates the Wave Solder Contact Time automatically with given main Solder Wave width and Conveyor Speed. There is one chart where conveyor speed is expressed in meters/min and in another where it is expressed in feet/minute.

Jabil Circuit, Inc.

Qualification Test Development for Creep Corrosion

Technical Library | 2021-04-08 00:34:16.0

Creep corrosion is not a new phenomenon, it has become more prevalent since the enactment of the European Union's Restriction of Hazardous Substance (RoHS) Directive on 1 July 2006. The directive bans the use of lead and other hazardous substances in products (where lead-based surface finishes offered excellent corrosion resistance). The higher melting temperatures of the lead-free solders and their poor wetting of copper metallization on PCBs forced changes to PCB laminates, surface finishes and processing temperature-time profiles. As a result, printed circuit boards might have higher risk of creep corrosion.

iNEMI (International Electronics Manufacturing Initiative)

Whisker Growth In Tin Alloys On Glass-Epoxy Laminate Studied By Scanning ION Microscopy and Energy-Dispersive X-Ray Spectroscopy

Technical Library | 2013-08-22 14:28:58.0

Tin-rich solders are widely applied in the electronic industry in the majority of modern printed circuit boards (PCBs). Because the use of lead-tin solders has been banned in the European Union since 2006, the problem of the bridging of adjacent conductors due to tin whisker growth (limited before by the addition of Pb) has been reborn. In this study tin alloys soldered on glass-epoxy laminate (typically used for PCBs) are considered. Scanning ion microscopy with Focused Ion Beam (FIB) system and energy-dispersive X-ray spectroscopy (EDXS) were used to determine correlations between spatial non-uniformities of the glass-epoxy laminate, the distribution of intermetallic compounds and whisker growth.

The Institute of Electron Technology (ITE)

How Mitigation Techniques Affect Reliability Results for BGAs

Technical Library | 2016-11-17 14:58:02.0

Since 2006 RoHS requirements have required lead free solders to take the place of tin-lead solders in electronics. The problem is that in some environments the lead free solders are less reliable than the older tin-lead solders. One of the ways to solve this problem is to corner stake, edge bond or underfill the components. When considering what mitigation technique and material to use, the operating conditions must be characterized. The temperature range is important when selecting a material to use since the glass transition temperature (Tg) and coefficient of thermal expansion (CTE) are important properties. If improperly chosen, the mitigation material can cause more failures than an unmitigated component.

DfR Solutions (acquired by ANSYS Inc)

Organic Flip Chip Packages for Use in Military and Aerospace Applications

Technical Library | 2006-11-14 12:48:31.0

Content: 1. Bridge from Commercial Reliability 2. Existing PBGA use in Aerospace & Military 3. Drivers: Plastic versus Ceramic Package Weight 4. Attributes of PTFE and Thin Core FC Packages 5. Flip Chip Package Reliability 6. Flip Chip Package

i3 Electronics

Method for the Manufacture of an Aluminum Substrate PCB and its Advantages

Technical Library | 2015-09-17 17:36:56.0

RoHS legislated restrictions on the materials used in electronics manufacture have imparted significant challenges on the electronics industry since their introduction in 2006. The greatest impacts have been felt by the mandated elimination of lead from electronic solder followed by the demand for the elimination of haloids from flame retardants used in traditional PCB laminates. In the years which have followed the electronics industry has been beset with a host of new challenges in its effort to comply. Failure mechanisms, both new and old, have surfaced which demand solution and the industry suppliers and manufacturing technologists have worked diligently to remedy those vexing faults through the development of a wide range of new materials and equipment for both board manufacture and assembly, along with modifications to the processes used in the manufacture and assembly of printed circuit boards.

Verdant Electronics

Testing To Eliminate Reliability Defects From Electronic Packages

Technical Library | 2006-06-29 13:37:36.0

Electronic Packaging is a critical part of all electronic devices and can be a source of the reliability problems experienced by systems using those devices. In many cases, the packaging defects are intermittent in nature and difficult to detect. This paper describes a tester that has been used for 20 years on commercial products and has proven to be extremely effective in detecting these defects prior to component assembly.

i3 Electronics

Design For Test Considerations For PCB Design

Technical Library | 2006-07-14 11:48:11.0

The perennial question in electronics design and manufacture is: "How do I design a printed circuit board (PCB) so that it can be properly tested?" To achieve this objective, there are a number of design-for-test (DFT) considerations and techniques. Some are major, others, minor. However, the total contributes to a highly effective PCB design so that testing procedures applied to a given design result in high 90 percent plus test coverage.

NexLogic Tech, Inc.

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