DIN EN 60352-2 standard, titled "Solderless connections - Part 2: Crimped connections," establishes the general requirements and test methods for solderless crimped connections used in electrical and electronic equipment. It is the German and European adoption of the international IEC 60352-2 iTeh Standards Scope and Applicability This standard applies to crimped connections made with: iTeh Standards Stranded wires : Cross-sectional areas from 0.05 mm² to 10 mm² Solid wires : Diameters from 0.25 mm to 3.6 mm : It specifically does not apply to the crimping of coaxial cables. IEC Webstore Key Requirements and Topics
Using unverified or pirated PDFs introduces significant compliance risks, such as missing critical amendments or referencing outdated engineering criteria. IEC 60352-2:2024
Clause 6 of the standard specifies the minimum pull-out force for a given conductor cross-section (e.g., 0.20 mm², 0.50 mm², 1.50 mm²). A tensile test machine must pull the wire axially from the terminal until failure. din en 60352-2 pdf
Yes, with minor editorial differences. EN 60352-2 is the European adoption of IEC 60352-2. DIN EN 60352-2 adds a German foreword but technical content is identical.
EN 60352-2:1994 - Solderless crimped connections - iTeh Standards DIN EN 60352-2 standard, titled "Solderless connections -
DIN EN 60352-2 is the "Bible" for crimp connections. It moves the definition of a "good crimp" from a subjective visual judgment to an objective, measurable standard. For engineers, it provides the design rules; for quality inspectors, it provides the acceptance criteria.
Wire harnesses feature thousands of crimp joints. A single failure can disable a vehicle safety system. IEC 60352-2:2024 Clause 6 of the standard specifies
Utilizing connections that meet the DIN EN 60352-2 standard provides several advantages:
The cross-sectional area of the wire must precisely match the specified capacity of the crimp barrel.
Mechanical strength alone does not guarantee a good connection. The standard mandates that the electrical resistance across the crimp joint remains below a strict milliohm (mΩ) threshold. High resistance causes localized heating, which degrades the connection over time. Environmental and Aging Tests