In the world of electrical and electronic manufacturing, reliability is not just a goal—it is a mandate. One loose connection in a control system, an automotive wiring harness, or a medical device can lead to catastrophic failure. This is where standards like DIN EN 60352-2 become critical.
If you have been searching for the term "din en 60352-2 pdf" , you are likely an engineer, quality manager, or procurement specialist who needs either a copy of the official standard or a clear, technical breakdown of its requirements.
This article serves as a complete resource. We will explain what DIN EN 60352-2 is, why the "PDF" version is essential for compliance, where to legally obtain it, and how to interpret its most critical clauses.
Important Note: This guide is for informational purposes. To perform certified compliance testing, you must purchase the official standard document from a licensed reseller (see sources below).
Keep the PDF in a controlled folder (e.g., SharePoint, QMS software). When an auditor asks, "How do you know your crimps are good?" – you point to a work instruction that says "Per DIN EN 60352-2, Clause X."
DIN EN 60352-2 is the German national adoption of the European standard EN 60352-2, which is identical to the international standard IEC 60352-2.
The full title of the standard is:
"Solderless connections – Part 2: Solderless crimped connections – General requirements, test methods and practical guidance."
This standard is the definitive technical document used in the electronics and electrical engineering industries to ensure the quality, reliability, and safety of crimped connections—the most common method for terminating wires into connectors.
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.
Disclaimer: This write-up is for informational purposes. For official technical verifications, manufacturing guidelines, and legal compliance, the official purchased standard document should be consulted.
A very specific request!
DIN EN 60352-2 is a European standard for "Solderless connections - Part 2: Crimped connections - General requirements, test methods and practical test requirements".
Here is a summary of the solid content of the standard:
Scope: This part of the standard specifies the requirements for solderless crimped connections for use in electrical and electronic equipment. It covers the general requirements, test methods, and practical test requirements for crimped connections.
Normative references: The standard references several other standards, including:
Terms and definitions: The standard defines several terms related to crimped connections, including:
Requirements for crimped connections:
Test methods: The standard describes several test methods for crimped connections, including: din en 60352-2 pdf
Practical test requirements: The standard specifies practical test requirements for crimped connections, including:
This report outlines the technical requirements, test procedures, and recent updates for DIN EN 60352-2 (identical to IEC 60352-2
), which governs solderless crimped connections in electrical and electronic equipment. 1. Scope and Application
The standard applies to solderless crimped connections made with: Stranded conductors Solid conductors in diameter. Exclusions : It specifically does apply to the crimping of coaxial cables. iTeh Standards 2. General Requirements
The standard ensures that crimped connections remain electrically stable under prescribed mechanical, electrical, and climatic conditions. Key prerequisites include: iTeh Standards Crimp Barrels
: Requirements for uninsulated or pre-insulated barrels, with a focus on tensile strength rather than older Vickers hardness metrics.
: Changes to surface finishes now favor tin-alloys or nickel over tin-lead to comply with legislation.
: Crimping must be performed using tools approved by manufacturers that meet the standard's performance criteria. iTeh Standards 3. Core Test Methods
To validate a crimp, several standardized tests are performed: DIN EN IEC 60352-2:2023-03 - Draft
Mastering Solderless Connections: A Deep Dive into DIN EN 60352-2
In the world of electrical engineering, the reliability of a connection can make or break a product. While soldering is common, solderless crimped connections are often the preferred choice for their mechanical strength and ease of assembly in high-volume production.
If you are looking for the DIN EN 60352-2 PDF, you are likely seeking the "gold standard" for crimping requirements. This European standard (equivalent to the international IEC 60352-2) defines the general requirements and test methods for these critical components. What is DIN EN 60352-2?
The DIN EN 60352-2 standard specifically covers solderless crimped connections. It provides a comprehensive framework to ensure that connections remain electrically stable and mechanically sound under various environmental conditions. Key Specifications:
Wire Ranges: Applicable for stranded wires (0.05 mm² to 10 mm² cross-section) and solid wires (0.25 mm to 3.6 mm diameter).
Target Devices: Primarily used in telecommunications, electrical, and electronic equipment.
Exclusions: It does not apply to the crimping of coaxial cables. Why Compliance Matters
Using a connection that meets DIN EN 60352-2 ensures that your product is built to a globally recognized level of quality. Compliance helps:
Guarantee Reliability: Standardized test methods verify that the crimp will hold up over time. In the world of electrical and electronic manufacturing,
Facilitate Certification: Meeting these standards is often a prerequisite for CE, RoHS, and other safety markings.
Tooling Consistency: It provides a way to compare results even when using tools from different manufacturers. IEC 60352-2:2024
DIN EN 60352-2 is the European and German standard for solderless crimped connections. It defines the general requirements, test methods, and practical application guidelines to ensure consistent electrical and mechanical performance in electronic equipment connections. Key Specifications & Scope
The standard ensures that crimped connections remain reliable under various mechanical, electrical, and atmospheric conditions.
Primary Application: Covers solderless crimped connections made with stranded or solid wires. Essential Tests:
Pull-Out Force: Defines the minimum tensile strength required for a connection based on the wire cross-section.
Contact Resistance: Specifies how to measure and the limits for electrical resistance across the crimp.
Mechanical Integrity: Includes guidelines for insertion/removal of contacts and bending of wire bundles.
Manufacturer Guidance: It strongly recommends using tools and crimp contacts from the same manufacturer to guarantee high-quality workmanship. Document Status & History
The standard is a German adoption of the international IEC 60352-2 standard. IEC 60352-2:2006 - iTeh Standards
DIN EN 60352-2 is the European standard (equivalent to IEC 60352-2) that specifies requirements and test methods for solderless crimped connections. Core Content Overview
This standard ensures that electrical connections made by crimping—deforming a terminal around a wire—are reliable, durable, and perform consistently under mechanical and environmental stress.
Scope: It covers solderless connections made with stranded wires (0.05 mm2m m squared mm2m m squared
cross-section) and solid wires (0.25 mm to 3.6 mm diameter). Key Requirements:
Mechanical Strength: Defines the minimum tensile force (pull-out force) a connection must withstand based on the wire size.
Electrical Performance: Specifies maximum contact resistance levels to prevent overheating.
Workmanship: Requirements for the crimp height, width, and visual characteristics (e.g., no cracked insulation, all wire strands captured).
Test Procedures: Outlines how to perform vibration tests, temperature cycling, and corrosion testing to simulate a full product lifecycle. Where to Access the Document Important Note: This guide is for informational purposes
As this is a copyrighted technical standard, the full PDF is generally not available for free legally. You can obtain official copies from authorized distributors: Beuth Verlag: The primary source for DIN Standards.
IEC Webstore: Provides the international version, IEC 60352-2, which is technically identical.
DIN Media: Often lists the latest versions and any active amendments or drafts (like the "A1" amendment).
You're looking for the DIN EN 60352-2 standard in PDF format!
DIN EN 60352-2 is a European standard for "Solderless connections - Part 2: Crimped connections - General requirements, test methods and measuring guidelines".
Here are a few possible sources where you can find the PDF:
Before purchasing or downloading, ensure you're accessing the standard from a reputable source to avoid any potential copyright or authenticity issues.
If you're unable to find a free or purchased copy, you can also try:
At "ElectraFlow Solutions," a high-end industrial machinery firm, production had ground to a halt. Their new control panels were failing final inspection: wires were literally pulling out of their terminals.
"It's the tools," the assembly lead insisted. "We bought the most expensive ratcheting crimpers on the market."
Marcus, the lead engineer, pulled up his copy of DIN EN 60352-2 (the German-adopted version of IEC 60352-2). He knew that "expensive tools" didn't guarantee a "standard-compliant connection." Step 1: Matching the "Recipe"
Marcus opened the PDF and pointed to the Scope. The standard covers stranded wires from 0.05 mm² to 10 mm² and solid wires from 0.25 mm to 3.6 mm. He checked their current assembly: they were trying to crimp a 12 mm² cable using a tool only rated up to 10 mm²—a classic AWG mismatch. Step 2: The Tensile Test
To prove the failure, Marcus used the Test Methods section of the standard. He set up a pull-out force test (tensile test).
The standard describes what a "good" crimp looks like:
Even with the DIN EN 60352-2 PDF open on your screen, engineers make mistakes:
The standard mandates that for any crimp connection, the cross-sectional geometry (crimp height and width) must be within a defined tolerance band. This is verified by:
Why it matters: An incorrect crimp height indicates under-crimping (loose wire) or over-crimping (broken wire strands).