BS EN IEC 62902:2025
Secondary cells and batteries. Marking symbols for identification of their chemistry
| Standard number: | BS EN IEC 62902:2025 |
| Pages: | 30 |
| Released: | 2025-04-30 |
| ISBN: | 978 0 539 13185 7 |
| Status: | Standard |
BS EN IEC 62902:2025 - Secondary Cells and Batteries: Marking Symbols for Identification of Their Chemistry
Standard Number: BS EN IEC 62902:2025
Pages: 30
Release Date: April 30, 2025
ISBN: 978 0 539 13185 7
Status: Standard
Overview
The BS EN IEC 62902:2025 is a comprehensive standard that provides essential guidelines for the marking symbols used to identify the chemistry of secondary cells and batteries. This standard is crucial for manufacturers, suppliers, and users of batteries, ensuring that the chemistry of each battery is clearly and consistently marked, facilitating proper usage, handling, and recycling.
Importance of Battery Chemistry Identification
Understanding the chemistry of a battery is vital for several reasons:
- Safety: Different battery chemistries have unique safety requirements. Proper identification helps in preventing accidents and ensuring safe handling.
- Performance: The performance characteristics of batteries vary with their chemistry. Correct identification ensures that the right battery is used for the right application, optimizing performance.
- Recycling: Proper disposal and recycling of batteries depend on their chemistry. Clear marking aids in the efficient recycling process, contributing to environmental sustainability.
Key Features of the Standard
The BS EN IEC 62902:2025 standard includes:
- Comprehensive Guidelines: Detailed instructions on the symbols to be used for different battery chemistries, ensuring uniformity across the industry.
- Clarity and Consistency: The standard promotes clear and consistent marking, reducing confusion and errors in battery identification.
- International Relevance: As an IEC standard, it is recognized globally, facilitating international trade and cooperation in the battery industry.
Who Should Use This Standard?
This standard is essential for:
- Battery Manufacturers: To ensure their products are marked in compliance with international standards.
- Suppliers and Distributors: To verify that the batteries they handle are properly marked, ensuring safety and compliance.
- Regulatory Bodies: To enforce compliance with safety and environmental regulations.
- Recycling Companies: To facilitate the correct sorting and processing of batteries based on their chemistry.
Benefits of Adopting BS EN IEC 62902:2025
Adopting this standard offers numerous benefits, including:
- Enhanced Safety: By ensuring that all batteries are clearly marked, the risk of mishandling and accidents is significantly reduced.
- Improved Efficiency: Clear identification of battery chemistry streamlines processes in manufacturing, distribution, and recycling.
- Environmental Protection: Properly marked batteries are easier to recycle, reducing environmental impact and promoting sustainability.
- Global Compliance: Aligning with international standards facilitates global trade and ensures compliance with international regulations.
Conclusion
The BS EN IEC 62902:2025 standard is an indispensable tool for anyone involved in the production, distribution, or handling of secondary cells and batteries. By providing clear guidelines for the marking of battery chemistry, it enhances safety, efficiency, and environmental responsibility. Whether you are a manufacturer, supplier, or recycler, adopting this standard will ensure that you are at the forefront of industry best practices, contributing to a safer and more sustainable future.
BS EN IEC 62902:2025
This standard BS EN IEC 62902:2025 Secondary cells and batteries. Marking symbols for identification of their chemistry is classified in these ICS categories:
- 29.220.30 Alkaline secondary cells and batteries
- 29.220.20 Acid secondary cells and batteries