BS EN 50290-2-24:2021
Communication cables Common design rules and construction. Polyethylene sheathing compounds
Standard number: | BS EN 50290-2-24:2021 |
Pages: | 12 |
Released: | 2021-05-12 |
ISBN: | 978 0 539 14718 6 |
Status: | Standard |
BS EN 50290-2-24:2021 Communication Cables: Common Design Rules and Construction
Polyethylene Sheathing Compounds
In the ever-evolving world of communication technology, the need for reliable and efficient communication cables is paramount. The BS EN 50290-2-24:2021 standard provides a comprehensive guide to the common design rules and construction of communication cables, specifically focusing on polyethylene sheathing compounds. Released on May 12, 2021, this standard is an essential resource for professionals in the field of cable manufacturing and installation.
Key Features of the Standard
- Standard Number: BS EN 50290-2-24:2021
- Pages: 12
- Release Date: 2021-05-12
- ISBN: 978 0 539 14718 6
- Status: Standard
Why Choose BS EN 50290-2-24:2021?
This standard is meticulously crafted to ensure that communication cables meet the highest quality and performance criteria. By adhering to the guidelines set forth in this document, manufacturers can produce cables that are not only durable but also capable of withstanding the rigors of modern communication demands.
Comprehensive Design Rules
The BS EN 50290-2-24:2021 standard outlines the essential design rules that must be followed to ensure the optimal performance of communication cables. These rules cover a wide range of factors, including material selection, construction techniques, and performance testing. By following these guidelines, manufacturers can ensure that their cables are built to last and perform at the highest level.
Focus on Polyethylene Sheathing Compounds
One of the standout features of this standard is its focus on polyethylene sheathing compounds. Polyethylene is a widely used material in the cable industry due to its excellent insulating properties and resistance to environmental factors. The standard provides detailed guidance on the selection and use of polyethylene sheathing compounds, ensuring that cables are protected from moisture, chemicals, and physical damage.
Benefits of Adhering to the Standard
By following the BS EN 50290-2-24:2021 standard, manufacturers and installers can enjoy a range of benefits, including:
- Enhanced Durability: Cables designed according to this standard are built to withstand harsh environmental conditions, ensuring long-lasting performance.
- Improved Safety: The standard includes guidelines for ensuring the safety of communication cables, reducing the risk of electrical hazards.
- Increased Efficiency: By using high-quality materials and construction techniques, cables can transmit data more efficiently, leading to improved communication performance.
- Regulatory Compliance: Adhering to this standard ensures compliance with industry regulations, providing peace of mind to manufacturers and consumers alike.
Who Should Use This Standard?
The BS EN 50290-2-24:2021 standard is an invaluable resource for a wide range of professionals, including:
- Cable Manufacturers: Ensure that your products meet the highest quality standards by following the guidelines outlined in this document.
- Installers: Gain a deeper understanding of the construction and design of communication cables, allowing for more efficient and effective installations.
- Quality Assurance Professionals: Use this standard as a benchmark for assessing the quality and performance of communication cables.
- Regulatory Bodies: Reference this standard when developing and enforcing industry regulations.
Conclusion
In conclusion, the BS EN 50290-2-24:2021 standard is an essential tool for anyone involved in the design, manufacture, or installation of communication cables. By providing clear and comprehensive guidelines, this standard ensures that cables are built to the highest quality and performance standards. Whether you are a manufacturer looking to improve your products, an installer seeking to enhance your installations, or a regulatory body aiming to enforce industry standards, this document is an invaluable resource.
Invest in the future of communication technology by embracing the BS EN 50290-2-24:2021 standard. With its focus on polyethylene sheathing compounds and comprehensive design rules, this standard is your key to producing and installing communication cables that are reliable, efficient, and built to last.
BS EN 50290-2-24:2021
This standard BS EN 50290-2-24:2021 Communication cables is classified in these ICS categories:
- 29.035.20 Plastics and rubber insulating materials
- 33.120.01 Components and accessories in general
This document gives specific requirements for polyethylene sheathing compounds, as given in Table 1, for use in inner and outer sheathing of communication cables including fibre optic cables.
It is expected to be read in conjunction with EN 50290-2-20, the product standards EN 50407 series, EN 50117 series, EN 60794 series and other applicable product standards.
Using raw material and type test data as outlined in this document, the raw material supplier will have sufficient data to demonstrate compliance and warrant that the material is suitable for the specified application.
There are several routes used for manufacture of polyethylene and as a consequence a number of different types of polyethylene are defined as given in Table 1.
Table 1 — Polyethylene materials (informative)
Abbreviation | Material type | Reactor process | Polymer structure | Maximum operating temperaturea °C |
---|---|---|---|---|
LDPEb | Low density polyethylene | High pressure/ temperature radical reaction | Long chain branched | +70 |
LLDPE | Linear low density polyethylene | Low pressure/ temperature catalytic reaction | Significant short chain branching | +80 |
MDPE | Medium density polyethylene | Low pressure/ temperature catalytic reaction | Short chain branched | +80 |
HDPE | High density polyethylene | Low pressure/ temperature catalytic reaction | Limited short chain branching | +80 |
aFurther guidance on operating temperature is contained in EN 50290-2-20
bUpper process capability for density 0,930 g/ml. Normally density range 0,917–0,925 g/ml
Optical fibre cables Generic specification. Basic optical cable test procedures. General guidance
Electric and optical fibre cables. Test methods for non-metallic materials Mechanical tests. Bending tests at low temperature for insulation and sheaths
Electric and optical fibre cables. Test methods for non-metallic materials Physical tests. Measurement of total acid number of filling compounds