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| Qty: | |
| Unit Price: | £ |
| Part No: | 200E12WINBTLSW |
| Manufacturer No: | 208-808 |
| Delivery: | In Stock: 7-10 Days |
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The Excel Enbeam 12 Way Internal 5/3.5 mm Blowing Tube LS0H White is a high-capacity internal microduct system designed for efficient blown fibre distribution within structured building environments. Engineered with a low-friction inner lining and LS0H flame-retardant sheath, it supports safe, high-density fibre routing while maintaining performance consistency across complex internal network installations.
The 12-way configuration provides dense internal fibre routing capability, allowing multiple fibre pathways within a single compact assembly for efficient structured cabling designs.
Purpose-built for indoor environments, the tube system supports safe and efficient blown fibre deployment within commercial buildings, data centres and enterprise infrastructure.
The polyethylene oversheath incorporates halogen-free flame-retardant materials to reduce smoke emissions and enhance safety in enclosed installation environments.
A specialised internal coating reduces friction during fibre installation, enabling smoother fibre travel and supporting longer and more efficient blowing distances.
The 5/3.5 mm microducts are designed to accommodate compatible Excel fibre units containing between 2 and 12 fibres, providing flexibility across different network configurations.
Each internal tube is individually numbered, making identification straightforward during installation, maintenance and future network expansion activities.
The system is engineered for ease of termination and branch-off using compatible Excel connection closures and push-fit connectors, supporting adaptable internal network layouts.
Crush and impact resistant construction helps maintain duct integrity, while Euroclass B2ca-s1,d0 fire rating and RoHS compliance support use in regulated building environments.
The tube integrates seamlessly within Excel blown fibre systems, ensuring consistent performance across internal fibre infrastructure deployments.
The Excel Enbeam 12 Way Internal 5/3.5 mm Blowing Tube LS0H White is a high-capacity internal microduct system designed for efficient blown fibre distribution within structured building environments. Engineered with a low-friction inner lining and LS0H flame-retardant sheath, it supports safe, high-density fibre routing while maintaining performance consistency across complex internal network installations.
The 12-way configuration provides dense internal fibre routing capability, allowing multiple fibre pathways within a single compact assembly for efficient structured cabling designs.
Purpose-built for indoor environments, the tube system supports safe and efficient blown fibre deployment within commercial buildings, data centres and enterprise infrastructure.
The polyethylene oversheath incorporates halogen-free flame-retardant materials to reduce smoke emissions and enhance safety in enclosed installation environments.
A specialised internal coating reduces friction during fibre installation, enabling smoother fibre travel and supporting longer and more efficient blowing distances.
The 5/3.5 mm microducts are designed to accommodate compatible Excel fibre units containing between 2 and 12 fibres, providing flexibility across different network configurations.
Each internal tube is individually numbered, making identification straightforward during installation, maintenance and future network expansion activities.
The system is engineered for ease of termination and branch-off using compatible Excel connection closures and push-fit connectors, supporting adaptable internal network layouts.
Crush and impact resistant construction helps maintain duct integrity, while Euroclass B2ca-s1,d0 fire rating and RoHS compliance support use in regulated building environments.
The tube integrates seamlessly within Excel blown fibre systems, ensuring consistent performance across internal fibre infrastructure deployments.
Product data is provided by Icecat, we do not warrant the accuracy of the material above.