ECHO FTTx Design - realworldecho · FTTx Network Design Why FTTx? • Optical fibre will be the...
Transcript of ECHO FTTx Design - realworldecho · FTTx Network Design Why FTTx? • Optical fibre will be the...
FTTx Network Design
Why FTTx?
• Optical fibre will be the main build-
ing block for future high capacity home broadband networks.
• Its transmission capacity is almost
unlimited and unconditional com-pared to existing copper cabling systems.
• Little difference between the de-
ployment costs of optical fibre and copper cables systems of equal ca-pacity.
• FTTH offers high bandwidth and
future upgrade potential over large distances.
• Much lower maintenance and opera-
tions costs.
Why Realworld ECHO?
• When providing FTTH network de-
sign, Realworld ECHO understands the challenges for potential network
builders and operators.
• Understanding - familiar with all
the elements associated with a Fi-bre-to-the-Home (FTTH) network infrastructure.
• Experience - already delivered plan-
ning, design and documentation of FTTB, FTTC and FTTO fiber net-works in Germany and Switzerland.
• Proficient using all the standard
design platforms on the market, including Smallworld PNI FTTH .
Fundamental planning including outside plant demographic evaluation Duct availability analysis and cable route assurance Network optimization through fiber network cluster definition Authority / Owner approvals Detailed backbone and fiber distribution line route planning Loss budget calculation, splicing, cable and blow length reporting Route surface area and digging length detailed reporting
REALWORLD ECHO GmbH
Wilhelmstr. 74, 53721 Siegburg Germany
telephone +49 (0) 2241 257720 [email protected]
www.realworldecho.com
• Digital documentation of the existing network, duct route planning • Registration of marketing data (demographic, economical, population density, …)
• Establish priorities of network rollout for all departments
• Establish Manageable Work Packages
(Network Clustering, Fibre Route planning, duct analysis, duct request)
Fundamental planning
• Existing civil network analysis and identification of duct space
• Ground surface report to find the most construction cost efficient routes
• Cable route assurance with regard to the existing utility networks density
• Customer address verification and evaluation of non built parcels
Outside Plant Evaluation
FTTx Planning and Design
• Detailed street design maps with regard to existing utility network density
• Underground cross-section view of all main network junction points
• In-house network installation instruction maps
• Individual fibre cable or micro tube utilisation report
• Total digging length report divided by surface type category
• Customer drops & statistic, splicing diagrams and ODF reports
FTTx Design Reporting
• As-Built data capture into the main network inventory database
• Conversion of the measurement data and integration into the GIS system
FTTx As-Built Documentation
• Defining customer cable and equipment design specifications in the required design platform
(Smallworld FTTH, AutoCAD, ArcGIS, etc.)
• Pre-design stage:
• Defining fibre network cluster (cells) to include demand points
• Backbone and fibre trunk route planning
• Client approval of the pre-design concept
• Detailed design stage:
• Splicing, loss budget calculation and detailed fibre distribution line route planning • Rack mounted equipment design and connectivity planning
• Network design optimisation through:
• utilising as much as possible of the existing duct space
• finding most cost-efficient construction routes using outside plant evaluation surface reports
• avoid existing utility networks density areas
• Authority and owner construction approvals