……..bridging the optical divide………. industry summary over 80% of commercial buildings are...
TRANSCRIPT
……..Bridging the optical divide………
Industry Summary
Over 80% of commercial buildings are within 80 metres of a fibre optic backbone
Yet less than 5% of them are connected
Industry Summary
Conventional methods of last mile deployment are uneconomical and extremely slow
Extensive & substantial markets still to be exploited due to prohibitive deployment costs
How does Lite Access solve the digital divide?
Focusing on “Trenchless” slot cut technologies, LAT will enable the execution of applications and business models that are cost effective and timely.
Depending on MicroDuct configuration and strand count requirement, LAT's ‘MicroDuct’ is laid directly into a slot cut into existing infrastructure.
How does Lite Access solve the digital divide?
Depth of deployment may vary depending on pre-defined municipal standards. However a recommendation of no less than 6” depth of cover in hard deployments, and no less than 8” depth of cover in soft infrastructure, has proven typical.
Telco approved access chambers are then either installed along a designed route or the network can be engineered to incorporate existing handholes and/or manholes thus allowing for network interfaces and/or breakouts for new network connections.
How does Lite Access solve the digital divide?
For in-building requirements, LAT’s suite of plenum rated products can be connected at demarcation sites including Server and Telco rooms creating a continuous point to point network whereby no fibre splicing is necessary.
Once installation and reinstatement is complete, up to 72 strands of Industry compliant fibre can be blown from end to end in a matter of minutes.
Fibre Options
• Single mode 2-72 core Industry compliant fibre - most commonly used for metro fibre networks.
• Multimode - up to 72 core Industry compliant fibre - for shorter point-to-point connections whereby distance/bandwidth restrictions apply.
• Both Single and Multimode can be deployed together.
Network Architecture• MicroDuct Networks can be deployed in a ring configuration providing resilience.
• Point-to-Point connectivity can also be accommodated providing either redundancy for existing communication needs or as a dedicated network for high speed requirements.
• MicroDuct networks have no distance limitations. Polyethylene tubes can be connected using specially designed connectors providing water and air tight connections. Using mid-point blow sites, fibre can then be blown entire distances eliminating any issues associated with splicing, i.e. attenuation loss.
Network Breakout and Building Connection
• Traditional, non-proprietary access chambers are installed at regular intervals during construction. Chambers can be used for mid-point blow sites, accommodate LAT tube distribution closures or for future breakout locations.
• LAT’s internal distribution chambers can be used to connect MicroDuct to internal plenum rated products for in-building requirements. Using specially designed connectors, fibre can then be blown from end to end without the need for splicing.
Network Interfacing
• Industry standard interfacing to core/backbone networks and traditional ducted deployments using Industry standard interface kits.
• LAT’s fibre solution has been designed to integrate easily with any and all types of technology.
• LAT's "MicroDuct" solution is future-proof - additional fibre can be "blown" at any time enabling our clients to have complete control of future growth demands.
Traditional Lite Access
• Disruptive
• Slow to deploy
• Unsightly
• Cost prohibitive
• Non disruptive
• Fast to deploy
• Discreet
• Cost effective
Traditional Lite AccessDisruptive Non Disruptive
Traditional Lite AccessSlow Fast
Traditional Lite AccessUnsightly Discreet
Speed of Deployment
Lite Access’ MicroDuct deployments are typically 4 to 6 times faster than traditional
trenched methods
Cost of Deployment
“Trenchless” saw cut deployments offer substantial savings over traditional trenched
methods
What is the Ultimate Last Mile Solution?
TechniqueSlot Cut into roadway, sidewalk or greenbelt
TechniqueSlot Cut into roadway, sidewalk or greenbelt
Technique65 hp Concrete Slab Saw – specially designed blade
Technique½” blade – 3/36 MicroDuct deployment¾” blade – 3/96 MicroDuct deployment
TechniqueSoft Infrastructure – Ditch Witch
Vibratory plow designedfor the installation of power,telephone and television cableup to 1 ½” in diameter, natural gas, water pipe and underground sprinkler systems up to ¾” in diameter.
Technology
3/36 MicroDuct 700 meter drum Approx. 145Kg850mm diameter x 500 mm wide
3/96 MicroDuct600 meter drum Approx 180Kg1040mm diameter x 630mm wide
Multiple Configurations Available 2/144, Single Tube, Aerial, Multi-tube, etc.
Technique“MicroDuct” insertion using “blown fibre”36 strand SM fibre ½” slot 6” – 8” depth (typical)
Technique“MicroDuct” insertion using “blown fibre”96 strand SM fibre ¾” slot 6” – 8” depth (typical)
Technique“MicroDuct” insertion using “blown fibre”144 strand SM fibre ¾” slot 6” – 8” depth (typical)
Technique“MicroDuct” insertion
TechnologyLite Access distribution chambers- internal and external applications
TechnologyAccess chambers - routing, splicing and blowing
Technique“MicroDuct” insertion
Technique“MicroDuct” insertion
Technique Reinstatement – Municipal standards
Technique Reinstatement and Clean up
Technology Fiber Optics
ISO9001: 2000 ManufacturingISO 14001 – Environmental ManagementRUS US Military / Dept. of DefenseBritish Safety Council 5 StarBAE Innovation Award – Royal NavyDepartment of Transportation and Highways -BCCEI/IEC 60794-3-10 International Standard for Outdoor CablesIEC 60794-1-2-E3 Crush Plate (450N for buried products)MHT 381 (LFH, DI, DB, LFR, DBR, DBT)IEC 6-794-1-2-E11 FlexibilityTIAIEIA-598A Optical fibre Cable Color CodingCorning Fibre Standards – MHT1200, MHT1400, MHT1401DPCT: Communications Ducting System, Cable and Method of Laying Same
Technology Fiber Optics
Specially designed fibre products designed to work in conjunction with LAT’s MicroDuct. Installation using compressed air guarantees the greatest achievable blowing distance.
Technology Blowing Equipment
Breeze MachinePan GuideFibre PlatesFibre TyreBlowing Head WheelFibre Beads
Technology Blowing Equipment
10 bar (150lbs) Compressor
110v power supply
TechniqueReinstatement to exact Municipal standards
Summary of Benefits• It is extremely fast to deploy – up to 5 times
faster than traditional ducted methods
• It is non-intrusive / non-disruptive – ideal for inner city or campus locations
• It is very flexible – ring or point to point and perfect for carrier tail circuits
• It is substantially lower cost – generally less than half the cost of traditional methods
Able Contract Management
Partners Design, Construction & Technology
Clients
Diverse ApplicationsHistoric, Government, Security – Border Initiatives, Redundancy, Backbones……
Lite Access Technologies Summary of Benefits
• Completely air and water tight network• ‘Future Proof’ additional fibre can be added at anytime or
replaced due to technology advancements• Fibre can be blown end to end without the need to splice• Seamless integration to existing telecom infrastructure • Seamless integration between internal and external applications• Certified contractors and/or training packages available• Multiple configurations of MicroDuct available• Corning SMF fibre• Continued product / technology evolution