Corning Overview English - iseexpo.com · •Experience and Credentials –15+ years...
Transcript of Corning Overview English - iseexpo.com · •Experience and Credentials –15+ years...
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Rapid Fiber Optic Design & Installation
Multiple Dwelling Units
• Experience and Credentials
– 15+ years telecommunications
– Engineering, Manufacturing, Development
– Data Center, LAN, FTTX & MDU Design
– PE (PENC), RCDD (BICSI)
– www.linkedin.com/in/paulmtyma/
Best Practices for Fast, Efficient MDU Design
Presenter Biography & Credentials
• Educational Background
– B.S. Clemson University:
Mechanical Engineering
– P.S.M. Appalachian State University:
Instrumentation & Automation
Paul M. TymaSystems Engineer
August 16, 2018
9:15 – 10:15 AM
ISE EXPO
Denver, CO
BISCI-1 CEC,ETA- 3 CEC’s
© 2018 Corning Incorporated
Paul Tyma, PE, RCDD
Senior Systems Engineer
Corning Optical Communications
August 16, 2018
Rapid Fiber Optic Design &
Installation for MDUs
Rapid Fiber Optic Designs for MDUs
Multiple Tenant Environment (MTE): Regulatory Issues
MTE
Services
Wiring
Access
• Multiple Tenant Environment (MTE)
– High-speed Internet access:
gateway to jobs, health care, education &
information (FCC GN Docket #17-142)
– MDU: Residential premises: apartment &
condominium buildings
– MTU: Commercial premises: shopping or
strip malls
Multiple Tenant Environment (MTE)
• CFR (FCC) Title 47: Telecommunication
– Subpart M: Cable Inside Wiring (76.800)
– Subpart X: Access to MDUs (76.2000)
CFR (FCC) Title 47: Telecommunication
65%7%
5%
9%
9%
5%
Housing Units by Property Type2
Single-Family Houses
Mobile Homes
Condominiums
2-4 Housing Units
5-49 Housing Units
50+ Housing Units
140 Million Total
Rapid Fiber Optic Designs for MDUs
MDU Demographics: U.S. Housing Units in Context
1) U.S. Census Bureau Quick Facts, 2017 (2018 Inflation Adjusted)
2) U.S. Census Bureau Residential Finance Survey: 2001 (2018 Inflation Adjusted)
Apt. Bldgs.
Town-
Houses*
*Or, “cottage-style MDUs”
M
D
U
28%
1 Unit
1% 3%
14%
28%26%
16%
12%
Housing Units by Age1
2014 or later
2010 to 2013
2000 to 2009
1980 to 1999
1960 to 1979
1940 to 1959
1939 or earlier
140 Million Total
32 Million Total
● 6M MDU Properties
● 70M MDU Residents (2/Unit)
● 86% MDUs are rentals.
● 50% < 15 Mbps Download Rates
● 50% Millenials (22-37 yrs. Old)
● 75% Use Wi-Fi within Unit
32M MDU Housing Units1,2
>80% Brownfield
(pre-2000)
Rapid Fiber Optic Designs for MDUs
MDU Demographics: Building Classification
Small MDU
Medium MDU
Large MDU
64%26%
10%
Small Garden 1-3 Stories
Medium Mid-rise 4-6 Stories
Large High-rise 7 Stories
Rapid Fiber Optic Designs for MDUs
MDU Demographics: Building Size
< 3 Floors; 12 Living Units
< 6 Floors; 72 Living Units
© 2018 Corning Incorporated
Rapid Fiber Optic Designs for MDUs
Project Management & Integration(System Design Planning & Guidelines)
• Leverage experienced and trusted
network experts in
– Planning
– Design
– Finance
– Construction
– Operations
Rapid Fiber Optic Designs for MDUs
Project Management & Integration : MDU Stakeholders
• Connect Your Community to a
Brighter Future
– Engage municipal leaders
– Drive interest from constituents Local/State
Government
Subscribers
Design
Engineers
Installers
Network
Integrators
Service
Providers
Developer
Low-Voltage/
Electrician
Builder (GC)
Sales/
Marketing
Construction
Operations
Engineering /
Project
Management
Property
Manager
Building
Owner
Service
Provider
Solutions Provider
(Manufacturing & Services)
Rapid Fiber Optic Designs for MDUs
Project Management & Integration: Project Stakeholders
Consumer Services
• Residential triple-play
• Commercial triple-play
Building Services
• Amenity space triple-play
• Satellite/antenna feed
• Building-wide WiFi
Vital Services
• Emergency
• Elevators
• Security
Scope
Timeline Constraints
1. Permits
2. Horizontal drop/drywall
3. Riser completion
4. Power & electrical
5. Record entry
6. Test-order
7. Vital services
8. Residential in-service
TimingStakeholders
Vendor ↔ Customer
Rapid Fiber Optic Designs for MDUs
Project Management & Integration: Process Overview
EngineeringApprovalTest &
Turn-upIdentification
Close
Out
Project Management
Planning/Engineering
Construction
Implementation/Construction
Pre Construction
Validation
Services
Wiring Access
MDU Type
High-rise
Mid-rise
Garden-style
Townhomes
Technology/Topology
GPON
G.Fast
FTT-Living Unit
FTT-IDH
MDU Age
Greenfield
Brownfield
Rapid Fiber Optic Designs for MDUs
Project Management & Integration: Network Design Software
Survey Design Approval InstallationOperation & Maintenance
• Guided survey on a tablet
• Make onsite design decisions
• Upload survey & preliminary designs
• Full automated
project docs
• Customized reports
• As-built done electronically
• Detailed documentation with photos
• Track all ports and ONTs
• Access to site documentation 24/7
• Analyze all deployments, time & cost
Rapid Fiber Optic Designs for MDUs
Project Management & Integration: Network Design Software
Avg. Time Savings:
From 2-3 Weeks
down to 3-4 Hours
Graphic provided by:
1) Site Visit (Facilities & Services)
2) Point-of-Contacts
3) Access/Right-of-Entry Agreements
Validation
1) Design Approval
2) Changes/Corrections
3) Quote & Contract
Approval 1) Punch Lists
2) Installation
3) Final Walk-Out
Construction
1) Initial Draft
2) Design & BOM
3) EF&I Quote/ Approvals
Engineering
1) Material Management
2) Record Management
3) Construction Scheduling
Pre Construction 1) Equipment Installation
2) Labeling & Administration
3) Network Activation
Test &
Turn-up
1) Post-Construction
2) Final Accounting
3) Project Review
Close
Out
Pre Construction
Identification
1) Opportunity Identification
2) Owner/Builder Engagement
3) Network Requirements
Rapid Fiber Optic Designs for MDUs
Project Management & Integration: Process Steps
EngineeringApprovalTest &
Turn-upIdentification
Close
OutValidation
Project Management
Planning/Engineering
Construction
Implementation/Construction
•• Splitter Type & Location
•• Cable Specifications
•• Routes & Installation Method
•• Subscriber Locations
•• Hardware & Environment
•• Permits, Plans, Personnel
•• Media Types & Quantities
•• Marketability & Value
•• Building & Tenants
•• Power & Electrical Codes
•• Network Reliability
•• Service Dates
•• Demographics & Services
•• Electronic/Protocol Selection
•• Optical & Active Split Ratios
•• Network Distance Reach
•• Take & Turnover Rates
•• Access & ROW Challenges
Rapid Fiber Optic Designs for MDUs
Project Management & Integration: System Guidelines
Service Provider Building Owner
Access Network
Solutions
Media Choices:
Single-Mode Fiber
Coaxial Cable
Twisted Pair
None (Wireless)
Rapid Fiber Optic Designs for MDUs
System Guidelines: Technology Choices
Technologies:
o G/X-/NG-PON(2): 1 – 80 Gbps, 40 km
o EPON: 1 – 10 Gbps, 10 – 20 km
o DOCSIS (3.1): 10 Gbps, 20 km
o VDSL2: < 1 Gbps, 300 – 400 m
o G.fast: < 1 Gbps, 50 – 250 m
o WiFi: 0.5 Gbps (ac); 20 Gbps (ay)
o Cellular: 0.1 Gbps (4G); 10 Gbps (5G)
HFC/
RFoG
“POTS”
2.4/5 GHz
<6 GHz,
>24 GHz
CAT3/5+
DPoE
DPG
Vectoring/
Bonding
Convergence
Rapid Fiber Optic Designs for MDUs
System Guidelines: Wireless & Convergence
• MDU → LAN?
– Passive Optical (Splitter)
– Software-defined LAN (SD)
• Cellular/Mobile
– DAS (→ vRAN)
– Small Cell (E-RAN)
• WiFi (IEEE & NBASE-T)
• Other Services: BAS/BMS,
BaaS, Public Safety, Security,
A/V, Telemetry (IoT)
Radio Node
POL/ SD-LAN
Remote
Access
Unit (RAU)
Composite
Cabling
WAN
Integrated
Headend Unit
(IHU)/ Service Node
Future In-building ConvergencePower Supply
Unit (PSU)
Rapid Fiber Optic Designs for MDUs
System Guidelines: Optical Fiber Trends
• Fiber penetration ↑ future proof
• Value of properties ↑$
• Less intrusive, easier installs ↓$
• Total operating costs ↓$
*FiberBroadband Assocation: RVA LLC Consumer Study 2018
Comparison of Tested Download Speeds*Drivers (Ammenities) on MDU Relocations*
Rapid Fiber Optic Designs for MDUs
System Guidelines: Splitter Architecture & Topology
NOTE: Assessments based on Corning models, field trials and deployments.
Distributed (Cascaded) Split
Home RunLocal Convergence
CO32
Distributed Split
CO4
Central Home-Run
CO32
Segmented Split
CO32
8
LU
LU
LU
LU
Rapid Fiber Optic Designs for MDUs
System Guidelines: Pathways & Spaces
Living Unit• ONT/Modem
• Smart Panel/ Media
Panel Box
• Outlet (Jumper)
Drop Path
Riser Cable
TR (IDF)• Riser Terminal, or
• Patch Panel Rack
• ONU Electronics
Common Space• Public WiFi
• Client amenities
• Work centers
Office Space
Duct/Conduit
Entrance Facility• (MDF, MPOP, ER)
• LCP/FDH/FSAI
• Main Utility Room
Rapid Fiber Optic Designs for MDUs
System Guidelines: Application Spaces
1 Splitter Cabinet (Outdoor or Indoor)
Riser Cable
Floor Distribution Terminal (FDT)
Horizontal Drop Cable
Premise Connection Point
2
3
4
5
1a
1b
2
3
4 5
Rapid Fiber Optic Designs for MDUs
System Guidelines: Deployment Options
• Slowest to deploy with spliced drops
• Labor intensive with highly skilled workers
• Least upfront planning (measure to length)
• Low initial material cost; Highest total costFull Splice
• Pre-conn. drops for subscriber connection
• Slow initial install (labor to splice terminals)
• Medium upfront planning effort needed
• Moderate level of risk during installationSemi-Precon
• Fastest installation with full preconn.
• Lowest total installed cost solution
• Highest level of pre-engineering upfront
• Minimized risk, least intrusive installFull Precon
NOTE: Assessments based on Corning models, field trials and deployments.
#
#
Full-Precon
SolutionsSemi-Precon Solutions
Full-Splice
Solutions
Speed of Deployment Fast Moderate Slow
Subscriber Connection Fast Moderate Slow
Type of build High to Mid-rise Mid to Low-rise All
Design
verification/planningHigh Moderate Low
Level of Risk Low Moderate Moderate to High
Splices in the field Low Moderate High
Labor Skill Level Low Moderate High
Deferability High Moderate Low
Rapid Fiber Optic Designs for MDUs
System Guidelines: Solutions Summary
#
#
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Installation Considerations
Project Services
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Brown-field vs. Greenfield Challenges
– Suitability for new cabling
• Above drop ceilings
• Wall surface mounting
• Behind moldings
– Upgradability of existing cabling
– Role of wireless (WiFi, 5G, etc.)
– Armored/rugged cables vs. micro-duct
– Dedicated Conduit/Duct/Inner-duct
• Typical Riser conduit size is 1” or 2”
• Typical Drop conduit size is ½”, or
smaller
– Pre-connectorized vs. spliced systems
Brown-Field Green-field
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Cable Entrance
● Building Walls ● Windows/Fire Escapes
● Aerial Runs
● Underground
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Cable Pathways (Exterior/Outdoor)
●Over Walls
●Through Conduit
●Down Shafts
●On Roofs
●Down Walls
●Under Awnings
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Cable Pathways (Installation Risk)
●Electrical Safety
●Impact on Tenants
●Personnel Required
●Ladder Safety ●Installer Access
●Through Traffic
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Building Features (Exterior/Outdoor)
●Building Gaps
●Building Contours
●Building Structures
●Building Facilities ●Building Surfaces
●Building Heights
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Cable Attachment
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Telecommunication Spaces
● Equipment Installation ● Mounting Layout
● Entrance Facilities
● Telecomm Rooms
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Cable Pathways (Interior/Indoor)
●Corners
●Junction Boxes
●Wall Penetrations
●Ceiling Features
●Bends
●Stairwells
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Cable Pathways (Interior/Indoor)
●Cable Pay-off
●Existing Media
●Fire-Stops●Slack Storage
●Drop Connections ●Congested Ducts
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Cable Pathways- Common ISP Challenges
(15) 90° bends to
pass four LUs.
Single cable bent under
the load of the cable
bundle
Tightly
wound
slack coils
encroach
upon MBR
Routing through
existing wires.!
!
!
!
Rapid Fiber Optic Designs for MDUs
Engineering Guidelines: Drops to the Living Units
● Drop Management
● Impact on Tenants ● Living Unit Access ● Living Unit Panel
Rapid Fiber Optic Designs for MDUs
Thanks for Participating Today!
•Questions?
© 2017 Corning Incorporated .
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