data center desgin for k12 standards_update
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ANSI/BICSI-001-2009,
Information Transport
Systems Design Standard for
K-12 Educational InstitutionsTerry W. HochbeinRCDD/NTS/OSP
ATSR Architects/Engineers
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PURPOSE
This Standard specifies minimum requirementsand guidelines for the design of InformationTransport Systems (ITS) infrastructure for K-12
educational institutions. It is intended to be usedby K-12 facility owners, facility operators,architects, engineers, telecommunications andinformation technology (IT) consultants, projectmanagers, and telecommunications/IT
technology installers. It is not intended to be thesole source of information for the design of ITSfor K-12 institutions
Forward
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K-12 DESIGN STANDARD
The K-12 standard is a designstandard It references many existing industry standard
ANSI-J-STD-607-A, Commercial Building Grounding (Earthing) and Bonding Requirements for Telecommunications.
ANSI/NECA/BICSI-568-A, Standard for Installing Commercial Building Telecommunication Cabling.
ANSI/TIA-455-78-B, Optical Fibres Part 1-40: Measurement Methods and Text Procedures Attenuation.
ANSI/TIA-570-B, Residential Telecommunications Infrastructure Standard
ANSI/TIA/EIA-526-7, Measurement of Optical Power Loss of Installed Singlemode Fiber Cable Plant.
ANSI/TIA/EIA-526-14-A, Optical Power Loss Measurement of Installed Multimode Fiber Cable Plant.
ANSI/TIA/EIA-568-B.1, Commercial Building Telecommunications Cabling Standard Part 1: General Requirements.
ANSI/TIA/EIA-568-B.2, Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-PairCabling Components.
ANSI/TIA/EIA-606-A, Administration Standard for Commercial Telecommunications Infrastructure.
ASTM E814-02, Standard Test Method for Fire Tests of Through-Penetration Fire Stops IEEE C2-2007, National Electrical Safety Code
ISO/IEC 11801, Cabling Standards
NFPA 70 2008, National Electrical Code.
TIA TSB-140, Additional Guidelines for Field Test Length, Loss and Polarity of Optical Fibers. ds
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K-12 DESIGN STANDARDGeneric Infrastructure
Horizontal Cabling
Multi-UserTelecommunicationsOutlet Assembly (MUTOA)
Consolidation Point (CP)
Backbone Cabling
TelecommunicationsEnclosures
Test Requirements
Labeling
Grounding & Bonding Firestop Systems
Security Systems
Wireless System
Master Clock System Distance Learning
The generic infrastructure specified includes the following:
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K-12 DESIGN STANDARD
Educational Spaces
The standard covers the five following major types of
educational spaces: Classrooms
Administrative Offices
Arts Spaces
Physical Education Spaces
Building Services
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K-12 DESIGN STANDARDEducational Spaces
The standard provides design requirements for eacheducational space:
General Description of the educational spaces
Telephone Outlet Requirements Network Outlet Requirements
CATV Outlet Requirements
Audio/Video (A/V) Outlet Requirements
Public Address System Requirements
Intercom System Requirements
Pathway Requirements
Media Cable Requirements
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K-12 DESIGN STANDARDEducational Spaces - Classrooms
The standard provides design requirements for classroom spaces:
Telephone Outlet shall have a minimum of 1 outlet
Network Outlet shall have minimum of 6 outlets should have wireless coverage
CATV Outlet shall have a minimum of 1 outlet
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K-12 DESIGN STANDARDEducational Spaces Classrooms (cont.)
The standard provides design requirements for classroom spaces:
Audio/Video (A/V) should have provisions for electric ceiling mounted or wall mounted
screen should have cabling for a projector (typically ceiling mounted) and
speakers from the teaching position should have USB connections when intelligent whiteboards are
deployed should have provisions for musical instrument digital interfaces (MIDI)
when deployed should have mounting hardware, ITS and control cables when monitors
are used and shared by a computer, television and the A/V system should have a sound reinforcement system for recording and playback
of in-room programming and playback of recorded material. the sound reinforcement system shall have an amplifier and a
minimum of one microphone
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K-12 DESIGN STANDARDEducational Spaces - Classrooms (cont.)
The standard provides design requirements for classroom spaces:
Public Address System shall be extended into the classroom
Intercom System a public address, intercom, telephone shouldbe provided
Pathway Requirements outlets shall have conduits orequivalent pathways extended to accessible ceiling
Media
Balanced Twisted Pair shall be a minimum of Cat 5E/Class D
Multimode Optical Fiber
62.5/125 - shall be a minimum of 200/500MHz per Km bandwidth 50/125 - shall be a minimum of 500/500MHz per Km bandwidth
SVGA cable with 15 pin connectors and an S-video cable for projector
Series 6 quad-shield coax
Proprietary cables shall conform to manufactures specifications
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Mulitmedia Outlet Details
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Thank You!
K-12 Standards Subcommittee Members
Especially:
Todd Taylor, Editor
John Kacperski, Secretary
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Post Secondary Standard
Currently under development
Expected publication Fall 2010
Terry Hochbein, Chairman
Mark King, Secretary
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Questions?
Terry W. Hochbein, RCDD NTS/OSP Senior Technology Designer
ATSR Architects/Engineers
763.525.5644 Office
612.817.9123 Cell
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BICSI Data Center Standard
Update
Jonathan Jew J&M Consultants, Inc.
John Kacperski UCLA Medical Center
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Scope
ANSI/BICSI-002 Data Center Design andImplementation Best Practices Standard
An international standard, not just U.S.
Meant to supplement, not replace existing
data center cabling standards such as
TIA-942 and CENELEC EN 50173-5
Large committee of experts (150)
Large document (~500 pages) covering a
wide range of subjects
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Subjects Covered
Site Selection
Architectural and Structural Design
Electrical Systems
Mechanical Systems (i.e., HVAC)
Fire Protection and Security
Building Automation Systems Commissioning
Maintenance
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Subjects Covered
TelecommunicationsAccess Providers & Entrance Facilities
Telecom Spaces
Cabinets & Racks
Cabling Pathways
Telecom Cabling
Field Testing Telecom Administration
Information Technology
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Status
Completed 3rd Industry Ballot
Balloting continues until consensus is
reached among subcommittee members
and canvass list members Desire is to publish as soon as possible
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NECA/BICSI-607-2009Telecommunications Bonding
and Grounding Planning andInstallation Methods forCommercial Buildings
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Highlights of NECA/BICSI 607
Busbar to Equipment
New Terminology
Emphasis on Installation Techniques
Telecommunications Room
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Telecommunications Room
GroundingEqualizer
(GE)
TelecommunicationsBonding Backbone (TBB)
Bonding Jumper
TelecommunicationsGroun ding Busbar
(TGB)
Unit Bonding Conductor(UBC)
Verti cal RackGrounding
Busbar (RGBV)
Telecomm unicati on Equipm ent Bondi ng Conductor ( TEBC)
Rack Bondin gConductor (RBC)
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Equipment & Rack Bonding Option 1
Option 1
Equipment attached to a
rack bonding conductor
(RBC)
From rack/cabinet to TEBC
Requires multiple cutting
and stripping of the RBC
Requires multiple
irreversible connections
* NECA/BICSI-607
E i & R k B di O i 2
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Equipment & Rack Bonding Option 2
Option 2
Horizontal rack grounding
busbar
mounted on top or bottom
of the rack/cabinet
equipment bonded directlyto the busbar with a unit
bonding conductor (UBC)
UBCs may be longer
Adds to the complexity of
cable management
E i t & R k B di O ti 3
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Equipment & Rack Bonding Option 3
Option 3
Vertical rack grounding
busbar
runs length of rack/cabinet
equipment bonded directly
to the busbar with a unitbonding conductor (UBC)
Preferred option resulting
in short lengths of UBCs
E i t & R k B di
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Equipment & Rack Bonding
Unacceptable practice
series or daisy chain
connected equipment
bonding conductors
* NECA/BICSI-607
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Connecting to the Busbar
Remove surface debris
with an abrasive pad
Apply thin coating ofanti-oxidant compound
where connection
takes place
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Connecting to the Busbar
Attach lugs to the busbar
stainless steel or silicon
bronze hardware
tighten to the appropriate
torque rating
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Summary
These are just a few examples of the
additions made ..
Hopefully, these allow for a betterunderstanding of proper bonding and
grounding techniques
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ANSI/NECA/BICSI-568,Installing Commercial Building
Telecommunications Cabling
Bob Jensen, RCDD
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Purpose
This standard not only covers theinstallation and safety requirements for
telecommunications cabling, it focuses on
criteria that aid in delivering performancelevels expected by end-users
To promote telecommunications
infrastructure installation training National Electrical Code (NEC) references
Provide guidance to installation trades
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History
1998BOD approvedjoint standardwith NECA
2001
Joint standardpublished
2006
Joint standardrevised
The first standard to address the
importance of proper telecommunications
infrastructure installation
ANSI/NECA/BICSI-568 is based uponBICSIs Telecommunications Cabling
Installation Manual
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Participating BICSI Members
Ray Keden
Al Feaster
Donna Ballast
Bob Jensen Ed Phillips
Bob Faber
Phil Janeway
Ray Emplit
Richard Anderson
Joe OBrien
Mel Lesperance
Pete Olders Alvin Emmett
Darron Wright
Don Wright
Charlie Mann
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Scope
This Standard describes minimum requirementsand procedures for installing the infrastructure fortelecommunications including balanced twisted
pair copper cabling and optical fiber cabling that
transport telecommunications signals (e.g., voice,data, video). Installers should always follow
applicable codes and manufacturers instructions.
This Standard is intended to be used in describing
a neat and workmanlike manner as referenced
by ANSI/NFPA 70, the National Electrical Code
(NEC).
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The NEC Relationship
800.24 Mechanical Execution of Work.Communications circuits and equipment shall be
installed in a neat and workmanlike manner.
FPN: Accepted industry practices are described in
ANSI/NECA/BICSI 568-2006,
Installing Commercial Building Telecommunications Cabling
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Contract documents
Recommended text contained within thisstandard
Commercial building telecommunicationscabling shall be installed in accordance with
NECA/BICSI 568-2006, InstallingCommercial Building Telecommunications
Cabling (ANSI).
More and more construction specifications are referring to this standard
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Contents
Support StructuresAllow installation of telecommunications wire, cable,
connecting hardware, and associated apparatus. Pathways
Route survey and planning
Cable trays (supporting, various types)Conduit (length limitations, bends, securing, bonding)
SpacesPlywood backboards (securing to walls)
Equipment racks, cabinets (wall and floor mounted)
Bonding
Cable support systems (J-hooks)
Separation from possible EMI sources
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Contents
Pulling cable Setup
Horizontal and backbone cables
Horizontal and vertical pathways
Open ceiling
Preferred optical fiber premises cable jacket colors Firestopping
Re-establishing the integrity of fire rated walls, floors,
and ceilings is an essential part of a cabling
installation. Ten basic types of firestop
Typical installations illustrated
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Contents
Cable Terminations and Splicing Fiber and Copper
Color codes
Dressing cables for termination Installation verification
Visual inspection and performance test
documentation are required for proof of proper
installation conformance
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Contents
Testing Copper
Permanent link
Channel
Optical fiber OLTS, OTDR optional
OLTS One jumper reference; mandrel on launch cord
Length, polarity, attenuation
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Status
Can be obtained from BICSI https://www.bicsi.org/standards/or
der_now.aspx
Due for revision by 2011
Items to cover
Category 6A
OM4
Other items of interest Contact:
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