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Introduc)on Tony Benn
UK Technical Manager
British Standards Institute; Expert Panels
[email protected]
TCT/7/-/2 "Telecommunications - Installation requirements:
Cabling infrastructure standards - Cabling installation and UK implementation
TCT/7/-/3 "Telecommunications - Installation requirements: Facilities and infrastructures
UCISA 2014 Siemon
Design Support and
ConvergeIT Program
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Siemon Design Support
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Siemon in-house design team
Work with you to create a bespoke Design Specification Document
Compliant to the latest standards
Covering both data centre and LAN environments
Taking into account future applications support and growth
Actively work with installers and contractors to ensure your
requirements are upheld and implemented
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Siemon has created Design Specification Documents for many UK
universities
Intelligent buildings – Our vision
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All IP applications will run over one low
voltage RJ-45 platform
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Power and control over the same data
infrastructure
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Utilising flexible zone cabling design
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Siemon and our partners working together
to design and deliver these integrated
intelligent networks
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CAPEX and OPEX savings for the
customer
Traditional intelligent building platforms
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Multiple traditional building platforms are expensive:
-  Multiple physical separated platforms (coax, copper,
fibre, power, etc.) for each application
-  Sophisticated software is required for the
communication between the different platforms
-  Isolated platforms for IT, facilities and networking are
hard to manage, in terms of budgets and operation
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Intelligent building platforms connect, control and visualise
traditional isolated platforms
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Traditional intelligent building platforms
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Traditional building communication use a vast array of
different protocols and cabling systems
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One infrastructure using a zoned cabling topology, means
CAPEX savings
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Today’s and future intelligent buildings
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Today’s building communication systems are moving
towards IP Convergence
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Today’s and future intelligent buildings
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IP Convergence support over copper and fibre
Category 7A
Category 6A
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Optical Fibre
One infrastructure using a zoned cabling topology, means
substantial CAPEX savings
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Today’s and future intelligent buildings
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One cable type means:
–  Rapid deployment
–  Reduced labour costs
–  Reduced cabling pathways
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One cabling contractor versus multiple contractors:
–  Installs and services low voltage, voice & data applications
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Low voltage applications & cabling become part of the managed
network
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Structured cabling becomes a valuable manageable building asset
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Today’s and future intelligent buildings
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If it is IP - Then it can be managed
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If it can be managed - It can be monitored
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Monitored systems mean able OPEX reductions
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Energy consumption
Operational cost
Simplified software
No isolated platforms
One language to communicate – IP
Universal platform to connect all applications
High flexibility
Power Over Ethernet
Facilities, IT, Finance and CEO all involved in decision making
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What applications can run over IP?
So=phone Call Center Wireless Smart phone Clock Fire Alarms Tannoy Security Camera Digital Signage IP
Access Safeguard Video Conference W W W . S I E M O N . C O M
Door Entry VoIP Environmental Control DECT Power over Ethernet trends
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Power over Ethernet trends
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Over 100 million Power over Ethernet (PoE) enabled ports
are shipping annually
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Cisco® 60w Universal PoE (UPOE) technology is driving
the adoption of virtual desktop infrastructure (VDI)
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Power over HDBaseT (POH) technology can deliver up to
100w over twisted-pair cable, supporting full HD digital
video, audio, 100BASE-T and control signals in television
and display applications
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The IEEE 802.3bt DTE Power via MDI over 4-Pair Task
Force is developing a new remote powering application
that will provide superior energy efficiency compared to a
two-pair application which will significantly expand the
market for PoE systems
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Wireless Networks: 802.11ac
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Wireless Networks: 802.11ac
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IEEE Std 802.11ac™-2013 “Enhancements for Very High
Throughput for Operation in Bands below 6 GHz”
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Approved December 2013
Known as:
5MHz Wifi
Gigibit Wifi
5G Wifi
Today's three stream 802.11ac devices require two
physical connections of 1000BASE-T to support 1.3 Gbps
data rates. Shielded cabling is recommended to support
Type 2 PoE
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Heat rise considerations
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Heat rise considerations
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Applied currents associated with remote
powering cause temperature rise within the
cabling
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Specified operating range: -20ºC to 60ºC
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Elevated temperatures result in
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Reduction in performance
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Siemon Category 6A & 7A shielded cables have
improved heat dissipation performance, up to 75ºC
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Minimises the risks associated with excessive
temperature build-up caused by remote
powering applications
Heat rise considerations
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Managing heat build-up can be problematic in
regions where temperatures in enclosed ceiling &
riser shaft spaces can easily exceed 50ºC
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The IEEE 802.3 Type 2 PoE Plus standard states
an operating temperature range of -20ºC to 60ºC
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Siemon shielded Category 6A & Category 7A
cables are qualified for mechanical &
performance reliability up to 75ºC
Effects of heat rise
24
22
ISO/IEC & TIA Category 6A U/UTP
Insertion Loss De-Rating Factor
20
18
14
12
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ISO/IEC & TIA Category 6A F/UTP
8
6
Siemon Category 6A F/UTP
4
2
Siemon Category 7A (TERA) S/FTP
0
20oC
30oC
40oC
50oC
60oC
70oC
Temperature (oC)
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Category 6A U/UTP – Loss of 18m at 60ºC
Category 6A F/UTP – Loss of 7m at 60ºC
Siemon Category 6A S/FTP – Loss of 3m at 60ºC
Siemon Category7A S/FTP – No de-rating factor at 70ºC
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Cabling systems to support convergence
and PoE
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Siemon cabling systems are designed to support
convergence and PoE
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Designed for superior heat dissipation
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Designed to prevent arcing under load conditions
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Zone boxes and solid core cords, specifically
designed to support convergence and PoE
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Best in class shielded copper solutions:
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Category 6A/Class EA
Category 7A/Class FA
Potential for arcing under load conditions
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Potential for arcing under load conditions
Seated Position
Un-mating Damage
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“Un-mating under load” produces an arc as the
applied current transitions from flowing through
conductive metal to air before becoming an open
circuit
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Contacts are susceptible to damage when mating
and un-mating under remote powering current loads
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IEC 60512-99-001 specifies a test method
(non-normative)
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100 insertions and removals under load
conditions of 55v dc and 600mA
Potential for arcing under load conditions
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Siemon connectors and cables are specifically
designed to handle remote powering current
loads
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Prevents associated heat build-up and contact
arcing, minimising the risk of component
damage and transmission errors
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Siemon
and
modular
connecting hardware complies with IEC
60512-99-001 specifications
Benefits of a zone converged cabling design
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Distributed Building Networks
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EN 50173-6
MD CD Campus backbone cabling sub-­‐system Building backbone cabling sub-­‐system Generic Cabling System –  Category 6A/Class EA
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SD SCP Service distribu9on cabling sub-­‐system SO TE Service area cabling Distributed Building Networks
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EN 50173-6
TE CD MD SD SCP TE TE –  Category 6A/Class EA
–  Category 7A/Class FA
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Benefits of a zone converged cabling design
Benefits
Lighting
Fire Alarm
Security camera
LAN Cabling
Access control
HVAC controller
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Zone box
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Ease of deployment
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Facilitates the use of trunk
cables
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Improved pathway utilization
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MAC work
–  Costs less
–  Is faster and less disruptive
–  Supports rapid re-organisation of
floor space
Zone box to device connections (example)
TO EO/SO Lighting controller
TO MAX TM 24-port Zone Unit Enclosure
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EO/SO Access controller
EO/SO IP camera
EO/SO Spare outlets for future use
Zone cabling recommendations
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Standard conductor cables used to construct patch
cords exhibit significantly greater insertion loss rise
due to elevated temperature than solid cables do
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Siemon are one of only a small number of
manufacturers who are able to provide solid core
assemblies
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Siemon shielded category 6A & 7A solid conductor
equipment cords are recommended for support of
remote powering applications in environments up to
75ºC
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Zone cabling recommendations
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Zone box location can be
based upon guidance
provided in EN 50173-6
(distributed building
services) as well as
ANSI/TIA-862-A (BAS
systems)
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A coverage area radius
of 12 meters is generally
recommended as an
optimum size to
accommodate most
converged cabling
networks
Zone Box
coverage area
Rad = 12m
Wall
= Zone Box
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Siemon zone box solutions
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Zone boxes may be located:
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In a raised floor
Within furniture
Wall-mounted
In the ceiling
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Zone boxes shall be in fully-accessible fixed
locations
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Siemon recommends that zone boxes should
support a minimum of 24 equipment or work
area outlets, per 12m2
Case Study*
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Case Study*
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Project Example:
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44,196m2
Eight story building
1500 people capacity
BAS System with 2500 points
Peripheral devices on an IP Network:
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400 Fire devices
400 Speaker devices
42 Cameras
BAS System with 2500 points
46 Access control card readers
15 Intruder alarm points
*Case study data courtesy of Sinopoli and Associates
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Case Study Results*
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CAPEX:
–  24.2% less expensive to install integrated systems
–  4.5% reduction in construction costs for the whole building
–  Mostly derived from labour savings
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OPEX:
–  37% Operational cost savings due to faster maintenance & upgrade
implementations (MAC) work
*Case study data courtesy of Sinopoli and Associates
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Summary
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Summary
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Applications will run over a low voltage RJ- 45 platform
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Flexible infrastructure due to zone cabling
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CAPEX & OPEX savings generated by using a
ConvergeIT infrastructure
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PoE Heat build managed by Siemon design
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Physical connections protected by Siemon design when
un-mating a PD
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Siemon and our Partners can help design your network
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Siemon
ConvergeIT Program
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