Post on 21-Feb-2018
COMPARISON OF ANSI/TIA 568-C ANDINTERNATIONAL CABLING STANDARDS
Brian HansenRCDD, NTS, CSI, SE
Peter HelfrichRCDD, SE-I
Topics to Cover• Standards Organizations: What are they?• Similarities and Differences• Standards Related to our Industry• Current status of documents• Review TIA and ISO Structured Cabling Standards
– Topology and terms– Channel/Link Performance Requirements – Connecting Hardware Performance Requirements
• A look at Cat 7/7A• Category 8??? 40GBase-T• Additional Standards Under Development
Codes vs. StandardsCodes:• Enforced by law and regulatory powers (AHJ)• Address safety, fire hazards and the minimum quality of construction
Standards:• Ensure a minimum level of system performance• May not always be enforced by law (e.g. inspectors)• Essential to a well performing structured cabling system• Assures interoperability• Provide consistency of design, installation,
and conformance to physical andtransmission requirements
Note: When a contract states work shall at minimum meet ANSI/TIAor other standards it is enforceable by law in civil court.
What is a Standards Body• Standards became highly important with the onset of the Industrial Revolution. Driven
by the need for interchangeable parts and interoperability.• Organization’s who develop, coordinate, revise, amend, issue, or otherwise produce
technical standards.• Made up of committees and subcommittees that formulate standards that serve the
industry and end user• Participants include representatives from manufacturers, service providers,
governments, and end users• It is a volunteer effort, standards are written by any qualified individual that will help
to write and influence them. Volunteers are generally sponsored by companies and other organizations.
• Standards usually formulated through a series of proposed drafts and voting cycles-Roberts Rules of Order in order to achieve consensus documents and prevent collusion
Standards Organizations – Structured Cabling• North America
– TIA (Telecommunications Industry Association), accredited by ANSI
• Outside North America– ISO (International Organization for Standardization)
• Regional Cabling Standards Groups:– CENELEC (European Committee for Electrotechnical Standardization)– CSA (Canadian Standards Association)– JSA/JSI (Japanese Standards Association)
• ANSI/BICSI– Has published 8 Standards to date
IEEEIEEE – Institute of Electrical & Electronics Engineers• World's leading professional association for the advancement of technology• Leading authority on computers, telecommunications, electrical power and consumer electronics• IEEE is responsible for developing the following standards
IEEE Standard Description Introduced
802.3 10Base-5 1983802.3i 10Base-T 1990802.3j 10Base-F 1993802.3u 100Base-T 1995802.11 Wireless Local Area Networks (LAN) 1997
802.3z Gigabit Ethernet 1998802.3ab 1000Base-T 1999802.3ae 10 Gb/s Ethernet 2002802.3af Power over Ethernet (PoE) 2003802.3an 10GBase-T 2006802.3ba 40 Gb/s and 100 Gb/s Ethernet 2010
Current Generic Cabling Standards as of Jan 2016• ANSI/TIA 568-0.D released 2015
– Generic Telecommunications Cabling for Customer Premises
• ISO/IEC 11801 Edition 2.2 Published June 2011– Generic Cabling for Customer Premises
• CENELEC EN 50173-1– Information technology. Generic cabling systems. General requirements
• BSI BS EN 50173-1– Information technology. Generic cabling systems. General requirements
• CSA CAN/CSA-ISO/IEC 11801:04 (R2012)– Information Technology - Generic Cabling for Customer Premises
• Most countries outside USA adopt ISO/IEC 11801 with minor changes
Channel vs. Component Specifications
SD
127 181361 2419
LEVITON INFOTAP CATEGORY 5PANEL# R
T E L C O M
MODE
STACKSPEEDDUPLXSTATMASTRRPSSYST
Catalyst 3750 SERIES
1 2 3 4 5 6 7 8 9 10 11 12
1X
2X
11X
12X
13 14 15 16 17 18 19 20 21 22 23 24
13X
14X
23X
24X
1 2 3 4
Channel Performance Includes Patch cordage both ends
T O FD EQPTE
Channel performance specification does not dictate how you achieve the resultEx. Better Cable with lesser connectivity or Better Connectivity with lesser cable
SD
127 181361 2419
LEVITON INFOTAP CATEGORY 5PANEL# R
T E L C O M
Component specification defines minimum performance criteria for each component independently
Patch Cordage Must meet same criteria as installed cable with the allowance that
attenuation and dc resistance may not be more than 50% higher
RL IL NEXT PS NEXT ACR-F500 Mhz 6 49.3 27.9 24.8 9.3
11801 Class Ea Minimum Performance
RL IL NEXT PS NEXT FEXT500 Mhz 14 0.45 37 33 29.1
11801 Category 6A connector Minimum Performance
ACR-F PS-ACR-F500 Mhz 13.8 10.8
11801 Category 6A Cable Minimum Performance Plus additional specs in IEC
61156-5
Patch Cordage Must meet same criteria as installed cable with the allowance that
attenuation and dc resistance may not be more than 50% higher
Standards Council of Canada (SCC)• Coordinates Canadian National Standard System• High level Supervisory role, does not write the technical language
The CSA, UL and others are accredited by the (SCC)The CSA performs 2 Functions for Canadian Markets• Standards Development Organization (SDO)• Independent Testing Laboratory (ITL) Certification and testing
The CSA normalized Cabling standards to ISO/IEC 11801• CAN/CSA-ISO/IEC 11801:04 (R2012) Information Technology - Generic Cabling for Customer
Premises and related standards documents• “This National Standard of Canada is equivalent to International Standard ISO/IEC 11801:2002 (second edition,
2002-09).” SCC
The CSA along with UL and others publish individual performance and test standards
4/25/2016 9
Cabling Standards as of Jan 2016Focus on Canada- Official Standards Adoption
Component and systems performance Standards• CAN/CSA-ISO/IEC 11801:04 (R2012) Generic
Cabling for Customer Premises is the Official Standard
• ANSI/TIA-568-x is the unofficial standard of practical use in N. America, including many construction documents in Canada
There are 14 Legislative bodies in Canada• Federal, Provincial and certain Municipal
A Legislature can add additional requirements to a National Standard or Code but cannot adopt less stringent requirements
4/25/2016 10
Cabling Standards as of Jan 2016Focus on Canada- Practical Standards Adoption
Official Provincial Standard of ........all references are TIA but not ISO?
Cabling Standards – ANSI/TIA• TR-42 : This Subcommittee of TIA develops and maintains telecommunications cabling
standards for Premises networks primarily for North America. Most Current Published 568 Series Documents include:– ANSI/TIA-568.0-D (2015)
Generic Telecommunications Cabling for Customer Premises- Deals with Topologies, Lengths,Installation Practices, Testing Methods, Fiber polarity etc.
– ANSI/TIA-568.1-D (2015)Commercial Building Telecommunications Cabling Standard- Deals with details of Entrance Facilities, Equipment rooms,Telecom Closets and Rooms, Enclosures, Backbone cabling, Horizontal Cabling, Work areas, MUTOA
– ANSI/TIA-568-C.2 (2009)Balanced Twisted-Pair Telecommunications Cabling and Components Standards- Deals with the performancespecification for components as well as channels for copper links. Defines category 5e, 6, 6e and 6A.
– ANSI/TIA-568-C.3-1 (2011)Optical Fiber Cabling Components Standard- Deals with the performance specification for components andpolarity of fiber connections. Defines fiber performance specs for OM1, OM2, OM3, OM4, OS1 and OS2 cable.
– ANSI/TIA-568-C.4 (2011)Broadband Coaxial Cabling and Components Standard
Related Standards – ANSI/TIA• ANSI/TIA-569-D-2015
Telecommunications Pathways and Spaces.
• ANSI/TIA-570-C–2012Residential TelecommunicationsInfrastructure Standard.
• ANSI/TIA-606-B.1-2012 (2015)Administration Standard for Commercial Telecommunications Infrastructure. (Addendum 1)
• ANSI/TIA-607-C-2015Commercial Building Grounding (Earthing)and Bonding for Customer Premises
• ANSI/TIA-758-B–2012Customer-Owned Outside PlantTelecommunications Infrastructure Standard
• ANSI/TIA-862-BIntelligent Building Systems
• ANSI/TIA-942-A-2012Telecommunications Infrastructure Standard forData Centers. This standard specifies the minimum requirements for telecommunications
• ANSI/TIA-1005-A-2012Industrial cabling Standard, deals with MICE (Mechanical, Ingress, Climate, EMI) and related issues
• ANSI/TIA-1152–2009Requirements for Field Test Instruments and Measurements for Balanced Twisted-Pair Cabling.
• ANSI/ TIA-1179 (July 2010)Healthcare Facility TelecommunicationsInfrastructure Standard
ANSI/TIA Series of DocumentsANSI/TIA-568-0.D – Generic Telecommunications Cabling Standard
Defines Generic Cabling Structure:• Cable types• Topologies• Subsystem elements• Distance limitations• Installation requirements• Optical polarity, and loss
measurement requirements
ANSI/TIA-568.0-DGeneric Telecommunications
Cabling Standard
ANSI/TIA-568.1-DCommercial Building Telecommunications
Cabling Standard
ANSI/TIA Series of DocumentsANSI/TIA-568-1.D – Commercial Building Cabling Standard
Establishes structure for commercial building cabling• Based on the generic cabling structure• Defines cabling requirements specific
to commercial buildings to include:• Entrance facilities• Equipment rooms• Telecommunication rooms• Telecommunications enclosures• Backbone cabling• Horizontal cabling• Work areas
ANSI/TIA-568.0-DGeneric Telecommunications Cabling
Standard
ANSI/TIA-568.1-DCommercial Building Telecommunications
Cabling Standard
ANSI/TIA Series of DocumentsANSI/TIA-568-C.2 – Balanced Twisted-Pair Cabling and Components
Specifies mechanical and transmission requirements for:• Types of cables (categories)• Connectors• Cords• Transmission performance• Permanent link and channel• Certification and field testing
ANSI/TIA-568.0-DGeneric Telecommunications Cabling
Standard
ANSI/TIA-568.1-DCommercial Building Telecommunications
Cabling Standard
ANSI/TIA Series of DocumentsANSI/TIA-568-C.3 – Optical Fiber Cabling and Components
Specifies mechanical and transmission requirements for:• Types of cables (classifications)• Connectors• Cassettes• Cords• Wavelength specification• Attenuation• Bandwidth
ANSI/TIA-568.1-DCommercial Building Telecommunications
Cabling Standard
ANSI/TIA-568.0-DGeneric Telecommunications Cabling
Standard
Topology Model – ANSI/TIA-568-0.DGeneric Model
Topology Model – ANSI/TIA 568-1.D
Copper Performance – ANSI/TIA 568-C• 4 Performance Categories
– Category 3 : 16Mhz
– Category 5e : 100Mhz
– Category 6 : 250 Mhz
– Category 6A : 500Mhz Horizontal Cable Return Loss
Minimum Horizontal Cable Return Loss
Frequency (MHz)
ReturnLoss
Category 3 1 f 16 n/s
Category 5e1 f < 1010 f < 2020 f 100
20+5log ( f )2525-7log ( f /20)
Category 61 f < 1010 f < 2020 f 250
20+5log ( f )2525-7log ( f /20)
Category 6A1 f < 1010 f < 2020 f 500
20+5log ( f )2525-7log ( f /20)
Frequency(MHz)
Category 3(dB)
Category 5e(dB)
Category 6(dB)
Category 6A(dB)
1.00 n/s 20.0 20.0 20.0
4.00 n/s 23.0 23.0 23.0
8.00 n/s 24.5 24.5 24.5
10.00 n/s 25.0 25.0 25.0
16.00 n/s 25.0 25.0 25.0
20.00 − 25.0 25.0 25.0
25.00 − 24.3 24.3 24.3
31.25 − 23.6 23.6 23.6
62.50 − 21.5 21.5 21.5
100.00 − 20.1 20.1 20.1
200.00 − − 18.0 18.0
250.00 − − 17.3 17.3
300.00 − − − 16.8
400.00 − − − 15.9
500.00 − − − 15.2
Fiber Performance – ANSI/TIA 568-C• 5* Performance Categories
– OM1: 62.5 micron
– OM2: 50 micron
– OM3: 50 micron LO
– OS1: SM
– OS2: SM ZWP
*OM4 recognized by TIA in 2009 TIA-492-AAAD
Optical fiber and cable type 2 Wavelength(nm)
Maximum attenuation (dB/km)
Minimum overfilled modal bandwidth-length product(MHz⋅km) 1
Minimum effective modal bandwidth-length product (MHz⋅km) 1
62.5/125 µm MultimodeTIA 492AAAA (OM1)
8501300
3.51.5
200500
Not RequiredNot Required
50/125 µm MultimodeTIA 492AAAB (OM2)
8501300
3.51.5
500500
Not RequiredNot Required
850 nm Laser-Optimized50/125 µm MultimodeTIA 492AAAC (OM3)
8501300
3.51.5
1500500
2000Not Required
Single-modeIndoor-Outdoor TIA 492CAAA (OS1)TIA 492CAAB (OS2)3
13101550
0.50.5
N/A N/A
Single-modeInside PlantTIA 492CAAA (OS1) TIA 492CAAB (OS2)3
13101550
1.01.0
N/A N/A
Single-mode : Outside PlantTIA 492CAAA (OS1) TIA 492CAAB (OS2)3
13101550
0.50.5
N/A N/A
NOTES1 - The bandwidth-length product, as measured by the fiber manufacturer, can be used to demonstrate compliance with this requirement.2 - The fiber designation (OM1, OM2, OM3, OS1 and OS2) corresponds to the designation of ISO/IEC 11801 or ISO/IEC 24702.3 - OS2 is commonly referred to as “low water peak” single-mode fiber and is characterized by having a low attenuation coefficient in the vicinity of 1383 nm.
Cable Performance – ANSI/TIA 568-0.D• New 2015 revised document recognizes the following cables
– 100 ohm Balanced Twisted Pair Cable, Cat 5e or higher• Defined in ANSI/TIA-568-C.2 document• Cat 3 not recognized
– Multimode fiber optic cable, minimum 2 strands, OM3 or higher• Defined on ANSI/TIA-568-C.3
– Singlemode fiber optic cable, minimum 2 strands• Defined on ANSI/TIA-568-C.3
– Broadband Coaxial Cable• Defined on ANSI/TIA-568-C.4
Cabling Standard ISO/IEC• ISO based in Geneva Switzerland• IEC- International Electrotechnical Committee• The Joint Technical Committee (JTC1) of ISO and IEC develops cabling
standards for the global marketplace• Subcommittee 25, Working Group 3 (JTC1/SC25/WG3)• Basic premises cabling standard - ISO/IEC 11801 Edition 2.2 2011,
Information Technology – Generic Cabling for Customer Premises:– Structure and minimum configuration for generic cabling– Interfaces at the telecommunications outlet (TO)– Performance requirements for individual cabling links and channels– Implementation requirements and options– Performance requirements for cabling components required for the
maximum distances specified in this standard***– Channel and link testing parameters (details in ISO/IEC 14763)
ISO/IEC Process Model
Component Groups
End-to-EndCabling
Systems
ApplicationGroups
ISO/IEC SC25 WG3Customer Premises Cabling
CENELECTC’s
CISPR-IEMC
ITU-T IEEE 802 ISO/IEC
IEC SC86Optical Comps
IEC SC48Cu Connectors
IEC SC46Cu Cables
Related Standards – ISO/IEC• ISO/IEC 15018 – Residential Standard• ISO/IEC 24702 – Industrial Premises• ISO/IEC 24704 – Customer premises cabling for WAP’s• ISO/IEC 24746 – Midspan PoE Standard• ISO/IEC 14763–x Planning, Installation and testing of cabling systems• ISO/IEC 24764 – Generic Cabling for the Data Center• ISO/IEC TR 29106 – Introduction to the MICE environmental classification• ISO/IEC 30129 – Telecommunications bonding networks for
buildings and other structures• ISO/IEC 11801-9901 - Guidance for balanced cabling in support of at least 40 Gbit/s
Component Spec References – ISO/IEC• IEC 60603-7* – Detail specification for 8-way, shielded, free and fixed connectors,
for data transmissions with frequencies up to 2000 MHz • IEC 60512-99-001:2012 – Test schedule for engaging and separating connectors under
electrical load - Connectors used in twisted pair communication cabling with remote power• IEC 61076-3-110 – Connector industrial 1000 MHz• IEC 61156-5 – Cable horizontal 600 MHz• IEC 61156-5-1 – Cable horizontal 1000 MHz• IEC 61156-6 – Cable Work Area A 600 MHz• IEC 61156-6-1 – Cable Work Area 1000 MHz• IEC 61156-7 – Cable horizontal 1200 MHz• IEC 61156-8 – Cable Work Area 1200 MHz• IEC 61935-1 – Testing horizontal cabling• IEC 61935-2 – Testing patch cords and Work Area cords
And Many Others!
And Many Others!
ISO/IEC Topology Model
CD Campus DistributorBD Building DistributorFD Floor DistributorCP Connection PointTO Telecommunication Outlet
Cabling Standards – ISO/IEC• Balanced Cabling Channel Performance Classes
– Class A: up to 100 kHz using elements Category 1 – Reference Only– Class B: up to 1 MHz using elements Category 2 – Reference Only– Class C: up to 16 MHz using elements Category 3 – Low Speed BB Only– Class D: up to 100 MHz using elements Category 5e– Class E: up to 250 MHz using elements Category 6– Class EA: up to 500 MHz using elements Category 6A – Class F: up to 600 MHz using elements Category 7– Class FA: up to 1000 MHz using elements Category 7A
Cabling Standards – ISO/IEC• Fiber Classes
– OM1: Multimode fiber type 62.5 µm core; minimum modal bandwidth of 200 MHz*km at 850 nm Retrofit existing installations only!
– OM2: Multimode fiber type 50 µm core; minimum modal bandwidth of 500 MHz*km at 850 nm Retrofit existing installations only!
– OM3: Multimode fiber type 50 µm core; minimum modal bandwidth of 2000 MHz*km at 850 nm– OM4: Multimode fiber type 50 µm core; minimum modal bandwidth of 4700 MHz*km at 850 nm– OS1: Singlemode fiber type 1db/km attenuation– OS2: Outside plant Single-mode fiber specification .4db/km attenuation
• OS2 fiber is manufactured in accordance with ITU-T G.652D, and IEC B1.3 SM fiber standardsto reduce or eliminate water absorption loss in the 1383 spectral region, (the water peak)
• Phenomenon related to the absorption of OH ions during the manufacturing process
ANSI/TIA vs. ISO/IEC • In TIA everything is specified by “CATEGORY”• In ISO components (i.e. cables, connecting hardware, and patch cords)
are specified by “CATEGORY” however LINKS and CHANNELS by “CLASS”
Frequency Bandwidth TIA (Components) TIA (Cabling) ISO (Components) ISO (Cabling)1-100 MHz Category 5e Category 5e Category 5e Class D1-250 MHz Category 6 Category 6 Category 6 Class E1-500 MHz Category 6A Category 6A Category 6A Class EA
1-600 MHz n/s n/s Category 7 Class F1-1000 MHz n/s n/s Category 7A Class FA
Tying it All Together TIA-ISO-IEEESystem Performance of ISO and TIA standards are the same in terms of frequencyand application. No IEEE Ethernet applications defined beyond 10GBase-T.40GBase-T is the IEEE ‘Next Generation’ application under development.
Frequency Distance Equipment Interface100 Mhz 100 m Cat 5 Class C RJ45 Up to 100Base-T
100 MHz 100 m Category 5e Class D RJ45 Up to 1000Base-T
250 MHz 100 m Category 6 Class E RJ45 Up to 1000Base-T
500 MHz 100 m Category 6A Class Ea RJ45 Up to 10GBase-T
600 MHz 100 m Not Recognized Cat 7/Class F Not on equipment Up to 10GBase-T
1 GHz 100 m Not Recognized Cat 7A/Class FA Not on equipment Up to 10GBase-T
2 GHz 30m Cat 8 Class I/II RJ45 as currently defined 25/40GBASE-T
TIA vs. ISO Cat 5e and Cat 6 Effectively The Same
• ISO and TIA performance requirements are nearly identical for Cat 5e. The same applies for Cat 6.
• Though Cat 6 is good to 250MHz, the limits at 100MHz are listed to show improvement over Cat 5e.
ParameterTIA Cat 5e
(ISO Class D) Channel (dB)
TIA Cat 6 (ISO Class E) Channel
(dB)Insertion Loss 24 21.3 (21.7)Return Loss 10 12
NEXT 30.1 39.9PSNEXT 27.1 37.1
ACRF (ELFEXT) 17.4 23.3PSACRF
(PSELFEXT) 14.4 20.3
Key Differentiator!Component Specs Cat 6A NEXT @500MHz
Connecting Hardware Parameter
TIA Cat 6A Component
(dB)
ISO Cat 6A Component (dB)
Insertion Loss .45 .45
Return Loss 14 14
NEXT 34 37
FEXT 29.1 29.1
TCL/TCTL 14 14
PSANEXT 56.5 56.5
PSAACRF (PSAELFEXT) 53 53
• ISO 11801 NEXT component limits are more stringent than TIA, however both exceed what IEEE requires for 10GbE applications.
Key Differentiator!Crosstalk Channel Specs for Cat 6A
• ISO 11801 internal crosstalk channel limits are more stringent than TIA, however both exceed what IEEE requires for 10GbE applications.
Channel ParameterTIA Cat 6A
Channel (dB)ISO Class EA
Channel (dB)
Insertion Loss 49.3 49.3
Return Loss 6 8
NEXT 26.1 27.9
PSNEXT 23.2 24.8
ACRF (ELFEXT) 9.3 11.5
PSACRF (PSELFEXT) 6.3 8.5
PSANEXT 49.5 49.5
PSAACRF (PSAELFEXT) 23 23
Key Differentiator!ISO/IEC Defines Category 7 and 7A Components• ISO/IEC defines Class F (Cat 7) and Class FA (Cat 7A) transmission up to 600
MHz and 1000 MHz respectively.
• “Category” 7/7A is used to describe component performance,while “Class” F/FA is used for channel performance parameters.
• The cable and connectivity is fully shielded.
• The RJ Compatible IEC IEC60603-3-82 jack will accept an RJ45 patch cord for Cat 6a performance but will meet Cat 7a when mated with an IEC IEC61076-3-110 patch cord. GG45
• The non RJ style, open standard IEC 61076-3-104 is one possible jack/plug interface. Need adapter cords for RJ45 downward compatibility. TERA
• No defined equipment interface or protocol for this
Cat 7/7A IEC60603-7-71
Cat 7/7A IEC61076-3-104
Standards under Development IEEE P802.3bq 25/40GBase-T?
• Support for 25/40 Gbps over balanced twisted pair cable
• Support full duplex operation
• 25GBase-T/1.25 Ghz, 40GBase-T 2.0 Ghz
• Preserve the 802.3 / Ethernet frame format
• Support a BER better than or equal to 10-12
• Support Auto-Negotiation
• Support Energy Efficient Ethernet (EEE)
• Support typical structured cabling topologies (RJ45)
• Data Center Server to switch connections
• Ratification 2016
Standards under Development Category 8 Copper
• Both TIA and ISO are working on cabling standards to support IEEE 25/40GBase-T , 25/40Gbps over balanced twisted pair
• What is known today:– Will be a 30 meter channel, NOT 100 meters– Designed for EOR/MOR data center connectivity.– Performance will be based on a two connector channel model– Will be standardized on shielded cabling components, NOT U/UTP– Will define support for both RJ45 style (8.1/Class I) and non RJ style
(8.2/Class II) connectors
• Target ratification by TIA is 2016• ISO/IEC to ratify Cat 8 (Class I and II) standards in 2016 as well
Connecting Hardware Cat 8.1Interface Options Under Consideration• CLASS I (Cat 8.1): RJ-45
– Globally recognized and adopted– Backwards compatible with auto-negotiation– Standards bodies approved, robust and time tested– Power over Ethernet PoE, PoE+ and 4-Pair PoE compatible– Will also support 25GBase-T– Shielded Cable and Connectivity required– User familiarity
Connecting Hardware Cat 8.2Interface Options Under Consideration• CLASS II (Cat 8.2): Non-RJ
– Not fully backwards compatible, requires hybrid cables– Not available on active gear equipment today– Currently only ISO/IEC standards recognize CLASS II– Limited market adoption as historic ISO Cat 7 and 7A , enhanced Class F and Fa (Not TIA)– Shielded solution– IEEE does not recognize this for equipment interfaces
TeraClass II
GG45Class II
ARJClass II
Category 8 is a Data Center Solution• Switch to Server links at the DC edge
• End of Row (EoR) & Middle of Row (MoR)
• Top of Rack (ToR)
• Switch to Switch links at the Core will remain fiber
Standards Under Development - Copper • IEEE Looking at 2.5 Gbps and 5.0 Gbps Over INSTALLED Cat 5e/Cat 6 Cabling
– Interim step to support 802.11ac (WiFi) higher throughput– Cat 6A still minimum requirement to support 10GBase-T– TIA still recommends 2 Cat 6A for each WAP in new installations– 802.3bz is the Task Group title– TIA-TSB-5021 and ISO/IEC 11801-99-04 committees looking at requirements
to certify existing cabling to meet these proposed network speeds
• IEEE 802.3bt– 4 Pair Power over Ethernet, 10GBASET support– 60 watt and 100 watt POE standards development– Concerns about heat buildup and dissipation– Requirement to increase cable rating to 75 degree C?– Low Power regulatory issues?
Standards Under Development - Fiber • 25Gbps over two strands of MM fiber
• Brings ability to run 100Gbps over 8 strands, same as current 40Gbps – TIA-TSB-172-A High data rate MM fiber transmission techniques
• 40Gbps over 2 strands of MM, WDM for MM fiber– Cisco BiDi- proprietary– Arista and Juniper- based on 40GBase-LR4
• OM5 Fiber– Optimized for MMWDM
• 400G....
New Standards Document Updates• Review and update to ANSI/TIA-568-C standard to 568-X.D, is partially complete
– Harmonize new high speed standards and incorporate some of the standalone standards,i.e.: Resi/DC/Industrial. 2015/2016
– Generic document (ANSI/TIA-568-0.D) and Commercial Spaces document (ANSI/TIA-568-1.D)are complete, component standards still under review (Cat 8 , POE details still pending)
• ISO/IEC also working on next revision to 11801, Revision 3.0– ISO/IEC 11801-1 – General Requirements (structure, dimensioning, channel)– ISO/IEC 11801-2 – Commercial Office Environment (unique aspects)– ISO/IEC 11801-3 – Industrial Environment (unique aspects)– ISO/IEC 11801-4 – Residential Environment (unique aspects)– ISO/IEC 11801-5 – Data Centre (unique aspects)– ISO/IEC 11801-6 – Distributed Building Services (unique aspects)
IEEE Ethernet Long and Winding Road• The “need for speed” in
network connectivity seems to have no end
• Advances in science, mathematics, engineering , technology and manufacturing will continually work to satisfy the need
• Cabling needs to keep pace as well.
Thank You!
Questions?