22 Fibre Way

download 22 Fibre Way

of 4

Transcript of 22 Fibre Way

  • 7/30/2019 22 Fibre Way

    1/4

    F I B R E A L L T H E W A Y

    t o p t i p s

    1

    Fibre all the wayBandwidth-hungry networks driven by high speed applications mean that more users are now demanding fibre all the way to the

    desk. Its not hard to provide either but because theres more than one implementation solution, you need to assess how best to

    meet your users needs. Fibre specialists Steve Webster and David Murray of Krone explain the options.

    Many organisations can now justify providing fibre to the desk in view of the volume of data that users need to share and process. Emerging

    applications such as design companies employing large CAD files, multimedia creation and videoconferencing are just three examples demanding

    high bandwidth. The immunity of optical fibres to electrical interference is a prime consideration where data handling takes place side by side with

    electrically noisy industrial processes. Finally, where total security of data transmission is paramount, fibre wins hands-down over other solutions

    Differing users mean different solutions

    Its no surprise then that numerous usersfrom pharmaceutical companies to aerospace firms and from design consultancies to the corridors of

    power now specify fibre to the desk or workstation. But because these installations vary widely from an environmental viewpoint, theres no

    one-size-fits-all solution and the installer must select a system relevant to the physical location under consideration.

    There are in fact four options we can currently use:

    Fibre direct to the desk or user;

    Fibre to the nearest wall outlet, with conversion to copper handled there;

    Fibre to the node of the user group, then copper to each user; and

    Hybrid fibre and copper cabling.

    Each is handled slightly differently, so lets take them in turn.

    Fibre to the desk

    In point of fact, this is the only system that truly provides fibre all the way to the desk; the other three schemes involve a copper tail and are thus

    composite solutions. The gap between the outlet and the users PC or workstation is spanned by a fibre patch cord containing a flexible glass fibre

    protected by a relatively thick plastic sheath. Generally these patch cords are fitted at either end with SC, ST or MT-RJ connectors;The MT-RJ are

    remarkably similar to the RJ-11 and RJ-45 connectors used for telephone and data cables, so to a casual glance the patch cord looks similar

    although smaller than any other data cable.The optical data outlet can be on the wall (perhaps on a pillar or trunking), in a floor box or on the

    desk (if the optical cable is wired all the way to the desk). The near end of the patch cable plugs straight onto the optical network interface card

    (NIC) in the PC and this card does the signal conversion from pulses of light to electrical data signals.

  • 7/30/2019 22 Fibre Way

    2/4

    To sum up, this is a top-end solution, employed where cost is not the key consideration. It provides high security along with high data rates (Gigabit

    and beyond) and can be used to effectively future-proof a network

    Fibre to the nearest outlet

    Here again the outlet can be on the wall or in a floor box. Optical NICs are not required (saving considerable cost) and a media converter is

    provided at the outlet (physically this is no larger than a dual-gang mains power point socket). Standard network interface cards are used in users

    PCs, with standard copper patch leads (either Cat 5e or Cat 6) between these and the media converter.

    This solution combines the intrinsic benefit of fibre close to the desk with the cost benefit of using copper NICs. It works well for 10/100Mbit/s

    Ethernet applications and provides an easy upgrade path for a complete fibre direct to the desk solution (for example shared Gigabit Ethernet) at a

    later stage. It is ideal for industrial and office installations.

    Fibre to the node of the user group

    This kind of installation is very similar to the foregoing except that the fibre is terminated on a shared media converter or hub at a convenient place

    among a group of desks, on the wall or in a floor box with copper cabling then being fed out in a local star to the surrounding desks. It has the

    same applications and advantages as the last scheme.

    Hybrid fibre and copper cabling

    This system is ideal for organisations with budget constraints but also having a clear idea of current and future needsthe ultimate upgrade path.

    Copper cables and dark fibres are installed side by side, using the same configuration layout as for a standard copper installation. When the time

    comes to light the fibre and transfer to the optical medium, new terminations are provided and the copper infrastructure can be either cut back or

    retained for voice telephony applications.

    Providing fibre as well as copper cable at the outset means the infrastructure costs are initially higher but no further backbone cabling is required,

    meaning lifetime cost of ownership is significantly lower. This is a prudent solution for the typical IT manager and is very appropriate for the anyenvironment where copper is a good solution now, but where requirements for higher data rates can be envisaged later.

    Now choose your fibre

    The selection of fibre to be used depends very much on your anticipated future use. Higher-bandwidth 50-micron core multimode fibre is fine for

    the medium term (and is being adopted more and more), although laying singlemode as well would make for an ultimately future-proofed system.

    This would be a genuine once and never again solution, ideal if you have the budget to support the investment in the active equipment

    F I B R E A L L T H E W A Y

    t o p t i p s

    2

  • 7/30/2019 22 Fibre Way

    3/4

    Out on the floor its vital not to skimp on the distribution of fibres, which can be done in similar fashion to the flood wiring used for copper cabling.

    An alternative would be to opt for blown fibre, in which plastic tubes are laid to each user location and fibres blown in as and when required. The

    latter allows flexibility for subsequent reconfiguration in the future.

    Optical cabling can be provided on either a home run or distributed basis. Home run involves taking separate fibres from each user to active

    equipment at the central comms room of the system, whereas a distributed system provides intermediate nodes with active equipment on each

    floor or in each cluster of users if necessary. Physical distance, the number of users and the grade of fibre used will influence the choice here, also

    future upgrade plans.

    Getting it rightCost is usually the deciding factor, and will determine whether fibre is taken all the way to each user or to a convenient point for shared media

    conversion. Home run systems can work out cheaper for networks with not many users but this will also depend on the building layout, distances

    involved and the degree of route diversity you wish to provide in case of damage to cables. The trade-offs for each option are often quite detailed

    and complex, meaning it makes sense to use a consultant or seek advice from one of the major manufacturers such as Krone. The details they will

    expect you to have prepared for them include:

    Size of budget for active equipment (the major element of the total cost);

    Level of security required;

    Degree of electrical interference likely to be encountered;

    Extent of future-proofing required;

    Current and future bandwidth requirements.

    In the final analysis it will boil down to an intricate table of costs and benefits and thankfully the choice of these falls usually to someone other

    than the installer!

    Further informationFibreoptic Industry Association. Premier UK industry association for fibre networking.Telephone 01763-273039, http://www.fibreoptic.org.uk/.

    BICSI.BICSI, a not-for-profit telecommunications association, is a worldwide resource for technical publications, training, conferences, and

    registration programs for low-voltage cabling distribution design and installation. BICSI has over 20,000 members residing in 85 nations. Members

    can buy the associations installation practice manual, which is the industry bible. Telephone 01206-579899, http://www.bicsi.org/

    Telecommunications Industry Association. The (American) TIA describes itself as the leading trade association in the communications and

    information technology industry. Its numerous standards documents are available for sale on line at its website, http://www.tiaonline.org/

    F I B R E A L L T H E W A Y

    t o p t i p s

    3

  • 7/30/2019 22 Fibre Way

    4/4

    F I B R E A L L T H E W A Y

    t o p t i p s

    4

    Fibre patch cable using latching MTRJ connectors. Similar to any normal data cable, although the cable and connector are in fact optical.

    In a home run system fibre cables run like spokes of a wheel, from acentral point the comms room direct to each user location.

    Distributed systems use backbone cabling to flexibility points, thenseparate cables to individual users from there on.