06-07-2012, 02:15 PM
Passive Optical Network
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INTRODUCTION
The PON is an access network based on Optical Fibre. It is designed to provide virtually unlimited bandwidth to the subscriber. A passive Optical network is a single, shared optical fibre that uses a passive optical splitter to divide the signal towards individual subscribers.
A typical Passive Optical Network
PON is called passive because other than at the central office there are no active element within the access network. A PON enables an service provider to deliver a true triple play offering of voice, video and data, an important component of the data offering can be IPTV.PON are getting more widespread in rollout of Fibre To The Home(FTTH) infrastructure.
A passive optical network (PON) is a system that brings optical fiber cabling and signals all or most of the way to the end user. Depending on where the PON terminates, the system can be described as fiber-to-the-curb (FTTC), fiber-to-the-building (FTTB), or fiber-to-the-home (FTTH).
A PON consists of an Optical Line Termination (OLT) at the communication company's office and a number of Optical Network Units (ONUs) near end users. Typically, up to 32 ONUs can be connected to an OLT. The passive simply describes the fact that optical transmission has no power requirements or active electronic parts once the signal is going through the network.
All PON systems have essentially the same theoretical capacity at the optical level. The limits on upstream and downstream bandwidth are set by the electrical overlay, the protocol used to allocate the capacity and manage the connection. The first PON systems that achieved significant commercial deployment had an electrical layer built on Asynchronous Transfer Mode (ATM, or "cell switching") and were called "APON." These are still being used today, although the term "broadband PON" or BPON is now applied. APON/BPON systems typically have downstream capacity of 155 Mbps or 622 Mbps, with the latter now the most common. Upstream transmission is in the form of cell bursts at 155 Mbps.
Multiple users of a PON could be allocated portions of this bandwidth. A PON could also serve as a trunk between a larger system, such as a CATV system, and a neighborhood, building, or home Ethernet network on coaxial cable.
The successor to APON/BPON is GPON, which has a variety of speed options ranging from 622 Mbps symmetrical (the same upstream/downstream capacity) to 2.5 Gbps downstream and 1.25 Gbps upstream. GPON is also based on ATM transport. GPON is the type of PON most widely deployed in today's fiber-to-the-home (FTTH) networks in new installations and is generally considered suitable for consumer broadband services for the next five to 10 years. From GPON, the future could take two branches: 1) 10 GPON would increase the speed of a single electrical broadband feed to 10G; and 2) WDM-PON would use wavelength-division multiplexing (WDM) to split each signal into 32 branches.
A rival activity to GPON is Ethernet PON (EPON), which uses Ethernet packets instead of ATM cells. EPON should be cheaper to deploy, according to supporters, but it has not garnered the level of acceptance of GPON, so it is not clear how EPON will figure in the future of broadband access.
Motivation:
The growing popularity of the Internet, IPTV, Video On Demand, Video Conferencing, Gaming are the key factors behind the development of new access method which would meet the bandwidth requirement. Access network based on copper has distance and bandwidth limitation and will start running out of capacity in near future. The access methods based on the optical fibre are getting more and more attention as they offer the ultimate solution in delivering different services to the customer premises. Due to the lack of active units in the light path the architecture of PON is simple, cost effective and offered bandwidth that is not possible to achieve by other access methods.
PON Services: PON enable users with the following services:
Digital Entertainment:
(i) IPTV
(ii) Video on Demand
(iii) Video Telephony
(iv) Audio on Demand
(v) Gaming, etc.
Broadband Data services:
(i) High Speed Internet access with bandwidth 256 kbps-100 Mbps
(ii) VoIP ( Voice Over IP)Telephony
The PON, or passive optical network, is a network structure that carries optical fiber cabling and the resulting signaling to within a short distance of the point of termination. Rather than relying on a network composed of multiple switching interfaces to carry the signal, the passive optical network employs a structure that may require not more than a couple of switch points. There may be one switch to allow a sender to jump onto the network and another switch to allow the signal to jump off the network just prior to reaching an end user. A passive optical network may be structured in several different configurations, depending on the individual application and system limitations.
There are essentially three different passive optical network configurations in common use to day. One configuration is referred to as a fiber-to-the-curb or FTTC. This application takes the signaling to a facility that is literally located outside the business or home. A connection from the end-user is run to interact with the switch and thus allow the signal to complete the journey.
A fiber-to-the-building or FTTB moves one step further in the process of terminating the signal than the FTTC manages. With this application of a passive optical network, the signal remains on the network until it enters the building. It is at that point that the signal comes off the originating network and terminates on a local area network that is connected with one or more of the businesses physically located in the building.
A third type of passive optical network is the fiber-to-the-home or FTTH. This type of network connectivity carries the signal directly into a switch co-located with the home and requires nothing more for termination than a connection to a device that is capable of receiving the transmission.
The “passive” is a passive optical network calls attention to the fact that the signaling process does not require any additional power sources in order to keep moving to the point of termination. The signal is simply passing through the network and will follow a logical flow until it reaches the end user.
When employed in a stand-alone system, a passive optical network allows for easy transmission of date to various points along the network. Each end user is allocated a fixed amount of bandwidth for both sending and receiving data. An administrator can make adjustments in the allowed amount of bandwidth, based on the total capacity of the network and the individual needs of each end user. In addition, the administrator can configure the network to connect with an outside system, such as a cable hookup or traditional phone line in order to allow the flow of data in and out of the network from outside users.
PON Architecture:
The elements of a PON are
(i)Optical Line Terminal(OLT)
(ii) Passive Optical Splitter and
(iii) Optical Network Unit(ONU).
The Optical Line Terminal is the main element of the network and is usually placed in the Local Exchange. It is a network element with PON line card, basically a aggregation switch. It works as an interface between core network and PON network.
Optical Splitter is a passive device with single input and multiple output. Optical power at input is split evenly between outputs. Not only signal travels from input to the outputs, signal can also travel from the output to the input. Splitters can be placed anywhere in between CO and Subscriber premises. It is used to connect an optical port of OLT with multiple subscribers.