Friday, March 6, 2009

GEPON/EPON

EPON (Ethernet Passive Optical Networks) or GEPON (Gigabit Ethernet Passive Optical Networks), also known as Ethernet PON is an IEEE/EFM standard for using Ethernet for packet data, as defined in IEEE 802.3ah. It defines how Ethernet can be transmitted over new media types and in our context point to multipoint fiber.

EPON/GEPON is a fast Ethernet over passive optical networks which are point to multipoint fiber to the premises (FTTP)/fiber to the home (FTTH) architecture in which single optical fiber is used to serve multiple premises or users. A ‘PON’ architecture consists of an Optical Line Termination (OLT) on the provider’s side and one or many Optical Network Units (ONU) on the users’ side. This type of architecture is always better than the point to point ones. These are fast replacing existing technologies as DSL or cable modems as EPON/GEPON are capable of providing bandwidths of up to 1 gigabit and beyond and also serve multiple purposes at a time.

GEPON or EPON has been deployed widely in Japan and provides for a symmetrical 1.0 Gbps data rate in both directions, upstream and downstream and is fast gaining momentum across the globe for obvious advantages for both providers and users alike. GEPON’s biggest advantage is its use of native Ethernet protocols. Also the economics of scale associated with Ethernet components such as optical interfaces, adds to it.

GEPON or EPON provides seamless connectivity for any type of IP-based or other packetized (Ethernet) communications as it employs a single Layer 2 network that uses IP to carry data, voice, and video. Since Ethernet devices are present everywhere from home network to regional, national and worldwide backbone networks, implementation of EPONs has proved to be cost-effective. Also it provides secure communication as encryption is provided in both ends i.e. upstream and downstream, so the chances of eavesdropping fade away. As the transfer rates in Ethernet scale up by the day the scalability of EPON/GEPON is limitless and so is the flexibility of ADNET GEPON devices where we have a variety of products to choose from.

Of the many advantages to offer some are worth to notice, With the GEPON/EPON standard, there is no limit on the number of ONUs, remember these are the units on the users’ side.

GEPON/EPON requires a single management system, which means GEPON/EPON results in a significantly lower total cost of ownership. EPON also does not require multi-protocol conversions. 

Wednesday, March 4, 2009

FTTx Network Basics

The FTTx architecture consists of a passive optical network (PON) that allows several customers to share the same connection, without any active components (i.e., components that generate or transform light through optical-electrical-optical conversion).

A feeder fiber is brought from an optical line terminal (
OLT) in the CO to a fiber distribution hub (FDH) near a group of customers. From that point, a passive splitter is used to typically connect up to 32 or 64 customers to the same feeder fiber. Then, each customer premises is provided with an optical network terminal (ONT) connected to each splitter branch. This point-to-multipoint architecture dramatically reduces network installation, management, and maintenance costs as shown by the figure below.



The OLT provides voice and data downstream transmission using a 1490-nm wavelength band, while the ONT provides upstream transmission with a 1310-nm wavelength band, allowing for bidirectional transmission on the same fiber without the signals interfering with one another.

In addition, the OLT may be connected to a wavelength-division multiplexing (WDM) coupler to provide video together with voice and data (triple-play) services over a single fiber. The video is provided in the downstream direction only, usually in a 1550-nm wavelength band (traditional analog video).

Coppers vs Fiber Optics

There is little point in doing a systematic comparison os coppers vs fibers. Fiber is clearly the superior transmission medium. Copper technologies continue to exist primarily based on the availability of existing copper plant. The development of singlemode optical fiber with its nearly unlimited bandwith has unlocked the possibilities for massive deployment of long-haul and metro point-to-point (P2P) fiber optic networks resulting in 3 important changes:
  • Huge capacity increases
  • Substantial cost reductions in equipments, operations and maintenance
  • Significant improved quality of services (QoS)
FTTH Architectures

Active and passive are two commonly used FTTH architectures for FTTH deployment. Active Architecture is also called as Point to Point(P2P) and Passive Optical Network (PON) architecture is called Point to Multi Point(P2M). Choice of active or passive architectures for deployment depends on the type of services to be delivered, cost of the infrastructure, current infrastructure and future plans for migrating to the new technologies.

Saturday, February 14, 2009

Triple Play

As a solution to the user pressures, the favored service offering for broadband today, whether DSL cable or FTTx is a standard mix of traffic types referred to as triple play. The three traffic components are:

  • bidirectional voice bit streams
  • video (unidirectional and usually analog up to now)
  • bidirectional high-speed data




Today it may be difficult to imagine why this categorization does not cover every foreseeable contingency, but if new classes or subclasses of traffic evolve, the huge bandwidth and the protocol and format transparency of fiber will accommodate them gracefully. It seems likely that the first addition to the present mix will be to make the video component bidirectional.

Until now, DSL cable still dominanted the service but in the future FTTH or fiber to the home will take place and actually in certain places like US, Japan and Korea was already deploys FTTH or fiber to the home.

IP video
  • IPTV
  • video-on-demand (VoD)
  • video conferencing
  • streaming video

Voice Services (i.e., regular telephone service (POTS)
  • Single or multiple phone lines

Data Services
  • High-speed InternetLegacy data to corporate customers
  • Private lines
  • Frame relay
  • ATM connections
  • Interactive gaming
  • Monitoring and security systems
  • Future serv