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This amendment to IEEE Std 802.3 defines the physical layer specifications and management parameters for EPON operation on point-to-multipoint passive optical networks supporting extended power budget classes of PX30, PX40, PRX40, and PR40 PMDs.
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This corrigendum to IEEE Std 802.3-2015 clarifies which lane of the media dependent interface (MDI) of a multi-lane Physical Layer entity (PHY) is used as the timestamping reference point.
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"The goal of this guidebook is to provide the general readers with a high level overview of the technology and applications behind the Fiber-to-the-Home (FTTH) or Fiber-to-the-Curb (FTTC) family of standards, which has recently attracted considerable amount of interest in the technical community"--
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The system-level requirements needed to ensure service-level, multi-vendor interoperability of Ethernet Passive Optical Network (EPON) equipment is described. The existing IEEE 802.3 and IEEE 802.1 standards, which ensure the interoperability at the Physical Layer(PHY) and Data Link Layer, are complemented by the specifications. Specifically included in this specification are - EPON system-level interoperability specifications covering equipment functionality, traffic engineering, and service-level quality of service/class of service (QoS/CoS) mechanisms; - Management specifications covering equipment management, service management, and EPON power‐saving mechanism.
Passive optical networks. --- Optical communications --- Standards.
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The advent of video-on-demand and interactive gaming has prompted the deployment of broadband infrastructures. Because of its large bandwidth, Passive Optical Networks (PONs) are seen as the technology to make this happen. However, there are numerous standards and technologies - EPON, BPON, GPON, APON, WDM-PON, TDM-PON - which network providers and device manufacturers need to know of and understand when developing their products. There are no books focused specifically on the technology of PONs. This book will be the definitive reference on PON technology and their application in the future development of broadband devices and systems. A reference of this nature is ideal for professional internet application developers and those looking to burst on the scene with jobs at key billion dollar PON players such as Lucent, Mitsubishi and Samsung. The information contained in this tightly structured volume about these fun, limitless and amazingly versatile technologies will provide the aspiring entrepeneur with the knowledge and wherewithal they need to get up and running on the road to success as well. *Balances treatment of the optical technologies with systems issues such as protocols, performance, management and protection *Covers latest developments in WDM-PONS, protection switching, dynamic bandwidth allocation *Practical coverage with a chapter on PON applications and deployment *Case studies on implementing PONs
Optical communications. --- Optoelectronics. --- Passive optical networks.
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Passive optical network (PON) technologies have become an important broadband access technology as a result of the growing demand for bandwidth-hungry video-on-demand applications. Written by the leading researchers and industry experts in the field, this book provides coherent coverage of networking technologies, fiber optic transmission technologies, as well as the electronics involved in PON system development.Features:* An in-depth overview of PON technologies and the potential applications that they enable* Comprehensive review of all major PON standards and architectu
Optical communications. --- Optoelectronics. --- Passive optical networks.
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This standard specifies a suite of conformance tests for system-level requirements of Ethernet Passive Optical Network (EPON) equipment, defined in IEEE 1904.1 Package B.
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This standard specifies a suite of conformance tests for system-level requirements of Ethernet Passive Optical Network (EPON) equipment, defined in IEEE 1904.1 Package C.
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This standard describes the system-level requirements needed to ensure service-level, multi-vendor interoperability of Ethernet Passive Optical Network (EPON) equipment. The specifications complement the existing IEEE 802.3 and IEEE 802.1 standards, which ensure the interoperability at the Physical Layer (PHY) and Data Link Layer. Specifically included in this specification are- EPON system-level interoperability specifications covering equipment functionality, traffic engineering, and service-level quality of service/class of service (QoS/CoS) mechanisms;- Management specifications covering equipment management, service management, and EPON power-saving mechanism.
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