The Physical Layer Transmission Work Area provides test plans, technical documentation, and marketing papers to enable multi-vendor interoperability in deployments for both access and in-premises networks.
The focus of the PHYtx WA is to develop technical recommendations which will help service providers deploy equipment that will give a better quality of experience for their end users.
Standardized interoperability and certification, create a trusted base of equipment and services providing operators with an accelerated time to market, avoiding large investments in time and customizations. Interoperability provides invaluable intelligence as feedback to both developers and implementers of new products and services.
Scope:
Definition of test plans for access network physical layer transmission technologies (such as VDSL2 and Gfast) and Reverse Power Feeding technologies
Definition of test plans for in-premises network physical layer transmission technologies such as power line communications
Creation of best practice or use cases documentation for advanced features, such as Fiber extensions, cable models.
Projects that don’t fit under the scope of an existing Project Stream or if they fit under the scope of more than one Project Stream, are developed under the Non-PS Assigned category.
Development of technical documentation for the deployment of copper transmission technologies that extend fiber networks to end-users using existing copper infrastructure at the premises. Technologies covered include but are not limited to Gfast, G.hn and MoCA.
Development of test plans and related technical documentation for certification and performance testing of ITU-T G.fast and its associated reverse power feeding. This work may be leveraged within certification programs operated by the Broadband Forum.
Architecture and Requirements for Fiber to the Distribution Point
Through the use of G.fast and VDSL2 over short copper loops, it has become possible to provide broadband users with data rates approaching those of fiber access technologies. This capability allows service providers to provide ultra high-speed broadband service without the need to deploy fiber into the customer premises. Since the targeted copper loop lengths are typically less than 400 meters (250 meters with Reverse Power Feed), a node type that supports very deep deployment in the access network is required. This Working Text defines this node type by detailing its position(s) in the network and functional requirements. In addition, the functional requirements for reverse power feeding of this node type and its management architecture are specified.
Fiber access extension over existing copper infrastructure
Provides use cases and fiber extension architectures with its elements as a generalization that does not preclude any type of technology or deployment approach. In the annexes these architectures are mapped to the specific technologies.
This Internal Report is intended to provide a certification test plan for ITU‑T Recommendation G.9700 “Fast access to subscriber terminals (G.fast) – Power spectral density specification” and G.9701 “Fast access to subscriber terminals (G.fast) – Physical layer specification”. This IR-337 is specifically conceived for the basic interoperability objectives of the Broadband Forum G.fast Certification Program.
Technical content in this test plan includes test setup information, equipment configuration requirements, test procedures, and pass/fail requirements for each test case.
Interoperability among multiple chipsets and systems will be critical to the success of G.fast. This document defines a suite of basic physical layer tests for G.fast. The intent is to provide a structure for vendor-to-vendor interoperability tests, known as "Plugfests".
With short copper loops required by G.fast Distribution Point Units (DPUs) that push the deployment of the DPU/MDUs closer to the customer premise, local power and forward power may not be viable to cost or location. To power the DPU, power will come from the customer premises location over the copper pair; this is referred to as Reverse Power Feed (RPF).
This document specifies tests for the RPF functions of a DPU and the customer premises’ Power Supply Equipment (PSE) either as a stand-alone device or as a function integrated in a G.fast Network Termination.
Test cases are mainly specified with reference to ETSI TS 101 548 and BBF WT-301 requirements. Furthermore they are designed to ensure safe deployment of RPF equipment.
This document provides a performance test plan for ITU‑T Recommendation G.9701 “Fast access to subscriber terminals (G.fast) – Physical layer specification”. Since network architectures and deployment practices vary greatly among service providers, the network conditions (loop models, noise models, loop lengths, etc.) were selected to represent nominal conditions under which (interoperability) performance is tested. This test plan is focused on ensuring laboratory repeatability such that equipment from different vendors can be validated and compared.