Sub-Loop for Multiunit Premises Access Clause Samples
The Sub-Loop for Multiunit Premises Access clause establishes the terms under which telecommunications providers can access the internal wiring of multiunit buildings, such as apartment complexes, to connect individual units to their networks. This clause typically outlines the rights of access, the responsibilities for maintaining or upgrading wiring, and any coordination required with building owners or managers. Its core function is to ensure that residents of multiunit premises have fair and non-discriminatory access to telecommunications services, addressing potential barriers to competition and service availability within such buildings.
Sub-Loop for Multiunit Premises Access. Any portion of a Loop that is technically feasible to access at a terminal in Verizon’s outside plant at or near a multiunit premises. It is not technically feasible to access a portion of a Loop at a terminal in Verizon’s outside plant at or near a multiunit premises if a technician must access the facility by removing a splice case to reach the wiring within the cable.
Sub-Loop for Multiunit Premises Access. Any portion of a Loop, other than a FTTH Loop, that is technically feasible to access at a terminal in Verizon’s outside plant at or near a multiunit premises. It is not technically feasible to access a portion of a Loop at a terminal in Verizon’s outside plant at or near a multiunit premises if a technician must access the facility by removing a splice case to reach the wiring within the cable. A point of technically feasible access is any point in the Verizon’s outside plant at or near a multiunit premises where a technician can access the wire or fiber within the cable without removing a splice case to reach the wire or fiber within to access the wiring in the multiunit premises. Such points include, but are not limited to, a pole or pedestal, the network interface device, the minimum point of entry (“MPOE”), the single point of interconnection, and the feeder/distribution interface.