Generator Interconnection Facilities Sample Clauses
The Generator Interconnection Facilities clause defines the infrastructure and equipment necessary to physically connect a power generator to the transmission or distribution grid. This typically includes items such as transformers, switchgear, and transmission lines that are constructed or upgraded to enable the generator’s output to be delivered to the grid. The clause outlines the responsibilities for building, owning, operating, and maintaining these facilities, often specifying which party bears the associated costs. Its core function is to ensure that the technical and financial aspects of interconnection are clearly allocated, thereby facilitating a reliable and efficient connection process.
Generator Interconnection Facilities. GIF include the following:
i) the Substation and all facilities within it, except for those facilities identified as being owned by TSP in Section 6 above and Section 8 below ii) the 138 kV transmission line, including structures, conductors, insulators and connecting hardware, from the Substation to the Station
Generator Interconnection Facilities. GIF include the following:
a) The facilities listed below are necessary to complete the temporary and permanent Points of Interconnection:
i) the Substation and all facilities within it, except for those facilities identified as being owned by TSP in Section 6 above and Section 8 below ii) communication facilities described in Section 9a below iii) the 138 kV transmission line, including structures, conductors, insulators and connecting hardware, from the Substation to the Station
Generator Interconnection Facilities. GIF include the following:
i) the Substation and all facilities within it, except for those facilities identified as being owned by TSP in Section 6 above and Section 8 below
ii) communication facilities described in Section 9a below
iii) optical ground wire (“OPGW”) and a redundant fiber optic cable from the Substation to the Station as referenced in Section 9.c.vii below, including, for each fiber optic cable, the fiber distribution panel (“FDP”) in the Substation and the FDP in the Station
iv) control building space to accommodate TSP’s panels for the RTU, station data repository (“SDR”), and disturbance monitoring equipment (“DME”)
v) the 138 kV transmission line, including structures, conductors, insulators, connecting hardware from the Substation to the Station
Generator Interconnection Facilities. The GIF shall include, but not be limited to, the following facilities. (See Attachment 1 to Exhibit “C”, One Line Diagram) Generator will design, construct, and own a one span single-circuit, 345 kV transmission line, including circuit conductors, OPGW and EHS static wire, from the Generator dead- end structure located in the Generator Switchyard to the TSP dead-end structure located at the POI (“Generator Transmission Line”). TSP and Generator will coordinate the point loads for all phase, OPGW and static wire attachments to the TSP dead-end structure as well as spacing and line angle. Generator will be responsible for the installation of multi-fiber fiber optic cable with 1300/1550 nm single-mode fibers, 48 fibers minimum (24 fibers per tube), to interface with the TSP Transmission Line multi-fiber fiber optic cable to be used for primary and redundant line relaying and optional SCADA communications for EPS metering information to Generator. TSP will install and own a fiber optic splice box located at the base of the TSP dead-end structure located at the POI. Generator will route its fiber optic cable to the splice box. TSP will route its fiber to the splice box and be responsible for splicing the Generator fibers to the TSP fibers. The Generator Switchyard shall include, but not be limited to, the following facilities. (See Attachment 1 to Exhibit “C”, One Line Diagram) (1 ea.) Circuit breaker, 345 kV with two sets of 3000/5, MRC800 CT’s with a TRF = 2.0 for line current differential relaying (1 lot) Switches, air break, 345 kV, gang operated, 3-phase, with provisions for TSP’s pad lock (1 lot) PT or CCVT, 345 kV, dual secondary windings as required for Generator metering and relaying (1 lot) Protective relaying equipment necessary to interface with TSP’s relaying equipment for protection of the 345 kV tap line, and related breaker failure protection schemes (1 ea.) Supervisory equipment, SCADA RTU (1 ea.) Fault Recording equipment (as required by ERCOT) (1 ea.) Phasor Measurement Unit (PMU) (as required by ERCOT) (1 lot) Multi-fiber, OPGW shield cable with 1300/1550 nm single-mode fibers, 48 fibers minimum (24 fibers per tube), to interface with the TSP Transmission Line multi- fiber fiber optic cable to be used for primary and redundant line relaying and optional supervisory control and data acquisition (“SCADA”) communications for EPS metering information to the Generator.
(1 lot) Associated structures, buswork, conductor, connectors, grounding, con...