Common use of RTU and SCADA Inputs Clause in Contracts

RTU and SCADA Inputs. 11.1. A transmission-specific RTU is required for all transmission interconnections. In addition, a generation-specific RTU is required for TSP’s generation-specific SCADA. Generator shall marshal all their RS-485 and hardwired RTU inputs at a marshalling cabinet (interface terminal block or interface cabinet) satisfactory to TSP. Generator shall engineer, procure, construct and own the marshalling cabinet, wire to the marshalling cabinet from the various generation or Substation equipment, provide TSP with documentation identifying the location of generation or Substation SCADA points wired to the marshalling cabinet, and provide TSP with terminals at the marshalling cabinet from which to wire to the RTU. Generator shall provide a dedicated Substation DC breaker and cable sourced from a minimum 8-hour Substation battery for each RTU located at Generator’s facilities. 11.2. Prior to TSP placing the Plant or GIF in service, the transmission-specific RTU and the generation-specific RTU described here shall be operational with TSP-required RTU functions commissioned by TSP. 11.3. In addition to ERCOT Requirements, the following information shall be supplied to TSP by Generator, regardless of the size of the Substation capacity, for each Point of Interconnection and connected to TSP’s recording equipment and the transmission- specific RTU used for the transmission interconnection. If there is a conflict between the TSP requirements below and ERCOT Requirements, the ERCOT Requirements shall prevail. Inputs to the transmission-specific RTU shall be supplied from a TSP-approved interface device or hardwired. RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. i) Status Points 1) Transmission line breaker status (required for each Generator- owned transmission line) 2) Transmission line lockout relay operated (required for each Generator-owned transmission line) 3) Transmission line lockout relay failure (required for each Generator-owned transmission line) 4) IED communications failure (required for each IED sourcing a required point) 5) Battery charger trouble (required for the battery powering the RTU) 6) Battery charger AC power failure (required for the battery powering the RTU) 7) Smoke alarm (required for the structure housing the RTU) 8) Fire or high temperature alarm (required for the structure housing the RTU) ii) Analog Points from each Generator-owned transmission line shall include MW, MVAR, MVA, HZ, distance-to-fault, voltage per phase and current per phase. Analog Points from each Generator-owned transmission line breaker shall include current per phase. iii) Hourly Accumulation Points from each Generator-owned transmission line shall include MWh In, MWh Out, MVARh In, and MVARh Out. 11.4. For plants where the total generation capacity is equal to or greater than 5 MVA, a generation-specific RTU is required at the Plant or GIF for TSP’s generation-specific SCADA. A specific RTU points list will be developed by TSP as a part of each generation project based upon the project’s electrical configuration. For such purpose, Generator shall be responsible for providing TSP with metering and relaying one-line diagrams of the generation and Substation facilities. Generator shall provide TSP with a station communications drawing which is to include RTU point sources (IEDs and contacts supplying required data), interface devices, and connections to the RTU. The following points list is a comprehensive list that is not intended to be the final point list that will be designed by TSP for the Plant: i) Control Points – The following RTU inputs shall be hardwired. 1) Trip (required for one (1) or more breakers, that is, TSP-approved load-break devices, to provide TSP with the ability to trip all generation units during system emergencies) ii) Status Points – Status inputs to the generation-specific RTU shall be supplied from a TSP-approved interface device or hardwired as specified below. Status point RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. 1) Generation breaker status (hardwired for each breaker where trip control is required) 2) Circuit switcher / line switch status (“a” and “b” contacts) 3) Transformer high-side breaker status (hardwired for each breaker where trip control is required) 4) Transformer high-side motor operated switch status (“a” and “b” contacts) 5) Auxiliary breaker status 6) Collection feeder breaker status 7) Tie breaker status 8) Dynamic reactive controller (off/on) 9) Dynamic reactive controller (manual/auto) 10) Dynamic reactive controller (voltage/power factor) 11) Shunt device (capacitor and reactor) breaker/switch status 12) Supervisory cutoff (hardwired for each breaker where trip control is required) 13) Breaker failure lockout status (hardwired for each breaker where trip control is required) 14) Breaker critical alarm (required for each breaker where trip control is required, combine critical alarms for each breaker) 15) Transformer critical alarm (combine critical alarms for each transformer) 16) Transformer primary lockout relay operated 17) Transformer primary lockout relay failure 18) Transformer backup lockout relay operated 19) Transformer backup lockout relay failure 20) Generation unit automatic voltage regulator (“AVR”) status 21) Black start availability

Appears in 2 contracts

Samples: Service Agreement, Ercot Standard Generation Interconnection Agreement

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RTU and SCADA Inputs. 11.1. a) A transmission-specific RTU is required for all transmission interconnections. In addition, a generation-specific RTU is may be required for TSP’s generation-specific SCADA. Generator shall marshal all their RS-485 and hardwired RTU inputs at a marshalling cabinet (interface terminal block or interface cabinet) satisfactory to TSP. Generator shall engineer, procure, construct and own the marshalling cabinet, wire to the marshalling cabinet from the various generation or Substation equipment, provide TSP with documentation identifying the location of generation or Substation SCADA points wired to the marshalling cabinet, and provide TSP with terminals at the marshalling cabinet from which to wire to the RTU. Generator shall provide a dedicated Substation DC breaker and cable sourced from a minimum 8-hour Substation battery for each RTU located at Generator’s facilities. 11.2. b) Prior to TSP placing the Plant or GIF in service, the transmission-specific RTU and the generation-specific RTU described here shall be operational with TSP-required RTU functions commissioned by TSP. 11.3. c) In addition to ERCOT Requirements, the following information shall be supplied to TSP by Generator, regardless of the size of the Substation capacity, for each Point of Interconnection and connected to TSP’s recording equipment and the transmission- specific RTU used for the transmission interconnection. If there is a conflict between the TSP requirements below and ERCOT Requirements, the ERCOT Requirements shall prevail. Inputs to the transmission-specific RTU shall be supplied from a TSP-approved interface device or hardwired. RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. i) Status Points 1) Transmission line breaker status (required for each Generator- owned transmission line) 2) Transmission line lockout relay operated (required for each Generator-owned transmission line) 3) Transmission line lockout relay failure (required for each Generator-owned transmission line) 4) IED communications failure (required for each IED sourcing a required point) 5) Battery charger trouble (required for the battery powering the RTU) 6) Battery charger AC power failure (required for the battery powering the RTU) 7) Smoke alarm (required for the structure housing the RTU) 8) Fire or high temperature alarm (required for the structure housing the RTU) ii) Analog Points from each Generator-owned transmission line shall include MW, MVAR, MVA, HZ, distance-to-fault, voltage per phase and current per phase. Analog Points from each Generator-owned transmission line breaker shall include current per phase. iii) Hourly Accumulation Points from each Generator-owned transmission line shall include MWh In, MWh Out, MVARh In, and MVARh Out. 11.4. d) For plants where the total generation capacity is equal to or greater than 5 MVA, a generation-specific RTU is required at the Plant or GIF for TSP’s generation-specific SCADA. A specific RTU points list will be developed by TSP as a part of each generation project based upon the project’s electrical configuration. For such purpose, Generator shall be responsible for providing TSP with metering and relaying one-line diagrams of the generation and Substation facilities. Generator shall provide TSP with a station communications drawing which is to include RTU point sources (IEDs and contacts supplying required data), interface devices, and connections to the RTU. The following points list is a comprehensive list that is not intended to be the final point list that will be designed by TSP for the Plant: i) Control Points – The following RTU inputs shall be hardwired. 1) Trip (required for one (1) or more breakers, that is, TSP-approved load-break devices, to provide TSP with the ability to trip all generation units during system emergencies) ii) Status Points – Status inputs to the generation-specific RTU shall be supplied from a TSP-approved interface device or hardwired as specified below. Status point RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. 1) Generation breaker status (hardwired for each breaker where trip control is required) 2) Circuit switcher / line switch status (“a” and “b” contacts) 3) Transformer high-side breaker status (hardwired for each breaker where trip control is required) 4) Transformer high-side motor operated switch status (“a” and “b” contacts) 5) Auxiliary breaker status 6) Collection feeder breaker status 7) Tie breaker status 8) Dynamic reactive controller (off/on) 9) Dynamic reactive controller (manual/auto) 10) Dynamic reactive controller (voltage/power factor) 11) Shunt device (capacitor and reactor) breaker/switch status 12) Supervisory cutoff (hardwired for each breaker where trip control is required) 13) Breaker failure lockout status (hardwired for each breaker where trip control is required) 14) Breaker critical alarm (required for each breaker where trip control is required, combine critical alarms for each breaker) 15) Transformer critical alarm (combine critical alarms for each transformer) 16) Transformer primary lockout relay operated 17) Transformer primary lockout relay failure 18) Transformer backup lockout relay operated 19) Transformer backup lockout relay failure 20) Generation unit automatic voltage regulator (“AVR”) status 21) Black start startBlackstart availability

Appears in 1 contract

Samples: Ercot Standard Generation Interconnection Agreement

RTU and SCADA Inputs. 11.1. a) A transmission-specific RTU is required for all transmission interconnections. In addition, a generation-specific RTU is may be required for TSP’s generation-specific SCADA. Generator shall marshal all their RS-485 and hardwired RTU inputs at a marshalling cabinet (interface terminal block or interface cabinet) satisfactory to TSP. Generator shall engineer, procure, construct and own the marshalling cabinet, wire to the marshalling cabinet from the various generation or Substation equipment, provide TSP with documentation identifying the location of generation or Substation SCADA points wired to the marshalling cabinet, and provide TSP with terminals at the marshalling cabinet from which to wire to the RTU. Generator shall provide a dedicated Substation DC breaker and cable sourced from a minimum 8-hour Substation battery for each RTU located at Generator’s facilities. 11.2. b) Prior to TSP placing the Plant or GIF in service, the transmission-specific RTU and the generation-specific RTU described here shall be operational with TSP-required RTU functions commissioned by TSP. 11.3. c) In addition to ERCOT Requirements, the following information shall be supplied to TSP by Generator, regardless of the size of the Substation capacity, for each Point of Interconnection and connected to TSP’s recording equipment and the transmission- specific RTU used for the transmission interconnection. If there is a conflict between the TSP requirements below and ERCOT Requirements, the ERCOT Requirements shall prevail. Inputs to the transmission-specific RTU shall be supplied from a TSP-approved interface device or hardwired. RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. i) Status Points 1) Transmission line breaker status (required for each Generator- owned transmission line) 2) Transmission line lockout relay operated (required for each Generator-owned transmission line) 3) Transmission line lockout relay failure (required for each Generator-owned transmission line) 4) IED communications failure (required for each IED sourcing a required point) 5) Battery charger trouble (required for the battery powering the RTU) 6) Battery charger AC power failure (required for the battery powering the RTU) 7) Smoke alarm (required for the structure housing the RTU) 8) Fire or high temperature alarm (required for the structure housing the RTU) ii) Analog Points from each Generator-owned transmission line shall include MW, MVAR, MVA, HZ, distance-to-fault, voltage per phase and current per phase. Analog Points from each Generator-owned transmission line breaker shall include current per phase. iii) Hourly Accumulation Points from each Generator-owned transmission line shall include MWh In, MWh Out, MVARh In, and MVARh Out. 11.4. d) For plants where the total generation capacity is equal to or greater than 5 MVA, a generation-specific RTU is required at the Plant or GIF for TSP’s generation-specific SCADA. A specific RTU points list will be developed by TSP as a part of each generation project based upon the project’s electrical configuration. For such purpose, Generator shall be responsible for providing TSP with metering and relaying one-line diagrams of the generation and Substation facilities. Generator shall provide TSP with a station communications drawing which is to include RTU point sources (IEDs and contacts supplying required data), interface devices, and connections to the RTU. The following points list is a comprehensive list that is not intended to be the final point list that will be designed by TSP for the Plant: i) Control Points – The following RTU inputs shall be hardwired. 1) Trip (required for one (1) or more breakers, that is, TSP-approved load-break devices, to provide TSP with the ability to trip all generation units during system emergencies) ii) Status Points – Status inputs to the generation-specific RTU shall be supplied from a TSP-approved interface device or hardwired as specified below. Status point RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. 1) Generation breaker status (hardwired for each breaker where trip control is required) 2) Circuit switcher / line switch status (“a” and “b” contacts) 3) Transformer high-side breaker status (hardwired for each breaker where trip control is required) 4) Transformer high-side motor operated switch status (“a” and “b” contacts) 5) Auxiliary breaker status 6) Collection feeder breaker status 7) Tie breaker status 8) Dynamic reactive controller (off/on) 9) Dynamic reactive controller (manual/auto) 10) Dynamic reactive controller (voltage/power factor) 11) Shunt device (capacitor and reactor) breaker/switch status 12) Supervisory cutoff (hardwired for each breaker where trip control is required) 13) Breaker failure lockout status (hardwired for each breaker where trip control is required) 14) Breaker critical alarm (required for each breaker where trip control is required, combine critical alarms for each breaker) 15) Transformer critical alarm (combine critical alarms for each transformer) 16) Transformer primary lockout relay operated 17) Transformer primary lockout relay failure 18) Transformer backup lockout relay operated 19) Transformer backup lockout relay failure 20) Generation unit automatic voltage regulator (“AVR”) status 21) Black start Blackstart availability

Appears in 1 contract

Samples: Service Agreement

RTU and SCADA Inputs. 11.1. a) A transmission-specific RTU is required for all transmission interconnections. In addition, a generation-specific RTU is required for TSP’s generation-specific SCADA. Generator shall marshal all their RS-485 and hardwired RTU inputs at a marshalling cabinet (interface terminal block or interface cabinet) satisfactory to TSP. Generator shall engineer, procure, construct and own the marshalling cabinet, wire to the marshalling cabinet from the various generation or Substation equipment, provide TSP with documentation identifying the location of generation or Substation SCADA points wired to the marshalling cabinet, and provide TSP with terminals at the marshalling cabinet from which to wire to the RTU. Generator shall provide a dedicated Substation DC breaker and cable sourced from a minimum 8-hour Substation battery for each RTU located at Generator’s facilities. 11.2. b) Prior to TSP placing the Plant or GIF in service, the transmission-specific RTU and the generation-specific RTU described here shall be operational with TSP-required RTU functions commissioned by TSP. 11.3. c) In addition to ERCOT Requirements, the following information shall be supplied to TSP by Generator, regardless of the size of the Substation capacity, for each Point of Interconnection and connected to TSP’s recording equipment and the transmission- specific RTU used for the transmission interconnection. If there is a conflict between the TSP requirements below and ERCOT Requirements, the ERCOT Requirements shall prevail. Inputs to the transmission-specific RTU shall be supplied from a TSP-approved interface device or hardwired. RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. i) Status Points 1) Transmission line breaker status (required for each Generator- owned transmission line) 2) Transmission line lockout relay operated (required for each Generator-owned transmission line) 3) Transmission line lockout relay failure (required for each Generator-owned transmission line) 4) IED communications failure (required for each IED sourcing a required point) 5) Battery charger trouble (required for the battery powering the RTU) 6) Battery charger AC power failure (required for the battery powering the RTU) 7) Smoke alarm (required for the structure housing the RTU) 8) Fire or high temperature alarm (required for the structure housing the RTU) ii) Analog Points from each Generator-owned transmission line shall include MW, MVAR, MVA, HZ, distance-to-fault, voltage per phase and current per phase. Analog Points from each Generator-owned transmission line breaker shall include current per phase. iii) Hourly Accumulation Points from each Generator-owned transmission line shall include MWh In, MWh Out, MVARh In, and MVARh Out. 11.4. d) For plants where the total generation capacity is equal to or greater than 5 MVA, a generation-specific RTU is required at the Plant or GIF for TSP’s generation-specific SCADA. A specific RTU points list will be developed by TSP as a part of each generation project based upon the project’s electrical configuration. For such purpose, Generator shall be responsible for providing TSP with metering and relaying one-line diagrams of the generation and Substation facilities. Generator shall provide TSP with a station communications drawing which is to include RTU point sources (IEDs and contacts supplying required data), interface devices, and connections to the RTU. The following points list is a comprehensive list that is not intended to be the final point list that will be designed by TSP for the Plant: i) Control Points – The following RTU inputs shall be hardwired. 1) Trip (required for one (1) or more breakers, that is, TSP-approved load-break devices, to provide TSP with the ability to trip all generation units during system emergencies) ii) Status Points – Status inputs to the generation-specific RTU shall be supplied from a TSP-approved interface device or hardwired as specified below. Status point RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. 1) Generation breaker status (hardwired for each breaker where trip control is required) 2) Circuit switcher / line switch status (“a” and “b” contacts) 3) Transformer high-side breaker status (hardwired for each breaker where trip control is required) 4) Transformer high-side motor operated switch status (“a” and “b” contacts) 5) Auxiliary breaker status 6) Collection feeder breaker status 7) Tie breaker status 8) Dynamic reactive controller (off/on) 9) Dynamic reactive controller (manual/auto) 10) Dynamic reactive controller (voltage/power factor) 11) Shunt device (capacitor and reactor) breaker/switch status 12) Supervisory cutoff (hardwired for each breaker where trip control is required) 13) Breaker failure lockout status (hardwired for each breaker where trip control is required) 14) Breaker critical alarm (required for each breaker where trip control is required, combine critical alarms for each breaker) 15) Transformer critical alarm (combine critical alarms for each transformer) 16) Transformer primary lockout relay operated 17) Transformer primary lockout relay failure 18) Transformer backup lockout relay operated 19) Transformer backup lockout relay failure 20) Generation unit automatic voltage regulator (“AVR”) status 21) Black start availability

Appears in 1 contract

Samples: Standard Generation Interconnection Agreement

RTU and SCADA Inputs. 11.1. a) A transmission-specific RTU is required for all transmission interconnections. In addition, a generation-specific RTU is may be required for TSP’s generation-specific SCADA. Generator shall marshal all their RS-485 and hardwired RTU inputs at a marshalling cabinet (interface terminal block or interface cabinet) satisfactory to TSP. Generator shall engineer, procure, construct and own the marshalling cabinet, wire to the marshalling cabinet from the various generation or Substation equipment, provide TSP with documentation identifying the location of generation or Substation SCADA points wired to the marshalling cabinet, and provide TSP with terminals at the marshalling cabinet from which to wire to the RTU. Generator shall provide a dedicated Substation DC breaker and cable sourced from a minimum 8-hour Substation battery for each RTU located at Generator’s facilities. 11.2. b) Prior to TSP placing the Plant or GIF in service, the transmission-specific RTU and the generation-specific RTU described here shall be operational with TSP-required RTU functions commissioned by TSP. 11.3. c) In addition to ERCOT Requirements, the following information shall be supplied to TSP by Generator, regardless of the size of the Substation capacity, for each Point of Interconnection and connected to TSP’s recording equipment and the transmission- specific RTU used for the transmission interconnection. If there is a conflict between the TSP requirements below and ERCOT Requirements, the ERCOT Requirements shall prevail. Inputs to the transmission-specific RTU shall be supplied from a TSP-approved interface device or hardwired. RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. i) Status Points 1) Transmission line breaker status (required for each Generator- owned transmission line) 2) Transmission line lockout relay operated (required for each Generator-owned transmission line) 3) Transmission line lockout relay failure (required for each Generator-owned transmission line) 4) IED communications failure (required for each IED sourcing a required point) 5) Battery charger trouble (required for the battery powering the RTU) 6) Battery charger AC power failure (required for the battery powering the RTU) 7) Smoke alarm (required for the structure housing the RTU) 8) Fire or high temperature alarm (required for the structure housing the RTU) ii) Analog Points from each Generator-owned transmission line shall include MW, MVAR, MVA, HZ, distance-to-fault, voltage per phase and current per phase. Analog Points from each Generator-owned transmission line breaker shall include current per phase. iii) Hourly Accumulation Points from each Generator-owned transmission line shall include MWh In, MWh Out, MVARh In, and MVARh Out. 11.4. d) For plants where the total generation capacity is equal to or greater than 5 MVA, a generation-specific RTU is required at the Plant or GIF for TSP’s generation-specific SCADA. A specific RTU points list will be developed by TSP as a part of each generation project based upon the project’s electrical configuration. For such purpose, Generator shall be responsible for providing TSP with metering and relaying one-line diagrams of the generation and Substation facilities. Generator shall provide TSP with a station communications drawing which is to include RTU point sources (IEDs and contacts supplying required data), interface devices, and connections to the RTU. The following points list is a comprehensive list that is not intended to be the final point list that will be designed by TSP for the Plant: i) Control Points – The following RTU inputs shall be hardwired. 1) Trip (required for one (1) or more breakers, that is, TSP-approved load-break devices, to provide TSP with the ability to trip all generation units during system emergencies) ii) Status Points – Status inputs to the generation-specific RTU shall be supplied from a TSP-approved interface device or hardwired as specified below. Status point RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. 1) Generation breaker status (hardwired for each breaker where trip control is required) 2) Circuit switcher / line switch status (“a” and “b” contacts) 3) Transformer high-side breaker status (hardwired for each breaker where trip control is required) 4) Transformer high-side motor operated switch status (“a” and “b” contacts) 5) Auxiliary breaker status 6) Collection feeder breaker status 7) Tie breaker status 8) Dynamic reactive controller (off/on) 9) Dynamic reactive controller (manual/auto) 10) Dynamic reactive controller (voltage/power factor) 11) Shunt device (capacitor and reactor) breaker/switch status 12) Supervisory cutoff (hardwired for each breaker where trip control is required) 13) Breaker failure lockout status (hardwired for each breaker where trip control is required) 14) Breaker critical alarm (required for each breaker where trip control is required, combine critical alarms for each breaker) 15) Transformer critical alarm (combine critical alarms for each transformer) 16) Transformer primary lockout relay operated 17) Transformer primary lockout relay failure 18) Transformer backup lockout relay operated 19) Transformer backup lockout relay failure 20) Generation unit automatic voltage regulator (“AVR”) status 21) Black start availability

Appears in 1 contract

Samples: Service Agreement

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RTU and SCADA Inputs. 11.1. A transmission-specific RTU is required for all transmission interconnections. In addition, a generation-specific RTU is required at TSP’s Station for TSP’s generation- specific SCADA. Generator shall collect all TSP-required generation-specific SCADA inputs in one (1) or more Generator-owned TSP-approved interface devices in the Substation. Each TSP-approved interface device in the Substation will be directly polled by TSP’s generation-specific SCADA. Generator shall marshal all their RS-485 RTU in TSP’s Station via a dedicated fiber pair in the fiber optic cable between the Substation and hardwired RTU inputs at a marshalling cabinet (interface terminal block or interface cabinet) satisfactory to TSP. Generator shall engineer, procure, construct and own the marshalling cabinet, wire to the marshalling cabinet from the various generation or Substation equipment, provide TSP with documentation identifying the location of generation or Substation SCADA points wired to the marshalling cabinet, and provide TSP with terminals at the marshalling cabinet from which to wire to the RTU’s Station. Generator shall provide and own a dedicated Substation DC breaker and cable sourced from a minimum 8TSP-hour Substation battery for approved electrical-to-optical converter on the Substation-end of each RTU located at Generatorfiber pair sourcing generation-specific SCADA inputs to the TSP’s facilitiesgeneration-specific RTU. 11.2. Prior to TSP placing the Plant or GIF in service, the transmission-specific RTU and the generation-specific RTU described here shall be operational with TSP-required RTU functions commissioned by TSP. 11.3. In addition to ERCOT Requirements, the following information shall be supplied to TSP by Generator, regardless of the size of the Substation capacity, for each Point of Interconnection and connected to TSP’s recording equipment and the transmission- specific RTU used for the transmission interconnection. If there is a conflict between the TSP requirements below and ERCOT Requirements, the ERCOT Requirements shall prevail. Inputs to the transmission-specific RTU shall be supplied from a TSP-approved interface device or hardwired. RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. i) Status Points 1) Transmission line breaker status (required for each Generator- owned transmission line) 2) Transmission line lockout relay operated (required for each Generator-owned transmission line) 3) Transmission line lockout relay failure (required for each Generator-owned transmission line) 4) IED communications failure (required for each IED sourcing a required point) 5) Battery charger trouble (required for the battery powering the RTU) 6) Battery charger AC power failure (required for the battery powering the RTU) 7) Smoke alarm (required for the structure housing the RTU) 8) Fire or high temperature alarm (required for the structure housing the RTU) ii) Analog Points from each Generator-owned transmission line shall include MW, MVAR, MVA, HZ, distance-to-fault, voltage per phase and current per phase. Analog Points from each Generator-owned transmission line breaker shall include current per phase. iii) Hourly Accumulation Points from each Generator-owned transmission line shall include MWh In, MWh Out, MVARh In, and MVARh Out. 11.4. For plants where the total generation capacity is equal to or greater than 5 MVA, a A generation-specific RTU is required at the Plant or GIF in TSP’s Station for TSP’s generation-generation- specific SCADA. A specific RTU points list will be developed by TSP as a part of each generation project based upon the project’s electrical configuration. For such purpose, Generator shall be responsible for providing TSP with metering and relaying one-line diagrams of the generation and Substation facilities. Generator shall provide TSP with a station communications drawing which is to include RTU point sources (IEDs and contacts supplying required data), interface devices, and connections to the RTU. The following points list is a comprehensive list that is not intended to be the final point list that will be designed by TSP for the Plant: i) Control Points – The following RTU inputs shall be hardwired. 1) Trip (required for one (1) or more breakers, that is, TSP-approved load-break devices, to provide TSP with the ability to trip all generation units during system emergencies) ii) Status Points – Status inputs to the generation-specific RTU shall be supplied from a TSP-approved interface device or hardwired as specified below. Status point RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. 1) Generation breaker status (hardwired for each breaker where trip control is required) 2) Circuit switcher / line switch status (“a” and “b” contacts) 3) Transformer high-side breaker status (hardwired for each breaker where trip control is required) 4) Transformer high-side motor operated switch status (“a” and “b” contacts) 5) Auxiliary breaker status 6) Collection feeder breaker status 7) Tie breaker status 8) Dynamic reactive controller (off/on) 9) Dynamic reactive controller (manual/auto) 10) Dynamic reactive controller (voltage/power factor) 11) Shunt device (capacitor and reactor) breaker/switch status 12) Supervisory cutoff (hardwired for each breaker where trip control is required) 13) Breaker failure lockout status (hardwired for each breaker where trip control is required) 14) Breaker critical alarm (required for each breaker where trip control is required, combine critical alarms for each breaker) 15) Transformer critical alarm (combine critical alarms for each transformer) 16) Transformer primary lockout relay operated 17) Transformer primary lockout relay failure 18) Transformer backup lockout relay operated 19) Transformer backup lockout relay failure 20) Generation unit automatic voltage regulator (“AVR”) status 21) Black start availability

Appears in 1 contract

Samples: Service Agreement

RTU and SCADA Inputs. 11.1. a) A transmission-specific RTU is required for all transmission interconnections. In addition, a generation-specific RTU is may be required for TSP’s generation-specific SCADA. Generator shall marshal all their RS-485 and hardwired RTU inputs at a marshalling cabinet (interface terminal block or interface cabinet) satisfactory to TSP. Generator shall engineer, procure, construct and own the marshalling cabinet, wire to the marshalling cabinet from the various generation or Substation equipment, provide TSP with documentation identifying the location of generation or Substation SCADA points wired to the marshalling cabinet, and provide TSP with terminals at the marshalling cabinet from which to wire to the RTU. Generator shall provide a dedicated Substation DC breaker and cable sourced from a minimum 8-hour Substation battery for each RTU located at Generator’s facilities. 11.2. b) Prior to TSP placing the Plant or GIF in service, the transmission-specific RTU and the generation-specific RTU described here shall be operational with TSP-required RTU functions commissioned by TSP. 11.3. c) In addition to ERCOT Requirements, the following information shall be supplied to TSP by Generator, regardless of the size of the Substation capacity, for each Point of Interconnection and connected to TSP’s recording equipment and the transmission- specific RTU used for the transmission interconnection. If there is a conflict between the TSP requirements below and ERCOT Requirements, the ERCOT Requirements shall prevail. Inputs to the transmission-specific RTU shall be supplied from a TSP-approved interface device or hardwired. RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. i) Status Points 1) Transmission line breaker status (required for each Generator- owned transmission line) 2) Transmission line lockout relay operated (required for each Generator-owned transmission line) 3) Transmission line lockout relay failure (required for each Generator-owned transmission line) 4) IED communications failure (required for each IED sourcing a required point) 5) Battery charger trouble (required for the battery powering the RTU) 6) Battery charger AC power failure (required for the battery powering the RTU) 7) Smoke alarm (required for the structure housing the RTU) 8) Fire or high temperature alarm (required for the structure housing the RTU) ii) Analog Points from each Generator-owned transmission line shall include MW, MVAR, MVA, HZ, distance-to-fault, voltage per phase and current per phase. Analog Points from each Generator-owned transmission line breaker shall include current per phase. iii) Hourly Accumulation Points from each Generator-owned transmission line shall include MWh In, MWh Out, MVARh In, and MVARh Out. 11.4. d) For plants where the total generation capacity is equal to or greater than 5 MVA, a generation-specific RTU is required at the Plant or GIF for TSP’s generation-specific SCADA. A specific RTU points list will be developed by TSP as a part of each generation project based upon the project’s electrical configuration. For such purpose, Generator shall be responsible for providing TSP with metering and relaying one-line diagrams of the generation and Substation facilities. Generator shall provide TSP with a station communications drawing which is to include RTU point sources (IEDs and contacts supplying required data), interface devices, and connections to the RTU. The following points list is a comprehensive list that is not intended to be the final point list that will be designed by TSP for the Plant: i) Control Points – The following RTU inputs shall be hardwired. 1) Trip (required for one (1) or more breakers, that is, TSP-approved load-break devices, to provide TSP with the ability to trip all generation units during system emergencies) ii) Status Points – Status inputs to the generation-specific RTU shall be supplied from a TSP-approved interface device or hardwired as specified below. Status point RTU inputs from a TSP-approved interface device shall be RS-232 (with optical isolation) or RS-485 using DNP 3.0 protocol. 1) Generation breaker status (hardwired for each breaker where trip control is required) 2) Circuit switcher / line switch status (“a” and “b” contacts) 3) Transformer high-side breaker status (hardwired for each breaker where trip control is required) 4) Transformer high-side motor operated switch status (“a” and “b” contacts) 5) Auxiliary breaker status 6) Collection feeder breaker status 7) Tie breaker status 8) Dynamic reactive controller (off/on) 9) Dynamic reactive controller (manual/auto) 10) Dynamic reactive controller (voltage/power factor) 11) Shunt device (capacitor and reactor) breaker/switch status 12) Supervisory cutoff (hardwired for each breaker where trip control is required) 13) Breaker failure lockout status (hardwired for each breaker where trip control is required) 14) Breaker critical alarm (required for each breaker where trip control is required, combine critical alarms for each breaker) 15) Transformer critical alarm (combine critical alarms for each transformer) 16) Transformer primary lockout relay operated 17) Transformer primary lockout relay failure 18) Transformer backup lockout relay operated 19) Transformer backup lockout relay failure 20) Generation unit automatic voltage regulator (“AVR”) status 21) Black start availabilityspecified

Appears in 1 contract

Samples: Service Agreement

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