Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 MW Inverters Available* Seller’s system digital Up to the number installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.
Appears in 4 contracts
Samples: Power Purchase Agreement, Power Purchase Agreement, Power Purchase Agreement
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW KW Up to Capacity +-0.1 MW /-1 KW Inverters Available* Seller’s 's system digital Up to the number of installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's Model MW KW 0 to Allowed Capacity +/-0.1 MW /-1 KW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC+50°C) Power production of Facility Measured at POI MW KW +/- 0.1 mw /-10 KW Power Possible Seller’s 's Model MW KW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc./-10 KW
Appears in 3 contracts
Samples: Power Purchase Agreement, Power Purchase Agreement, Power Purchase Agreement
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Flat Panel Solar Thermal (fixed angle, roof mounted, tracking) X X Concentrated PV (flat, trough, tracking) X X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Measurement Device (typical) Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air temperature at MMS Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMS Piezoresistive transducer or equivalent mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Wind speed at MMS Anemometer, sonic device or equivalent mph 0 to 134 mph +/-1 mph Wind direction at MMS Vane, sonic device or equivalent Degrees (from True North) 360º +/-5º Set point for each inverter Reported by Seller MW 0 to inverter name plate Not applicable Power production of Facility Measured at Facility's analog transducer on Seller's side of POI MW Up to Allowed Capacity The lesser of the tolerances of the /telemetry equipment or 2% of measurement Facility power production ratio Ratio of Facility's power production (MW)/Allowed Capacity (MW) % 0 to 100% +-0.1 MW /-0.1 % Inverters Available* Seller’s system digital Available NA NA Up to the number installed inverters Facility Inverter Availability Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Possible Seller's ’s Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc./-4%
Appears in 3 contracts
Samples: Power Purchase Agreement, Power Purchase Agreement, Power Purchase Agreement
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 MW Inverters Available* Seller’s system digital Up to the number installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's ’s Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.]
Appears in 2 contracts
Samples: Energy Storage Power Purchase Agreement, Energy Storage Power Purchase Agreement
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 /-0.1 MW Inverters Available* Seller’s 's system digital Up to the number of installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw MW Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc./- 0.1 MW
Appears in 2 contracts
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Flat Panel Solar Thermal (fixed angle, roof mounted, tracking) X X Concentrated PV (flat, trough, tracking) X X X B. Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 MW Inverters Available* Seller’s system digital Up to the number installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) MMS Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) MMS Piezoresistive transducer, barometer transducer or equivalent Mbar mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Wind speed at MMS Anemometer, sonic device or equivalent mph 0 to 134 mph +/-1 mph Wind direction at MMS Vane, sonic device or equivalent Degrees (from True North) 360º +/-5º Set point for each inverter Reported by Seller MW 0 to inverter name plate Not applicable Power production of Facility Measured at Facility's analog transducers on Seller's side of POI MW -20% to 120% of Allowed Capacity The lesser of the tolerances of the communication/ telemetry equipment or 2% of measurement Facility power production ratio Ratio of Facility's power production (MW)/Allowed Capacity (MW) % 0 to 100% +/- 0.1 mw /-0.1% Inverters Available NA NA Up to the number installed inverters Facility Inverter Availability Ratio of inverters online/number of inverters % 0 to 100% Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.MW
Appears in 2 contracts
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW KW Up to Capacity +-0.1 MW -1 KW Inverters Available* Seller’s system digital Up to the number installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's Model MW KW 0 to Allowed Capacity +/-0.1 MW /-1 KW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW KW +/- 0.1 mw 10 KW Power Possible Seller’s Model MW KW 0 to 120% of Allowed Capacity +/0.1 MW /10 KW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.
Appears in 2 contracts
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 /-0.1 MW Inverters Available* Seller’s system digital Up to the number installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's ’s Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw MW Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 /- 0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.]
Appears in 2 contracts
Samples: Energy Storage Power Purchase Agreement, Energy Storage Power Purchase Agreement
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Flat Panel Solar Thermal (fixed angle, roof mounted, tracking) X X Concentrated PV (flat, trough, tracking) X X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Measurement Device (typical) Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air temperature at MMS Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMS Piezoresistive transducer or equivalent mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Wind speed at MMS Anemometer, sonic device or equivalent mph 0 to 134 mph +/-1 mph Wind direction at MMS Vane, sonic device or equivalent Degrees (from True North) 360º +/-5º Set point for each inverter Reported by Seller MW 0 to inverter name plate Not applicable Power production of Facility Measured at Facility's analog transducer on Seller's side of POI MW Up to Allowed Capacity The lesser of the tolerances of the /telemetry equipment or 2% of measurement Facility power production ratio Ratio of Facility's power production (MW)/Allowed Capacity (MW) % 0 to 100% +-0.1 MW /-0.1 % Inverters Available* Seller’s system digital Available NA NA Up to the number installed inverters Facility Inverter Availability Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Possible Seller's ’s Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc./-4%
Appears in 2 contracts
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Flat Panel Solar Thermal (fixed angle, roof mounted, tracking) X X Concentrated PV (flat, trough, tracking) X X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Measurement Device (typical) Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air temperature at MMS Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMS Piezoresistive transducer or equivalent mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Wind speed at MMS Anemometer, sonic device or equivalent mph 0 to 134 mph +/-1 mph Wind direction at MMS Vane, sonic device or equivalent Degrees (from True North) 360º +/-5º Set point for each inverter Reported by Seller MW 0 to inverter name plate Not applicable Power production of Facility Measured at Facility's equipment on Seller's side of POI MW Up to Allowed Capacity The lesser of the tolerances of the communication/ telemetry equipment or 2% of measurement Facility power production ratio Ratio of Facility's power production (MW)/Allowed Capacity (MW) % 0 to 100% +-0.1 MW /-0.1% Inverters Available* Seller’s system digital Available NA NA Up to the number installed inverters Facility Inverter Availability Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Possible Seller's ’s Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.MW
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Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements measurement for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Flat Panel Solar Thermal (fixed angle, roof mounted, tracking) X X Concentrated PV (flat, trough, tracking) X X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Measurement Device (typical) Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 MW Inverters Available* Seller’s system digital Up to the number installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) MMS Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) MMS Piezoresistive transducer, barometer transducer or equivalent Mbar mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Wind speed at MMS Anemometer, sonic device or equivalent mph 0 to 134 mph +/-1 mph Wind direction at MMS Vane, sonic device or equivalent Degrees (from True North) 360º +/-5º Set point for each inverter Reported by Seller MW 0 to inverter name plate Not applicable Power production of Facility Measured at Facility's analog transducer on Seller's side of POI MW +/- 0.1 mw Power Possible Seller’s Model MW Up to Allowed Capacity Per communication /telemetry requirements or 2% of measurement Facility power production ratio Ratio of Facility's power production (MW)/Allowed Capacity (MW) % 0 to 120100% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available /-0.1 % inverters Available NA NA Up to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) number installed inverters Facility inverter Availability Ratio of inverters Online/Number of inverters % 0 to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.100%
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Samples: Power Purchase Agreement
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 /-0.1 MW Inverters Available* Seller’s Subscriber Organization's system digital Up to the number of installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* SellerSubscriber Organization's Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw MW Power Possible SellerSubscriber Organization’s Model MW 0 to 120% of Allowed Capacity +/0.1 /- 0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller Subscriber Organization shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller Subscriber Organization shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.
Appears in 1 contract
Samples: Power Purchase Agreement
Units and Accuracy. [For PV] The Table below shows minimum required solar irradiance measurements for various types of solar generation technology. [DRAFTING NOTE: VALUES NEED TO BE INSERTED INTO TABLE.] This value may not be derived. Solar Technology Direct Normal Irradiance Global Irradiance (GHI) Plane of Array Irradiance (POA) Flat Plate (fixed horizontal, fixed angle, tracking, roof mounted) X X Units and accuracy of measured parameters to be provided to Company in real time shall be as shown in the Table below. These represent the minimum required accuracies. Table of Units and Accuracy of Meteorological and Production Data (PV) Parameter Data Source Unit Range Accuracy Global Horizontal Irradiance at MMS Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Plane of Array Irradiance on same axis as array Pyranometer or equivalent W/m2 0 to 1500 W/m2 Secondary standard per ISO 9060 or <= 3% from 100 W/m2 to 1500 W/m2 if using a PV Reference Cell Back of Panel temperature at array height Temperature probe ºC -20 to +50 ºC +/-1 ºC Power production of Facility Measured at POI MW Up to Capacity +-0.1 MW Inverters Available* Seller’s system digital Up to the number installed inverters Ratio of inverters online/number of inverters % 0 to 100% Power Possible* Seller's Model MW 0 to Allowed Capacity +/-0.1 MW Table of Units and Accuracy of Meteorological and Production Data (Wind) Parameter Data Source Unit Range Accuracy Wind speed at MMT (hub height) Cup or sonic anemometer Mph 0 to 134 mph +/-1 mph Wind direction at MMT (hub height) Vane, sonic device or equivalent Degrees (from True North) 360° +/-5° Ambient air temperature at MMT (hub height) Temperature probe ºC -20 to +50 ºC +/-1 ºC Ambient air pressure at MMT (hub height) Piezoresistive transducer, barometer or equivalent Mbar 150 to 1150 mbar +/-60 mbar (0 to +50ºC) Power production of Facility Measured at POI MW +/- 0.1 mw Power Possible Seller’s Model MW 0 to 120% of Allowed Capacity +/0.1 MW Status of Generating Equipment: For each inverter, or wind turbine, Seller shall provide to Company, via SCADA communication and protocol acceptable to Company at a continuous scan updated not less frequently than every 2 seconds, a signal as to whether such inverter is available or unavailable, and on or offline. Data Collection. [NOTE COMPANY TO UPDATE REQUIREMENTS; WILL BE SPECIFIC TO FACILITY EQUIPMENT AND RESOURCE TYPE] High Resolution Data: Seller shall install and make available to the Company time stamped and sequential data recordings for all inverter-based resources (and all generating resources) to perform event analysis and verify Facility performance during steady state and transient disturbance events. This will include a time-synchronized phasor measurement unit at the Facility, and access to multiple sources to provide sufficient clarity as to any abnormal response or behavior within the Facility, including Facility control settings and static values, SCADA xxxx, xxxxxxxx of events recording (SER) data, dynamic disturbance recorder (DDR) data, and inverter fault codes and inverter-level dynamic recordings. This data will be used to review the Facility response to system dynamics, such as the frequency response (normal droop and FFR), reactive response, etc.MW
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Samples: www.hawaiianelectric.com