Generator Interconnection Request Solar Generating Facility Data Generating Facility Name: Maximum Net Export Capability: MW 1. Simplified One-Line Diagram. This should be similar to Figure below. If it is different, please mark the difference on the diagram below. Interconnection Transmission Line Collector System Equivalent Main Transformer(s) Inverter Step-up Transformer PV Inverter Point of Interconnection Dynamic Reactive Device Fixed Reactive Device 2. Interconnection Transmission Line. a) Point of Interconnection (substation/line name): b) Line voltage = kV, line rating at 95F ambient = MVA, and line length c) R1 = ohm or pu on 100 MVA and line kV base (positive sequence) d) X1 = ohm or pu on 100 MVA and line kV base (positive sequence) e) B1 = F or f) R0 = ohm or pu on 100 MVA and line kV base (zero sequence) g) X0 = ohm or pu on 100 MVA and line kV base (zero sequence) h) B0 = F or miles pu on 100 MVA and line kV base (positive sequence) pu on 100 MVA and line kV base (zero sequence) 3. Main Transformer. a) Number of main transformers: Two-Winding Main Transformer Data (as applicable): b) Rating (OA/FA/FA): / / MVA c) Nominal Voltage for each winding (Low/High): / kV d) Winding Connections (Low/High): Delta or Wye / Delta or Wye e) Available fixed tap positions: / f) Positive sequence impedance Z1: g) Zero sequence impedance Z0: / / %, %, / kV X/R on self-cooled (OA) MVA rating above. X/R on self-cooled (OA) MVA rating above. Page 1 of 4 Dated: 2/9/2016 Generator Interconnection Request Solar Generating Facility Data Three-Winding Main Transformer Data (as applicable) h) GSU connection and winding (please attach diagram and mark to reference this form). H Winding Data Full load ratings (i.e. OA/FA/FA) / X Winding Data / / MVA Rated high side voltage base / kV / kV Delta or Wye connected / / Neutral solidly grounded? (or) Neutral Grounding Resistor (if applicable) / MVA kV / kV Present Tap Setting (if applicable) / MVA Delta or Wye connected Tap positions available Y Winding Data / / / Delta or Wye connected / / kV / / / kV kV kV kV Ohms Ohms Ohms kV kV kV BIL rating Three-Winding Main Transformer Impendance Data (as applicable) H-X Winding Data Transformer base for impedances provided H-Y Winding Data MVA X-Y Winding Data MVA MVA Positive sequence impedance Z1 % X/R % X/R % X/R Zero sequence impedance Z0 % X/R % X/R % X/R 4. Collector System Equivalent Model. a) Collector system voltage = kV b) Collector system equivalent model rating at 95F ambient = MVA c) R1 = ohm or pu on 100 MVA and collector kV base (positive sequence) d) X1 = ohm or pu on 100 MVA and collector kV base (positive sequence) e) B1 = F or f) R0 = ohm or pu on 100 MVA and collector kV base (zero sequence) g) X0 = ohm or pu on 100 MVA and collector kV base (zero sequence) h) B0 = F or pu on 100 MVA and collector kV base (positive sequence) pu on 100 MVA and collector kV base (zero sequence) Page 2 of 4 Dated: 2/9/2016 Generator Interconnection Request Solar Generating Facility Data 5. Inverter Step-Up Transformers. a) Number of inverter step-up transformers: Rating: MVA Two-Winding Inverter Step-Up Transformer Data (as applicable): b) Nominal Voltage for each winding (Low/High): / kV c) Winding Connections (Low/High): Delta or Wye / Delta or Wye d) Available taps: (Fixed or with LTC) e) Positive sequence impedance (Z1) %, f) Zero sequence impedance (Z0) %, X/R on MVA rating above. X/R on MVA rating above. Three-Winding Inverter Step-Up Transformer Data (as applicable) g) GSU connection and winding (please attach diagram and mark to reference this form). H Winding Data Full load ratings (i.e. OA/FA/FA) Rated high side voltage base Tap positions available Present Tap Setting (if applicable) Neutral solidly grounded? (or) Neutral Grounding Resistor (if applicable) BIL rating / X Winding Data / / MVA / / MVA kV / / / MVA kV Delta or Wye connected / Y Winding Data kV Delta or Wye connected / kV / / / Delta or Wye connected / / kV / / / kV kV kV kV Ohms Ohms Ohms kV kV kV Three-Winding Inverter Step-Up Transformer Impendance Data (as applicable) H-X Winding Data Transformer base for impedances provided H-Y Winding Data MVA X-Y Winding Data MVA MVA Positive sequence impedance Z1 % X/R % X/R % X/R Zero sequence impedance Z0 % X/R % X/R % X/R Page 3 of 4 Dated: 2/9/2016 Generator Interconnection Request Solar Generating Facility Data 6. Inverter and PV Module Data. a) Number of Inverters: b) Nameplate Rating (each Inverter): / kW/kVA c) Describe reactive capability: d) Inverter Manufacturer and Model #: e) PV Module Manufacturer and Model #: f) Provide the completed PSS/E data sheets for the generic PV library model(s). 7. Plant Reactive Power Compensation. Provide the following information for plant-level reactive compensation: Not Applicable a) Individual fixed shunt reactive device type: - Size of each: × MVA b) Dynamic reactive control device (e.g., SVC, STATCOM): c) Control range at rated MW output: Mvar (lead and lag) d) Control mode (e.g., voltage, power factor, reactive power): e) Regulation point: f) Describe the overall reactive power control strategy: g) Provide the completed PSS/E data sheets for the dynamic reactive device library model(s). 8. Short Circuit Contribution of the Generating Facility at the Point of Interconnection. a) Maximum Three Phase Fault Current: Amps and Duration: b) Maximum Single Line to Ground Fault* Current: Amps and Duration: * Single Line to Ground Fault at the Point of Interconnection with ties to utility open. 9. Harmonic Distortion of the plant at Point of Interconnection. a) Total Harmonic Current Distortion: % b) Individual harmonic currents through 49th harmonic, in % of fundamental current rating: 2nd 7th 19th 31th 43th % % % % % 3rd 11th 23th 35th 47th % % % % % 4th 13th 25th 37th 49th Page 4 of 4 % % % % % 5th 17th 29th 41th % % % % Dated: 2/9/2016