Revenue Metering

1. Revenue Metering

2. $ Gather and Process Metering Data Invoice Participants Transfer Funds Reconcile Markets The Settlements Process

3. MV-90 MV-STAR MV-WEB Metering data collected;VEE performed Data stored; Losses applied; Data totalized to delivery point Metering databaseaccessed; PAD submitted Processing Metering Data

4. Metering Installation Metering Data Data Data Collection Totalization (including Data Adjustment) Settlement- VEE Physical Ready Allocation Data Data Processing Revenue Metering Data

5. Metered Market Participant (MMP) IMO Revenue Metering:Roles and Responsibilities Metering Service Provider (MSP) • Collects metering data daily • Processes metering data • Issues trouble calls to MSP • Maintains the metering database • Responds to market participant queries • Provides settlement statements derived from the metering data • Registers meters • Maintains metering installation • Responds to trouble calls and investigates meter errors • Provides edited metering data • Provides correction factors where necessary • Provides a metering installation • Provides metering data to the IMO • Submits physical allocation data for each RWM (if necessary) • Identifies an associated MSP to the IMO

6. Single Main/Alternate Main/Check Types of Meters • Data may be substituted if main meter fails • Data may come from non-Measurement Canada approved meter • Used only where there is an established correlation with main meter • Must have separate set of instrument transformers (ITs) • Existing single installations must apply for a waiver from the IMO • New RWMs may not be single installations • Must be replaced by main/ alternate installations upon expiry of seal (within 6 years) • Installations consist of two revenue meters to ensure that metering data can be cross-verified • All new RWMs must be main/alternate installations

7. Single Main/Alternate Main/Check Data Validation • Compares data from an IMO- approved meter and another source - both record the same data with a correlation factor applied • Use of check data for settlement is permitted only when main meter has failed, & under controlled conditions specified by Measurement Canada • Validation relies on historical meter data for comparison purposes • MSP specifies criteria for validation tests at time of registration • Compares data from 2 IMO-approved meters (main & alternate) • Data from alternate meter is of revenue quality & can be substituted for main meter data without legal implications

8. yes • Substitution no Point-to-Point yes no Data Estimation Methods Is validated data from alternate orcheck meter available? Is missing data for one hour or less? Historical

9. Summary Map Meter Point Meter Point Meter Point Summary Map Delivery Point (MP’s Account)

10. To Other LDC Loads M2 Loss Adjustments Example Typical LDC Connection, with Embedded Meter Point: Transmission System Defined Meter Point, Delivery Point 1,Delivery Point 2. M1 Actual Meter Point Connection Circuit < 50kV Facility Distribution System ECP (EmbeddedConnection Point ) Actual Meter Point Embedded Market Participant

11. To Other LDC Loads Loss Adjustments Example Typical LDC Connection, with Embedded Meter Point: Transmission System Defined Meter Point, Delivery Pt 1,Delivery Pt 2. M1 Actual Meter Point Connection Circuit < 50kV Facility ECP (EmbeddedConnection Point ) Distribution System M2 Embedded Market Participant Actual Meter Point

12. SSL1 To Other LDC Loads Loss Adjustments Example Typical LDC Connection, with Embedded Meter Point: Transmission System SITE-SPECIFIC LOSSES DMP, Delivery Pt 1,Delivery Pt 2 . M1 Actual Meter Point Connection Circuit < 50kV Facility ECP (EmbeddedConnection Point ) Distribution SSL2 System M2 Embedded Market Participant Actual Meter Point

13. SSL1 DLF To Other LDC Loads SSL2 Loss Adjustments Example Typical LDC Connection, with Embedded Meter Point: Transmission System DMP, Delivery Pt 1,Delivery Pt 2. DISTRIBUTION LOSS M1 Actual Meter Point Connection Circuit < 50kV Facility ECP (EmbeddedConnection Point ) Distribution System M2 Embedded Market Participant Actual Meter Point

14. ADJUSTMENTS: SSL1 Embedded MP = (M2 + MEC2 + SSL2) x DLF To Other LDC Loads Loss Adjustments Example Typical LDC Connection, with Embedded Meter Point: Transmission System DMP, Delivery Pt 1,Delivery Pt 2. M1 DLF Actual Meter Point Connection Circuit < 50kV Facility SSL2 ECP (EmbeddedConnection Point ) Distribution System M2 Embedded Market Participant Actual Meter Point

15. SSL1 TOTALIZATION: 1. LDC = (M1 + MEC1 + SSL1) - (M2 + MEC2 + SSL2) x DLF 2. Embedded MP = (M2 + MEC2 + SSL2) x DLF To Other LDC Loads Loss Adjustments Example Typical LDC Connection, with Embedded Meter Point: Transmission System ADJUSTMENTS: Embedded MP = (M2 + MEC2 + SSL2) x DLF LDC = (M1 + MEC 1 +SSL1) DMP, Delivery Pt1,Delivery Pt 2. M1 DLF Actual Meter Point Connection Circuit < 50kV Facility SSL2 ECP (EmbeddedConnection Point ) Distribution System M2 Embedded Market Participant Actual Meter Point

16. Totalization Example Typical LDC Connection, with Embedded Meter Point: SSL1 = 0.36 MW Delivery Point 1 (SPRUCE) = 69.243 MWDelivery Point 2 (PINECO) = 51.357 MW DLF = 1.02 M1 Actual Meter Point M1 =120 MW;MEC1 = 0.24 MW ECP (EmbeddedConnectionPoint) SSL2=.2MW M2 M2 = 50 MW;MEC2 = 0.15 MW Actual Meter Point Embedded Market Participant

17. Application of PAD - Example • Allows sharing of metered data • E.g., customers of an Aggregator need not have RWMs • Aggregator negotiates with the LDC • LDC submits PAD to IMO • IMO bills: • Aggregator for negotiated amount • LDC for metered amount less the negotiated amount M1 M2 Transmission System x x x x x x x x x x x x Distribution Aggregator x System x x

18. Peak Day

19. Detail Profile

20. 24 Hour Profile

21. Comparison Graph 123456789 123456789