Landis+Gyr, Inc.

1. Landis+Gyr, Inc. MAXsys 2510 Metering Family

2. Review of Current Features The latest new Features Value Added solutions The next generation MAXSYS Topics

3. MAXsys 2510 - 19” Rackmount Style • All standard features • Auto-ranging power supply • 40-140V or 85-330V • 3 option slots • 3 element meter only • Mating cables sold separately • 19” rack bracket available

4. MAXsys 2510 – Switchboard Styles • Tall and short switchboard models available • All standard features • Auto-ranging power supply • 40-140V or 85-330V • 3 option slots • 3 element meter only • Mating cables sold separately

5. MAXsys 2510 – Socket-base Styles • All standard features • Standard or custom cabling • Auto-ranging power supply • 40-140V or 85-330V • 3 option slots • Form 9/8S, 35S, 36S, 10S, 26S, 5S • Mating cables sold separately

6. MAXsys 2510 Standard Features • Per phase volts, amps, watts and var measurement for power quality monitoring, total harmonic distortion and power outages • Transformer Loss Compensation • Line Loss Compensation • 20 mA Current Loop Port • Four programmable pulse outputs • Flash EPROM • AC or DC Auxiliary Power • Four quadrant metering • ANSI and IEC approved for class 0.2 metering

7. MAXsys 2510 Standard Features • 16 bit microprocessor, bus architecture • Multi-tasking operating system • Bi-directional measurement • 16 channel data recording • Time of Use • 2 line x 16 character programmable display • Totalization Functions • Modular design for upgrading/adding options • Non volatile memory for operating parameters and display registers

8. MAXsys 2510 Standard Features • Password protected • Read-only password - 2 available • No-format jumper - for security and sealing • RS-232-1 port for external modem, etc • RS-232-2 port for bi-directional interface • Individually addressable • 256K RAM • Re-chargeable back-up battery for profile data and clock • Power Outage Monitoring

9. MAXsys 2510 Optional Features • 4 Analog outputs (up to 8 available) • 4-20 mA or +/-1 mA • 8 auxiliary Inputs for process loads, gas, water, etc.. • Up to 12 output relays for alarms, capacitor control and load control functions (4 outputs standard) • Protocol Converter board for SCADA interface • DNP 3.0 level 3, Modbus, and many others • 1200 or 2400 baud modem with master/slave interface • 485 port (requies protocol card) • Instrument Transformer Compensation

10. Transformer Loss Calculations Multiple Levels of Calculations Calculate the losses Netting Of Sub-loads Before Calculations Subtracting station service loads before calculating the losses across power across multiple transformers simultaneously. Logic Control Of Calculations Controls when and how the loss are calculated base on logic conditions. transformers. Summing of Loads Before Calculations Summing generator loads which share power transformers. Compensated Analog Values Provides compensated analog values at all points of compensation. MAXsys 2510 Value Added Solutions

11. Line Loss Calculations Loss calculations Resistance Reactance Charging Vars Multiple Levels Of Compensation Calculate the line losses across multiple lines at different points of transmission simultaneously. Multiple Sets Of Constants For Each Level Allows the meter to change the loss calculations as the transmission lines are reconfigured. Logic Control Of Calculations Logic control from external inputs and or communications allow the loss calculation to change based on real time reconfiguration of the transmission lines. MAXsys 2510 Value Added Solutions

12. DNP 3.0 Level 2 & 3 Complies to DNP3-2000 Certification Procedure Binary Inputs(27) AND OR Logic Control Binary Outputs (12) Analog&Counter Outputs(96) Event Storage (Binary,Analog,Counter & Freeze) Unsolicited Responses Collision Avoidance Relay Control (S.B.O.,Direct No ACK & With ACK) Communication speeds up to 19200 MAXsys 2510 Value Added Solutions

13. Power Quality Outage Reporting Reports loss of voltage to the meter electronics Reports restoration of voltage to the meter electronics Loss of Phase Reports loss of voltage to any metered phase Reports restoration of voltage to any metered phase Captures Voltage Events (Sags & Swells) Captures date and time of event Stores length of the event (1/2 cycle) MAXsys 2510 Value Added Solutions

14. Power Quality Captures Simultaneous Current Captures the simultaneous value of current with the sags or swells of the voltage Stores Daily Highs and Lows Stores 6 high and low values (programmable) per day Circular memory stores previous 3 days of highs and lows Total Harmonic Distortion Can display, record and control 60 Hz or 50 Hz values (fundamental) Non-fundamental values Total (net) values MAXsys 2510 Value Added Solutions

16. Time Stamped Power Quality Events

17. Instrument Transformer Correction (IT; CT’s and VT’s) Phase and Ratio error must be known at the burden levels that the transformers in the meter system actually see. Wiring losses must be included as well. The PT ratio and phase corrections are fixed and do not change with levels. The CT ratio and phase corrections are DYNAMIC and change with current levels as needed. The corrections are done at the beginning of the signal processing and they benefit all readings, as well as watt and VAR pulses. MAXsys 2510 Value Added Solutions

18. Instrument Transformer Correction (IT; CT’s and VT’s) Many existing installations have instrument transformer which may not meet metering accuracy class 0.3%. The dynamic CT correction allows for system accuracy improvements without changing the existing CT’s. Increased accuracy can yield increased revenue. Increased accuracy without buying new transformers. Increased accuracy without the labor of changing out CT’s. Improves the overall accuracy of all CT installations including metering system which have metering accuracy CT’s. MAXsys 2510 Value Added Solutions

19. Instrument Transformer Correction (IT; CT’s and VT’s) A switch in Maxcom allows the user to turn the correction ON and OFF without losing CT correction data in the meter – useful for testing of the meter. Operation of the correction can be verified by running watt-hour registration at 5A PF=1.0 and 0.5 Lag, and at 0.5A PF=1.0 and 0.5 Lag. Expected readings can then be verified. MAXsys 2510 Value Added Solutions

20. Relay CT and Meter – With and Without Correction Applied

21. Internet Connectivity – ET-Lite Device Server External device that interfaces with RS-232 port Siemens native protocol Industry protocols (DNP 3.0, MODBUS, etc) Gives the meter an IP address Link to the internet Connection to an Ethernet LAN Data encryption over the Internet MAXsys 2510 Value Added Solutions

22. MAXsys 2510 – IP Addressability • Makes any serial device IP addressable • Standard Ethernet type connection • Low power requirements • Easily programmed • Easy to install

23. MAXsys 2510 Value Added Solutions • Energy Terminal device server • Multi-port communications • Pki encryption capability • Upload meter information directly to an Internet website • Real time data with 4 second updates • Type 7 or industry standard protocols • Applications • Energy management systems • C&I accounts • IPP’s

24. New Product Features • Dual RTU boards • Modbus, DNP 3 level 2, cooper, PG&E, & others • Second board must be DNP 3 level 2 • Dual 16 channel recorders • Independently programmable interval lengths • Increased RAM to 512K • True 1-second updates • Increased port speeds (19200) • Peer to peer networking capabilities • Data gates • Advanced math package for increased flexibility

25. Why Peer to Peer Communications? • Can free up option card slot • Reduce installation cost • Labor and material • Transfers more information • Data (real time) • Status (real time) • Improves meter summing & netting • Instantaneous values • Analog outputs • Improves real time information • Reduces granular data

26. Math Package • Addition (Sum) • Subtraction (Diff) • Multiple (Prod) • Divide (Quot) • Square Root (SQRT) • Data Gates • 40 Totalizers • 32 User defined calculations

27. Data Gates Application Del. Kwh Total Del. Kwh Data Gate Y1 True Del. Kwh CAISO Auxiliary Input 8 Status 1 Data Gate Y1 False Del. Kwh CFE Rec. Kwh Data Gate Rec. Kwh CAISO

28. Market Segmentation • Generation stations • Transmission & sub-transmission stations • Distribution stations • New large end customers

29. Value Proposition - Generation • RTU board vs. RTU • Save cost difference + installation costs • Multi-level transformer loss compensation • Save cost of CTs, meter, and installation costs • Analog outputs • Save cost of transducers with uncompensated values • Compensated analog values save install cost + transducers • Multiple communication paths • Save cost of additional meters + installation cost • Peer to peer networking • Save installation costs + hardware cost

30. Value Proposition - Transmission • Multi-function revenue accurate IED (existing or new) • Improved accuracy • Multi-level TLC/LLC • Reduced cost with IT correction (existing stations) • Increased accuracy can yield increased revenue. • Increased accuracy without buying new transformers. • Increased accuracy without the labor of changing out CT’s. • Improves the overall accuracy of all CT installations including metering system which have metering accuracy CT’s.

31. Value Proposition - Distribution • Small point RTU built into Meter • Saves cost of RTU • Saves costs of installing full scale RTU • Feeder monitoring (loading) • Transformer monitoring (loading) • Multiple communication paths • Saves installation costs for additional metering • Event reporting

32. Value Proposition - Large Industrial Customer • Low cost RTU (special rates) • Low side metering • Reduced installation costs • $70k for 69KV vs. $4K for 15KV • Multiple communication paths • Saves installation costs for additional metering • Event reporting and load profiling • Controls • Logic and data gates • Output relays • 8 inputs from other meters or peripheral devices

33. Future Product Features • High speed modem • At least 19200 baud • Compatible with older modems • Updated technology to interface with digital cellular networks • Three-phase power supply • Long-life lithium battery • Digital inputs to meter from optical CTs and VTs • Bypass measurement circuitry in meter • Higher accuracy system for increased revenue stream • Development of next generation MAXsys meter • Need utility input for design features

34. The Future of MAXsys Metering • High-precision accuracy below 1mA secondary • Advanced power quality features • Waveform capture • Individual harmonics • Ethernet port under glass • Flexibility of interfaces • Fiber optic, RS485, RS232, 10base-T, etc. • Optically isolated interface to the meter • Wireless digital modem • Plug and play upgradeability of new features

35. Reduced height Infrared LED Transmit/Receive Status Graphical Display Visible LED No Backlighting Pushbutton Access

36. Power Quality Enhancements • L+G diagnostics • Waveform capture • Triggered by a setpoint, programmable schedule based on time or logic, or external signal • Number of capture cycles user selectable • 16 to 256 samples per cycle (selectable) • Seven channels for recording • Flicker – according to industry standards • Individual harmonic analysis to 63rd harmonic • Triggered by the same method as waveforms

37. Power Quality Enhancements • Voltage Sags and Swells • Quarter cycle resolution to X number of cycles • Rolling floating point nominal voltage every X number of minutes (user defined) • Simultaneous current • Three levels of voltage thresholds • Three separate sag and swell recorders running simultaneously • Transient events • Waveform recording to capture transients on current and voltage waveforms • Time resolution to within one (1) millisecond

38. EVM

39. EVM Online Reporting • Event Log • Power Quality • Diagnostics

40. Event Log • Events logged by Month,Day,Hour and Minute • Up to 100 events in wrap-around memory

41. Examples of Event Log • ac power down • ac power up • Clock set • Status input change • Unit access • Password change • Cold start • Static input register • Relay Control Set-points • Low Battery • Etc.

42. EVM Power Quality • Per phase reporting • Voltage outside tolerance range (high or low) • MAX or MIN volts (1,2,or 3 cycle rolling 1/2 cycle) • Coincidental current • Length of event in 1/2 cycles

43. EVM Time-Stamped Power Quality Events Siemens Power Transmission & Distribution, Inc. © Siemens, 2000

44. 2410/2510 Diagnostic applications • S4 type diagnostics • Phase angle data • Per phase data • Dial in on diagnostics • Display diagnostics • Log diagnostics to history

45. Diagnostic Reporting • Polarity and Cross Check (1) • Any phase angle more than +/- 15 degrees • Phase Voltage Deviation Check (2) • Checks each phase against nominal • Inactive Phase Current Check (3) • Checks each current against specified value in diagnostic control table. If any current is below its threshold, fails; if all below, passes

46. Diagnostic Reporting • Phase Angle Displacement Check (4) • Verifies that power factor is within specified limit on each enabled phase • Current Magnitude Imbalance Check (6) • Checks relative amplitude of the enabled phase currents; compares each current to the average of all currents • Energy Direction Check (7) • Fails if any phase energy flow is negative (received power)

47. Diagnostic Reporting • Auto Sense • Wye or Delta • Phase A volts • Phase rotation • e.g. : 4 Wire Wye • 120 V ABC

48. Diagnostic Report • Evsocket.log • FILE: EVSOCKET. LOG • TIME: Sun Jul 16 00:55:19 2000 • Call Date & Time: 07/16/2000 00:53:24 • An Installation Diagnostic Event has Occurred for UID:1234567 • (C0l) Ajax Industrial 1234567890 • (C02) Diagnostics • (U01) Ajax Industrial 1234567890 • Auto-sense: 277 Volts 4 Wire WYE (ABC) • 1 1 1 1 1 1 1 • Diagnostic: 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 • Enabled: Y Y Y Y N Y Y N N N N N N N N N • Pass for Diagnostic 4 (00019 fails total) • Fail for Diagnostic 6 (00032 fails total)

49. EVM logging an Event

50. EVM completing and reporting on notification via email.