LM10

1. LM10 A Motor Management System for Low Voltage Motor Control

2. GE Multilin Business Recap LM10 Motor Protection System Product Details Equipment Integration Considerations Frequently Asked Questions Q&A Presentation Agenda

3. GE Multilin Business Recap

5. GE Multilin Broad Product Portfolio . . . M60 469 369 G60 269 Plus G30 Motor Protection 239 Generator Protection 489 MM2 SPM MPM 489L LM10 MIGII EPM 9000 T60 EPM 9800 PQMII EPM 6000 T35 Transformer Protection Metering EPM 5000 EPM 2000 745 EPM 1000 L90 JungleMux L60 TN1U D60 Transmission Line Protection TN1Ue Multinet D30 Communications FAC1000/2000 Accessories F485 B30 B90 Bus Protection MIB Voltage Transformers Current Transformers HIM Instrument Transformers F60 Control Transformers 750/760 Feeder Protection F35 URC F650 Low-End To Full-Featured Products MIFII 735/737 FM2

6. LM10 Motor Protection System Product Details

7. LM10 • A modular approach to electronic motor protection & control • Pick & choose the desired components (Base Unit, PDU, CT sensor pack) • Designed for GE Evolution MCC … but applicable to any LV MCC • Fits into standard motor control center “buckets” • “More than an Overload relay” • Converges several device requirements: • PLC I/O • Timing Relays • Load Sensing Relays • Ground Fault Relays • Over and Under Voltage • Open Protocol (DeviceNet) compatible with all popular PLC’s • Standard on LM10 • SCADA and DCS adaptable • Easy to use and install • Ammeter, Voltmeter • Power Meter • Elapsed Motor Hours • Factory wiring

8. LM10 • Applications • Low voltage motors up to 500HP • Motor Types: • Full Voltage non-reversing (FVNR) • Full Voltage reversing (FVR) • Reduced Voltage (RV) • Two Speed- one winding (2S1W) • Two Speed-two winding (2S2W) • Custom Motor Type (Custom)

9. LM10

10. LM10 CT Connections: 75 to 800:5 A ratio • CT & VT Inputs • Two sets of 3 phase CT inputs • One set with either CT sensor pack or direct connect 75A to 800:5 A ratio CTs • 2nd Three Ph CT input for two speed motors • Connect 20A ground fault sensor pack or 100:1 core balance CT • Voltage input via CPT (provides control power, volt/power/PF metering, over/undervoltage) 2nd 3 phase CT Input For Two Speed Motors

11. LM10 • 7 Digital Inputs • Stop control input • Reset control input • Contactor status inputs (Aux Sens1, Aux Sens2) • Start control inputs for RUN1 and RUN2 • DeviceNet control switch input (Control) • (disables RUN1 and RUN2 inputs, Stop and Reset not affected) • 4 Relay Outputs • NEMA C150 pilot duty ratings • Two relays to control the coils of motor contactor (enabled by RUN1 or RUN2 inputs) • One relay to annunciate ground fault status • Additional programmable relay for fault status indication (overcurrent, jam, stall, unbalance, aux sense fault, load loss, power failure, DeviceNet fault, over/undervoltage) • Power Supply Input • 96 to 140VAC range • Autorestart feature of up to 4 s • Must be connected across A & B phases

12. LM10 – Components Form Factor Small, fits in most MCCs Base Unit Trip Class Selector Up to 4 different NEMA overload trip classes (Class 10, 15, 20 or 30) DeviceNet Connector Std Harris 5Pin Micro connector (allows daisy chain from one unit to another) Status LEDs (MS): Module Status (NS): Network Status (OC): Overcurrent Trip (GF): Gnd Fault Trip (CUB): O/C Unbalance RJ11: 6C Telephone Jack Used to connect to either PDU or PC; PC cable included, connect via Com1 Hardware Selectable MAC ID & Baud Rate (Up to 63 address & 500kbps) Programmable Display Unit CT Sensor Pack 4x16 LCD Used for to program and display metering and trip data Pwr & Trip LEDs Self powered from LM10 Base Unit Wide variety of commonly used CT blocks, one stop shopping for our customers

13. LM10 Base Unit Trip Class Selector Up to 4 different NEMA overload trip classes (Class 10, 15, 20 or 30) DeviceNet Connector Standard Harris 5Pin Micro connector (allows daisy chain from one unit to another) RJ11: 6C Telephone Jack Used to connect to either PDU or PC; PC cable included, connect via Com1 Status LEDs (MS): Module Status (NS): Network Status (OC): Overcurrent Trip (GF): Gnd Fault Trip (CUB): O/C Unbalance Hardware Selectable MAC ID & Baud Rate (Up to 63 address & 500kbps)

14. LM10 Base Unit Dual row phoenix terminal block

15. Protection & Control • Overcurrent Trip • Current in any phase greater than 1.2 x FLA, the unit calculates the time to trip • Separate calculations are performed for cold and hot motors • Once the fault condition is reached, the LM10 unit will not reset until an appropriate cool-down period has elapsed • Overcurrent function can not be disabled

16. Protection & Control

17. Protection & Control • Cool Down Time • Upon an Overcurrent, Jam or Stall fault, the LM10 forces a cool-down period before the motor may be restarted • The time to reset is calculated as a function of Trip Class and % FLA a the time of trip • While the motor is in the cool-down time delay, the PDU status screen will show a number decrementing from 99. Once the number reaches 0, the motor can be restarted and the “READY TO RUN” message will be displayed

18. Protection & Control • Current Unbalance Trip • Trips if the phases are unbalanced • If the average current exceeds the FLA, then the average current is used in the calculations • Programmable trip setting between 2 and 25% FLA • Time delay settable between 0 and 255 seconds • 6% current unbalance equates to a 1% voltage unbalance • A 4% voltage unbalance equates to a 24% current unbalance and will frequently cause motor damage • This function can be disabled • Ground Fault Trip • Programmable trip setting between 0.4 and 20A • Time delay settable between 0.5 and 2.5 seconds • This function can be disabled

19. Protection & Control • Over/Undervoltage Trip • Maximum & minimum trip levels are hard coded into LM10 • Undervoltage trip level is 80% (or 96V) • Overvoltage trip level is 117% (or 140V) • This function can not be disabled • Jam Protection • According to NEMA or IEC MG 1-1998 part 12, page 21, “polyphase motors 600 V or less not exceeding 500 horsepower shall be capable of withstanding a current not less than 1.5 times the full load rated current for not less than two minutes when the motor is at normal operating temperature.” For relatively low over-current conditions, particularly on higher NEMA Class motors, trip times could be considerably longer than 2 minutes. Therefore, a separate Jam fault is available because the standard time overcurrent curve may not protect in this range. • Jam level can be set between 100 and 250% of FLA • Time delay settable between 0 and 1000 seconds • This function can be disabled

20. Protection & Control • Stall Protection • According to NEMA or IEC MG 1-1998 part 12, page 21, “polyphase motors 600 V or less not exceeding 500 horsepower shall be capable of withstanding locked-rotor current (6 times FLA) for not less than 12 seconds when the motor is at normal operating temperature.” • Cold motor trip times for a 6 × FLA fault are determined by trip class. For example, a NEMA Class 20 motor at 6 × FLA would trip in 20 seconds. A separate Stall fault is available which would allow the user to reduce the trip time for large overcurrent situations. • Stall level can be set between 330 and 600% of FLA • Time delay settable between 0 and 30 seconds • This function can be disabled • Load Loss Trip • Load loss is based on watts • Power Factor calculated is phase relationship between voltage and phase C current • Load loss level can be set between 15 and 85% of Full Load • Time delay settable between 0 and 255 seconds • This function can be disabled

21. Protection & Control • Auxiliary Sense Failure • Detects that a LM10 relay contact (RUN1 or RUN2) did not open/close according to its command and will shut down the relay • Time delay settable between 0.1 and 25.0 seconds • This function can be disabled • Power Loss Autorestart Feature • “Power loss when running” • LM10 will be able to recover from a power loss of up to 4 seconds and return to its previous run state • Enabling autorestart allows the unit to restart the motor without operator intervention using a momentary Run input • The default condition, “Disabled”, would require the operator to restart the motor after the LM10 regains power • Potential safety hazards must be considered and the appropriate setup chosen for each individual application • Run 1 to Run 2 or Run 2 to Run 1 • Delay between forward and reverse or between speeds

22. Programmable Display Unit (PDU) • Method of configuring & monitoring LM10 units • Configuring setpoints & time delays • Viewing metering & history data • RJ11 (6 conductor) cable between PDU and LM10 base unit • LEDs • Solid Green Power LED (flashes when configuring) • Flashing Red Trip LED • Trip Class, MAC ID and Baud Rate set on LM10 base unit only • Keypad with: • Up & down arrows • ENTER key • HISTORY key • STATUS key • CONFIG key • RESET key (also esc or back key)

23. enerVista LM10 Setup Software • Computer’s 9-pin RS232 port connected to PDU port of LM10 base unit • New LM10 configuration file can be created and saved • Existing LM10 configuration can be retrieved and saved • Existing configuration file can be altered and downloaded into different LM10 • View metering values, status and history by clicking keys

24. Monitoring & Metering • Real-Time Metering: • Phase A Current • Phase B Current • Phase C Current • Ground Current • Voltage • kW • Power Factor • Average Current • Current Unbalance • Elapsed Motor Hours (user can reset) • Trip History • Last 10 faults • Maintained in non-volatile memory • Phase A Current • Phase B Current • Phase C Current • Ground Current • Voltage • kW • Power Factor • Average Current • Current Unbalance

25. User Interfaces • DeviceNet Protocol • Standard on LM10 • Allows user to control & monitor LM10 units over a network • Optional Programmable Display Unit (PDU) • Local configuration & monitoring • RS232 Connection to PC using enerVista LM10 Setup Software • Password Protection • Settable from 0 to 65535

26. DeviceNet Protocol • Supports Polled, Change of State (COS), Cyclic I/O Messaging and Explicit Messaging • MAC Address can between 0 and 63 • Baud Rate can be 125kbps, 250kbps or 500kbps • DeviceNet Fault • If enabled, the LM10 will consider a DeviceNet network failure as a fault and operate relay outputs and record into history report • Control Input Option • Terminal 21 determines how the RUN commanded is controlled • If power is applied to the terminal, then the DeviceNet network has RUN control • RESET & STOP functions are not affected

27. Error Messages Over current- LED & Communication. Unbalance - LED & Communication Ground Fault -LED & Communication Command Stop- Communication Load Loss- Communication Specification for LM10 Optional Key Pad Programmer & LCD Display NEMA 12 Surface Door Mounted or Hand held No screws Program Memory Power Metering ( KW, PF, Ph Amps) CTSensor-Pack 1/2-27 FLA for NEMA Size 1 5-90 FLA for NEMA Size 2 & 3 CT’s with 5A secondary 30-540 FLA NEMA Size 4 to 6 Relay Input-Output Programmable Points HV- Low Voltage Threshold LV- High Voltage Threshold VUB- Voltage Unbalance- OC- Over Current- LED CUB- Current Unbalance LED GF- Residual & Zero Sequence LED LL- Load Loss with time Delay TC- Time overcorrect Class 10/15/20/30 Time Delay on GF Timer Delay Between Run commands Auto-Restart After Power Failure Maintained or Momentary control communication Address Rating: 100V-120V 50/60Htz Control Power 200-7.2KV, 3Ph 50/60Htz. System Range PC Software EnerVista Windows Set up software Accuracy Power + 5% Voltage + 1% Current + 3% Timer 5% + 1 second Power Consumption < 5Watts

28. LM10 – Order Code Note:Please see on-line store for the most up-to-date pricing and option availability

29. Equipment Integration Considerations

30. LM10 is Tightly Integrated Into GE MCC • The LM10 is fully integrated into Evolution MCC • Factory communication wiring uses 5-Pin Brad Harrison style connectors • Additional I/O, via a variety of Off the Shelf DeviceNet I/O Blocks (GE and others), is available • The LM10 has, and will maintain, ODVA approval, and supply an EDS file … and can Integrate with Others

31. Typical Low Voltage MCC Architecture DeviceNet Ethernet • Application Req’ts • Protection • Configuration • Remote Start/Stop • Phase Metering • Motor Status PLC HMI LM10 LM10 LM10 LM10 LM10 LM10 LM10 LM10

32. Programmable Display Unit mounted in Evolution Series E9000 MCC Evolution MCC

33. LM10 Unit mounted inEvolution Series E9000 MCC CT Sensor Pack LM10 Base Unit Brad Harrison style Connector

34. Frequently Asked Questions

35. What about Remote IO? A wide selection of DeviceNet Remote IO is available from PLC manufacturers as well as from GE Mebane (MS2000IO). This IO is intended to work as part of a PLC/DCS system. Does this work with an HMI? Yes. You can configure this to work with an HMI either via the PLC/DCS controller or via a PC based DeviceNet card. Does this have ODVA? As we come out with firmware revisions, we will apply and maintain ODVA. On the subject of firmware, can I “flash” new firmware upgrades into the LM10? No. The LM10’s firmware is stored on a EPROM chip and not on flash memory. What about cables? You can obtain a 3’ cable when ordering the unit. Other DeviceNet cables can be ordered via your local PLC distributor. What types of DeviceNet Communications does the LM10 support? LM10 supports unsolicited DeviceNet messaging, and specific values via polled messaging. Please consult the manual for specifics. Who supports the LM10? GE Multilin supports the LM10 just as with all GE Multilin Devices. Please contact our Customer Support Team at 1-800-547-8629. For equipment integration considerations, please contact the MCC equipment OEM. Where can I get information on size, spec’s, mounting, and wiring information? All product information (manuals, cut sheets, etc.) are available on the web. http://www.geindustrial.com/cwc/products?pnlid=6&id=lm10 Some Frequently Asked Questions

36. Thank you for your time. Q&A