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GE SPM Series Instruction Manual

Also see for SPM: Instruction manual

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Contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. GENERAL DESCRIPTION
  7. ORDER CODES
  8. SPM SPECIFICATIONS
  9. DESCRIPTION
  10. UNPACKING THE SPM
  12. front view
  13. GROUNDING
  14. POWER FACTOR REGULATION OUTPUT
  15. RS485 COMMUNICATIONS PORT
  16. GENERAL
  17. STARTING AND SYNCHRONIZING
  18. RELUCTANCE TORQUE SYNCHRONIZING
  19. STARTING PROTECTION
  20. REDUCED VOLTAGE STARTING
  21. POWER FACTOR (PULL-OUT) PROTECTION
  22. POWER FACTOR OPERATION
  23. CONTROLLER ACTION DURING PULL-OUT
  24. EFFECT OF VOLTAGE DIPS ON MOTOR POWER FACTOR
  25. POWER FACTOR REGULATION
  27. STARTING THE BRUSHLESS MOTOR
  28. STALL PROTECTION
  30. SPMPC INSTALLATION
  31. CONFIGURATION
  32. CREATING A NEW SETPOINT FILE
  33. EDITING A SETPOINT FILE
  34. LOADING SETPOINTS FROM A FILE
  35. UPGRADING SETPOINT FILES TO A NEW REVISION
  36. PRINTING SETPOINTS & ACTUAL VALUES
  37. TRENDING
  39. CHANGING SETPOINTS
  40. CHANGING CALIBRATION VALUES
  41. CHANGING CONFIGURATIONS
  42. VIEWING & CHANGING STATUS MODE PARAMETERS
  44. POWER FACTOR TRIP
  45. POWER FACTOR MODE
  46. AC CT PRIMARY RATING
  47. SYNCHRONOUS SLIP
  48. DIRECT CURRENT CT PRIMARY RATING
  49. FIELD OVERTEMPERATURE (HIGH FIELD OHMS) PROTECTION
  50. FIELD UNDERCURRENT
  51. FIELD UNDERVOLTAGE DELAY
  53. REGULATOR OUTPUT LIMIT
  54. MOTOR TYPE
  55. TURNAROUND
  56. FULL-SCALE EXCITER DC VOLTAGE
  58. MOTOR RUNNING HOURS
  59. CHECK EXCITER TRIP COUNTER
  60. INSPECTION
  61. START-UP DESCRIPTION
  62. DISPLAY
  63. INSTRUCTIONS
  64. TROUBLESHOOTING GUIDE
  65. PROGRAMMING EXAMPLE
  66. DON'Ts
  67. SPM FAQ
  68. FIRMWARE
  69. SUMMARY
  70. GE POWER MANAGEMENT VDN
  71. GE MEBANE VDN
  72. GE POWER MANAGEMENT MODULE
  74. MODBUS PROTOCOL
  75. MODBUS MEMORY MAP
  77. FORMAT CODES
  78. TEST
  79. SETUP
  84. A.1.1 COLLECTOR-RING SETTINGS
  85. A.1.2 BRUSHLESS SETTINGS
  86. B.1.1 LIST OF FIGURES
  87. B.1.2 LIST OF TABLES
  88. C.1.1 WARRANTY
GE SPM Series Instruction Manual Manual pdf 30 page image
3- 8SPM Synchronous Motor Protection & Control GE Power Management3.2 COLLECTOR-RING MOTORS 3 SYNCHRONOUS MOTOR APPLICATIONS33.2.4 REDUCED VOLTAGE STARTINGMany synchronous motor starting applications involve either reduced voltage (starting reactor or autotrans-former) or part-winding starting methods. When these methods are used, the available torque for accelerationis reduced from the torque that would result from a full-voltage start. Also, the allowable stall time of a motor isextended during a reduced-voltage start due to the reduced heating-rate resulting from lower inrush currents.The SPM has the ability to take advantage of the motor's extended stall time so that the motor and load canaccelerate to synchronous speed in a time period longer than would be allowed with a full voltage start. Theacceleration torque is reduced as the square of the ratio of reduced voltage to full voltage, and the motor-heat-ing rate is proportional to the square of the starting current. Since the motor inrush current is reduced propor-tionally with the voltage reduction (due to the constant impedance of the synchronous motor at stall) thefollowing allowable stall time factor applies:where:IPLR = programmed full voltage locked rotor current.IMLR = measured inrush current.This ratio can be used as a factor for increasing the stall time above the full voltage allowable stall time for anygiven speed. See Figure 19.The SPM calculates the ratio, squares it, and factors this value into the stall time algorithm approximately one-tenth of a second after motor starts. When the final step contactor closes and applies full voltage to the motorwindings, a N.O. interlock from this contactor is wired to the SPM to signal that the motor is now at full voltage.The correction factor for reduced voltage starts then immediately becomes unity.If, for any reason, it is not desirable to have this ratio correction factored in, a jumper may be placed acrossinputs NX1 and NX2. Conversely, if the motor is started from a weak system, and significant voltage dips areexpected during starting, the factory jumper from NX1 to NX2 may be removed. The SPM will automaticallyextend the stall and accelerating time per the reduced voltage factor.To find the protective characteristic used, plot the programmed value for 50% run time anddraw in the complete curve through the plotted point using the above curves as a guide.The curves shown in the following diagram demonstrate how the trip characteristic of theamortisseur winding protection is adjusted for reduced voltage starts. For this example, curve1 is taken from one of the family of curves in Figure 3–8: AMORTISSEUR WINDING PROTEC-TION on page 3–7.I PLRI MLR------------ 2NOTENOTE
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SPMSPM SeriesSPM-PF
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