OneStart

ABB ACS800-37LC-0870-3 manuals

ACS800-37LC-0870-3 first page preview

ACS800-37LC-0870-3

Brand: ABB | Category: DC Drives
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. What this chapter contains
  9. Safety in installation and maintenance
  10. Grounding
  11. Permanent magnet motor drives
  12. General safety
  13. Use of the hand-operated winch
  14. Safe start-up and operation
  15. Related documents
  16. Terms and abbreviations
  17. Single-line circuit diagram of the drive
  18. Example circuit diagram (frame 2×R8i+2×R8i)
  19. Block diagram of the main circuit with options
  20. General information on drive cabinet layout
  21. Cabinet layout (frames R7i+R7i and R8i+R8i)
  22. Swing-out frame layout
  23. Auxiliary control cubicle layout
  24. Main switch disconnecter cubicle layout (frames 2×R8i+2×R8i and up)
  25. Layout of LCL filter and supply module cubicles (frame 2×R8i and up)
  26. Layout of inverter module cubicle (frame 2×R8i)
  27. Layout of inverter module cubicle (frame 3×R8i)
  28. Layout of inverter module cubicles (frames 4×R8i to 9×R8i)
  29. Overview of supply and inverter modules (R7i and R8i)
  30. Overview of power and control connections
  31. Control of the supply unit
  32. Emergency stop push button
  33. Connections and use of the I/O in the supply unit
  34. Connections to standard I/O terminals
  35. Control of the inverter unit and motor
  36. Type designation labels
  37. Type designation key
  38. Checking the delivery
  39. Moving the unit by fork-lift or pallet truck
  40. Placing the unit
  41. Overview of the installation procedure
  42. Fastening the cabinet to the floor and wall (non-marine units)
  43. Alternative 2 – Using the holes inside the cabinet
  44. Fastening the unit to the floor and wall (marine units, option +C121)
  45. Joining the shipping splits
  46. Connecting the liquid pipes
  47. Connecting the DC busbars
  48. Miscellaneous
  49. Electric welding
  50. Protecting the motor insulation and bearings
  51. Requirements for motor insulation and bearings and drive filters
  52. Explosion-safe (EX) motors
  53. High-output motors and IP 23 motors
  54. Sine filters
  55. Typical power cable sizes
  56. Alternative power cable types
  57. Additional US requirements
  58. Relay cable
  59. Separate control cable ducts
  60. Protecting the motor and motor cable in short-circuit situations
  61. Insulation requirements for the motor temperature sensor circuit
  62. Implementing the Prevention of unexpected start function
  63. Implementing the Safe torque off function
  64. Terminals for connecting external control voltage (option +G307)
  65. Implementing a safety switch between the drive and motor
  66. Implementing a bypass connection
  67. Switching the motor power supply from direct-on-line to drive
  68. Considering the PELV on installation sites above 2000 metres (6562 feet)
  69. Braking resistor assembly
  70. Connecting the input power cable
  71. Connecting the motor cable – units with no common motor terminals cubicle option +H359
  72. Connection diagram – parallel inverter modules feed one motor
  73. Connection procedure
  74. Connection diagram
  75. Connecting external power supply for the auxiliary circuits
  76. Frames 2×R8i and up
  77. tional auxiliary control voltage transformer
  78. Connecting the control cables for the inverter unit
  79. Connecting a PC
  80. Cabling of I/O and fieldbus modules
  81. Connecting voltage to the input terminals and auxiliary circuit
  82. On-load checks
  83. Switching the control panel between the supply and inverter units
  84. ACS800-17LC-specific parameters in the IGBT Supply Control Program
  85. Default values of parameters with the ACS800-17LC
  86. ACS800-17LC-specific parameters in the application program
  87. LEDs
  88. Replacing the additional fan in the incoming cubicle (frames R7i+R7i and R8i+R8i)
  89. Replacing the auxiliary control cubicle fan (frames 2×R8i+2×R8i and up)
  90. Replacing the fan in the incoming cubicle (frames 2×R8i+2×R8i and up)
  91. Replacing the cooling fans in supply module cubicle
  92. Replacing the inverter module fans (2×R8i and up)
  93. Reduced run capability
  94. Replacing supply and inverter modules
  95. Installing the winch
  96. Installing the installation stand
  97. Capacitors
  98. Replacing the PPCS branching unit (APBU-xx) memory backup battery
  99. General
  100. Connection to a cooling unit
  101. Filling up and bleeding the internal cooling circuit
  102. Draining the internal cooling circuit
  103. Specifications
  104. Water quality
  105. Materials
  106. Definitions
  107. Altitude derating
  108. phase brake choppers (option +D150) and resistors (option +D151)
  109. Fuses
  110. Main circuit DC fuses
  111. Dimensions, weights and free space requirements
  112. Losses, cooling data and noise
  113. Internal cooling circuit data
  114. Terminal and lead-through data for the input power cable
  115. Terminal and lead-through data for the motor cable
  116. Units with the Common Motor Terminal (CMT) cubicle (option +H359)
  117. Electrical power network specification
  118. Control unit (RDCU/RMIO) connection data
  119. Relay outputs
  120. Isolation and grounding diagram
  121. Ambient conditions
  122. Auxiliary circuit current consumption
  123. Applicable standards
  124. CE marking
  125. Category C2
  126. Category C4
  127. UL marking
  128. Cyber security disclaimer
  129. Frame sizes R7i+R7i and R8i+R8i (bottom entry/exit)
  130. Frame sizes R7i+R7i and R8i+R8i (marine units, +C121)
  131. Product and service inquiries