Contents - Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Contents of this chapter
- General safety in installation, start-up and maintenance
- Electrical safety in installation, start-up and maintenance
- Additional instructions and notes
- Grounding
- Additional instructions for permanent magnet motor drives
- Related manuals
- Quick installation, commissioning and operation flowchart
- Terms and abbreviations
- Safety data (SIL, PL)
- Overview circuit diagram of the drive
- pulse connection (option +A004)
- Cabinet line-up and layout examples
- Overview of power and control connections
- Door switches and lights
- Main disconnecting device (Q1.1)
- Control panel
- Descriptions of cabinet options
- Terminals for external control voltage (option +G307)
- Pt100 relays (options +2L506, +3L506, +5L506, +8L506)
- Type designation label
- Necessary tools
- Moving and unpacking the drive
- Lifting the crate with a crane
- Moving the crate with a forklift
- Removing the transport package
- Moving the cabinet on rollers
- Fastening the cabinet to the floor and wall or roof (non-marine units)
- Fastening methods
- Fastening the cabinet to the floor and roof/wall (marine units)
- Miscellaneous
- Selecting the supply disconnecting device
- Protecting the motor insulation and bearings
- Requirements table
- Additional requirements for explosion-safe (EX) motors
- Additional requirements for non-ABB high-output and IP23 motors
- Additional data for calculating the rise time and the peak line-to-line voltage
- Selecting the power cables
- Typical power cable sizes
- Alternative power cable types
- Motor cable shield
- Signals in separate cables
- Separate control cable ducts
- Implementing thermal overload and short-circuit protection
- Protecting the motor against thermal overload
- IImplementing the Power loss ride-through function
- Using a contactor between the drive and the motor
- Example bypass connection
- Switching the motor power supply from direct-on-line to drive
- Motor and motor cable
- Connecting the control cables
- Routing the control cables inside the cabinet
- Connecting a 230/115 V AC auxiliary voltage supply (UPS, option +G307)
- Wiring the thermistor relay(s) (options +L505 and +2L505)
- Wiring the Pt100 relays (options +2L506, +3L506, +5L506 and +8L506)
- Powering the heating(options +G300)
- Connecting the motor cables (units without common motor terminal)
- Connecting the motor cables (units with du/dt and common motor terminal)
- Connecting the input power cables
- Connection procedure
- Connecting a PC
- Installing option modules
- Mechanical installation of an FSO-xx safety functions module
- Wiring of optional modules
- What this chapter contains
- Control unit layout and connections
- Default I/O diagram of the control unit (A41)
- External power supply for the control unit (XPOW)
- AI1 or AI2 as a Pt100, Pt1000 or KTY84 sensor input
- Safe torque off (XSTO, XSTO OUT)
- Control unit connector data
- Checks/Settings with no voltage connected
- Setting up the supply unit parameters
- Cabinet
- Cleaning the door air inlets (IP54)
- Heatsink
- Fans
- Replacing the drive module main fans
- Replacing a roof fan (IP54)
- Replacing the drive module
- Replacing the left module
- Capacitors
- Control units
- Control unit battery
- Reduced run
- Ambient temperature derating
- Altitude derating
- High speed mode
- Frame sizes and power module types
- Dimensions and weights
- Electrical power network specification
- Efficiency
- Materials
- Applicable standards
- Tightening torques
- Disclaimers
- Category C2
- Cabinet line-up dimensions
- Dimension drawing examples
- Location of input terminals (ACS880-07XT-1310A-5, ACS880-07XT-1320A
- Location of output terminals (ACS880-07XT, R10, with du/dt)
- Location of output terminals (ACS880-07XT, R10, without du/dt)
- Location of output terminals (ACS880-07XT, R11, with du/dt)
- Location of output terminals (ACS880-07XT, R11, without du/dt)
- Location of PE terminals (ACS880-07XT)
- Location of resistor terminals (ACS880-07XT, R10)
- Location of resistor terminals (ACS880-07XT, R11)
- Selecting a custom resistor
- Maximum cable length
- Mechanical installation of external brake resistors
- Technical data
- Product and service inquiries
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136 Technical dataHigh speed modeSelection High speed mode of parameter 95.15 Special HW settings improves controlperformance at high output frequencies. We recommend it to be selected with outputfrequency of 120 Hz and above.This table gives the drive module ratings for 120 Hz output frequency and the maximumoutput frequency for the drive ratings when High speed mode in parameter 95.15 SpecialHW settings is enabled: With output frequencies smaller than this recommendedmaximum output frequency, the current derating is less than the values given in the table.Contact ABB for operation above the recommended maximum output frequency or for theoutput current derating with output frequencies above 120 Hz and below the maximumoutput frequency.DrivemoduletypeACS880-07XT-Deratings with selection High speed mode of parameter 95.15 Special HW settings120 Hz output frequency Maximum output frequencyNominal use Light-duty useHeavy-duty useNominal use Light-dutyuseHeavy-duty usef IN PN ILd IHd fmax IN PN ILd IHdHz A kW A A Hz A kW A AUN = 400 V1010A-3 120 1010 544 997 746 500 760 435 729 5411190A-3 120 1190 650 1167 878 500 892 460 857 6371330A-3 120 1330 734 1316 1041 500 955 460 913 7181610A-3 120 1610 915 1570 1274* 500 1159 653 1104 920*UN = 500 V1010A-5 120 1010 693 997 720 500 696 435 661 5191160A-5 120 1160 822 1146 878 500 754 460 721 5481310A-5 120 1310 916 1297 1041 500 850 580 788 6661610A-5 120 1610 1153 1570 1274* 500 1012 736 938 754UN = 690 V0810A-7 120 810 753 791 678* 375 546 471 528 445*0960A-7 120 960 920 929 837 375 552 460 534 4821080A-7 120 1080 1025 1051 929 375 626 580 607 5521320A-7 120 1320 1300 1297 1051* 375 828 736 791 644*3AXD10000363510f Output frequencyfmax Maximum output frequency with High speed modeUN Nominal voltage of the driveIN Continuous rms output current. No overload capability at 40 °C (104 °F)PN Typical motor power in no-overload use.ILd Continuous rms output current allowing 10% overload for 1 minute every 5 minutesIHd Continuous rms output current allowing 50% overload for 1 minute every 5 minutes* Continuous rms output current allowing 30% overload for 1 minute every 5 minutes
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