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
- Optical components
- Additional instructions for permanent magnet motor drives
- Quick installation and commissioning flowchart
- Terms and abbreviations
- Related documents
- Layout
- Frame size R3
- Frame R4...R8
- External control connecting terminal, Frame size R0...R2
- External control connecting terminal, Frame size R3...R5
- External control connection terminals, frames R6...R8
- Control panel
- Type designation label
- Locations of the labels on the drive
- Type designation key
- Checking the installation site
- Required tools
- Unpacking and examining delivery, frames R0...R2
- Unpacking and examining delivery, frames R5
- Unpacking and examining delivery, frames R6...R8
- Installing the drive
- Installing the drive vertically, frame size R3...R4
- Installing the drive vertically, frames size R5...R8
- Installing the drive vertically side by side
- Other regions
- Alternative power cable types
- Recommended power cable types
- Conduit
- Signals in separate cables
- Routing the cables
- General guidelines, North America
- Continuous motor cable shield or enclosure for equipment on the motor cable
- Protecting the motor against thermal overload
- Using a contactor between the drive and the motor
- Switching the motor power supply from drive to direct-on-line
- Switching the motor power supply from direct-on-line to drive
- Input power cable
- Ground-to-phase varistor
- Frames R4...R8
- Connecting the power cables
- Connection procedure: frames R0...R2
- Finalization
- Connection procedure, frames R3...R4
- Note
- Connection procedure, frames R5...R8
- DC connection
- Default control connections of ABB standard macro
- Notes
- NPN configuration for digital inputs
- Connection examples of two-wire and three-wire sensors
- DI5 as frequency input
- Control cable connection procedure R0...R8
- R0...R2
- R3...R5
- R6...R8
- Front option slot 1
- To remove a front option
- Reinstalling side plates and covers, frames size R5...R8
- Recommended annual maintenance actions by the user
- Heatsink
- Replacing the cooling fan, frames size R0...R4
- Replacing the main cooling fan, frames size R6...R8
- Replacing the auxiliary cooling fan, frames R6...R8
- Capacitors
- LEDs
- Definitions
- Derating
- Switching frequency derating
- Altitude derating
- gG fuses
- gR fuses
- DC fuses
- Circuit breakers
- Dimensions, weights and free space requirements
- Thermal losses, cooling data and noise
- Terminal and lead-through data for the power cables
- Terminal and lead-through data for the control cables
- Electrical power network specification
- EMC compatibility and motor cable length
- Control connection data
- Auxiliary circuit power consumption
- Efficiency
- For R3...R8
- Materials
- CE marking
- Category C1
- Category C4
- Frame R0, IP20
- Frame R1, IP20
- Frame R3, IP20
- Frame R4, IP20
- Frame R5, IP20
- Frame R6, IP20
- Frame R7, IP20
- Frame R8, IP20
- Compliance with the European Machinery Directive
- Wiring
- Wiring examples (R0...R2)
- Connection principle (R3...R8)
- Wiring examples (R3...R8)
- Cable types and lengths
- Operation principle
- Start-up including acceptance test
- Maintenance
- Fault tracing
- Safety data
- Abbreviations
- Electrical installation
- Start-up
- Dimensions
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PNP configuration for digital inputsInternal and external +24 V power supply connections for PNP configuration areshown in the figure below.WARNING! Do not connect the +24 V AC cable to the control board ground when thecontrol board is powered using an external 24 V AC supply.NPN configuration for digital inputsInternal and external +24 V power supply connections for NPN configuration areshown in the figure below.WARNING! Do not connect the +24 V AC cable to the control board ground when thecontrol board is powered using an external 24 V AC supply.PNP connection (source)X2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI6PNP connection (source)X2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI6+24 V DC0 V DCInternal +24 V power supply External +24 V power supplyInternal +24 V power supply External +24 V power supplyX2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI6NPN connection (sink) NPN connection (sink) )X2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI60VDC+ 24VDCWARNING!Do not connect the +24 V AC cable to the control board ground when the controlboard is powered using an external 24 V AC supply.NPN configuration for digital inputsInternal and external +24 V power supply connections for NPN configuration are shown inthe figure below.PNP configuration for digital inputsInternal and external +24 V power supply connections for PNP configuration areshown in the figure below.WARNING! Do not connect the +24 V AC cable to the control board ground when thecontrol board is powered using an external 24 V AC supply.NPN configuration for digital inputsInternal and external +24 V power supply connections for NPN configuration areshown in the figure below.WARNING! Do not connect the +24 V AC cable to the control board ground when thecontrol board is powered using an external 24 V AC supply.PNP connection (source)X2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI6PNP connection (source)X2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI6+24 V DC0 V DCInternal +24 V power supply External +24 V power supplyInternal +24 V power supply External +24 V power supplyX2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI6NPN connection (sink) NPN connection (sink) )X2 & X310 +24V11 DGND12 DCOM13 DI114 DI215 DI316 DI417 DI518 DI60VDC+ 24VDCWARNING!Do not connect the +24 V AC cable to the control board ground when the controlboard is powered using an external 24 V AC supply.Connection for obtaining 0…10 V from analog output 2(AO2)To obtain 0…10 V from analog output AO2, connect a 500 ohm resistor (or two 1 kohmresistors in parallel) between the analog output 2 AO2 and analog common ground AGND.Examples are shown in the figure below.Electrical installation 8711
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