ABB ACS880-34 manuals
ACS880-34
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Contents of this chapter
- Related manuals
- Selecting the main contactor (breaker)
- Selecting the supply transformer
- Additional notes
- A drive with a 12-pulse diode supply unit
- Examining the compatibility of the motor and drive
- Availability of du/dt filter and common mode filter by drive type
- 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
- Alternative power cable types
- Not allowed power cable types
- Additional US requirements
- Selecting the control cables
- Routing the cables
- Separate control cable ducts
- Implementing thermal overload and short circuit protections
- Multidrive modules
- Implementing a motor temperature sensor connection
- Implementing a ground fault protecting function
- Implementing the Emergency stop function
- Implementing the Prevention of unexpected start-up function
- Implementing the Power-loss ride-through
- Implementing a bypass connection
- Applicable standards
- Markings
- EMC compliance (IEC/EN 61800-3:2004 + A2012)
- Category C3
- EU Declaration of Conformity (Machinery Directive)
- UL and CSA checklist
- Disclaimers
ACS880-34
Table of contents
- List of related manuals
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- What this chapter contains
- Licensing
- Contents of the manual
- Local control vs. external control
- External control
- Operating modes of the drive
- Speed control mode
- Contents of this chapter
- Drive start-up
- ESP application minimum configuration
- Backspin supervision
- Backspin speed observer constraints
- Starting the motor
- Kick-start
- Current pulse-start
- ESP production mode
- Automatic process control mode
- Underload and overload protection
- Underload ride through recovery sequence
- Overload recovery sequence
- Motor voltage control
- Pump impeller cleaning
- Pump curves
- Drive configuration and programming
- Adaptive programming
- Control interfaces
- Programmable relay outputs
- Fieldbus control
- Master/follower functionality
- External controller interface
- Control of a supply unit (LSU)
- Motor control
- Constant speeds/frequencies
- Speed controller autotune
- Oscillation damping
- Resonance frequency elimination
- Encoder support
- Jogging
- Scalar motor control
- Autophasing
- Flux braking
- DC magnetization
- Hexagonal motor flux pattern
- Application control
- Motor potentiometer
- Mechanical brake control
- DC voltage control
- Voltage control and trip limits
- Brake chopper
- Safety and protections
- Motor thermal protection
- Thermal protection of motor cable
- Automatic fault resets
- Other programmable protection functions
- Diagnostics
- Energy saving calculators
- Miscellaneous
- User lock
- Reduced run function
- du/dt filter support
- Factory macro
- Default control connections for the Factory macro
- Hand/Auto macro
- Default control connections for the Hand/Auto macro
- PID control macro
- Default parameter settings for the PID control macro
- Default control connections for the PID control macro
- Sensor connection examples for the PID control macro
- Torque control macro
- Default control connections for the Torque control macro
- Sequential control macro
- Selection of constant speeds
- Default control connections for the Sequential control macro
- Fieldbus control macro
- Terms and abbreviations
- Summary of parameter groups
- Parameter listing
- Input references
- Warnings and faults
- Control and status words
- System info
- ESP signals
- Standard DI, RO
- Standard DIO, FI, FO
- Standard AI
- Standard AO
- I/O extension module 1
- I/O extension module 2
- I/O extension module 3
- Operation mode
- Start/stop/direction
- Start/stop mode
- Speed reference selection
- Speed reference ramp
- Speed reference conditioning
- Speed control
- Torque reference chain
- Frequency reference chain
- Limits
- Fault functions
- Supervision
- Generic timer & counter
- Load analyzer
- User load curve
- Process PID set 1
- Process PID set 2
- Energy efficiency
- Monitoring/scaling settings
- Data storage
- Panel port communication
- Fieldbus adapter (FBA)
- FBA A settings
- FBA B settings
- Embedded fieldbus
- DDCS communication
- D2D and DDCS transmit data
- D2D and DDCS receive data
- ESP control
- ESP reference setup
- ESP automatic control
- Load protection
- Voltage control
- Pump cleaning
- Q-H pump curves
- Feedback selection
- Encoder module settings
- Encoder 1 configuration
- Encoder 2 configuration
- LSU control
- HW configuration
- System
- User motor parameters
- Motor data
- Safety
- Fieldbus addresses
- Parameter groups 1...9
- Parameter groups 10...99
- Pure events
- Other data loggers
- QR Code generation for mobile service application
- Warning messages
- Fault messages
- Connecting the fieldbus to the drive
- Setting up the embedded fieldbus interface
- Setting the drive control parameters
- Basics of the embedded fieldbus interface
- Control word and Status word
- Register addressing
- About the control profiles
- The ABB Drives profile
- Status Word
- State transition diagram
- References
- Actual values
- Modbus holding register addresses
- The Transparent profile
- Modbus function codes
- Exception codes
- Coils (0xxxx reference set)
- Discrete inputs (1xxxx reference set)
- Error code registers (holding registers 400090...400100)
- Basics of the fieldbus control interface
- Contents of the fieldbus Control word (ABB Drives profile)
- Contents of the fieldbus Status word (ABB Drives profile)
- The state diagram (ABB Drives profile)
- Setting up the drive for fieldbus control
- Parameter setting example: FPBA (PROFIBUS DP)
- Speed reference source selection I
- Speed reference source selection II
- Speed reference ramping and shaping
- Motor feedback configuration
- Load feedback and position counter configuration
- Speed error calculation
- Speed controller
- Torque reference source selection and modification
- Operating mode selection
- Reference selection for torque controller
- Torque limitation
- Torque controller
- Frequency reference selection
- Frequency reference modification
- Process PID setpoint and feedback source selection
- Process PID controller
- Master/Follower communication I (Master)
- Master/Follower communication II (Follower)
- Product and service inquiries
ACS880-34
Table of contents
- Table Of Contents
- Table Of 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
- Quick installation, commissioning and operating flowchart
- Terms and abbreviations
- Block diagram of the main circuit of the drive module
- AC voltage and current waveforms
- Layout
- Converter module
- LCL filter module
- Power module with full power cabling panels (option +H381)
- Control panel
- Overview of power and control connections
- Type designation label
- Planning the layout of the cabinet
- Layout example, door closed
- Layout example, door open (standard drive module configuration)
- Layout example, door open (option +0B051)
- Arranging the grounding inside the cabinet
- Planning the cabinet placement on a cable channel
- Planning the cooling
- Preventing the recirculation of hot air
- Bookshelf mounting (standard drive module configuration)
- Bookshelf mounting (option +0B051)
- Bookshelf mounting (option +H381)
- Planning the placement of the control panel
- Selecting the supply disconnecting device
- Protecting the motor insulation and bearings
- Additional requirements for explosion-safe (EX) 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
- Planning the braking system
- Separate control cable ducts
- Implementing thermal overload and short-circuit protection
- Protecting the drive against ground faults
- Implementing the ATEX-certified Safe motor disconnection function (option +Q971)
- Using power factor compensation capacitors with the drive
- Using a contactor between the drive and the motor
- Connecting a motor temperature sensor to the drive I/O
- Connection of motor temperature sensor to the drive via a relay
- Moving and unpacking the unit
- Package with option +E202
- Boxes
- LCL filter module package
- Checking the delivery
- Motor and motor cable
- ed delta, and TT systems
- When to disconnect EMC filter (option +E202) or ground-to-phase varistor: TN-S, IT, cor ner-grounded delta, and midpoint-grounded delta system
- Identifying different types of electrical power systems
- Disconnecting EMC filter and ground-to-phase varistor
- Installation alternatives
- Installing standard configuration in Rittal TS cabinet
- IP20 shrouds (option +0B051)
- Power cable connection diagram
- Power cable connection procedure
- Connecting a control panel
- Controlling several drives from one control panel through panel bus
- Connecting a PC
- Removing the control panel holder from the external control unit
- Attaching the control cable clamp plate
- Connecting the external control unit to the drive module
- Connecting cables between the drive module and the control unit
- Mounting the external control unit
- Mounting the external control unit vertically on a DIN rail
- Connecting the control cables to the terminals of the control unit
- Default I/O connection diagram
- Notes
- AI1 and AI2 as Pt100, Pt1000, PTC and KTY84 sensor inputs (XAI, XAO)
- DI6 (XDI:6) as PTC sensor input
- Safe torque off (XSTO)
- control unit
- Technical data (ZCU-14)
- Connecting the control cables to the internal control unit (option +P905)
- Installing optional modules
- Installing I/O extension, fieldbus adapter and pulse encoder interface modules
- Technical data (ZCU-12)
- Required parts
- Installing the drive module and LCL filter module into a cabinet
- Connecting the power cables and installing the shrouds
- Installing the roof and door (Rittal parts)
- Overall flowchart of the installation process
- Connecting the power cables
- Installing the drive module into the cabinet
- Installation procedure
- Assembly drawing of connecting the drive module to the cabling panels
- Miscellaneous
- Modular design of Rittal TS8 cabinets
- Powering up the auxiliary circuit of the drive
- Descriptions of symbols
- Heatsink
- Fans
- Replacing the drive module main cooling fans
- Replacing the LCL filter module cooling fan
- Replacing the standard drive module
- Replacing the LCL filter module
- Replacing the drive module with option +H381
- Replacing the LCL filter module with option +H381
- Cleaning
- Replacing the line-side converter control unit memory unit
- Cabinet ventilation
- Air outlet kits
- Cooling fans
- FSO accessories kit
- Retrofit accessory kits
- When is derating needed
- Altitude derating
- High speed mode
- Derating for output voltage boosting
- Fuses (IEC)
- Fuses (UL Recognized)
- Dimensions, weights and free space requirements
- Terminal and entry data for the power cables
- Motor connection data
- DC connection data
- Ambient conditions
- Applicable standards
- Markings
- Category C3
- UL checklist
- EU Declaration of Conformity (Machinery Directive)
- Disclaimers
- Standard configuration
- Location of power cable connection terminals with options +H370, +H356
- Drive module with options +0B051+H356+0H371
- Bottom plate
- Air baffles for the standard drive module
- Material of the air baffles
- External control unit
- Example circuit diagram
- Compliance with the European Machinery Directive
- Activation switch
- Single drive (internal power supply)
- Multiple drives (internal power supply)
- Multiple drives (external power supply)
- Operation principle
- Maintenance
- Competence
- Abbreviations
- Selecting custom resistors
- EMC compliance of the complete installation
- Electrical installation
- Brake resistors
- Calculating the maximum allowed braking power for a custom duty cycle
- SAFUR resistors
- Dimensions and weights
- Ordering codes
- Description, installation and technical data of the sine filters
- in Rittal TS 8 800 mm wide cabinet
- Product and service inquiries
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