ABB ACS355 series manuals
ACS355 series
Table of contents
- List of related manuals
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Introduction
- Target audience
- Contents of the manual
- Cybersecurity disclaimer
- Drive configuration
- Configuring ACS355 drives
- Starting ACS355 drives for PROFINET
- ACS355 Minimum required parameter settings for PROFINET
- ACS355 More parameters written from PLC to drive (optional)
- ACS380 Minimum required parameter settings PROFIBUS DS
- Starting ACS380 drives for PROFINET
- ACS380 More parameters read from drive to PLC (optional)
- Configuring ACS550 drives
- Starting ACS550 drives for PROFINET
- ACS550 More actual values or parameters to be read from drive to PLC (optional)
- Configuring ACS580 drives
- ACS580 Minimum required parameter settings for PROFIBUS DP
- Starting ACS580 drives for PROFINET
- ACS580 Minimum required parameter settings for PROFINET
- ACS580 More parameters read from drive to PLC (optional)
- ACS800 Minimum required parameter settings for PROFIBUS DP
- Starting ACS800 drives for PROFINET
- ACS800 Minimum required parameter settings for PROFINET
- ACS800 More parameters read from drive to PLC (optional)
- ACS850 Minimum required parameter settings for PROFIBUS DP
- ACS850 Minimum required parameter settings for PROFINET
- ACS850 More parameters read from drive to PLC
- ACS880 Minimum required parameter settings for PROFIBUS DP
- Starting ACS880 drives for PROFINET
- ACS880 Minimum required parameter settings for PROFINET
- ACS880 More parameters written from PLC to drive (optional)
- ACSM1 Minimum required parameter settings for PROFIBUS DP
- Starting ACSM1 drives for PROFINET
- ACSM1 Minimum required parameter settings for PROFINET
- ACSM1 More parameters read from drive to PLC (optional)
- SIMATIC Manager
- Setting PG/PC interface
- Hardware configuration
- Adding Rack and CPU to the hardware
- Installing GSD files for ABB drives
- Adding drives to PROFINET
- Downloading Hardware configuration
- PLC libraries for S7-300
- Symbol Editor
- FB500 ABB_DRIVE_CONTROL_FB
- Block variables and data types
- Setting the drive in standby mode
- Setting the drive in run mode
- Downloading a program and setting PLC in run mode
- VAT table
- FC501 ACS_DRIVE_PZD (optional)
- Block variable and data types for FC501
- Scalable variables and data types
- FC500 ACS_DRIVE_PARA (optional)
- TIA portal
- Configuring S7-300 PLC
- Installing GSD and GSDML file for S7-300 PLC
- Adding ABB drives to PROFINET
- Downloading configuration to PLC
- Copying ABB drive libraries to S7-300 project
- Adding PLC tags to S7-300
- Adding watch and force tables
- FC501 ACS_DRIVE_PZD
- FC500 ACS_DRIVE_PARA
- Error codes for FB500 and FC500
- Configuring S7-1200 and S7-1500 PLC
- Installing GSD file for S7-1200 PLC
- PLC libraries for S7-1200
- Downloading configuration to S7-1200 PLC
- Copying ABB drive libraries to S7-1200 project
- Adding PLC tags to S7-1200
- Block variables and data types for FB500
- FB501 ACS_DRIVE_PARA
- Block variables and data types for FB501
- FB502 ACS_DRIVE_PZD
- Block variables and data types for FB502
- Further information
- Contact us
ACS355 series
Table of contents
- Table Of Contents
- Table Of Contents
- Introduction
- Fieldbus grounding
- Drives with embedded fieldbus
- Fieldbus modules for ABB drives
- ABB cable TK505
- AC500 COM1 – Master at the bus line end
- AC500‐eCo COM2 – Master at the bus line end
- Drive configuration
- Starting up ACS310 drives with embedded Modbus RTU
- Starting up ACS355 drives with FMBA‐01 Modbus RTU adapter
- Starting up ACS800 drives with RMBA‐01 Modbus RTU adapter
- Starting up ACS850, ACQ810 drives with embedded Modbus RTU
- Starting up ACS880 drives with FSCA‐01 Modbus RTU adapter
- Starting up ACSM1 drives with FSCA‐01 Modbus RTU adapter
- Install drives library
- Control Builder Plus for PLC and Drives
- IP configuration of CPU (for Ethernet connection between PC and PLC)
- CODESYS
- Library Manager
- PLC logic
- Download program to PLC
- Create boot project
- Test the program
- Read and write more data between PLC and drive (optional)
- Visualizations
- Add more drives (optional)
- Actualization rate
ACS355 series
Table of contents
- List of related manuals
- Table Of Contents
- Table Of Contents
- What this chapter contains
- Contents
- ACS355 drive configuration
- Installing ABB Control Builder AC500
- Configuring communication parameters
- Checking the COM port of TK504
- Getting help on a specific function block
- Configuring the slave address of the drive
- Copying the program for another drive
- Creating a visualization for a copied drive program
- Using visualizations
- Configuring parameters to be read from the drive
- Using the read parameters in the program
- Program structure
- DriveRef
- Speed reference generation
- ACS_DRIVES_CTRL_ENG
ACS355 series
Table of contents
- List of related manuals
- 1. Safety
- 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
- Table Of Contents
- What this chapter contains
- Safety in installation and maintenance
- General safety
- Contents of this manual
- Related documents
- Quick installation and commissioning flowchart
- Product overview
- Power connections and control interfaces
- Type designation label
- Type designation key
- Required tools
- Unpacking
- Installing
- Fasten clamping plates
- European union
- Alternative power cable types
- Additional US requirements
- Relay cable
- Control cable ducts
- against thermal overload
- Protecting the motor against thermal overload
- Protecting the contacts of relay outputs
- Motor and motor cable
- Connecting the power cables
- Connection procedure
- Connecting the control cables
- Default I/O connection diagram
- Checking the installation
- How to start up the drive without a control panel
- How to perform a manual start-up
- How to perform a guided start-up
- How to control the drive through the I/O interface
- How to perform the ID run
- Basic control panel
- Overview
- Operation
- Output mode
- Reference mode
- Parameter mode
- Copy mode
- Basic control panel alarm codes
- Assistant control panel
- Parameters mode
- Assistants mode
- Changed parameters mode
- Fault logger mode
- Time and date mode
- Parameter backup mode
- I/O settings mode
- Summary of the I/O connections of the application macros
- ABB standard macro
- wire macro
- Alternate macro
- Motor potentiometer macro
- Hand/Auto macro
- PID control macro
- Torque control macro
- User macros
- Default order of the tasks
- List of the tasks and the relevant drive parameters
- Contents of the assistant displays
- Local control vs. external control
- External control
- Reference types and processing
- Reference trimming
- Example
- Diagnostics
- Programmable digital inputs
- Programmable relay output
- Transistor output
- Power loss ride-through
- Maintenance trigger
- Flux braking
- Settings
- Critical speeds
- Custom U/f ratio
- Speed controller tuning
- Scalar control
- Panel loss
- Underload protection
- Input phase loss
- Power limit
- Parameter lock
- Block diagrams
- Sleep function for the process PID (PID1) control
- Motor temperature measurement through the standard I/O
- Control of a mechanical brake
- Operation time scheme
- State shifts
- Jogging
- Timed functions
- Example 1
- Example 2
- Safe torque off (STO) function
- Fieldbus equivalent
- Actual signals
- FB ACTUAL SIGNALS
- FAULT HISTORY
- Parameters
- REFERENCE SELECT
- CONSTANT SPEEDS
- ANALOG INPUTS
- RELAY OUTPUTS
- ANALOG OUTPUTS
- SYSTEM CONTROLS
- FREQ IN & TRAN OUT
- TIMER & COUNTER
- LIMITS
- START/STOP
- ACCEL/DECEL
- SPEED CONTROL
- TORQUE CONTROL
- MOTOR CONTROL
- MAINTENANCE TRIG
- FAULT FUNCTIONS
- AUTOMATIC RESET
- SUPERVISION
- INFORMATION
- PANEL DISPLAY
- MOTOR TEMP MEAS
- PROCESS PID SET 1
- PROCESS PID SET 2
- EXT / TRIM PID
- MECH BRK CONTROL
- ENCODER
- EXT COMM MODULE
- PANEL COMM
- EFB PROTOCOL
- FBA DATA OUT
- SEQUENCE PROG
- OPTIONS
- Setting up communication through the embedded Modbus
- Drive control parameters
- Fieldbus control interface
- Fieldbus references
- Fieldbus reference scaling
- Reference handling
- Modbus mapping
- Function codes
- Communication profiles
- DCU communication profile
- Setting up communication through a fieldbus adapter module
- References
- Alarm messages generated by the drive
- Alarms generated by the basic control panel
- Fault messages generated by the drive
- Embedded fieldbus faults
- Cooling fan
- Capacitors
- Control panel
- Ratings
- Definitions
- Power cable sizes and fuses
- Dimensions, weights and free space requirements
- Losses, cooling data and noise
- Noise
- Terminal and lead-through data for the power cables
- Electric power network specification
- Control connection data
- Brake resistor connection
- Ambient conditions
- Materials
- CE marking
- Category C2
- UL marking
- C-Tick marking
- Patent protection in the USA
- Frame sizes R0 and R1, IP20 (cabinet installation) / UL open
- Frame sizes R0 and R1, IP20 / NEMA 1
- Frame size R2, IP20 (cabinet installation) / UL open
- Frame size R2, IP20 / NEMA 1
- Frame size R3, IP20 (cabinet installation) / UL open
- Frame size R3, IP20 / NEMA 1
- Frame size R4, IP20 (cabinet installation) / UL open
- Frame size R4, IP20 / NEMA 1
- Selecting the brake resistor cables
- Placing the brake resistor
- Installation
- Technical data
- MPOW-01 auxiliary power module
- What this appendix contains
- Program features, settings and diagnostics
- STO status indications
- STO function activation and indication delays
- Start-up and commissioning
- Data related to safety standards
- Product and service inquiries
ACS355 series
Table of contents
- List of related manuals
- 1. Safety
- 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
- Table Of Contents
- What this chapter contains
- Safety in installation and maintenance
- General safety
- Contents of this manual
- Related documents
- Quick installation and commissioning flowchart
- Terms and abbreviations
- Product overview
- Overview of power and control connections
- Type designation label
- Type designation key
- Required tools
- Unpacking
- Installing
- Fasten clamping plates
- Selecting the supply disconnecting device (disconnecting means)
- Selecting the power cables
- Alternative power cable types
- Additional US requirements
- Selecting the control cables
- Routing the cables
- against thermal overload
- Protecting the motor against thermal overload
- Protecting the contacts of relay outputs
- Motor and motor cable
- Connecting the power cables
- Connection procedure
- Connecting the control cables
- Default I/O connection diagram
- Starting up the drive
- Performing a manual start-up
- Performing a guided start-up
- Controlling the drive through the I/O interface
- Performing the ID run
- Applicability
- Overview
- Operation
- Output mode
- Reference mode
- Parameter mode
- Copy mode
- Basic control panel alarm codes
- Assistant control panel
- Parameters mode
- Assistants mode
- Changed parameters mode
- Fault logger mode
- Time and date mode
- Parameter backup mode
- I/O settings mode
- Summary of the I/O connections of the application macros
- ABB standard macro
- wire macro
- Alternate macro
- Motor potentiometer macro
- Hand/Auto macro
- PID control macro
- Torque control macro
- AC500 Modbus macro
- User macros
- Default order of the tasks
- List of the tasks and the relevant drive parameters
- Contents of the assistant displays
- Local control vs. external control
- External control
- Reference types and processing
- Reference trimming
- Example
- Programmable analog inputs
- Programmable analog output
- Programmable digital inputs
- Programmable relay output
- Transistor output
- Diagnostics
- Power loss ride-through
- Maintenance trigger
- Flux braking
- Settings
- Critical speeds
- Custom U/f ratio
- Speed controller tuning
- Torque control performance figures
- IR compensation for a scalar controlled drive
- Motor thermal protection
- Earth fault protection
- Short-circuit
- Supervisions
- Process controller PID1
- Sleep function for the process PID (PID1) control
- Control of a mechanical brake
- Operation time scheme
- State shifts
- Real-time clock and timed functions
- Counter
- Example 1
- Example 2
- Safe torque off (STO) function
- Fieldbus equivalent
- Differences between the default values in E and U type drives
- Actual signals
- FB ACTUAL SIGNALS
- FAULT HISTORY
- Parameters
- REFERENCE SELECT
- CONSTANT SPEEDS
- ANALOG INPUTS
- RELAY OUTPUTS
- ANALOG OUTPUTS
- SYSTEM CONTROLS
- FREQ IN & TRAN OUT
- TIMER & COUNTER
- LIMITS
- START/STOP
- ACCEL/DECEL
- SPEED CONTROL
- TORQUE CONTROL
- MOTOR CONTROL
- MAINTENANCE TRIG
- FAULT FUNCTIONS
- AUTOMATIC RESET
- SUPERVISION
- INFORMATION
- PANEL DISPLAY
- MOTOR TEMP MEAS
- TIMED FUNCTIONS
- PROCESS PID SET 1
- PROCESS PID SET 2
- EXT / TRIM PID
- MECH BRK CONTROL
- ENCODER
- EXT COMM MODULE
- PANEL COMM
- EFB PROTOCOL
- FBA DATA OUT
- OPTIONS
- Setting up communication through the embedded Modbus
- Drive control parameters
- Fieldbus control interface
- Fieldbus references
- Fieldbus reference scaling
- Reference handling
- Actual value scaling
- Register mapping
- Function codes
- Exception codes
- Communication profiles
- DCU communication profile
- Setting up communication through a fieldbus adapter module
- References
- How to reset
- Alarm messages generated by the drive
- Alarms generated by the basic control panel
- Fault messages generated by the drive
- Embedded fieldbus faults
- Cooling fan
- Capacitors
- Control panel
- Ratings
- Definitions
- Derating
- Power cable sizes and fuses
- Alternate short-circuit protection
- Dimensions, weights and free space requirements
- Losses, cooling data and noise
- Noise
- Terminal and lead-through data for the power cables
- Electric power network specification
- Control connection data
- Brake resistor connection
- Ambient conditions
- Materials
- CE marking
- Category C1
- UL marking
- C-Tick marking
- Frame sizes R0 and R1, IP20 (cabinet installation) / UL open
- Frame sizes R0 and R1, IP20 / NEMA 1
- Frame size R2, IP20 (cabinet installation) / UL open
- Frame size R2, IP20 / NEMA 1
- Frame size R3, IP20 (cabinet installation) / UL open
- Frame size R3, IP20 / NEMA 1
- Frame size R4, IP20 (cabinet installation) / UL open
- Frame size R4, IP20 / NEMA 1
- Selecting the brake resistor cables
- Placing the brake resistor
- Start-up
- Installation
- Technical data
- MPOW-01 auxiliary power extension module
- What this appendix contains
- Compliance with the European Machinery Directive
- Connection principle
- Wiring examples
- Activation switch
- Operation principle
- Acceptance test procedure
- Maintenance
- Fault tracing
- Safety data
- Abbreviations
- Start mode
- Product and service inquiries
ACS355 series
Table of contents
- list of related manuals
- Table Of Contents
- Table Of Contents
- About this chapter
- Safety in installation and maintenance
- Grounding
- Contents
- Control panels
- I-V characteristics
- Mechanical installation
- Connection procedure
- Installing control cables
- Operating instructions
- Viewing pump signals
- Editing pump parameters
- Boost voltage factor
- Settings
- Parameters
- How to reset
- Alarm messages
- Inverter power rating
- Fuse ratings
- UL checklist
- Product and service inquiries
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