ABB ACS800-17LC User Manual

Critical warnings for electricians regarding electrical hazards during installation and maintenance.

Instructions for proper grounding to ensure safety and reduce interference.

Additional safety warnings specific to permanent magnet motor operation and maintenance.

General safety precautions for installing and servicing the drive, including dust, cooling, and hot surfaces.

Safety precautions for handling printed circuit boards, emphasizing ESD protection.

Guidelines for handling fiber optic cables to prevent damage and ensure proper connection.

Safety instructions for using the hand-operated winch for module replacement.

Safety precautions for working on the drive's liquid cooling system, including hot liquid and pressure.

Safety warnings for planning and operating the drive, emphasizing proper control and operational limits.

Additional warnings for permanent magnet motor operation, focusing on overspeed hazards.

States that the manual covers ACS800-17LC drive hardware and related firmwares/options.

Defines the intended audience for the manual, expecting basic electrical knowledge.

Briefly describes the content of each chapter in the manual.

Contains technical specifications, ratings, and requirements for CE and other markings.

Provides information on the physical dimensions of the drive.

Refers to other relevant manuals and documentation for further information.

Explains how drive frame sizes and option codes are indicated and identified.

A visual guide outlining the steps for installing and starting up the drive.

Introduces the ACS800-17LC as a liquid-cooled drive for various motor types.

Shows a basic electrical diagram of the drive's main circuit components.

Illustrates a single-line circuit for specific frame sizes without EMC or brake options.

Illustrates a single-line circuit for a multi-module frame size without options.

Provides a block diagram of the drive's main circuit, detailing various optional components.

Describes the typical cubicle arrangement within the drive cabinet based on type and options.

Details the physical layout of components within the cabinets for specific frame sizes.

Shows the arrangement of control electronics and terminal blocks on the swing-out frame.

Illustrates the internal layout of an optional auxiliary control cubicle.

Details the layout of the main switch disconnecter cubicle for larger frame sizes.

Shows the physical arrangement of LCL filter and supply module cubicles in a typical line-up.

Depicts the components and layout within the swing-out frame of an inverter module cubicle.

Illustrates the internal layout of an inverter module cubicle for frame size 2xR8i.

Illustrates the internal layout of an inverter module cubicle for frame size 3xR8i.

Describes the cubicle arrangement for multi-module inverter units in larger frame sizes.

Shows the physical appearance and key connection points of supply and inverter modules.

Diagram illustrating the drive's power connections, control interfaces, and I/O options.

Explains how to control the supply unit using operating switches, the control panel, or fieldbus.

Information on the emergency stop button functionality and its optional inclusion.

Details the function of the reset button for clearing faults or emergency stops.

Details the I/O connections and their usage within the supply unit.

Provides a detailed wiring diagram for standard I/O terminal connections.

Explains how to control the inverter unit and motor via the control panel or fieldbus.

Describes the function and interface of the control panel for drive operation and parameter settings.

Lists and briefly describes the main circuit boards used in the drive system.

Explains the information found on the drive's type designation label for identification.

Details the components of the drive's type designation label, including ratings and serial numbers.

Explains how to interpret the type code and its relation to drive configuration and options.

Lists and describes various option codes that modify the drive's functionality or construction.

Guidelines for verifying the installation site's suitability regarding ambient conditions and floor requirements.

Lists the necessary tools for moving and installing the drive unit.

Instructions for verifying the received drive components against the order and checking for damage.

Procedures for safely moving the drive unit, including methods like using a crane.

Detailed steps and safety notes for lifting and moving the drive cabinet using a crane.

Instructions for moving the drive using a fork-lift or pallet truck, emphasizing load capacity.

Procedure for moving the unit on rollers, with a note about marine cabinet restrictions.

Prohibits laying the unit on its back during transport or installation.

Guidance on how to maneuver the cabinet into its final installation position.

Provides a high-level description of the installation steps, referencing detailed instructions.

Instructions for securing the cabinet to the floor and wall using clamps or bolts.

Details the clamping method for fastening the cabinet to the floor and wall.

Describes fastening the cabinet using internal floor mounting holes.

Specific instructions for fastening the cabinet to the floor and wall for marine units.

Procedures for connecting multiple cabinet sections (shipping splits) together.

Steps for preparing and connecting the liquid pipes between cabinet sections.

Details on how to securely join adjacent cabinet sections using screws.

Instructions for correctly connecting the liquid pipes between cubicles.

Guidance on how to connect the protective earth (PE) busbars.

Step-by-step instructions for connecting the main DC busbars.

Information on cable ducts and electric welding for installation.

Instructions and warnings regarding the use of welding for cabinet fastening.

Guidance on selecting the appropriate main switch disconnector for the drive.

Instructions for verifying motor compatibility with the drive, including voltage and current ratings.

Explains how to protect motor insulation and bearings from drive output pulses and bearing currents.

Table detailing motor insulation, filter, and bearing requirements based on motor type and voltage.

Specific requirements for high-output and IP23 rated motors.

Information on form-wound windings for HXR and AMA motors.

Guidance on selecting criteria for non-ABB and other ABB motor types.

How parameter settings affect motor insulation requirements based on DC link voltage.

Methods for calculating voltage rise time and peak voltage at motor terminals.

Explains the function of sine filters in protecting motor insulation.

Guidelines for selecting appropriate power cables based on local regulations and drive load.

General rules for dimensioning and selecting power cables, including temperature and voltage ratings.

Tables providing current carrying capacities for various aluminium and copper power cable types.

Illustrates different types of power cables suitable for use with the drive.

Details requirements for motor cable shield conductivity to suppress emissions and bearing currents.

Specific requirements for cable types and ratings applicable in the US market.

Instructions for using conduits and bonding requirements for electrical installation.

Information on available armored and shielded power cable types and suppliers.

Guidance on selecting appropriate shielded control cables for signals.

General rules for selecting control cables, emphasizing shielding and pair isolation.

Specifies the tested and approved cable type for relay control signals.

Details limitations and types for control panel cables used in remote applications.

Specifies types and lengths for coaxial cables used with specific controller types.

Recommendations for routing motor, power, and control cables to minimize electromagnetic interference.

Illustrates recommended cable routing practices for control cables within the cabinet.

How to protect the drive and input power cable from short circuits using fuses.

How the drive protects the motor and cable from short circuits when correctly dimensioned.

How the drive and cables are protected against thermal overload when properly dimensioned.

Details the drive's motor thermal protection function and methods for tuning it.

Explains insulation requirements for connecting motor temperature sensors to the drive.

Describes the drive's internal ground fault protection and its limitations.

How to implement emergency stop functions using available options and control panel controls.

Details the Prevention of Unexpected Start function and its safety compliance.

Explains the Safe Torque Off (STO) function and its compliance with safety standards.

Information on the availability and implementation of the power-loss ride-through function.

How auxiliary circuits receive power, including details on transformers and options.

Instructions for connecting external control voltage using option +G307.

Specific guidance for units lacking auxiliary transformers and external voltage terminals.

Warnings and restrictions regarding the use of power factor compensation capacitors with AC drives.

Recommendation for installing a safety switch for isolating the motor during maintenance.

How to use a contactor for controlling the motor and drive output, with mode-specific procedures.

Guidance on implementing bypass connections using interlocked contactors.

A sample circuit diagram illustrating a bypass connection configuration.

Steps to switch the motor power supply from the drive to direct-on-line operation.

Recommendations for protecting relay contacts from voltage transients caused by inductive loads.

Information on PELV requirements and their fulfillment at high altitudes.

Procedures for checking the insulation resistance of the drive and its cables.

States that drive testing is done at the factory and internal circuits cut testing voltage.

How to check the insulation of the input supply cable before connection.

Steps for checking motor and motor cable insulation resistance using a megohmmeter.

Instructions for checking the insulation of the braking resistor assembly.

Guidance on checking compatibility with IT systems and handling EMC filters.

Instructions for connecting the main input power cable to the drive.

A diagram showing the input power cable connections for the drive.

Step-by-step guide for connecting the input power cable, including safety warnings.

Instructions for connecting motor cables when the common motor terminal cubicle is not used.

Wiring diagram for connecting a single inverter module to one motor.

Wiring diagrams for connecting multiple inverter modules in parallel to a single motor.

Detailed steps for connecting motor cables, including grounding and cable management.

Instructions for connecting motor cables when the common motor terminal cubicle is used.

Wiring diagram for connecting motor cables using the common motor terminal cubicle.

Step-by-step guide for connecting motor cables via the common motor terminal cubicle.

Instructions for connecting an external power supply to the auxiliary circuits when needed.

How to connect control cables for the supply unit, including external control options.

Instructions for connecting control cables to the inverter unit.

A diagram showing the default input/output (I/O) connections for the inverter unit.

Detailed steps for running and connecting cables into the cabinet, including EMI shielding.

Specific cable routing instructions for units with EMI conductive cushions.

Instructions for connecting a PC to the drive for configuration and monitoring.

Guidance on how to install optional modules like fieldbus adapters and I/O extensions.

Instructions for cabling I/O and fieldbus modules, including grounding and wire twisting.

Specific instructions for cabling pulse encoder interface modules, including grounding notes.

Information on DDCS fiber optic links and their connection procedures.

A comprehensive checklist to verify mechanical and electrical installation before drive start-up.

Basic steps and safety precautions for starting up the drive system.

Pre-start checks to be performed with no voltage applied to the drive.

Procedures for safely applying voltage to the drive's input terminals and auxiliary circuits.

Steps for closing the main contactor or breaker after initial checks.

Verifying the settings of the ground fault monitoring device for proper operation.

Information on setting up the supply unit's control program parameters.

Instructions for starting up the inverter unit and setting its parameters.

Steps for setting up the control program for the liquid cooling unit.

Procedures for verifying drive operation and functionality after applying power.

How to switch control panel operation between the supply and inverter units.

Lists specific parameters for the ACS800-17LC in the IGBT Supply Control Program.

Defines terms and abbreviations used in the IGBT Supply Control Program section.

Details specific parameters related to system control inputs and automatic fault reset.

Lists specific signals and parameters for the ACS800-17LC in the application program.

Defines terms and abbreviations used for actual signals and parameters.

Lists actual signals and parameters related to the supply unit within the inverter program.

Covers line-side converter references and actual signal selections for hardware specifications.

Explains the meaning of different LEDs on the drive's boards for status indication.

Describes how the control panel displays warnings and faults for supply and inverter units.

How to interpret fault messages from units not directly monitored by the control panel.

Explains the consequences of conflicting ID numbers and how to correct them.

Lists recommended routine maintenance intervals and actions for the drive.

Information regarding fan maintenance, including replacement procedures.

Procedure for replacing the cooling fan in converter modules of specific frame sizes.

Instructions for replacing an additional fan located in the incoming cubicle.

Steps for replacing the fan in the auxiliary control cubicle for larger frame sizes.

Procedure for replacing fans in the incoming cubicle for larger frame sizes.

Instructions for replacing cooling fans within the supply module cubicle.

Detailed steps for replacing fans in inverter modules for frame sizes 2xR8i and larger.

Instructions for replacing the fan in the common motor terminals cubicle.

Information on the drive's ability to operate at reduced power if modules fail.

Comprehensive instructions and safety warnings for replacing supply and inverter modules.

Details on installing the winch accessory used for module replacement.

Instructions for installing the accessory stand used during module replacement.

Information on the drive's electrolytic capacitors, their lifespan, and failure modes.

Procedure for reforming spare part capacitors annually to maintain their lifespan.

Guidance on contacting ABB service for capacitor replacement.

Instructions for cleaning the control panel.

Step-by-step guide for replacing the memory backup battery in the PPCS branching unit.

Introduces the drive's cooling system, comprising internal and external circuits.

A diagram illustrating the coolant circulation path within the drive's supply, inverter, and brake units.

Instructions for connecting the drive to an ACS800-1007LC or custom cooling unit.

General requirements for equipping the system with an expansion tank and pressure regulator.

Explains coolant temperature control and provides a diagram for a three-way valve system.

Guidance on laying liquid piping and checking for leaks during installation.

Detailed procedures for filling and bleeding the internal cooling circuit to remove air.

Instructions for draining the internal cooling circuit using drain valves in each cubicle.

Guidance on adding coolant inhibitor periodically to the internal circuit.

Details coolant temperature and pressure limits for the drive's cooling system.

Specifies minimum coolant inlet temperatures based on air temperature and relative humidity.

Defines maximum coolant inlet temperatures for drives with and without optional cooling units.

Lists various pressure specifications for the cooling system, including base and design pressures.

Specifies the quality requirements for tap water used in the cooling system.

Details the use of water-glycol solutions for freeze protection and corrosion inhibition.

Provides a graph showing the required glycol concentration based on ambient temperature.

Lists the materials used in the internal and external cooling circuits and their compatibility.

Provides a table of nominal, no-overload, light-overload, and heavy-duty ratings for various drive types.

Defines terms related to drive ratings and usage, such as continuous current and power.

Explains derating factors due to altitude and ambient temperature.

Details how to calculate output current derating based on ambient temperature increase.

A table mapping drive types to their corresponding supply and inverter module configurations.

Lists brake chopper and resistor options with their specifications.

Details specifications for 3-phase brake units, including current and resistor values.

Information and notes regarding the selection and use of fuses for the drive.

Tables listing recommended AC fuses from Bussmann and Ferraz Shawmut for various drive types.

Tables listing recommended DC fuses for the supply and inverter sections of the drive.

Provides dimensional data and free space requirements for different drive units.

Presents data on power losses, cooling parameters, and noise levels for various drive types.

Specifies terminal sizes, tightening torques, and cable lead-through details for input power cables.

Provides terminal and lead-through data for motor cables when not using a common motor terminal cubicle.

Terminal and lead-through data for motor cables when using the Common Motor Terminal cubicle.

Refers to other manuals for terminal and lead-through data for resistor cables.

Refers to default I/O connection diagrams for control cable lead-through information.

Details voltage, short-circuit withstand, frequency, imbalance, and power factor specifications.

Provides information on motor types, voltage, frequency, current, and power limits.

Refers to other sections for brake resistor connection data.

Specifies connection data for analog inputs, outputs, constant voltage output, and auxiliary power.

Details the specifications and characteristics of analog inputs on the control unit.

Specifies the voltage, load, and potentiometer range for the constant voltage output.

Details the voltage and maximum current for the auxiliary power output.

Specifies the resolution and inaccuracy of the analog outputs.

Details the six programmable digital inputs, including thermistor input and supply options.

Specifies the switching capacity and continuous current for the relay outputs.

Information on the DDCS fiber optic link and its communication adapter module.

Details the voltage and current consumption for the 24 V DC power input.

A diagram illustrating the isolation and grounding scheme for the drive's connections.

States the typical efficiency of the drive at rated conditions.

Specifies the IP ratings (IP42, IP54) for the drive enclosures.

Details environmental limits for operation, storage, and transportation, including temperature, humidity, and pressure.

Lists the materials used for the cabinet and busbars.

Lists materials for internal cooling circuit piping.

Classifies insulating materials and non-metallic items based on fire safety.

Describes the materials used for packaging the drive.

Provides guidance on recycling and disposal of drive components and packaging.

Table showing current consumption for various components in the auxiliary circuit.

Lists the standards that the drive complies with, covering safety, EMC, and electrical requirements.

Explains the meaning and implications of the CE mark on the drive.

States compliance verification with the European Low Voltage Directive.

States compliance verification with the European EMC Directive for drives.

Explains how safety functions conform to the European Machinery Directive.

Details compliance with the EMC product standard for adjustable speed drives.

Defines terms related to EMC, including environments and drive categories (C2, C3, C4).

Specifies provisions for 400/500V drives complying with Category C2 EMC standards.

Specifies provisions for drives complying with Category C3 EMC standards.

Specifies provisions for drives complying with Category C4 EMC standards, including EMC plans.

Information on UL and cCSAus listing and conditions for its application.

A checklist of UL requirements for input power, installation, and components.

States that the ACS800-17LC is CSA marked.

Lists type approvals from marine classification societies for specific units.

Disclaimer regarding the customer's responsibility for securing network connections.

Manufacturer's disclaimer of liability for product misuse, alteration, or wear.

A table listing dimensions (height, width, depth) for various drive types and configurations.

Provides dimension drawings for specific frame sizes with bottom entry/exit configurations.

Provides dimension drawings for specific frame sizes with marine unit configuration.

Guidance on how to direct product inquiries to local ABB representatives.

Information on how to access ABB product training resources.

Instructions on how to submit comments or feedback regarding ABB manuals.

Information on accessing ABB manuals and product documents online.