ABB ACS530-04 Hardware Manual
  1. Manuals
  2. Brands
  3. ABB Manuals
  4. Controller
  5. ACS530-04
  6. Hardware manual
ABB ACS530-04 Hardware Manual

ABB ACS530-04 Hardware Manual

Drive modules
Hide thumbs
Table of Contents

Advertisement

Quick Links

Download this manual
ABB GENERAL PURPOSE DRIVES
ACS530-04 drive modules
Hardware manual

Advertisement

Table of Contents
loading

Related Manuals for ABB ACS530-04

Summary of Contents for ABB ACS530-04

  • Page 1 — ABB GENERAL PURPOSE DRIVES ACS530-04 drive modules Hardware manual...
  • Page 2 — List of related manuals Drive hardware manuals and guides Code (English) Code (Chinese) ACS530-04 drive modules (250 to 500 kW) hardware manual 3AXD50000810598 3AXD50000753550 ACS530-04 drive modules (250 to 500 kW) quick 3AXD50000753567 3AXD50000753567 installation guide ACS-BP-S Basic control panels user’s manual...
  • Page 3 Hardware manual ACS530-04 drive modules (250 to 500 kW) Table of contents 1. Safety instructions 6. Installation instructions 9. Start-up  2021 ABB Oy. All Rights Reserved. 3AXD50000810598 Rev A EFFECTIVE: 2021-08-15...

  • Page 5: Table Of Contents

    Table of contents List of related manuals ........... 2 1.
  • Page 6 Planning the cabinet placement on a cable channel ......42 Planning the electromagnetic compatibility (EMC) of the cabinet ....42 Planning the cooling .
  • Page 7 Connecting the control cables ..........82 Default I/O connection diagram (ABB standard macro) ..... . . 84 Connecting a control panel .
  • Page 8 8. Installation checklist Contents of this chapter ..........97 Installation checklist .
  • Page 9 Ambient conditions ........... . 122 CE marking .
  • Page 10 Use ..............148 Maintenance .
  • Page 11 Providing feedback on ABB manuals ........

  • Page 13: Safety Instructions

    Safety instructions 13 Safety instructions Contents of this chapter This chapter contains the safety instructions which you must obey when you install and operate the drive and do maintenance on the drive. If you ignore the safety instructions, injury, death or damage can occur. Use of warnings and notes Warnings tell you about conditions which can cause injury or death, or damage to the equipment.

  • Page 14: General Safety In Installation, Start-Up And Maintenance

    14 Safety instructions General safety in installation, start-up and maintenance These instructions are for all personnel that install the drive module and do maintenance work on it. WARNING! Obey these instructions. If you ignore them, injury or death, or damage to the equipment can occur. •...
  • Page 15 Safety instructions 15 • To prevent the drive module from falling, attach its top lifting lugs with chains to the cabinet frame before you push the module into the cabinet and pull it from the cabinet. Work carefully preferably with help from another person as shown below. Keep a constant pressure with one foot on the base of the module to prevent the module from falling on its back 3AUA0000088632...

  • Page 16: Electrical Safety In Installation, Start-Up And Maintenance

    16 Safety instructions Electrical safety in installation, start-up and maintenance Precautions before electrical work  These warnings are for all personnel that do work on the drive, motor cable or motor. WARNING! Obey these instructions. If you ignore them, injury or death, or damage to the equipment can occur.

  • Page 17: Additional Instructions And Notes

    Safety instructions 17 Additional instructions and notes  WARNING! Obey these instructions. If you ignore them, injury or death, or damage to the equipment can occur. • If you are not a qualified electrician, do not do installation or maintenance work. •...

  • Page 18: Grounding

    18 Safety instructions Grounding  These instructions are for all personnel who are responsible for the grounding of the drive. WARNING! Obey these instructions. If you ignore them, injury or death, or equipment malfunction can occur, and electromagnetic interference can increase. •...

  • Page 19: Additional Instructions For Permanent Magnet Motor Drives

    Safety instructions 19 Note: • The maximum drive power cycles is five times in ten minutes. Power cycling the drive too often can damage the charging circuit of the DC capacitors. If you need to start or stop the drive, use the control panel keys or commands through the I/O terminals of the drive.
  • Page 20 20 Safety instructions...

  • Page 21: Introduction To The Manual

    Introduction to the manual 21 Introduction to the manual Contents of this chapter This chapter describes the intended audience and contents of the manual. It contains a flowchart of steps in checking the delivery, installing and commissioning the drive. The flowchart refers to chapters/sections in this manual and other manuals.

  • Page 22: Contents Of The Manual

    22 Introduction to the manual Contents of the manual This manual contains the instructions and information for the basic drive module configuration. The chapters of the manual are briefly described below. Safety instructions gives safety instructions for the installation, commissioning, operation and maintenance of the drive module.

  • Page 23: Categorization By Frame Size And Option Code

    Introduction to the manual 23 Categorization by frame size and option code The instructions, technical data and dimension drawings which concern only certain drive frame sizes are marked with the symbol of the frame size (R10 or R11). The frame size is marked on the type designation label.
  • Page 24 24 Introduction to the manual Task Standard drive modules Installing the drive module into a cabinet (page • Install the additional components into the cabinet: for example, main disconnector, main contactor, main AC Connecting the power cables (page fuses, etc. Manuals for any optional equipment •...

  • Page 25: Terms And Abbreviations

    Introduction to the manual 25 Terms and abbreviations Term/Abbreviation Explanation ACS-AP-x Assistant control panel, advanced operator keypad for communication with the drive. The ACS530 supports types ACS-AP-I, ACS-AP-S and ACS-AP-W. ACS-BP-S Basic control panel CCA-01 Optional communication adapter CHDI-01 Optional 115/230 V digital input extension module CMOD-01 Optional multifunction extension module (external 24 V AC/DC and digital I/O extension)
  • Page 26 26 Introduction to the manual...

  • Page 27: Operation Principle And Hardware Description

    This chapter describes the operating principle and construction of the drive module. Product overview The ACS530-04 is a drive module for controlling AC induction motors, synchronous reluctance motors and synchronous permanent magnet motors in open loop control. The main circuit of the drive module is shown below.

  • Page 28: Layout

    28 Operation principle and hardware description Layout Standard drive module configuration  Lifting lugs Fastening bracket Input cable connection busbars (L1/U1, L2/V1, L3/W1) Circuit board compartment PE busbar Output cable connection terminals (T1/U2, T2/V2, T3/W2) attached Control cable duct Main cooling fans Pedestal Upper front cover Lower front cover...

  • Page 29: Drive Module Configuration With Option +B051

    Operation principle and hardware description 29 Drive module configuration with option +B051  The drive module configuration with clear plastic shrouds (option +B051) mounted is shown below. Upper front cover Pedestal Lower front cover Control panel Clear plastic shrouds attached (option +B051) See the next page for the part descriptions.
  • Page 30 30 Operation principle and hardware description +B051 +H370 Clear plastic shroud to be attached onto the Output power cable connection terminals drive module input power cabling (a). Lead- through shroud for side cabling (b). Option +B051. Clear plastic shrouds to be attached onto the Grounding terminal for output power cable drive module output power cabling with option shields...

  • Page 31: Control Panel

    Operation principle and hardware description 31 Control panel  ACS-AP-S assistant control panel ACS-BP-S basic control panel (option +J404) ACS-AP-I assistant control panel (option +J425) ACS-AP-W assistant control panel with bluetooth interface (option +J429) DPMP-03 control panel mounting platform In the standard drive module configuration, the control panel is located on the internal control unit.

  • Page 32: Overview Of Power And Control Connections

    Option slot 2 for optional I/O extension modules Panel port I/O terminal blocks. See section Control connection terminals below and section Default I/O connection diagram (ABB standard macro) on page 84. Control panel (see page 91) du/dt or sine filter (optional, see page 173)

  • Page 33: Control Connection Terminals

    Operation principle and hardware description 33 Control connection terminals  The layout of the control connection terminals on the drive module control are shown below. SLOT 1 SLOT 1 Option slot 1 (fieldbus adapter modules) ANALOG IN/OUT 1…3 Analog input 1 Current/Voltage selection switch for analog input 1 1…3, AI1...

  • Page 34: Type Designation Label

    +J410. The main selections are described below. Not all selections are available for all types. Code Description Basic code, eg, ACS530-04-880A-4 Product series ACS530 ACS530 product series Type When no options are selected: drive module to be installed in a cabinet, IP00 (UL open type),...
  • Page 35 Operation principle and hardware description 35 Code Description Option codes (plus codes) Control panel and mounting platform J400 Assistant control panel ACS-BP-S 0J400 No control panel. Note: You need at least one loose control panel to be able to commission the drive.
  • Page 36 36 Operation principle and hardware description...

  • Page 37: Guidelines For Planning The Cabinet Installation

    Limitation of liability You must always plan and make the installation according to applicable local laws and regulations. ABB does not assume any liability whatsoever for any installation which breaches the local laws and/or other regulations. Installation positions of the drive module You can put the drive module in the bookshelf position in a cabinet.

  • Page 38: Planning The Layout Of The Cabinet

    38 Guidelines for planning the cabinet installation Planning the layout of the cabinet Plan a spacious layout to ensure easy installation and maintenance. Sufficient cooling air flow, obligatory clearances, cables and cable support structures all require space. Place the control board(s) away from: •...

  • Page 39: Layout Example, Door Open (Standard Drive Module Configuration)

    Guidelines for planning the cabinet installation 39 Layout example, door open (standard drive module configuration)  L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 A – A 1 Supporting frame of the cabinet 8 Motor cable including the protective ground conductor of the drive module 2 Vertical (2a, 2b) and horizontal (2c, 2d) air 9 Drive module control unit.

  • Page 40: Layout Example, Door Open (Option +B051)

    40 Guidelines for planning the cabinet installation Layout example, door open (option +B051)  This diagram shows a layout example for drive modules with IP20 shrouds (option +B051). L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 A – A 1 Supporting frame of the cabinet 7 Drive module Vertical (2a) and horizontal (2b) air baffles 8 Motor cable including the protective ground conductor...

  • Page 41: Arranging The Grounding Inside The Cabinet

    Always fasten the drive module from its fastening points to the cabinet. For details, see the module installation instructions. WARNING! Do not fasten the cabinet by electric welding. ABB does not assume any liability for damages caused by electric welding as the welding circuit can damage electronic circuits in the cabinet.

  • Page 42: Planning The Cabinet Placement On A Cable Channel

    42 Guidelines for planning the cabinet installation Planning the cabinet placement on a cable channel Note the following when you plan to place the cabinet on a cable channel: • The cabinet structure must be sturdy enough. If the whole cabinet base is not supported from below, the cabinet weight will lie on the sections that the floor carries.
  • Page 43 Guidelines for planning the cabinet installation 43 • We recommend 360° high frequency grounding of the motor cable shields at their entries. The grounding can be implemented by a knitted wire mesh screening as shown below. Cable Cable tie Strain relief Bare cable shield Knitted wire mesh Cabinet lead-through plate...

  • Page 44: Planning The Cooling

    44 Guidelines for planning the cabinet installation Planning the cooling Note the following guidelines when you plan the cooling of the cabinet: • Ventilate the installation site sufficiently so that the cooling air flow and ambient temperature requirements of the drive module are met, see pages and 122.

  • Page 45: Preventing The Recirculation Of Hot Air

    Guidelines for planning the cabinet installation 45 • The internal cooling fans of the drive modules and reactors/chokes are usually sufficient to keep the component temperatures low enough in IP22 cabinets. • In IP54 cabinets, thick filter mats are used to prevent water splashes from entering the cabinet.

  • Page 46: Standard Drive Module Configuration

    46 Guidelines for planning the cabinet installation Standard drive module configuration  This diagram shows air baffle positions inside an example cabinet. For the descriptions, see the next page. L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 C – C A - A B - B D –...
  • Page 47 Guidelines for planning the cabinet installation 47 1a Air flow to the drive module, max. 40 °C Optional air baffle that is needed when there is no (104 °F) fan on the lower part of the cabinet door (see 1b on page 38).

  • Page 48: Drive Module With Option +B051

    48 Guidelines for planning the cabinet installation Drive module with option +B051  This diagram shows air baffle positions inside an example cabinet. L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 C – C B – B A – A 1a Air flow to the drive module, max. 40 °C Drive module (104 °F) 1b Air inlet to the drive module circuit boards and...

  • Page 49: Required Free Space

    • height 2000 mm (78.74 in.). Other installation positions Contact your local ABB representative for more information. Drive module on its back  If you install the drive module on its back, make sure that the hot cooling air that flows...

  • Page 50: Planning The Placement Of The Control Panel

    50 Guidelines for planning the cabinet installation Planning the placement of the control panel Note the following alternatives when you plan the placement of the control panel: • As standard, the control panel is integrated on the control unit inside the drive module. •...

  • Page 51: Guidelines For Planning The Electrical Installation

    ABB does not assume any liability whatsoever for any installation which breaches the local laws and/or other regulations. Furthermore, if the recommendations given by ABB are not obeyed, the drive can experience problems that the warranty does not cover.

  • Page 52: Selecting The Supply Disconnecting Device

    52 Guidelines for planning the electrical installation Selecting the supply disconnecting device Install a hand-operated input disconnecting device between the AC power source and the drive. The disconnecting device must be of a type that can be locked to the open position for installation and maintenance work.

  • Page 53: Requirements Table

    The following table shows how to select the motor insulation system and when optional ABB du/dt filters, insulated N-end (non-drive end) motor bearings and ABB common mode filters are required. Failure of the motor to fulfil the following requirements or improper installation may shorten motor life or damage the motor bearings and voids the warranty.
  • Page 54 Common mode filter (option +E208) N-end bearing (Insulated motor non-drive end bearing) Additional requirements for ABB motors of types other than M2_, M3_, M4_, HX_ and AM_ Use the selection criteria given for non-ABB motors.

  • Page 55: Selecting The Power Cables

    Guidelines for planning the electrical installation 55 Additional data for calculating the rise time and the peak line-to-line voltage The diagrams below show the relative peak line-to-line voltage and rate of change of voltage as a function of the motor cable length with and without a du/dt filter in use. To calculate the actual peak voltage for a certain cable length read the relative Û...

  • Page 56: Sufficient Conductivity Of The Protective Conductor

    56 Guidelines for planning the electrical installation Note: When continuous metal conduit is employed, shielded cable is not required. The conduit must have bonding at both ends. A four-conductor system is allowed for input cabling, but shielded symmetrical cable is recommended.

  • Page 57: Typical Power Cable Sizes

    Guidelines for planning the electrical installation 57 Typical power cable sizes  The table below gives copper and aluminium cable types with concentric copper shield for the drives with nominal current. See also Terminal and lead-through data for the power cables on page 118.

  • Page 58: Alternative Power Cable Types

    58 Guidelines for planning the electrical installation Alternative power cable types  The recommended and not allowed power cable types to be used with the drive are presented below. Recommended power cable types Symmetrical shielded cable with three phase conductors and a concentric PE conductor as shield.

  • Page 59: Selecting The Control Cables

    Relay cable type  The cable type with braided metallic screen (for example ÖLFLEX by LAPPKABEL, Germany) has been tested and approved by ABB. Control panel cable length and type  In remote use, the cable connecting the control panel to the drive must not exceed three meters (10 ft).

  • Page 60: Routing The Cables

    60 Guidelines for planning the electrical installation Routing the cables  Route the motor cable away from other cable routes. Motor cables of several drives can be run in parallel when installed next to each other. The motor cable, input power cable and control cables should be installed on separate trays.

  • Page 61: Continuous Motor Cable Shield Or Enclosure For Equipment In The Motor Cable

     Protect the drive with fuses (a) and the input cable with fuses (b) as shown below: ACS530-04 Size the fuses or the circuit breaker at the distribution board according to local regulations for the input cable protection. Select the fuses for the drive according to the instructions...

  • Page 62: Protecting The Drive And The Input Power And Motor Cables

    62 Guidelines for planning the electrical installation Protecting the drive and the input power and motor cables  against thermal overload The drive protects itself and the input and motor cables against thermal overload when the cables are dimensioned according to the nominal current of the drive. No additional thermal protection devices are needed.

  • Page 63: Implementing The Emergency Stop Function

    Using power factor compensation capacitors with the drive Power factor compensation is not needed with AC drives. However, if a drive is to be connected in a system with compensation capacitors installed, contact ABB for instructions. Implementing a safety switch between the drive and the...

  • Page 64: Using A Contactor Between The Drive And The Motor

    64 Guidelines for planning the electrical installation Using a contactor between the drive and the motor Implementing the control of the output contactor depends on how you select the drive to operate. See also section Implementing a bypass connection on page 64. When you have selected to use •...

  • Page 65: Example Bypass Connection

    Guidelines for planning the electrical installation 65 Example bypass connection  An example bypass connection is shown below. Drive main switch Bypass circuit breaker Drive main contactor Bypass contactor Drive output contactor Drive main contactor on/off control Motor power supply selection (drive or direct-on-line) Start when motor is connected direct-on-line Stop when motor is connected direct-on-line Switching the motor power supply from drive to direct-on-line...

  • Page 66: Protecting The Contacts Of Relay Outputs

    66 Guidelines for planning the electrical installation Switching the motor power supply from direct-on-line to drive 1. Stop the motor with S42. 2. Switch the motor power supply from direct-on-line to the drive with S40. 3. Close the main contactor of the drive with switch S11 (-> turn to position ST for two seconds and leave to position 1).

  • Page 67: Connecting A Motor Temperature Sensor To The Drive I/O

    Guidelines for planning the electrical installation 67 Connecting a motor temperature sensor to the drive I/O WARNING! IEC 60664 requires double or reinforced insulation between live parts and the surface of accessible parts of electrical equipment which are either non-conductive or conductive but not connected to the protective earth. To fulfil this requirement, ypu can connect a thermistor (and other similar components) to the inputs of the drive: •...
  • Page 68 68 Guidelines for planning the electrical installation...

  • Page 69: Installation Instructions

    Installation instructions 69 Installation instructions Contents of this chapter This chapter contains the general installation instructions for the drive module. The chapter refers to the installation example chapters which contain instructions that depend on the selected drive configuration. Safety WARNING! If you are not a qualified electrician do not do the installation work described in this chapter.

  • Page 70: Moving And Unpacking The Unit

    70 Installation instructions Moving and unpacking the unit WARNING! Obey the safety instructions in chapter Safety instructions. If you ignore them, injury or death, or damage to the equipment can occur. Move the transport package by pallet truck to the installation site. Unpack the package as follows (see the package drawing on page 71): •...
  • Page 71 Installation instructions 71 3AUA0000101742 Transport package contents With option +B051: Clear plastic shrouds. See below for the box contents. With standard drive module configuration: Output cable connection terminals. See below for the box contents. Plywood support Drive module with factory installed options and multilingual residual voltage warning sticker, top guide plate, pedestal guide plate, telescopic ramp package, fastening screws in a plastic bag, control unit options, delivery documents, printed multilingual installation and start-up quick guide.
  • Page 72 72 Installation instructions Box B1 contents (option +B051) Paper fill Clear plastic shroud for output cabling Cardboard box cover Cardboard box bottom Support Bands Back clear plastic shroud (lower) Back clear plastic shroud (upper) Front clear plastic shroud 10 Clear plastic shroud for input cabling 11 Top clear plastic shroud 12 Clear plastic shroud for input...
  • Page 73 Installation instructions 73 Input connection terminal box contents (option +H370 Metallic shroud with ground bar Paper fill Input cable connection terminal L3/W1 Input cable connection terminal L2/V1 Input cable connection terminal L1/U1 Cardboard box Screws and insulators in a plastic 33AXD5000009522 Ramp box contents Screw package...

  • Page 74: Checking The Delivery

    74 Installation instructions Accessories box contents Screw package Feed through Bracket for attaching the drive module from top to Rittal cabinet punched section. See page Support bracket for attaching the drive module from top to a mounting plate or wall. The bracket brings a gap for cooling air flow and prevents the drive module screws from chafing the...

  • Page 75: Checking The Insulation Of The Assembly

    Earth conductor using a measuring voltage of 1000 V DC. The insulation resistance of an ABB motor must exceed 100 Mohm (reference value at 25 °C or 77 °F). For the insulation resistance of other motors, consult the manufacturer’s instructions. Note: Moisture inside the motor casing will reduce the insulation resistance.

  • Page 76: Drive Module Without Output Cable Connection Terminals (Option +0H371)

    76 Installation instructions Install the metallic shroud with ground bar as shown below. Combi screw M4×8 Torx T20 2 N·m 3AXD50000017460 Drive module without output cable connection terminals (option  +0H371) The power cables can be connected directly to the drive module input and output terminals with cable lugs or by busbars.

  • Page 77: Attaching The Drive Module To A Mounting Plate Or Wall

    Installation instructions 77 Attaching the drive module to a mounting plate or wall  Use the support bracket if you attach the drive module directly to a mounting plate or wall. The support bracket prevents the drive module screws from chafing against the plate. M4×12 Torx Alternatives for grounding the drive module ...

  • Page 78: Installing The Bottom Grille (For Ip20 Degree Protection)

    78 Installation instructions Installing the bottom grille (for IP20 degree protection)  For option +B051: If IP20 degree of protection is needed from the bottom side, install the bottom grille as shown below. Insert lifting hooks to the drive module lifting eyes and lift the module to the installation place.

  • Page 79: Connecting The Power Cables

    Installation instructions 79 Connecting the power cables Connection diagram  (PE) (PE) ACS530-04 UDC- UDC+ INPUT OUTPUT For alternatives, see section Selecting the supply disconnecting device on page In the installing example of this chapter, the disconnecting device is not in the same cubicle with the drive module.

  • Page 80: Power Cable Connection Procedure

    80 Installation instructions Use a separate grounding cable if the conductivity of the cable shield is < 50% of the conductivity of the phase conductor and there is no symmetrically constructed grounding conductor in the cable (see page 58). Common mode filter (optional, see page 53) du/dt filter (optional, see page 173) EMC filter (option +E210) The drive module frame must be connected to the cabinet frame.

  • Page 81: Dc Connection

    The UDC+ and UDC– terminals are intended for common DC configurations of a number of drives, allowing regenerative energy from one drive to be utilized by the other drives in the motoring mode. For more information, contact your local ABB representative.

  • Page 82: Connecting The Control Cables

    82 Installation instructions Connecting the control cables 1. Remove the middle front cover of the drive module. 2 × Combi screw M4×8 Torx T20 2 N·m 2. Attach the option modules if not attached already. See section Installing option modules on page 90.
  • Page 83 Default I/O connection diagram (ABB standard macro) on page for the default I/O connections of the ABB standard macro. For other macros, see the firmware manual. Use shrink tubing or insulating tape to contain any stray strands. Tighten the screws to secure the connection.

  • Page 84: Default I/O Connection Diagram (Abb Standard Macro)

    84 Installation instructions Default I/O connection diagram (ABB standard macro)  The default I/O connections of the ABB Standard macro are shown below. Reference voltage and analog inputs and outputs Signal cable shield (screen) Output frequency reference: 0…10 V 1…10 kohm...
  • Page 85 Installation instructions 85 Notes: 1. Current [0(4)…20 mA, R = 100 ohm] or voltage [0(2)…10 V, R > 200 kohm]. Change of setting requires changing the corresponding parameter. 2. Total load capacity of the Auxiliary voltage output +24V (X2:10) is 6.0 W (250 mA / 24 V) minus the power taken by the option modules installed on the board.
  • Page 86 86 Installation instructions PNP configuration for digital inputs (X2 & X3)) Internal and external +24 V power supply connections for PNP configuration are shown in the figure below. Internal +24 V power supply External +24 V power supply NPN connection (sink) NPN connection (sink) X2 和...
  • Page 87 Installation instructions 87 Examples are shown in the figure below. 8 AO2 Analog output 2. Default output 0…20 mA. 500 ohm Analog common ground. Internally connected to chassis 9 AGND through a 2 Mohm resistor. 8 AO2 Analog output 2. Default output 0…20 mA. 1 kohm 1 kohm Analog common ground.
  • Page 88 88 Installation instructions Connection examples of two-wire and three-wire sensors to analog input (AI2) Hand/Auto, Hand/PID, and PID macros use analog input AI2. Note: The maximum capability of the auxiliary voltage output (24 V DC [250 mA]) must not be exceeded. An example of a two-wire sensor/transmitter supplied by the drive auxiliary voltage output is shown below.

  • Page 89: Connecting A Control Panel

    Installation instructions 89 AI1 and AI2 as Pt100, Pt1000, Ni1000, KTY83 and KTY84 sensor inputs (X1) One, two or three Pt100 sensors; one, two or three Pt1000 sensors; or one Ni1000, KTY83 or KTY84 sensor for motor temperature measurement can be connected between an analog input and output as shown below.

  • Page 90: Installing Option Modules

    90 Installation instructions Installing option modules Disconnect the drive from the power line. Lock the main disconnecting device and ensure by measuring that there is no voltage. Option slot 2 (I/O extension modules)  1. Put the module carefully into its position on the control unit. 2.

  • Page 91: Connecting A Pc

    Installation instructions 91 Connecting a PC WARNING! Do not connect the PC directly to the control panel connector of the control unit as this can cause damage. To be able to connect a PC to the drive, you need an assistant control panel (ACS-AP-x or ACH-AP-H).
  • Page 92 92 Installation instructions...

  • Page 93: Installation Example Of Drive Module With Ip20 Shrouds (Option +B051)

    Limitation of liability Always obey the general rules given in this chapter and local laws and regulations. ABB does not assume any liability whatsoever for any installation which breaches local laws and/or other regulations.

  • Page 94: Required Parts

    Punched section with mounting flange, outer mounting level for 600 mm horizontal TS 4396.500 Support rails SK 3243.200 Air filter 323 mm × 323 mm. Remove the filter mats. Customer-made parts (not ABB or Rittal products) Air baffles See section Preventing the recirculation of hot air on page and section...

  • Page 95: Installing The Drive Module Into A Cabinet

    Installation example of drive module with IP20 shrouds (option +B051) 93 Installing the drive module into a cabinet See appendix Step-by-step drawings for an installation example of drive module with options +B051 and +E208 in Rittal TS 8 600 mm wide cabinet on page and ACS530- 04 quick installation guide (3AXD50000015469 [English]).
  • Page 96 94 Installation example of drive module with IP20 shrouds (option +B051) Step Task (input cables) Step drill carefully sufficiently big holes to the lead-through clear plastic shroud for the cables to the connected. Align the holes in the vertical direction according to the alignment holes in the shroud. Smooth the hole edges.

  • Page 97: Installing The Roof And Door

    Installation example of drive module with IP20 shrouds (option +B051) 95 Installing the roof and door Install the air inlet gratings to the cabinet door and the spacers on top of the cabinet as shown below. Rittal 7967.000 Rittal 3326.200 592 [23.31] 3AUA0000145776 Door...

  • Page 98: Miscellaneous

    96 Installation example of drive module with IP20 shrouds (option +B051) Miscellaneous Input power cable lead-through from top  If you run the input cables from top to the drive module, drill the lead-through holes to the top clear plastic shroud. Attaching the drive module to a mounting plate ...

  • Page 99: Installation Checklist

    Installation checklist 97 Installation checklist Contents of this chapter This chapter contains a list for checking the mechanical and electrical installation of the drive module. Installation checklist Go through the checklist below together with another person. WARNING! Obey the safety instructions in chapter Safety instructions.
  • Page 100 98 Installation checklist Check that … Drive option modules and other components Type and number of option modules and other equipment is correct. Option modules and other equipment are not damaged. Optional modules and terminals are labelled correctly. The placement of optional modules and other equipment inside the cabinet and on the cabinet door is correct.
  • Page 101 Installation checklist 99 Check that … Installation of the cabinet The drive cabinet has been attached to floor and also from top to the wall or roof. The ambient operating conditions meet the specifications given in chapter Technical data. The cooling air will flow freely in and out of the drive cabinet, and air recirculation inside the cabinet will not be possible (air baffle plates are on place).
  • Page 102 100 Installation checklist...

  • Page 103: Start-Up

    3. Perform the start-up tasks instructed by the cabinet-installer of the drive module. 4. Switch the power on, setup the drive control program, and perform the first start of the drive and motor. See the ACS530-04 quick installation (3AXD50000810383 [English]) or ACS530 firmware manual (3AXD50000728268 [English]). If you need more information on the use of the control panel, see ACS-BP-S Basic control panels user’s...
  • Page 104 102 Start-up...

  • Page 105: Fault Tracing

    Fault tracing 103 Fault tracing Contents of this chapter This chapter describes the fault tracing possibilities of the drive. Warning and fault messages See the firmware manual for the descriptions, causes and remedies of the control program warning and fault messages.
  • Page 106 104 Fault tracing...

  • Page 107: Maintenance

    (www.abb.com/drivesservices). For more information, consult your local ABB Service representative ( www.abb.com/searchchannels). The maintenance and component replacement intervals are based on the assumption that the equipment is operated within the specified ratings and ambient conditions. ABB recommends annual drive inspections to ensure the highest reliability and optimum performance.

  • Page 108: Descriptions Of Symbols

    106 Maintenance Descriptions of symbols  Action Description Visual inspection and maintenance action if needed Performance of on/off-site work (commissioning, tests, measurements or other work) Replacement of component Recommended annual maintenance actions by the user  Target Action Connections and environment Quality of supply voltage Spare parts Spare parts...

  • Page 109: Heatsink

    Maintenance 107 Heatsink The module heatsink fins pick up dust from the cooling air. The drive runs into overtemperature warnings and faults if the heatsink is not clean. Cleaning the interior of the heatsink  WARNING! Obey the safety instructions in chapter Safety instructions.

  • Page 110: Fans

    For resetting the running time signal after a fan replacement, please contact ABB. Replacement fans are available from ABB. Do not use other than ABB specified spare parts. Replacing the circuit board compartment cooling fan ...

  • Page 111: Replacing The Main Cooling Fans

    Maintenance 109 Replacing the main cooling fans  WARNING! Obey the safety instructions in chapter Safety instructions. If you ignore them, injury or death, or damage to the equipment can occur. 1. Stop the drive and do the steps in section Precautions before electrical work on page before you start the work.

  • Page 112: Replacing The Drive Module

    110 Maintenance Replacing the drive module WARNING! Obey the safety instructions in chapter Safety instructions. If you ignore them, injury or death, or damage to the equipment can occur. • Handle the drive module carefully: • Use safety shoes with a metal toe cap to prevent foot injury. •...

  • Page 113: Capacitors

    It is not possible to predict a capacitor failure. The capacitor failure is usually followed by damage to the unit and an input cable fuse failure, or a fault trip. Contact ABB if a capacitor failure is suspected. Replacements are available from ABB. Do not use other than ABB specified spare parts.

  • Page 114: Control Panel

    112 Maintenance Control panel Cleaning the control panel  Use a soft damp cloth to clean the control panel. Avoid harsh cleaners which could scratch the display window. Replacing the battery in the assistant control panel  A battery is only used in assistant control panels that have the clock function. The battery keeps the clock operating in memory during power interruptions.
  • Page 115 Maintenance 113 4. To reinstall the control panel, put the bottom of the container in position (4a), press the retaining clip at the top (4b) and push the control panel in at the top edge (4c). For the use of the control panel, see the firmware manual and ACS-BP-S basic control panel?3AXD50000032527 [English]).
  • Page 116 114 Maintenance...

  • Page 117: Technical Data

    The ratings of the drive modules with 50&60 Hz supply are given below. IEC ratings  IEC RATINGS Drive type Frame Input Output ratings size current Nominal use Light-duty use ACS530-04- = 380…415 V (380, 400, 415 V) 505A-4 585A-4 650A-4 725A-4 1020 820A-4 1020 880A-4 1100 3AXD00000586715...

  • Page 118: Output Derating

    Derating factor (k) for the minimum switching frequencies 1 kHz 2 kHz 4kHz 8 kHz 0.92 0.78 0.58 0.92 0.78 0.58 Note: Changing the value of parameter 97.01 Switching frequency reference does not require derating. For more information, contact local ABB.

  • Page 119: Fuses (Iec)

    Fuses (IEC) aR fuses for protection against short-circuit in the input power cable or drive are listed below. Ultrarapid (aR) fuses Drive type Input Fuse ACS530-04- current Manufacturer Type DIN 43620 Size = 380…415 V (380, 400, 415 V) 505A-4...

  • Page 120: Losses, Cooling Data And Noise

    It is possible to use the maximum cable size (4 × [3 × 240] mm or 4 ×[(3 × 500 AWG]) only with special cable lugs and additional insulation. For more information, contact your local ABB representative. Terminal data for the control cables See page 84.

  • Page 121: Electrical Power Network Specification

    Technical data 119 Electrical power network specification Voltage (U ACS530-04-xxxx-4 drive modules: 380…480 V AC 3-phase ± 10%. This is indicated in the type designation label as typical input voltage levels 400/480 V AC. Network type TN (grounded) and IT (ungrounded) systems...
  • Page 122 120 Technical data Digital inputs DI1…DI6 Input type: NPN/PNP (Term. 13…18) Terminal size: 0.14…2.5 mm DI1…DI5 (Term.13…17) 12/24 V DC logic levels: “0” < 4 V, “1” > 8 V : 3 kohm Hardware filtering: 0.04 ms, digital filtering: 2 ms sampling DI5 (Term.17) Can be used as a digital or frequency input.

  • Page 123: Control Panel Type

    Efficiency(EU ecodesign) Energy efficiency data of IEC 61800-9-2 can be calculated by ecodesign energy efficiency calculation tool: http://ecodesign.drivesmotors.abb.com/ The energy efficiency data do not support single-phase 230V drive and single-phase input drive are not included in the EU ecodesign requirements (Regulation EU 2019/1781).

  • Page 124: Ambient Conditions

    122 Technical data Ambient conditions Environmental limits for the drive are given below. The drive is to be used in a heated, indoor, controlled environment. Operation Storage Transportation installed for stationary in the protective in the protective package package Installation site altitude For TN and TT neutral- grounded network systems and IT non-...

  • Page 125: Ce Marking

    IEC 62635 guidelines. To aid recycling, plastic parts are marked with an appropriate identification code. Contact your local ABB distributor for further information on environmental aspects and recycling instructions for professional recyclers. End of life treatment must follow international and local regulations.

  • Page 126: Compliance With The European Emc Directive

    124 Technical data Compliance with the European EMC Directive  The EMC Directive defines the requirements for immunity and emissions of electrical equipment used within the European Union. The EMC product standard (EN 61800- 3:2004) covers requirements stated for drives. See section Compliance with EN 61800- 3:2004 below.

  • Page 127: Category C3

    Equipment 2. An EMC plan for preventing disturbances is drawn up for the installation. A template is available from the local ABB representative. 3. The motor and control cables are selected as specified in the hardware manual. 4. The drive is installed according to the instructions given in the hardware manual.

  • Page 128: China Rohs Marking

    ABB and its affiliates are not liable for damages and/or losses related to such security breaches, any unauthorized access, interference, intrusion, leakage and/or theft of data or information.

  • Page 129: Dimension Drawings

    Dimension drawings 129 Dimension drawings Contents of this chapter This chapter contains dimension drawings of the drive modules.

  • Page 130: R10 Standard Configuration

    130 Dimension drawings R10 standard configuration...

  • Page 131: R10 With Options +E208+0H354+H356+0H370+0H371

    Dimension drawings 131 R10 with options +E208+0H354+H356+0H370+0H371...

  • Page 132: R10 With Option +B051

    132 Dimension drawings R10 with option +B051...

  • Page 133: R11 Standard Configuration

    Dimension drawings 133 R11 standard configuration...

  • Page 134: R11 With Options +E208+0H354+H356+0H370+0H371

    134 Dimension drawings R11 with options +E208+0H354+H356+0H370+0H371...

  • Page 135: R11 With Option +B051

    Dimension drawings 135 R11 with option +B051...

  • Page 136: Air Baffles For The Drive Module With Option +B051

    136 Dimension drawings Air baffles for the drive module with option +B051 This drawing shows the dimensions of the hole in the air baffle around the drive module with option +B051. The drawing also shows the correct vertical location area of the air baffle as measured from the top grill.

  • Page 137: Example Circuit Diagram 137

    Example circuit diagram 137 Example circuit diagram Contents of this chapter This chapter shows an example circuit diagram for a cabinet-installed drive module.
  • Page 138 138 Example circuit diagram Example circuit diagram This diagram is an example for the main wiring of a drive cabinet. Note that the diagram includes components which are not included in a basic delivery (* plus code options, ** other options, *** to be acquired by the customer).

  • Page 139: Safe Torque Off Function

    Safe torque off function 139 Safe torque off function Contents of this chapter This chapter describes the Safe torque off (STO) function of the drive and gives instructions for its use. Description The Safe torque off function can be used, for example, to construct safety or supervision circuits that stop the inverter in case of danger (such as an emergency stop circuit).

  • Page 140: Compliance With The European Machinery Directive

    24 V DC power supply is used (page 146). For information on the specifications of the STO input, see section Default I/O connection diagram (ABB standard macro) on page 84. For drives with option +L537, see CPTC-02 ATEX-certified thermistor protection module,...

  • Page 141: Activation Switch

    Safe torque off function 141 Activation switch  In the wiring diagrams below, the activation switch has the designation [K]. This represents a component such as a manually operated switch, an emergency stop push button switch, or the contacts of a safety relay or safety PLC. •...

  • Page 142: Single Drive (External +24 V Dc Power Supply)

    142 Safe torque off function Single drive (external +24 V DC power supply)  24 V DC Drive Control unit OUT1 + 24 V DC OUT2 + 24 V DC SGND UDC+ T1/U, Control logic T2/V, T3/W UDC- Dual-channel connection ...

  • Page 143: Single-Channel Connection

    Safe torque off function 143 Single-channel connection  Drive Control unit OUT1 +24 V SGND Notes: • Both STO inputs (IN1, IN2) must be connected to the activation switch. Otherwise, no SIL/PL classification is given. • Pay special attention to avoiding any potential failure modes for the wiring. For example, use shielded cable.
  • Page 144 144 Safe torque off function An example of a Safe torque off wiring with external +24 V DC power supply is shown below. +24 V DC external Safe PLC Drive power supply OUT1 OUT2 36 SGND Safety relay...

  • Page 145: Multiple Drives (Internal Power Supply)

    Safe torque off function 145 Multiple drives (internal power supply)  ACS530-04 Control unit OUT1 + 24 V DC OUT2 + 24 V DC SGND ACS530-04 Control unit OUT1 + 24 V DC OUT2 + 24 V DC SGND ACS530-04...

  • Page 146: Multiple Drives (External Power Supply)

    146 Safe torque off function Multiple drives (external power supply)  24 V DC – ACS530-04 Control unit OUT1 + 24 V DC OUT2 + 24 V DC SGND ACS530-04 Control unit OUT1 + 24 V DC OUT2 + 24 V DC...

  • Page 147: Operation Principle

    Safe torque off function 147 Operation principle 1. The Safe torque off activates (the activation switch is opened, or safety relay contacts open). 2. STO inputs on the drive control unit de-energize. 3. The control unit cuts off the control voltage from the drive IGBTs. 4.

  • Page 148: Use

    148 Safe torque off function Action Test the operation of the STO function when the motor is stopped. • Give a stop command for the drive (if running) and wait until the motor shaft is at a standstill. Make sure that the drive operates as follows: •...

  • Page 149: Maintenance

    If any wiring or component change is needed after start-up, or the parameters are restored, follow the test given in section Acceptance test procedure on page 147. Use only ABB approved spare parts. Record all maintenance and proof test activities in the machine logbook.

  • Page 150: Competence

    Any failures of the Safe torque off function must be reported to ABB. Safety data Preliminary safety data for the Safe torque off function is given below.
  • Page 151 Safe torque off function 151 • STO reaction time (shortest detectable break): 1 ms • STO response time: 2 ms (typical), 5 ms (maximum) • Fault detection time: Channels in different states for longer than 200 ms • Fault reaction time: Fault detection time + 10 ms •...

  • Page 152: Declaration Of Conformity

    152 Safe torque off function Declaration of conformity ...

  • Page 153: Optional I/O Extension Modules

    Optional I/O extension modules 153 Optional I/O extension modules Contents of this chapter This chapter describes how to install and start up the optional CHDI-01, CMOD-01 and CMOD-02 IO extension modules. The chapter also contains their diagnostics and technical data. CHDI-01 115/230 V digital input extension module Safety instructions ...

  • Page 154: Layout

    154 Optional I/O extension modules Layout Item Description Additional information Grounding screw Hole for mounting screw 3-pin terminal blocks for relay outputs Page 3-pin terminal block for 115/230 V inputs Page Diagnostic LED Page Mechanical installation  Necessary tools and instructions •...

  • Page 155: Electrical Installation

    Optional I/O extension modules 155 Electrical installation  Warnings WARNING! Obey the instructions in chapter Safety instructions on page 13. If you ignore them, injury or death, or damage to the equipment can occur. If you are not a qualified electrician, do not do electrical work. Make sure that the drive is disconnected from the input power during installation.

  • Page 156: Start-Up

    156 Optional I/O extension modules Relay output connection example RO4C RO4A 24 V DC RO4B CHDI-01 Digital input connection example 230 V AC source HDI7 HDI8 NEUTRAL CHDI-01 Start-up  Setting the parameters 1. Power up the drive. 2. If no warning is shown, •...

  • Page 157: Leds

    Optional I/O extension modules 157 LEDs The extension module has one diagnostic LED. Color Description Green The extension module is powered up. Technical data  Dimension drawing: The dimensions are in millimeters and [inches]. Installation: Into an option slot on the drive control unit Degree of protection: IP20 Ambient conditions: See the drive technical data.
  • Page 158 158 Optional I/O extension modules Isolation areas: CHDI-01 Plugged to drive SLOT2 Symbol Description Reinforced insulation (IEC 61800-5-1:2016) Functional insulation (IEC 61800-5-1:2016) Relay outputs (50…52, 53…55): • Wire size max. 1.5 mm • Minimum contact rating: 12 V / 10 mA •...

  • Page 159: Cmod-01 Multifunction Extension Module (External 24 V Ac/Dc And Digital I/O)

    Optional I/O extension modules 159 CMOD-01 multifunction extension module (external 24 V AC/DC and digital I/O) Safety instructions  WARNING! Obey the safety instructions for the drive. If you ignore the safety instructions, injury or death can occur. Hardware description ...

  • Page 160: Layout

    160 Optional I/O extension modules Layout Item Description Additional information Grounding screw Hole for mounting screw 3-pin terminal blocks for relay outputs Page 3-pin terminal block for transistor output Page 2-pin terminal block for external power supply Page Diagnostic LED Page Mechanical installation ...

  • Page 161: Electrical Installation

    Optional I/O extension modules 161 Electrical installation  Warnings WARNING! Obey the instructions in chapter Safety instructions on page 13. If you ignore them, injury or death, or damage to the equipment can occur. If you are not a qualified electrician, do not do electrical work. Make sure that the drive is disconnected from the input power during installation.
  • Page 162 162 Optional I/O extension modules Relay output connection example RO4C RO4A 24 V DC RO4B CMOD-01 Digital output connection example DO1 SRC 24 V DC DO1 OUT DO1 SGND CMOD-01 Frequency output connection example DO1 SRC DO1 OUT DO1 SGND CMOD-01 An externally supplied frequency indicator which provides, for example: •...

  • Page 163: Start-Up

    Optional I/O extension modules 163 Start-up  Setting the parameters 1. Power up the drive. 2. If no warning is shown, • make sure that the value of both parameter 15.02 Detected extension module and parameter 15.01 Extension module type is CMOD-01. If warning A7AB Extension I/O configuration failure is shown, •...

  • Page 164: Leds

    164 Optional I/O extension modules LEDs The extension module has one diagnostic LED. Color Description Green The extension module is powered up. Technical data  Dimension drawing: The dimensions are in millimeters and [inches]. Installation: Into an option slot on the drive control unit Degree of protection: IP20 Ambient conditions: See the drive technical data.
  • Page 165 Optional I/O extension modules 165 Isolation areas: CMOD-01 Plugged to 24 V drive SLOT2 Symbol Description Reinforced insulation (IEC 61800-5-1:2016) Functional insulation (IEC 61800-5-1:2016) Relay outputs (50…52, 53…55): • Wire size max. 1.5 mm • Minimum contact rating: 12 V / 10 mA •...

  • Page 166: Cmod-02 Multifunction Extension Module (External 24 V Ac/Dc And Isolated Ptc Interface)

    166 Optional I/O extension modules CMOD-02 multifunction extension module (external 24 V AC/DC and isolated PTC interface) Safety instructions  WARNING! Obey the safety instructions for the drive. If you ignore the safety instructions, injury or death can occur. Hardware description ...

  • Page 167: Layout

    Optional I/O extension modules 167 Layout Item Description Additional information Grounding screw Hole for mounting screw 2-pin terminal block for motor thermistor connection Page 2-pin terminal block for relay output Page 2-pin terminal block for external power supply Page Diagnostic LED Page Mechanical installation ...

  • Page 168: Electrical Installation

    168 Optional I/O extension modules Electrical installation  Warnings WARNING! Obey the instructions in chapter Safety instructions on page 13. If you ignore them, injury or death, or damage to the equipment can occur. If you are not a qualified electrician, do not do electrical work. Make sure that the drive is disconnected from the input power during installation.

  • Page 169: Start-Up

    Optional I/O extension modules 169 Motor thermistor connection example PTC IN PTC IN CMOD-02 1) One or 3…6 PTC thermistors connected in series. The PTC input is reinforced/double insulated. If the motor part of the PTC sensor and wiring are reinforced/double insulated, voltages on the PTC wiring are within SELV limits. If the motor PTC circuit is not reinforced/double insulated (ie, it is basic insulated), it is mandatory to use reinforced/double insulated wiring between the motor PTC and CMOD- 02 PTC terminal.

  • Page 170: Diagnostics

    170 Optional I/O extension modules If warning A7AB Extension I/O configuration failure is shown, • make sure that the value of parameter 15.02 Detected extension module is CMOD-02. • set parameter 15.01 Extension module type to CMOD-02. You can now see the parameters of the extension module in parameter group 15 I/O extension module.
  • Page 171 Optional I/O extension modules 171 Ambient conditions: See the drive technical data. Package: Cardboard Isolation areas: CMOD-02 Plugged 24 V to drive SLOT2 Symbol Description Reinforced insulation (IEC 61800-5-1:2016) Motor thermistor connection (60…61): • Wire size max. 1.5 mm • Supported standards: DIN 44081 and DIN 44082 •...

  • Page 172: Cptc-02 Atex-Certified Thermistor Protection Module, (External 24 V Ac/Dc And Isolated Ptc Interface)

    172 Optional I/O extension modules CPTC-02 ATEX-certified thermistor protection module, (external 24 V AC/DC and isolated PTC interface) See CPTC-02 ATEX-certified thermistor protection module, Ex II (2) GD (+L537+Q971) user's manual (3AXD50000030058 [English]).

  • Page 173: Du/Dt Filters

    Frame du/dt filter type FOCH0610-70 FOCH0875-70 3AXD00000586715 Ordering  codes Filter type ABB ordering code FOCH-0610-70 68550483 FOCH-0875-70 3AUA0000125245 Description, installation and technical data of the FOCH filters  See FOCH du/dt filters hardware manual (3AFE68577519 [English]).
  • Page 174 174 du/dt filters...
  • Page 175 Step-by-step drawings for an installation example of drive module with options +B051 and +E208 in Rittal TS 8 600 mm wide cabinet 175 Step-by-step drawings for an installation example of drive module with options +B051 and +E208 in Rittal TS 8 600 mm wide cabinet Tapping screw M6×12 Torx Combi screw M8×30 (Hex) Tapping screw M6×12 Torx...
  • Page 176 176 Step-by-step drawings for an installation example of drive module with options +B051 and +E208 in Rittal TS 8 600 mm wide cabinet Combi screw M12×25 Hex 70 N·m Combi screw M8×16 Hex Hex nut M12 70 N·m Combi screw M6×12 Torx T25 20 N·m Combi screw M12×25 Hex Washer M12 or equal...
  • Page 177 Step-by-step drawings for an installation example of drive module with options +B051 and +E208 in Rittal TS 8 600 mm wide cabinet 177 Hex nut M12 70 N·m Washer M12 or equal Hex screw M12×35 full thread 70 N·m Washer M12 or equal +B051 +B051 +B051...
  • Page 178 178 Step-by-step drawings for an installation example of drive module with options +B051 and +E208 in Rittal TS 8 600 mm wide cabinet Note: These air baffles are compatible with option +B051 only, for the standard drive module configuration, see section Standard drive module configuration on page 46.

  • Page 179: Further Information

    Product and service inquiries Address any inquiries about the product to your local ABB representative, quoting the type designation and serial number of the unit in question. A listing of ABB sales, support and service contacts can be found by navigating to www.abb.com/searchchannels.
  • Page 180 Contact us www.abb.com/drives www.abb.com/drivespartners 3AXD50000810598 Rev A (EN) 2021-08-15...

Table of Contents