Table of contents 5 Table of contents 1 Safety instructions Contents of this chapter ................Use of warnings and notes ..............General safety in installation, start-up and maintenance ........Electrical safety in installation, start-up and maintenance ........Electrical safety precautions ..............Additional instructions and notes ............
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Free space at the top of the drive module ..........Free space around the drive module ............Planning the placement of the control panel ..........ABB air inlet and outlet kits ..............5 Mechanical installation Contents of this chapter ................
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Table of contents 7 Measuring the insulation of the motor and motor cable ......... Compatibility with IT (ungrounded), corner-grounded delta, midpoint-grounded delta, and TT systems ................... EMC filter and ground-to-phase varistor ........... Corner-grounded and midpoint-grounded delta systems ........ When to disconnect EMC filter and ground-to-phase varistor: TN-S, IT, corner- grounded delta, and midpoint-grounded delta systems .........
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8 Table of contents 10 Installation checklist of the drive Contents of this chapter ................Checklist ................... 11 Start-up Contents of this chapter ................Start-up procedure ................12 Fault tracing Contents of this chapter ................LEDs ....................Drive LEDs ..................Control panel LEDs ................
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Description ..................Compliance with the European Machinery Directive ........Wiring ....................Connection principle ................Single ACQ580-34 drive, internal power supply ........Single ACQ580-34 drive, external power supply ........Wiring examples ................Single ACQ580-34 drive, internal power supply ........Single ACQ580-34 drive, external power supply ........
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10 Table of contents Activation switch ................Cable types and lengths ..............Grounding of protective shields ............. Operation principle ................Start-up including acceptance test ............. Competence ................... Acceptance test reports ..............Acceptance test procedure ..............Use ....................Maintenance ..................Competence ................... Fault tracing ..................
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Table of contents 11 Mechanical installation ............... Necessary tools and instructions ............Unpacking and checking the delivery ........... Installing the module ..............Electrical installation ................Necessary tools and instructions ............Terminal designations ..............General cabling instructions .............. Wiring ..................Start-up ..................Setting the parameters ..............
Safety instructions 13 Safety instructions Contents of this chapter This chapter contains the safety instructions which you must obey when you install, start up, operate and do maintenance work 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.
14 Safety instructions General safety in installation, start-up and maintenance These instructions are for all personnel who do work on the drive. WARNING! Obey these instructions. If you ignore them, injury or death, or damage to the equipment can occur. •...
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Safety instructions 15 • Beware of hot surfaces. Some parts, such as heatsinks of power semiconductors, and brake resistors, remain hot for a while after disconnection of the electrical supply. • Vacuum clean the area around the drive before the start-up to prevent the drive cooling fan from drawing the dust inside the drive.
16 Safety instructions Electrical safety in installation, start-up and maintenance ■ Electrical safety precautions These electrical safety precautions are for all personnel who 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.
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. •...
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18 Safety instructions If you are not a qualified electrician, do not do grounding work. • Always ground the drive, the motor and adjoining equipment. This is necessary for the personnel safety. Proper grounding also reduces electromagnetic emission and interference. •...
Safety instructions 19 General safety in operation These instructions are for all personnel that operate the drive. WARNING! Obey these instructions. If you ignore them, injury or death, or damage to the equipment can occur. • Keep the cabinet doors closed when the drive is powered. With the doors open, a risk of a potentially fatal electric shock, arc flash or high-energy arc blast exists.
20 Safety instructions Additional instructions for permanent magnet motor drives ■ Safety in installation, start-up, maintenance These are additional warnings concerning permanent magnet motor drives. The other safety instructions in this chapter are also valid. WARNING! Obey these instructions. If you ignore them, injury or death, or damage to the equipment can occur.
The flowchart refers to chapters/sections in this manual and other manuals. Applicability This manual applies to ACQ580-34 drive modules intended for user-defined cabinet installations. Target audience This manual is intended for people who plan the installation, install, start up and service the drive, or create instructions for the end user of the drive concerning the installation and maintenance of the drive.
Introduction to the manual 23 Task See chapter/section Moving and unpacking the unit Unpack and examine the units. Make sure that all necessary optional modules and Examining the delivery equipment are present and correct. If the drive module has been non-operational for a year Only intact units can be started up.
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24 Introduction to the manual Term Description FCAN Optional CANopen® adapter module FCNA-01 Optional ControlNet™ adapter module FDNA-01 Optional DeviceNet™ adapter module FECA Optional EtherCAT adapter module FENA-01 Optional Ethernet adapter module for EtherNet/IP™, Modbus TCP and PROFINET IO protocols FEPL-02 Optional Ethernet POWERLINK adapter module FMBT-21...
This chapter describes the operating principle and construction of the drive module. Operation principle The ACQ580-34 is a low-harmonic drive module for controlling asynchronous AC induction motors, permanent magnet motors in open loop control and synchronous reluctance motors. The drive includes a line-side converter and a motor-side converter. The parameters and...
Block diagram of the main circuit of the drive module L1/U1 T1/U2 L2/V1 T2/V2 L3/W1 T3/W2 UDC- UDC+ ACQ580-34 drive module Charging circuit contactor Charging circuit Line contactor LCL filter Line-side converter DC link. DC circuit between the line-side converter and motor-side converter Motor-side converter Common mode filter (+E208) ■...
Operation principle and hardware description 27 LCL filter contactor LCL filter Line-side converter DC capacitors DC link AC voltage and current waveforms The AC current is sinusoidal at a unity power factor. The LCL filter suppresses the AC voltage distortion and current harmonics. The high AC inductance smooths the line voltage waveform distorted by the high-frequency switching of the converter.
28 Operation principle and hardware description Layout ■ Standard drive module configuration Drive module. Contains line-side converter and Lower front cover motor side converter. LCL filter module Cooling fan cassette LCL filter module connected to the drive module Support legs Circuit board compartment Pedestal Upper front cover...
Operation principle and hardware description 29 ■ Drive with clear plastic shrouds (option +B051) For part descriptions, see section Standard drive module configuration (page 28). For clear plastic shrouds, see section Drive module (page 30)
30 Operation principle and hardware description ■ Drive module +B051 +B051 +H370 Clear plastic shroud to be attached onto the drive Telescopic extraction and insertion ramp module input power cabling (1a). Entry shroud for side cabling (1b). Option +B051. Clear plastic shrouds to be attached onto the drive Control unit module output power cabling (option +B051) Clear plastic shroud to be attached on top of the...
Operation principle and hardware description 31 Output power cable connection terminals Cover. When removed, you can attach the drive module to the LCL filter module. (assembled at the factory) Grounding terminal for output power cable shields Lifting lugs Metallic shroud. With option +H370, the shroud Connector for charging circuit switch or contactor includes a ground bar.
32 Operation principle and hardware description ■ Control panel In the standard drive module configuration, the control panel is located on the front cover of the module. DPMP-03 door mounting platform allows you to mount the control panel on the cabinet door. For the use of the control panel, see the firmware manual or ACx-AP-x assistant control panels user’s manual (3AUA0000085685 [English]).
Operation principle and hardware description 33 Overview of power and control connections The diagram shows the power connections and control interfaces of the drive module. ACQ580-34 Panel port Slot 1 Slot 2 M 3 ~ UDC- UDC+ Line-side converter control unit...
34 Operation principle and hardware description Type designation, see section Type designation key. Name and address of the manufacturer Frame size Cooling method Degree of protection Ratings, see Ratings Short-circuit withstand strength Valid markings Serial number. The first digit of the serial number refers to the manufacturing plant. The next four digits refer to the unit’s manufacturing year and week, respectively.
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Operation principle and hardware description 35 Code Description Degree of protection B051 IP20 shrouds for cabling area Construction Filters Cabling H370 Full-size input terminals Control panel 0J400 No control panel J400 ACH-AP-H control panel (Included as standard) J424 Blank control panel cover (no control panel) J425 ACS-AP-I control panel J429...
The installation must always be designed and made 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. Furthermore, if the recommendations given by ABB are not followed, the drive may experience problems that the warranty does not cover.
38 Guidelines for planning the mechanical installation Layout example, door closed This diagram shows a cabinet layout example with the input power cable entry from top and the motor cable entry from bottom. Air inlet for the drive module Operating handle of the disconnector An extra fan is not necessary if an extra air baffle Rubber grommets for degree of protection is used on the cabinet roof (see the following lay-...
Guidelines for planning the mechanical installation 39 Layout example, door open (standard drive module configuration) L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 A – A B– B Supporting frame of the cabinet Motor cable including the protective ground con- ductor of the drive module Vertical (2a, 2b) and horizontal (2c, 2d) air baffles Drive module control unit.
40 Guidelines for planning the mechanical installation Layout example, door open (option +B051) L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 A – A B– B Supporting frame of the cabinet LCL filter module Vertical (2a) and horizontal (2b) air baffles that Motor cable including the protective ground con- separate the cool and hot areas (leakproof ductor of the drive module...
Guidelines for planning the mechanical installation 41 Cooling solutions The drawing below shows typical cabinet cooling solutions. The air inlet is at the bottom of the cabinet, while the outlet is on the roof or on the upper part of the door. Use extra exhaust fans if the air outlet is on the cabinet door, see the technical data for the required cooling air flow.
42 Guidelines for planning the mechanical installation ■ Bookshelf mounting (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 –...
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Guidelines for planning the mechanical installation 43 Air flow to the drive modules, max. 40 °C (104 °F) LCL filter module Vertical air baffle that separates the cool and hot Disconnector and fuses areas in the cabinet Vertical air baffle Contactor Upper horizontal air baffle Drive control unit...
The control panel can be mounted onto the cabinet door using a control panel mounting platform. For the installation instructions, refer to DPMP-02/03 control panel mounting platform kit installation guide (3AUA0000136205 [English]). ABB air inlet and outlet kits See chapter Ordering information.
Mechanical installation 45 Mechanical installation Contents of this chapter This chapter describes alternatives of the mechanical installation of the drive module. It refers to the installation example chapters which contain instructions that depend on the selected drive configuration. Examining the installation site The material below the drive must be non-flammable and strong enough to carry the weight of the drive.
46 Mechanical installation ■ Package drawings Drive module package 3AXD50000174287_091117 Transport package contents Finger guard Pedestal guide plate for the LCL filter module Pedestal guide plate for the drive module Accessories box See below for the box contents. Center of gravity symbol Package for LCL filter fan Package for LCL filter pedestal Telescopic extraction and insertion ramp...
Mechanical installation 47 14–16 Cardboard support Pallet Strap VCI film or bag Drive module with factory installed options and multilingual residual voltage warning sticker, fastening screws in a plastic bag, internal control unit, control panel and cable or control panel with door mounting kit (option +J410), delivery documents, printed multilingual installation and start-up quick guides.
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48 Mechanical installation Output connection terminals box with standard drive module configuration Paper fill Output cable connection terminal T3/W2 Output cable connection terminal T2/V2 Output cable connection terminal T1/U2 Grounding terminal Cardboard box Screws and insulators in a plastic bag 3AXD5000009515 Option +H370: input cable connection terminals box...
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Mechanical installation 49 Ramp box Cardboard box Combi screws (4 pcs) Ramp extension (50 to 150 mm) Ramp up to 50 mm 3AXD50000476145 Accessories box Screw package Busbar for main contactor - LCL con- nection (3 pcs) Busbar for IGBD - LCL connection (3 pcs) Cardboard box Installation bracket (2 pcs)
50 Mechanical installation LCL filter module package 3AXD50000113651 VCI bag Plywood support Lid for cardboard sleeve Cardboard sleeve Cardboard support Pallet Strap LCL filter Examining the delivery Make sure that all items listed in Moving and unpacking (page 45) are present. Make sure that there are no signs of damage.
Mechanical installation 51 Attaching the drive module and LCL filter module to a mounting plate or wall Attach the LCL filter module and the drive module to wall or a mounting plate at the fastening points shown below. You can attach the modules to Rittal VX25 cabinet with the mounting brackets delivered with the drive, see chapter Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet (page...
52 Mechanical installation Attaching the drive module and the LCL filter module to the cabinet base See chapter Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet (page 175). Grounding the drive module and the LCL filter module Ground the drive module and the LCL filter module from the fastening points: Installing the drive in Rittal VX25 cabinet For an installation example on how to install the drive module into a Rittal VX25 cabinet,...
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Mechanical installation 53 Combi screw M4×8 Torx T20 2 N·m Connect the input power cable connection terminals as shown in chapter Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet (page 175).
Guidelines for planning the electrical installation 55 Guidelines for planning the electrical installation Contents of this chapter This chapter contains the instructions that you must obey when you select the motor, cables, protections, cable routing and way of operation for the drive system. Generic electrical planning instructions See Single drive cabinets and modules electrical planning instructions (3AXD50000518333 [English]).
56 Guidelines for planning the electrical installation data. The fuses for the drive protection will restrict drive damage and prevent damage to adjoining equipment in case of a short-circuit inside the drive. Note: If the fuses for the drive protection are placed at the distribution board and the input cable is dimensioned according to the nominal input current of the drive given in the technical data, the fuses protect also the input cable in short-circuit situations, restrict drive damage and prevent damage to adjoining equipment in case of a short-circuit inside the drive.
Electrical installation 59 Electrical installation Contents of this chapter This chapter gives instructions on the wiring of the drive. Safety WARNING! If you are not a qualified electrician, do not do installation or maintenance work. Obey the safety instructions of the drive. If you ignore them, injury or death, or damage to the equipment can occur.
Use a measuring voltage of 1000 V DC. The insulation resistance of an ABB motor must exceed 100 Mohm (reference value at 25 °C [77 °F]). For the insulation resistance of other motors, consult the manufacturer’s instructions.
Electrical installation 61 • Guidelines for installing the drive to a TT system (page 62) • Disconnecting EMC filter and ground-to-phase varistor (page 63) WARNING! Do not install the drive with the ground-to-phase varistor connected to a system that the varistor is not suitable for. If you do, the varistor circuit can be damaged. ■...
TT system Ground-to-phase varistor wire Drive Note: • ABB does not guarantee the functioning of the ground leakage detector built inside the drive. • Because the varistor wire has been disconnected, ABB does not guarantee the EMC category. •...
Electrical installation 63 ■ Disconnecting EMC filter and ground-to-phase varistor EMC AC and varistor (VAR) grounding wires are located at the top of the circuit board compartment. Disconnect them (1) and attach them with the nearby plastic clamp (2). ■ Identifying the earthing system of the electrical power network WARNING! Only a qualified electrical professional may do the work instructed in this section.
Connecting the power cables WARNING! Obey the safety instructions of the drive. If you ignore them, injury or death, or damage to the equipment can occur. ■ Power cable connection diagram (PE) PE (PE) ACQ580-34 L2/ L3/ UDC- UDC+ INPUT OUTPUT...
50% of the conductivity of the phase conductor, use a separate PE cable (2a) or a cable with a grounding conductor (2b). ABB recommends 360-degree grounding at the cabinet entry if a shielded cable is used. Ground the other end of the input cable shield or PE conductor at the distribution board.
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66 Electrical installation WARNING! Apply grease to stripped aluminum conductors before attaching them to non-coated aluminum cable lugs. Obey the grease manufacturer’s instructions. Aluminum-aluminum contact can cause oxidation in the contact surfaces. 3. If fire insulation is used, make an opening in the mineral wool sheet according to the diameter of the cable.
Electrical installation 67 ■ Power cable connection procedure WARNING! Obey the safety instructions of the drive. If you ignore them, injury or death, or damage to the equipment can occur. WARNING! Apply grease to stripped aluminum conductors before attaching them to non-coated aluminum cable lugs.
68 Electrical installation Connecting the control cables to the internal control unit See chapter Control unit (page 73) for the default I/O connections of the drive control program. The default I/O connections can be different with some hardware options, see the circuit diagrams delivered with the drive for the actual wiring.
Electrical installation 69 ISU ZCU XPOW for ext. +24VDC Installing option modules WARNING! Obey the instructions in chapter . If you ignore them, injury or death, or damage to the equipment can occur. 1. Stop the drive and do the steps in section Electrical safety precautions (page 16) before you start the work.
70 Electrical installation ■ Option slot 2 (I/O extension modules) 1. Put the module carefully into its position on the control unit. 2. Tighten the mounting screw. 3. Tighten the grounding screw (CHASSIS) to 0.8 N·m. The screw grounds the module. It is necessary for fulfilling the EMC requirements and for correct operation of the module.
Electrical installation 71 ■ Option slot 1 (fieldbus adapter modules) 1. Put the module carefully into its position on the control unit. 2. Tighten the mounting screw (CHASSIS) to 0.8 N·m. The screw tightens the connections and grounds the module. It is necessary for fulfilling the EMC requirements and for correct operation of the module.
72 Electrical installation Connecting a remote panel, or chaining one panel to several drives You can connect a remote ACH-AP-H control panel to the drive, or to chain the control panel or a PC to several drives on a panel bus with a CDPI-01 communication adapter module. See CDPI-01 communication adapter module user's manual (3AXD50000009929 [English]).
Control unit 73 Control unit Contents of this chapter This chapter contains the default I/O connection diagram, descriptions of the terminals and technical data for the drive control unit (CCU-24). Layout The layout of the external control connection terminals on the drive module control unit is shown below.
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74 Control unit SLOT 1 SLOT 1 Option slot 1 (fieldbus adapter modules) ANALOG IN/OUT 1...3 Analog input 1 4...6 Analog input 2 1…3 7...9 Analog outputs 4…6 10...12 Auxiliary voltage output, digital in- put common DIGITAL IN 7…9 13...18 Digital inputs 10…12 34...38...
Control unit 75 Default I/O connection diagram The default control connections for the Water default are shown below. Reference voltage and analog inputs and outputs Signal cable shield (screen) Output frequency/speed reference: 0…10 V 1…10 kohm AGND Analog input circuit common +10V Reference voltage 10 V DC Actual feedback: 0…10 V...
76 Control unit 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. 3. In scalar control: See Menu - Primary settings - Drive - Constant frequencies or parameter group 28 Frequency reference chain.
Control unit 77 WARNING! Do not connect the +24 V AC cable to the control board ground when the control board is powered using an external 24 V AC supply. ■ NPN configuration for digital inputs (X2 & X3) Internal and external +24 V power supply connections for NPN configuration are shown in the figure below.
78 Control unit ■ Connection examples of two-wire and three-wire sensors to 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.
Control unit 79 input and output as shown below. Leave the other end of the shield unconnected or ground it indirectly via a few nanofarads high-frequency capacitor, for example, 3.3 nF / 630 V. The shield can also be grounded directly at both ends if they are in the same ground line with no significant voltage drop between the end points.
80 Control unit Technical data External power supply Maximum power: 36 W, 1.50 A at 24 V AC/DC ±10% as standard Term. 40, 41 Terminal size: 0.14…2.5 mm +24 V DC output Total load capacity of this outputs is 6.0 W (250 mA / 24 V) minus the power taken by the option modules installed on board.
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Control unit 81 Safe torque off (STO) inputs 24 V DC logic levels: "0" < 5 V, "1" > 13 V IN1 and IN2 (Term. 37 and 38) : 2.47 kohm Terminal size: 0.14…2.5 mm Embedded fieldbus (X5) Connector pitch 5 mm, wire size 2.5 mm Physical layer: EIA-485 Cable type: Shielded twisted pair cable with twisted pair for data and a wire or pair for signal ground, nominal impedance 100…165 ohms, for example...
In this chapter, the drive module is installed in a 800 mm wide Rittal VX25 cabinet in a bookshelf way of mounting. The module is placed in an upright position on the cabinet bottom with its front facing the cabinet door. Available alternative ABB parts are also given. Limitation of liability The installation must always be designed and made according to applicable local laws and regulations.
8806.000 Enclosure without bottom plates and side panels. Includes supports for installing air baffles. 7967.000 Spacers for roof plates. / ABB roof (one set = four pieces) 8100.743 Punched section with mounting flange, inner mounting level for 800 mm horizontal Contact ABB for the suitable filter Air filter.
See chapter Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet (page 175) and ACQ580-34 quick installation guide (3AXD50000420025 [English]). • Attach the plinth to the floor. • Attach the cabinet frame to the plinth.
86 Installation example in Rittal VX25 cabinet • Unfasten the insertion ramp and attach the LCL filter module to bottom plate. • Attach the drive module pedestal guide plate to the cabinet bottom plate. • Attach the telescopic insertion ramp to the pedestal guide plate. •...
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Installation example in Rittal VX25 cabinet 87 Connect the twisted shields of the motor cables to the grounding terminal. Screw in and tighten the insulators to the drive module by hand. Install the T3/W2 connection ter- minal to the insulators. WARNING! Do not use longer screws or bigger tightening torque than given in the installation drawing.
88 Installation example in Rittal VX25 cabinet Installing the roof and door (Rittal parts) This drawing shows a layout tested by ABB. Rittal 7967.000 Rittal 3243.200 3AXD50000310210 Door Install these gratings as close to each other as possible. Remove the filter mats.
Installation checklist of the drive 89 Installation checklist of the drive Contents of this chapter This chapter contains a checklist of the mechanical and electrical installation of the drive. Checklist Examine the mechanical and electrical installation of the drive before start-up. Go through the checklist together with another person.
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90 Installation checklist of the drive Make sure that … The enclosures of the equipment in the cabinet have proper galvanic connection to the cabinet protective earth (ground) busbar; The connection surfaces at the fastening points are bare (unpainted) and the connections are tight, or separate grounding conductors have been installed.
Start-up 91 Start-up Contents of this chapter This chapter describes the start-up procedure of the drive. Start-up procedure 1. Only qualified electricians are allowed to start-up the drive. 2. Make sure that the installation of the drive module has been checked according to the checklist in chapter Installation checklist, and that the motor and driven equipment are ready for start.
Fault tracing 93 Fault tracing Contents of this chapter This chapter describes the fault tracing possibilities of the drive. LEDs ■ Drive LEDs There is a green POWER and a red FAULT LED visible when the control panel is removed. If a control panel is attached to the drive, switch to remote control (otherwise a fault will be generated), and then remove the panel to be able to see the LEDs.
94 Fault tracing The table below describes the drive LED indications. POWER FAULT LEDs off LED lit and steady LED blinking No power Green Power supply of the unit is on Green Blinking: (POWER) (POWER) Drive in an alarm state Blinking for one second: Drive selected on the control panel when multiple drives are connected to...
This chapter contains maintenance instructions of the drive modules. Maintenance intervals The table below shows the maintenance tasks which can be done by the end user. The complete maintenance schedule is available on the Internet (www.abb.com/drivesservices). For more information, consult your local ABB Service representative (www.abb.com/searchchannels).
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Replacement 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. Note: Long term operation near the specified maximum ratings or ambient conditions may require shorter maintenance intervals for certain components.
Maintenance 97 Cleaning the interior of the cabinet WARNING! Obey the safety instructions of the drive. 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. WARNING! Use a vacuum cleaner with antistatic hose and nozzle, and wear a grounding wristband.
Reset the running time signal after fan replacement. Replacement fans are available from ABB. Do not use other than ABB specified spare parts. ■ Replacing the auxiliary cooling fans of the drive module WARNING! Obey the safety instructions of the drive.
Maintenance 99 Fan at the bottom of the circuit board compartment: 1. Stop the drive and do the steps in section Electrical safety precautions (page 16) before you start the work. 2. Undo the mounting screw of the fan cassette. 3.
100 Maintenance 5. Undo the mounting screws of the fan(s). 6. Install the new fans in reverse order. 7. Reset the counter (if used) in group 5 in the primary control program. ■ Replacing the LCL filter module cooling fan WARNING! Obey the safety instructions of the drive.
Maintenance 101 Replacing the standard drive module WARNING! Obey the safety instructions of the drive. 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. •...
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102 Maintenance 1. Stop the drive and do the steps in section Electrical safety precautions (page 16) before you start the work. 2. Remove the clear plastic shrouds on the power cables and parts in front of the drive module (if present). 3.
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Maintenance 103 11. Pull the drive module carefully out of the cabinet preferably with help from another person. 12. Install the new module in reverse order.
Capacitor life can be prolonged by lowering the ambient temperature. Capacitor failure is usually followed by damage to the unit and an input cable fuse failure, or a fault trip. If you think that any capacitors in the drive have failed, contact ABB. ■...
This chapter gives ordering information on additional components available from ABB for the drive module installation. Note: This chapter only lists the installation accessories available from ABB. All other parts must be sourced from a third party by the system integrator.
Ordering information 107 ■ Air outlet kits Enclosure width / Kit code Ordering code Illustration Degree of protection 800 mm / IP20 A-4-X-062 3AUA0000125201 Instruction code: 3AXD50000001982 Note: Fan to be ordered separately 800 mm / IP42 A-4-X-060 3AUA0000114967 Instruction code: 3AUA0000115290 Note: Fan to be ordered separately 800 mm / IP54 (IEC) A-4-X-064...
108 Ordering information Enclosure width / Kit code Ordering code Illustration Degree of protection 800 mm / IP54 (UL) A-4-X-067 3AXD50000010362 Instruction code: 3AXD50000010284 Note: Fan to be ordered separately Cooling fans Two cooling fans must be installed inside the air outlet compartment to ensure sufficient cooling of the cabinet.
Ratings The nominal rating for the drive modules with 50 Hz and 60 Hz supply are given below. IEC RATINGS Drive type Frame size Input Output ratings current ACQ580-34- Nominal use Light-duty use = 400 V 246A-4 293A-4 365A-4 442A-4...
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110 Technical data IEC RATINGS Drive type Frame size Input Output ratings current ACQ580-34- Max. Light-duty use current = 480 V 246A-4 293A-4 365A-4 442A-4 505A-4 585A-4 650A-4 3AXD00000586715 UL (NEC) RATINGS Drive type Frame size Input Output ratings current ACQ580-34- Max.
The power ratings apply to most IEC 34 motors at the nominal voltage of the drive. ABB recommends to select the drive, motor and gear combination for the required motion profile with the DriveSize dimensioning tool available from ABB.
Cooper Bussmann for protection against short-circuit in the input power cable of drive are listed below. Ultrarapid (aR) fuses Input Fuse Drive type current ACQ580-34- Type DIN 43653 Size = 400 V, IEC 246A-4 74000 170M5408 293A-4...
The fuses must be of the “non-time delay” type. Obey local regulations. Fuse Drive type Input current Type DIN ACQ580-34- Manufacturer Size 43653 = 400 V, IEC 246A-4...
This table shows typical heat loss values, required air flow and noise at the nominal ratings of the drive. The heat loss values can vary depending on voltage, cable conditions, motor efficiency and power factor. To obtain more accurate values for given conditions, use ABB DriveSize tool (http://new.abb.com/drives/software-tools/drivesize).
The value separated by the plus sign means the diameter of the PE conductor. See also section Terminal and lead-through data for the power cables. Drive type ACQ580-34- Cu cable type Al cable type Cu cable type...
Technical data 117 Electrical power network specification Voltage (U ACQ580-34-xxxx-4 drive modules: 380...480 V AC 3-phase +10%/-15%. This is indicated in the type designation label as typical input voltage levels 3~400/480 V AC. Network type TN (grounded) and IT (ungrounded) systems...
Asynchronous AC induction motors, permanent magnet motors and ABB synchron- ous reluctance motors (SynRM motors) Voltage (U 0 to U nominal, can be boosted higher but requires derating. Contact ABB for more information. Frequency (f 0…500 Hz Note: Operation above 150 Hz can require type-specific derating. For more inform- ation, contact your local ABB representative.
Longer motor cables cause a motor voltage decrease which limits the available motor power. The decrease depends on the motor cable length and characteristics. Contact ABB for more information. Note that a sine filter (optional) at the drive output also causes a voltage decrease.
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...
Technical data 121 Applicable standards The drive complies with the following standards. European electrical safety requirements product standards EN 61800-5-1:2007 Adjustable speed electrical power drive systems. Part 5-1: Safety requirements – electrical, thermal and energy EN 60204-1:2006 Safety of machinery. Electrical equipment of machines. Part 1: General require- +A1:2010 ments.
122 Technical data WEEE mark At the end of life the product should enter the recycling system at an appropriate collection point and not placed in the normal waste stream. EMC compliance (IEC/EN 61800-3:2004) ■ Definitions EMC stands for Electromagnetic Compatibility. It is the ability of electrical/electronic equipment to operate without problems within an electromagnetic environment.
Technical data 123 Medium voltage network Equipment Neighboring network Supply transformer Point of measurement Static screen Low voltage Drive Equipment (victim) 2. An EMC plan for preventing disturbances is drawn up for the installation. A template is available in Technical guide No. 3 EMC compliant installation and configuration for a power drive system (3AFE61348280 (English)).
Dimension drawings 125 Dimension drawings Contents of this chapter This chapter contains dimension drawings of the drive modules with optional parts for Rittal VX25 cabinet assembly.
Dimension drawings 131 Air baffles This drawing shows the dimensions of the air baffles around the drive module with option +B051 for Rittal VX25 800 mm cabinet. These are not ABB products. LEFT RIGHT REAR FRONT 3AXD50000453931 ■ Material of the air baffles 0.75 mm polycabonate (PC) film LEXAN®...
Example circuit diagrams 133 Example circuit diagrams Contents of this chapter This chapter shows an example circuit diagram for a cabinet-installed drive module. 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).
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134 Example circuit diagrams Cabinet *ACx-AP-x control panel CCU control unit ***Main contactor **Motor temperature supervision ***Switch fuse disconnector Common mode filter **du/dt filter or sine filter Drive module Input and output signals Alarm Supply 360 degree grounding recommended...
The Safe torque off function 135 The 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 as the final actuator device of safety circuits that stop the drive in case of danger (such as an emergency stop circuit).
136 The Safe torque off function Standard Name IEC 61326-3-1:2017 Electrical equipment for measurement, control and laboratory use – EMC requirements – Part 3-1: Immunity requirements for safety-related systems and for equipment intended to perform safety-related functions (functional safety) – General industrial applications IEC 61508-1:2010 Functional safety of electrical/electronic/programmable electronic safety- related systems –...
The Safe torque off function 137 Wiring For the electrical specifications of the STO connection, see the technical data of the control unit. ■ Connection principle Single ACQ580-34 drive, internal power supply OUT1 + 24 V DC OUT2 + 24 V DC SGND...
138 The Safe torque off function Single ACQ580-34 drive, external power supply 24 V DC OUT1 + 24 V DC OUT2 + 24 V DC SGND UDC+ UDC- Drive Control unit Control logic To motor Activation switch ■ Wiring examples...
140 The Safe torque off function Multiple ACQ580-34 drives, internal power supply OUT1 + 24 V DC OUT2 + 24 V DC SGND OUT1 OUT2 SGND OUT1 OUT2 SGND Drive Control unit Activation switch...
The Safe torque off function 141 Multiple ACQ580-34 drives, external power supply 24 V DC – OUT1 + 24 V DC OUT2 + 24 V DC SGND OUT1 OUT2 SGND OUT1 OUT2 SGND Drive Control unit Activation switch ■ Activation switch In the wiring diagrams, the activation switch has the designation [K].
142 The Safe torque off function • A CPTC-02 thermistor protection module can also be used. For more information, see the module documentation. ■ Cable types and lengths • Double-shielded twisted-pair cable is recommended. • Maximum cable lengths: • 300 m (1000 ft) between activation switch [K] and drive control unit •...
The Safe torque off function 143 Operation principle 1. The Safe torque off activates (the activation switch is opened, or safety relay contacts open). 2. The STO inputs of the drive control unit de-energize. 3. The control unit cuts off the control voltage from the output IGBTs. 4.
144 The Safe torque off function Start-up including acceptance test To ensure the safe operation of a safety function, validation is required. The final assembler of the machine must validate the function by performing an acceptance test. The acceptance test must be performed •...
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The Safe torque off function 145 Action Test the operation of the STO function when the motor is running. • Start the drive and make sure the motor is running. • Open the STO circuit. The motor should stop. The drive generates an indication if one is defined for the 'running' state in parameter 31.22 (see the firmware manual).
146 The Safe torque off function 1. Open the activation switch, or activate the safety functionality that is wired to the STO connection. 2. The STO inputs on the drive control unit de-energize, and the control unit cuts off the control voltage from the output IGBTs.
If any wiring or component change is needed after start up, or the parameters are restored, do the test given in section Acceptance test procedure (page 144). Use only spare parts approved by ABB. Record all maintenance and proof test activities in the machine logbook. ■ Competence...
See the firmware manual of the drive control program for the indications generated by the drive, and for details on directing fault and warning indications to an output on the control unit for external diagnostics. Any failures of the Safe torque off function must be reported to ABB.
The Safe torque off function 149 Safety data The safety data for the Safe torque off function is given below. Note: The safety data is calculated for redundant use, and does not apply if both STO channels are not used. MTTF SIL/ Frame size...
Mission time: the period of time covering the intended use of the safety function/device. After the mission time elapses, the safety device must be replaced. Note that any T values given cannot be regarded as a guarantee or warranty. ■ TÜV certificate The TÜV certificate is available on the Internet at www.abb.com/drives/documents.
See section Examining the compatibility of the motor and drive. ■ Selection table du/dt filter types for the drive modules are given below. Drive module type du/dt filter type ACQ580-34- 246A-4…725A-4 FOCH0875-70 ■ Ordering codes Drive module type Ordering code ACQ580-34- 246A-4…725A-4...
Optional I/O extension modules 155 Optional I/O extension modules Contents of this chapter This chapter describes how to install and start up the following optional modules: • CHDI-01 115/230 V digital input extension module • CMOD-01 multifunction extension module • CMOD-02 multifunction extension module This chapter also contains diagnostics and technical data of these modules.
Optional I/O extension modules 157 ■ Electrical installation WARNING! Obey the instructions in chapter Safety 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 electrical work. Make sure that the drive is disconnected from the input power during installation.
158 Optional I/O extension modules Wiring Connect the external control cables to the applicable module terminals. Ground the outer shield of the cables 360 degrees under a grounding clamp on the grounding shelf of the control cables. Relay output connection example RO4C RO4A 24 V DC...
Optional I/O extension modules 159 ■ Diagnostics Faults and warning messages Warning A7AB Extension I/O configuration failure. 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.
Optional I/O extension modules 161 CMOD-01 multifunction extension module (external 24 V AC/DC and digital I/O) ■ Hardware description Product overview The CMOD-01 multifunction extension module (external 24 V AC/DC and digital I/O) expands the outputs of the drive control unit. It has two relay outputs and one transistor output, which can function as a digital or frequency output.
162 Optional I/O extension modules ■ Mechanical installation Necessary tools and instructions • Screwdriver and a set of suitable bits. Unpacking and checking the delivery 1. Open the option package. 2. Make sure that the package contains: • CMOD-01 multifunction extension module •...
Optional I/O extension modules 163 External power supply The external power supply is needed only if you want to connect an external back-up power supply for the drive control unit. Note: CMOD +24V external power supply terminals are not in use with CCU-24 control unit. External power supply to CCU-24 is connected to terminals 40 and 41 on the control unit.
164 Optional I/O extension modules 24V AC/DC + in 24V AC/DC - in CMOD-01 External power supply, 24 V AC/DC WARNING! Do not connect the +24 V AC cable to the control unit ground when the control unit is powered using an external 24 V AC supply. ■...
Optional I/O extension modules 165 Parameter setting example for frequency output This example shows how to make digital output DO1 of the extension module indicate the motor speed 0... 1500 rpm with a frequency range of 0...10000 Hz. Parameter Setting 15.22 DO1 configuration Frequency output 15.33 Freq out 1 source...
166 Optional I/O extension modules ■ 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. Package: Cardboard...
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Optional I/O extension modules 167 Isolation areas: CMOD-01 24 V Reinforced insulation (IEC 61800-5-1:2007) Functional insulation (IEC 61800-5-1:2007) Relay outputs (50…52, 53…55): • Wire size max. 1.5 mm • Minimum contact rating: 12 V / 10 mA • Maximum contact rating: 250 V AC / 30 V DC / 2 A •...
168 Optional I/O extension modules CMOD-02 multifunction extension module (external 24 V AC/DC and isolated PTC interface) ■ Hardware description Product overview The CMOD-02 multifunction extension module (external 24 V AC/DC and isolated PTC interface) has a motor thermistor connection for supervising the motor temperature and one relay output, which indicates the thermistor status.
170 Optional I/O extension modules External power supply The external power supply is needed only if you want to connect an external back-up power supply for the drive control unit. Note: CMOD +24V external power supply terminals are not in use with CCU-24 control unit. External power supply to CCU-24 is connected to terminals 40 and 41 on the control unit.
Optional I/O extension modules 171 Power supply connection example 24V AC/DC + in 24V AC/DC - in CMOD-02 External power supply, 24 V AC/DC WARNING! Do not connect the +24 V AC cable to the control unit ground when the control unit is powered using an external 24 V AC supply.
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172 Optional I/O extension modules Installation: Into an option slot on the drive control unit Degree of protection: IP20 Ambient conditions: See the drive technical data. Package: Cardboard...
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Optional I/O extension modules 173 Isolation areas: CMOD-02 24 V RO PTC Reinforced insulation (IEC 61800-5-1:2007) Functional insulation (IEC 61800-5-1:2007) Plugged to drive SLOT2. Motor thermistor connection (60…61): • Wire size max. 1.5 mm • Supported standards: DIN 44081 and DIN 44082 •...
Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet 175 21. Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet...
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176 Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet (PE) PE (PE) Drive type Air flow Losses Type DIN 43653 ACQ580-34- = 400 V 246A-4 2100 5280 170M5408 293A-4 2100 6400 170M5410 363A-4 2100 8000...
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Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet 177 Rittal 8806.000 non-ABB part (see dimension drawings) Rittal 8617.140 80.5 (3.17) 280.5 (11.04) Tapping screw M6×12 Torx T30 8 N·m 360 °...
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178 Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet Tapping screw M6×12 Torx T30 (Hex) 8 N·m Combi screw M8×30 Hex 20 N·m...
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Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet 179 +B051 Combi screw M4×8 Torx T20 2 N·m +B051 Combi screw M4×8 Torx T20 2 N·m Combi screw M4×8 Torx T20 2 N·m +B051...
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180 Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet M6 Serpress 8 N·m M6 Serpress 8 N ·m Screw M10x30 and washer Combi screw M8 Combi screw M8 24 N·m 24 N·m...
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Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet 181 M10×30 Combi screw M4×8 Torx T20 2 N·m Combi screw M12×25 70 N·m Combi screw M4×8 Torx T20 2 N·m...
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182 Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet T3/W2 T3/W2 T2/V2 T2/V2 T3/W2 T1/U2 T2/V2 T1/U2 T1/U2 Combi screw M12×25 Hex (Delta) 70 N·m T3/W2 T3/W2 T2/V2 T2/V2 T1/U2 T1/U2 8 N·m Combi screw M6×12 Torx T25 8 N·m...
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Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet 183 T3/W2 T3/W2 T3/W2 T2/V2 T2/V2 T2/V2 T1/U2 T1/U2 T1/U2 T3/W2 T3/W2 T2/V2 T2/V2 T1/U2 T1/U2...
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184 Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet +B051 Combi screw M4×10 Torx T20 2 N·m Combi screw M6×20 Torx T25 2 N·m +B051 +B051 Combi screw M6×20 Torx T25 2 N·m +B051...
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Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet 185 UDC+ UDC+ UDC+ UDC- UDC- UDC- L1/U1 L1/U1 L3/W1 L2/V1 L1/U1 L3/W1 L2/V1 L2/V1 Hex screw M12×35 L3/W1 full thread 70 N·m Hex nut M12 +B051 70 N·m...
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186 Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet +B051 +B051 UDC+ UDC- L3/W1 L2/V1 L1/U1 Combi screw M4×10 Torx T20 2 N·m +B051 Combi screw M4×10 Torx T20 2 N·m Combi screw M6×20 Torx T25 2 N·m...
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Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet 187 Tapping screw M6×12 Torx T30 (Hex) 8 N·m Right air baffle, non-ABB part Rear air baffle, non-ABB part (see dimension drawings) (see dimension drawings) Rittal 8617.720...
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188 Step-by-step drawings for an installation example in Rittal VX25 800 mm wide cabinet...
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.