Page 1 ABB industrial drives Hardware manual ACS880-04 drive modules (200 to 710 kW, 300 to 700 hp)
Page 2: List Of Related Manuals
Multilingual code: 3AXD50000037978 ACS880-04 drive modules (200 to 710 kW, 300 to 700 hp) 3AUA0000128301 hardware manual ACS880-04 drive modules (200 to 710 kW, 300 to 700 hp) quick 3AXD50000009366 installation guide ACS-AP-x Assistant control panels user’s manual 3AUA0000085685 ACS880-01/04 +C132 marine type-approved drives supplement...
Page 3 Hardware manual ACS880-04 drive modules (200 to 710 kW, 300 to 700 hp) Table of contents 1. Safety instructions 6. Installation instructions 10. Start-up  2017 ABB Oy. All Rights Reserved. 3AUA0000128301 Rev G EFFECTIVE: 2017-02-17...
Page 5: Table Of Contents
Table of contents List of related manuals ........... 2 1.
Page 6 ABB air inlet and outlet kits ........
Page 7 Additional US requirements ..........72 Conduit .
Page 8 Motor and motor cable ..........92 Brake resistor and resistor cable .
Page 9 Installing the roof and door (Rittal parts) ........125 Installing the roof and door (ABB air filters and roof) ......126 Removing the protective covering from the drive module air outlet .
Page 10 11. Fault tracing Contents of this chapter ..........151 LEDs with options +J410 .
Page 11 High speed mode ..........180 Fuses (IEC) .
Page 12 R11 with options +0B051+E208+H356+0H371 ......209 R11 with options +E208+H356+H381+J414+P905 ......210 R11 with options +0B051+C173+E208+H356+0H354+0H371 .
Page 13 Providing feedback on ABB Drives manuals ....... . . 253...
Page 15: Safety Instructions
Safety instructions 15 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 16: General Safety In Installation, Start-Up And Maintenance
16 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 17 Safety instructions 17 • 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 18: Electrical Safety In Installation, Start-Up And Maintenance
18 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 19: Additional Instructions And Notes
Safety instructions 19 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 20: Grounding
20 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 21: Additional Instructions For Permanent Magnet Motor Drives
Safety instructions 21 Additional instructions for permanent magnet motor drives Safety in installation, start-up and 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 and equipment malfunction can occur.
Page 22 22 Safety instructions...
Page 23: Introduction To The Manual
Introduction to the manual 23 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 24: Contents Of The Manual
Ordering information gives ordering information on additional components available from ABB for the drive module installation. Technical data contains the technical specifications of the drive module, eg, the ratings, sizes and technical requirements, provisions for fulfilling the requirements for CE and other markings.
Page 25: Categorization By Frame Size And Option Code
Introduction to the manual 25 Step-by-step drawings for a flat installation example in Rittal TS 8 600 mm wide cabinet shows how to install the drive module in a Rittal TS 8 cabinet. Step-by-step drawings for option +H391 installation example in Rittal TS 8 600 mm wide cabinet shows how to install drive module with option +H391 to a Rittal TS 8 cabinet.
Page 26 26 Introduction to the manual Task Standard drive modules Installing the drive module into a cabinet (page 123) • Install the additional components into the cabinet: for example, main disconnector, main contactor, main AC Connecting the power cables and installing the fuses, etc..
Page 27: Terms And Abbreviations
Introduction to the manual 27 Task Connect the external control cables to the drive control unit. Connecting the control cables to the terminals of the control unit (page 107) Check the installation. Installation checklist (page 145) Commission the drive. Start-up (page 149) Commission the brake chopper (if used).
Page 28 28 Introduction to the manual Term/Abbreviation Explanation FENA-21 Optional high performance Ethernet/IP™, Modbus/TCP and PROFINET IO adapter module, 2-port FEPL-01 Optional Ethernet POWERLINK fieldbus adapter module FIO-01 Optional digital I/O extension module FIO-11 Optional analog I/O extension module ® FLON-01 Optional LonWorks adapter module FPBA-01...
Page 29: Operation Principle And Hardware Description
Operation principle and hardware description 29 Operation principle and hardware description Contents of this chapter This chapter describes the operating principle and construction of the drive module.
Page 30: Product Overview
30 Operation principle and hardware description Product overview The ACS880-04 is a drive module for controlling asynchronous AC induction motors, permanent magnet motors, AC induction servomotors and ABB synchronous reluctance motors (SynRM motors). The main circuit of the drive module is shown below.
Page 31: Layout
Operation principle and hardware description 31 Layout Standard drive module configuration with option +E208  The assembled standard drive module configuration with option +E208 is shown below. Drive module Optional common mode filter (+E208) Upper front cover Pedestal Lower front cover External control unit with control panel holder Clear plastic shrouds attached Control panel...
Page 32 32 Operation principle and hardware description +H370 Clear plastic shroud to be attached onto the Fiber optic cables drive module input power cabling (a). Lead- through shroud for side cabling (b). Clear plastic shrouds to be attached onto the PE (ground) terminal drive module output power cabling Clear plastic shroud to be attached on top of Main cooling fans...
Page 33: Drive Module For Flat Mounting (Option +C173)
Operation principle and hardware description 33 Drive module for flat mounting (option +C173)  Front view of an assembled drive module for flat mounting is shown below. Option +C173 adds flat mounting brackets to the standard drive module configuration. Option +0H354 removes the pedestal and option +0P919 the installation ramp.
Page 34: Drive Module With Full Power Cabling Panels (Option +H381)
34 Operation principle and hardware description Drive module with full power cabling panels (option +H381)  Accessories Assembled drive module Input power cabling panel Rubber grommet Side guides Input power cabling panel to be attached to the drive cabinet Output power cabling panel Output power cabling panel to be attached to the drive cabinet Top guide plate...
Page 35: Drive Module Without Full-Size Output Cable Connection Terminals (Option +0H371) And Ip20 Shrouds (Option +0B051)
Operation principle and hardware description 35 Drive module without full-size output cable connection terminals  (option +0H371) and IP20 shrouds (option +0B051) Lifting lugs Fastening bracket Input cable connection busbars (L1/U1, L2/V1, L3/W1) and DC+ and DC- busbars (UDC+, UCD- with option +H356) Circuit board compartment Output cable connection busbars (T1/U2, T2/V2, T3/W2) and brake resistor connection busbars (R+...
Page 36: Drive Module Configuration With Power Cable Connection Terminals On The Right-Hand Side Of The Drive Module (Option +H391)
36 Operation principle and hardware description Drive module configuration with power cable connection terminals  on the right-hand side of the drive module (option +H391) Lifting lugs Fastening bracket Input cable connection busbars (L1/U1, L2/V1, L3/W1) and DC+ and DC- busbars (UDC+, UCD- with option +H356) Circuit board compartment cooling fans Circuit board compartment...
Page 37: Control Unit
Operation principle and hardware description 37 Control unit  See section Standard drive module configuration with option +E208 on page 31. Control panel  ACS-AP-W Assistant control panel DPMP-01 door mounting kit (option +J410) DPMP-02 door mounting kit for surface mounting (option +J413) In the standard drive module configuration, the control panel is located in the control panel holder of the external control unit.
Page 38: Overview Of Power And Control Connections
38 Operation principle and hardware description Overview of power and control connections The diagram shows the power connections and control interfaces of the drive module. Slot 1 Slot 2 X205 Slot 3 t° UDC+ UDC- T1/U2 L1/U1 T2/V2 L2/V1 T3/W2 L3/W1 Analog and digital I/O extension modules, feedback interface modules and fieldbus communication modules can be inserted into slots 1, 2 and 3.
Page 39: External Control Connection Terminals
Operation principle and hardware description 39 External control connection terminals  The layout of the external control connection terminals on the drive module control are shown below. Description XPOW External power input XRO1 Analog inputs Analog outputs XRO2 XD2D Drive to drive link XRO1 Relay output RO1 XRO3...
Page 40: External Control Unit Connection Cables
See sections Connecting the external control unit to the drive module (page 103) and Connecting a control panel (page 115) for the actual connections. ZCU-13 ACS880-04 ZBIB BPOW BPOW BGDR STO1 BGDR STO2 2560 mm (8.4 ft)
Page 41: Type Designation Key
Not all selections are available for all types. For more information, refer to ACS880 Ordering Information (3AXD10000014923), available on request. Code Description Basic code, eg, ACS880-04-880A-3 Product series ACS880 ACS880 product series Type When no options are selected: drive module to be installed in a cabinet, IP20 (UL open type),...
Page 42 J425 Assistant control panel ACS-AP-I. Filters E200 EMC filter for second environment TN (grounded) system, category C3. Available for ACS880-04- xxxx-7 types only. E201 EMC filter for second environment IT (ungrounded)) system, category C3. Available for ACS880- 04-xxxx-7 types only.
Page 43 Operation principle and hardware description 43 Code Description L521 FSE-31 pulse encoder interface module. Requires option +Q972. L525 FAIO-01 analog I/O extension module L526 FDIO-01 digital I/O extension module L536 FPTC-01 thermistor protection module L537 FPTC-02 ATEX-certified thermistor protection module. Requires option +Q971. Control program N7502 Enables setting of synchronous reluctance motor parameters in the drive control program.
Page 44 44 Operation principle and hardware description...
Page 45: 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 or flat position or on its back in a cabinet.
Page 46: Planning The Layout Of The Cabinet
46 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 47: Layout Example, Door Open (Standard Drive Module Configuration)
Guidelines for planning the cabinet installation 47 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 Vertical (2a) and horizontal (2b) air baffles 9 Drive module control unit.
Page 48: Layout Example, Door Open (Option +H391)
48 Guidelines for planning the cabinet installation Layout example, door open (option +H391)  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 Vertical (2a) and horizontal (2b) air baffles 9 Drive module control unit.
Page 49: Layout Example, Door Open (Option +0B051)
Guidelines for planning the cabinet installation 49 Layout example, door open (option +0B051)  This diagram shows a layout example for drive modules with no IP20 shrouds (option +0B051) or no cabling panels (option +H381 not included). L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2...
Page 50: 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...
Page 51: Planning The Cabinet Placement On A Cable Channel
Guidelines for planning the cabinet installation 51 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 52: Planning The Cooling
52 Guidelines for planning the cabinet installation • 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 53 This is critical for proper cooling of the drive module. Minimum air inlets are four Rittal air filters (SK 3243.200 for a 600 mm wide cabinet) or two ABB air inlet filters (see section Cabinet ventilation on page •...
Page 54: Preventing The Recirculation Of Hot Air
54 Guidelines for planning the cabinet installation Preventing the recirculation of hot air Prevent hot air circulation outside the cabinet by leading the outcoming hot air away from the area where the inlet air to the cabinet is taken. Possible solutions are listed below: •...
Page 55: Bookshelf Mounting (Standard Drive Module Configuration)
Guidelines for planning the cabinet installation 55 Bookshelf mounting (standard drive module configuration)  This diagram shows the air baffle position inside an example cabinet. For dimensions of the baffle, see page 215. L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 B – B C –...
Page 56: Bookshelf Mounting (Option +0B051)
56 Guidelines for planning the cabinet installation Bookshelf mounting (option +0B051)  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 57: Bookshelf Mounting (Option +H381)
Guidelines for planning the cabinet installation 57 1a Air flow to the drive module, max. 40 °C Drive module (104 °F) 1b Air inlet to the drive circuit boards and DC and Disconnector and fuses output busbars 2a Vertical air baffle that separates the cool and Contactor hot areas in the cabinet 2b Vertical air baffle...
Page 58: Flat Mounting (Option +C173)
58 Guidelines for planning the cabinet installation Flat mounting (option +C173)  This diagram shows air baffle positions inside an example cabinet. For dimensions of the baffle, see page 215. L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 A – A B – B Air flow to the drive module, max.
Page 59: Flat Mounting (Option +C173+0B051)
Guidelines for planning the cabinet installation 59 Flat mounting (option +C173+0B051)  This diagram shows air baffle positions inside an example cabinet. L1/U1 L2/V1 L3/W1 T3/W2 T2/V2 T1/U2 A – A C – C B – B 1a Air flow to the drive module, max. 40 °C Disconnector and fuses (104 °F) 1b Air inlet to the drive circuit boards and DC and...
Page 60: 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 61: Planning The Placement Of The Control Panel
Use a cubicle heater if there is a risk of condensation in the cabinet. Although the primary function of the heater is to keep the air dry, it may also be required for heating at low temperatures. ABB air inlet and outlet kits See section Cabinet ventilation...
Page 62 62 Guidelines for planning the cabinet installation...
Page 63: 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 64: Selecting The Supply Disconnecting Device
Examining the compatibility of the motor and drive Use an asynchronous AC induction motor, permanent magnet motor, AC induction servomotor or ABB synchronous reluctance motor (SynRM motor) with the drive. Several induction motors can be connected at a time. Select the motor size and drive type from the rating tables in chapter Technical data basis of the AC line voltage and motor load.
Page 65: Protecting The Motor Insulation And Bearings
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 fulfill the following requirements or improper installation may shorten motor life or damage the motor bearings and voids the motor warranty.
Page 66 66 Guidelines for planning the electrical installation Motor Nominal AC supply Requirement for type voltage ABB du/dt and common mode filters, insulated N-end Motor motor bearings insulation system 100 kW < P < 350 kW > 350 kW IEC 315 < frame size <...
Page 67: Additional Requirements For Explosion-Safe (Ex) Motors
If you use an explosion-safe (EX) motor, obey the rules in the requirements table above. In addition, consult the motor manufacturer for any further requirements. 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 68: Additional Data For Calculating The Rise Time And The Peak Line-To-Line Voltage
68 Guidelines for planning the electrical installation Nominal AC supply Requirement for voltage Motor insulation system ABB du/dt filter, insulated N-end bearing and ABB common mode filter 600 V < U < 690 V Reinforced: Û = 1800 V + N + du/dt + CMF Reinforced: Û...
Page 69: Selecting The Power Cables
Guidelines for planning the electrical installation 69 Selecting the power cables General rules  Select the input power and motor cables according to local regulations: • Select a cable capable of carrying the drive nominal current. See section Ratings (page 175) for the rated currents. •...
Page 70: Typical Power Cable Sizes
70 Guidelines for planning the electrical installation Typical power cable sizes  The table below gives copper and aluminum 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 184.
Page 71: Alternative Power Cable Types
Guidelines for planning the electrical installation 71 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 72: Motor Cable Shield
72 Guidelines for planning the electrical installation Motor cable shield  If the motor cable shield is used as the sole protective earth conductor of the motor, make sure that the conductivity of the shield is sufficient. See subsection General rules on page 69, or IEC 61800-5-1.
Page 73: Planning The Braking System
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 74: Separate Control Cable Ducts
74 Guidelines for planning the electrical installation A diagram of the cable routing is shown below. Control cables min 200 mm (8 in.) 90 ° Input power cable Motor cable Drive min 300 mm (12 in.) Power cable Motor cable, brake cable min 500 mm (20 in.) Control cables Separate control cable ducts...
Page 75: Implementing Thermal Overload And Short-Circuit Protection
The protective characteristics of circuit breakers depend on the type, construction and settings of the breakers. There are also limitations pertaining to the short-circuit capacity of the supply network. Your local ABB representative can help you in selecting the breaker type when the supply network characteristics are known.
Page 76: Protecting The Motor And Motor Cable In Short-Circuits
76 Guidelines for planning the electrical installation Drive module type Frame size ABB molded case circuit breaker (Tmax) Product ID (Type) ACS880-04-880A-3 1SDA062770R1 (T7H 1000 PR231/P LS/I In=1000A 3p F F) = 500 V ACS880-04-460A-5 1SDA054412R1 (T5H 630 PR221DS-LS/I In=630 3p F F)
Page 77: Protecting The Drive And The Input Power And Motor Cables Against Thermal Overload
These capacitors and long motor cables increase the ground leakage current and can cause fault current circuit breakers to function. Connecting drive modules to a common DC system See ACS880-01 drives and ACS880-04 drive modules common DC systems application guide (3AUA0000127818 [English]).
Page 78: Implementing The Emergency Stop Function
78 Guidelines for planning the electrical installation Implementing the Emergency stop function For safety reasons, install the emergency stop devices at each operator control station and at other operating stations where emergency stop may be needed. You can implement the emergency stop function using the Safe torque off function of the drive module (see chapter Safe torque off function on page 221).
Page 79: Implementing The Power Loss Ride-Through Function
Guidelines for planning the electrical installation 79 Implementing the Power loss ride-through function Implement the power loss ride-through function as follows: 1. Check that the power-loss ride-through function of the drive is enabled with parameter 30.31 Undervoltage control in the ACS880 primary control program. 2.
Page 80: Using A Contactor Between The Drive And The Motor
80 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 80. When you have selected to use DTC motor control mode and motor ramp stop, open the contactor as follows: 1.
Page 81: Example Bypass Connection
Guidelines for planning the electrical installation 81 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 82: Switching The Motor Power Supply From Direct-On-Line To Drive
82 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 83: Implementing A Motor Temperature Sensor Connection
Guidelines for planning the electrical installation 83 Implementing a motor temperature sensor connection 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 but not connected to the protective earth. To connect a motor temperature sensor and other similar components to the drive, you have four alternatives: 1.
Page 84: Example Circuit Diagram
84 Guidelines for planning the electrical installation Extension module Temperature sensor Temperature sensor type insulation requirement Type Insulation/Isolation Pt100, Pt1000 FPTC- Reinforced insulation between sensor No special requirement connector and other connectors (including drive control unit connector). Note: The inaccuracy of the drive analog inputs for Pt100 sensors is 10 °C (18 °F). If a better accuracy is needed, use the FAIO-01 analog I/O extension module (option +L525).
Page 85: Installation Instructions
Installation instructions 85 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 86: Moving And Unpacking The Unit
86 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 87): •...
Page 87: Package Drawings
Installation instructions 87 Package drawings  3AUA0000101742 Transport package contents With standard drive module configuration: Clear plastic shrouds. With option +H381: Input cabling panel parts. See below for the box contents. With standard drive module configuration: Output cable connection terminals. With option +H370 also Input cable connection terminals.
Page 88 88 Installation instructions Option +H391: Top and bottom brackets and handle Top bracket Bottom bracket Handle Screw package 3AXD10000407466 Box B1 contents (standard drive module configuration) Paper fill Clear plastic shroud for output cabling Cardboard box cover Cardboard box bottom Support Bands Back clear plastic shroud (lower)
Page 89 Installation instructions 89 Box B1 contents with option +H381: Input power cabling panel parts Screw package Paper fill Grounding busbar to be connected to the input power cabling panel and the drive module Cardboard tray Top cardboard cover Rubber grommet Support Bands Input power cabling panel...
Page 90 90 Installation instructions Ramp box contents Screw package Telescopic extraction and insertion ramp Cardboard box 3AXD50000010005 Accessories box contents Screw package, includes also spacers for FSO module installation Rubber grommets for control unit cable lead-through holes in the middle front cover of the drive module Bracket for attaching the drive module from top to Rittal cabinet...
Page 91: Checking The Delivery
Installation instructions 91 Flat installation box contents (option +C173) Screw package Paper fill Mounting bars for 600 mm wide Rittal TS 8 cabinet Cardboard box 3AUA0000100915 Checking the delivery Check that all items listed in section Moving and unpacking the unit are present.
Page 92: Checking The Insulation Of The Assembly
Protective 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.
Page 93: Brake Resistor And Resistor Cable
Installation instructions 93 Brake resistor and resistor cable  Check the insulation of the brake resistor assembly (if present) as follows: 1. Stop the drive and do the steps in section Precautions before electrical work on page before you start the work. 2.
Page 94: Standard Drive Module Configuration (Bookshelf Mounting)
Rittal TS 8 cabinet, see chapter Installation example of the standard drive module configuration on page 121. See also ACS880-04 drive modules (200 to 710 kW, 300 to 700 hp) quick installation guide (3AXD50000009366 [English]). Drive module configuration for flat mounting (option +C173) ...
Page 95: Drive Module With Full Cabling Panels (Option +H381)
Installation instructions 95 Install the metallic shroud with ground bar as shown below. Combi screw M4×8 Torx T20 2 N·m Drive module with full cabling panels (option +H381)  For an installation example of the drive module with full cabling panels (option +H381) into a Rittal cabinet including power cable connection procedure, see chapter Installation example with full cabling panels (option...
Page 96: Drive Module Without Pedestal (Option +0H354)
96 Installation instructions Drive module without pedestal (option +0H354)  The drive module without pedestal can be mounted on a wall or a cabinet with four screws through the fastening holes at the top and bottom of the module. Make sure that the cabinet mounting plate and frame are strong enough to carry the weight of the drive module.
Page 97: Alternatives For Grounding The Drive Module
Installation instructions 97 Alternatives for grounding the drive module  You can ground the drive module from its top back to the cabinet frame with these alternatives: 1. from the grounding hole 2. to a Rittal punched section: with the fastening bracket. Tapping screw M6×12 Torx T30 (Hex) 9 N·m...
Page 98: Installing The Bottom Grille For Ip20 Degree Of Protection
98 Installation instructions Installing the bottom grille for IP20 degree of protection  If IP20 degree of protection is needed from the bottom side, install the bottom grille as shown below. Installing the EMC filter (option +E202) See ARFI-10 EMC filter installation guide (3AFE 68317941 [English). Connecting the power cables WARNING! Obey the safety instructions in chapter Safety...
Page 99: Power Cable Connection Diagram
Installation instructions 99 Power cable connection diagram  (PE) (PE) ACS880-04 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 100: Power Cable Connection Procedure
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. See ACS880-01 drives and ACS880-04 drive modules common DC systems application guide (3AUA0000127818 [English]).
Page 101: Removing The Control Panel Holder From The External Control Unit
Installation instructions 101 Removing the control panel holder from the external control unit 1. Disconnect the control panel cable from connector X13 on the control unit. 2. Loosen the mounting screws of the control panel holder and take the holder off.
Page 102: Fastening The Control Cable Clamp Plate
102 Installation instructions Fastening the control cable clamp plate Fasten the control cable clamp plate either to the top or base of the control unit with four screws as shown below. Note: If you install the FSO-xx safety functions module above the control unit, fasten the control cable clamp plate on the base of the control unit.
Page 103: Connecting The External Control Unit To The Drive Module
Installation instructions 103 Connecting the external control unit to the drive module WARNING! Handle the fiber optic cables with care. When unplugging optic cables, always grab the connector, not the cable itself. Do not touch the ends of the fibers with bare hands as the fiber is extremely sensitive to dirt. Routing the control unit cables into the drive module ...
Page 104: Connections To The Control Unit
104 Installation instructions Connections to the control unit  Connect the fiber optic, power supply and BGDR cables to the external control unit as follows: 1. Thread the cables inside the back frame of the control unit. 2. Connect the cables to the ZBIB board terminals. BPOW ZBIB ZINT/SOIA...
Page 105: Mounting The External Control Unit
Installation instructions 105 Mounting the external control unit The drive control unit can be fastened on a mounting plate through the fastening holes in its back or by using a DIN rail. Mounting the external control unit to wall  1.
Page 106: Mounting The External Control Unit Vertically On A Din Rail
106 Installation instructions Mounting the external control unit vertically on a DIN rail  1. Fasten the latch (A) to the back of the control unit with three screws. 2. Click the control unit to the rail as shown below (B). 3aua0000130997 Mounting the control unit horizontally on a DIN rail ...
Page 107: Connecting The Control Cables To The Terminals Of The Control Unit
Installation instructions 107 Connecting the control cables to the terminals of the control unit 1. Route the cables to the control unit as shown below. 2. Ground the shields of the control cables at the clamp plate. The shields should be continuous as close to the terminals of the control unit as possible.
Page 108: Default I/O Connection Diagram
108 Installation instructions Default I/O connection diagram  Relay outputs XRO1…XRO3 Ready 250 V AC / 30 V DC Running 250 V AC / 30 V DC Faulted(-1) 250 V AC / 30 V DC Fault External power input XPOW 24 V DC, 2 A +24VI Reference voltage and analog inputs...
Page 109: Notes
Installation instructions 109 Notes: 1) Current [0(4)…20 mA, R = 100 ohm] or voltage [0(2)…10 V, R > 200 kohm] input selected by jumper J1. Change of setting requires reboot of control unit. 2) Current [0(4)…20 mA, R = 100 ohm] or voltage [0(2)…10 V, R >...
Page 110: Ai1 And Ai2 As Pt100, Pt1000, Ptc And Kty84 Sensor Inputs (Xai, Xao)
110 Installation instructions AI1 and AI2 as Pt100, Pt1000, PTC and KTY84 sensor inputs (XAI, XAO) Three Pt100, Pt1000 or PTC sensors or one KTY84 sensor for motor temperature measurement can be connected between an analog input and output as shown below. Do not connect both ends of the cable shields directly to ground.
Page 111: Di6 (Xdi:6) As Ptc Sensor Input
Installation instructions 111 DI6 (XDI:6) as PTC sensor input A PTC sensor can be connected to this input for motor temperature measurement as follows. The sensor resistance must not exceed the threshold resistance of the digital input at the motor normal operating temperature. Do not connect both ends of the cable shield directly to ground.
Page 112: Safe Torque Off (Xsto)
112 Installation instructions The following diagram shows the wiring of the drive-to-drive link. Safe torque off (XSTO) For the drive to start, both connections (OUT1 to IN1 and IN2) must be closed. By default, the terminal block has jumpers to close the circuit. Remove the jumpers before connecting an external Safe torque off circuitry to the drive.
Page 113: Connecting The Control Cables To The Internal Control Unit (Option +P905)
Installation instructions 113 Connecting the control cables to the internal control unit (option  +P905) 1. Ground the outer control cable shields 360 degrees at the cabinet lead-through plate (recommendation). 2. Remove the middle front cover of the drive module (view of standard drive module configuration below).
Page 114: And +0B051)
114 Installation instructions Connecting the control cables to the internal control unit (options  +P905 and +0B051) 1. Remove the middle front cover of the drive module. 2. Fasten the clamp plate to the control unit with two screws from front, see Fastening the control cable clamp plate on page 102.
Page 115: Connecting A Control Panel
Installation instructions 115 Connecting a control panel With external control unit and control panel holder mounted on the drive module (option +J414), put the control panel on the control panel holder. With door mounting kit (option +J410)), connect the control panel to the control unit as follows: 1.
Page 116: Controlling Several Drives From One Control Panel Through Panel Bus
116 Installation instructions Controlling several drives from one control panel through panel bus One control panel (or PC) can be used to control several drives by constructing a panel bus. 1. Connect the panel to one drive using an Ethernet (eg. CAT5E) cable. •...
Page 117: Connecting A Pc
Installation instructions 117 Connecting a PC You need a control panel to connect a PC to the drive module. Connect the control panel to the drive control unit as described in section Connecting a control panel on page 115. WARNING! Do not connect the PC directly to the control panel connector of the control unit as this can cause damage.
Page 118: Case 1: Fso Safety Functions Module On Slot 2
118 Installation instructions Case 1: FSO safety functions module on Slot 2 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 work.
Page 119: Case 2: Fso Safety Functions Module Above The Control Unit
Installation instructions 119 Case 2: FSO safety functions module above the control unit 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 work.
Page 120: Installing I/O Extension, Fieldbus Adapter And Pulse Encoder Interface Modules
120 Installation instructions Installing I/O extension, fieldbus adapter and pulse encoder  interface modules See page for the available slots for each module. WARNING! Obey the safety instructions in chapter Safety instructions. If you ignore them, injury or death, or damage to the equipment can occur. 1.
Page 121: Installation Example Of The Standard Drive Module Configuration
In this chapter, the drive module is installed in a 600 mm wide Rittal TS 8 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 Always obey the general rules given in this chapter and local laws and regulations.
Page 122: 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. For alternative ABB air filters, see section Air inlet kits page 167. ABB 3AUA0000117003...
Page 123: Installing The Drive Module Into A Cabinet
Step-by-step drawings for an installation example of standard drive configuration with option +E208 in Rittal TS 8 600 mm wide cabinet on page ACS880-04 quick installation guide (3AXD50000009366 [English]). • Install the punched section to the back of the cabinet frame.
Page 124 124 Installation example of the standard drive module configuration Step Task (motor cables) Connect the phase T2/V2 conductors to the T2/V2 connection terminal. Install the T1/U2 connection terminal to the insulators. See the warning in step 4. Connect the phase T1/U2 conductors to the T1/U2 terminal. Remove the plastic sheeting from the output clear plastic shrouds from both sides.
Page 125: Installing The Roof And Door (Rittal Parts)
Installation example of the standard drive module configuration 125 Installing the roof and door (Rittal parts) This drawing shows a layout tested by ABB. Rittal 7967.000 Rittal 3326.200 592 [23.31] 3AUA0000145776 Door Install these gratings as close to each other as possible. Remove the filter mats.
Page 126: Installing The Roof And Door (Abb Air Filters And Roof)
126 Installation example of the standard drive module configuration Installing the roof and door (ABB air filters and roof) This drawing shows a layout tested by ABB. ABB 3AUA0000125202 (IP20) ABB 3AUA0000114971 (IP42) ABB 3AUA0000117003 (IP20) ABB 3AUA0000117008 (IP42) 3AXD50000016652...
Page 127: Removing The Protective Covering From The Drive Module Air Outlet
Installation example of the standard drive module configuration 127 Removing the protective covering from the drive module air outlet  WARNING! Remove the protective covering from the top of the drive module after the installation. If the covering is not removed, the cooling air cannot flow freely through the module and the drive will run to overtemperature.
Page 128 128 Installation example of the standard drive module configuration...
Page 129: Installation Example With Full Cabling Panels (Option +H381)
TS8 cabinets together. Available alternative ABB parts are also given. 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 130: Required Parts
TS 8106.235 Side panels for the cabinet SZ/DK 7967.000 (one Spacers for roof plate / ABB roof set = four pieces) / Note: For alternative ABB outlet kits, see section Air outlet kits on page 169. ABB 3AUA0000125201 (IP20) ABB 3AUA0000114967 (IP42) TS 8612.160...
Page 131: Overall Flowchart Of The Installation Process
Installation example with full cabling panels (option +H381) 131 Overall flowchart of the installation process Step Task For instructions, see Install the Rittal parts and drive module Installing the mechanical accessories into the mechanical accessories into the cabinet. cabinet on page and appendix Step-by- step drawings for installing full cabling panels...
Page 132: Connecting The Power Cables
132 Installation example with full cabling panels (option +H381) Connecting the power cables Connection diagram  (PE) (PE) ACS880-04 L1/U1 L2/V1 L3/W1 UDC- UDC+ L1/U1 L2/V1 L3/W1 UDC- UDC+ INPUT OUTPUT T1/U2 T2/V2 T3/W2 T1/U2 T2/V2 T3/W2 Motor For alternatives, see section...
Page 133: Power Cable Connection Procedure
Installation example with full cabling panels (option +H381) 133 External brake resistor (optional, see page 233). Common mode filter (optional, see page 65). du/dt filter (optional, see page 239). The drive module frame must be connected to the cabinet frame. See section Arranging the grounding inside the cabinet on page...
Page 134 134 Installation example with full cabling panels (option +H381) An example installation is shown below. WARNING! Obey the safety instructions in chapter Safety instructions. If you ignore them, injury or death, or damage to the equipment can occur. L1/U1, L2/V1, L3/W1 102 mm (4 in.) T1/U2, T2/V2, T3/W2 View without cabinet side plate in place.
Page 135: Installing The Drive Module Into The Cabinet
Installation example with full cabling panels (option +H381) 135 Installing the drive module into the cabinet 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. Make sure that the module does not fall down when moving it on the floor and during installation and maintenance work: Open the support legs by pressing each leg a little down and turning it aside (1, 2).
Page 136 136 Installation example with full cabling panels (option +H381) 4. Attach the drive module lifting lugs to the cabinet frame with chains. 5. Push the drive module carefully into to the cabinet preferably with the help from another person. 6. Attach the grounding busbar that has been previously attached to the input cabling panel to the drive module.
Page 137 Installation example with full cabling panels (option +H381) 137...
Page 138: Assembly Drawing Of Installing The Drive Module To The Cabinet (Frame R10)
138 Installation example with full cabling panels (option +H381) Assembly drawing of installing the drive module to the cabinet (frame R10)
Page 139: Assembly Drawing Of Installing The Drive Module To The Cabinet (Frame R11)
Installation example with full cabling panels (option +H381) 139 Assembly drawing of installing the drive module to the cabinet (frame R11)
Page 140: Assembly Drawing Of Installing The Roof And Door
140 Installation example with full cabling panels (option +H381) Assembly drawing of installing the roof and door This drawing shows a layout tested by ABB. If you use ABB air filters, place them vertically in the positions shown in the drawing on page 126.
Page 141: Removing The Protective Covering From The Drive Module Air Outlet
Installation example with full cabling panels (option +H381) 141 Removing the protective covering from the drive module air outlet  WARNING! Remove the protective covering from the top of the drive module after the installation. If the covering is not removed, the cooling air cannot flow freely through the module and the drive will run to overtemperature.
Page 142: Installing The Rubber Grommet
142 Installation example with full cabling panels (option +H381) Installing the rubber grommet  To get IP20 degree of protection for the drive module, install the input power cables through the rubber grommet. Install the grommet as follows: 1. Cut adequate holes into the grommet for the input power cables. 2.
Page 143: Modular Design Of Rittal Ts8 Cabinets
Installation example with full cabling panels (option +H381) 143 Modular design of Rittal TS8 cabinets  The design of the drive module with optional cabling panels (+H381) is optimized to the Rittal TS 8406.510 cabinet. To make space for the additional components, connect two or more TS8 cabinets together.
Page 144 144 Installation example with full cabling panels (option +H381)
Page 145: Installation Checklist
Installation checklist 145 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 146 146 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 147 Installation checklist 147 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 agree with 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 148 148 Installation checklist...
Page 149: Start-Up
Start-up 149 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...
Page 150 For option +N7502, see also ACS880 drives with SynRM motors (option +N7502) supplement (3AUA0000145506 [English]). • For drives with ABB du/dt filter, check that bit 13 of parameter 95.20 HW options word 1 is switched on. • For drives with ABB sine filter, check that parameter 95.15 Special HW settings is set to ABB sine filter.
Page 151: Fault Tracing
Fault tracing 151 Fault tracing Contents of this chapter This chapter describes the fault tracing possibilities of the drive. LEDs with options +J410 Where Color When the LED is lit Control panel POWER Green Control unit is powered and +15 V is supplied to the control mounting platform panel.
Page 152 152 Fault tracing...
Page 153: 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 154: Descriptions Of Symbols
Performance of on/off-site work (commissioning, tests, measurements or other work) Replacement of component Recommended annual maintenance actions by the user  ABB recommends these annual inspections to ensure the highest reliability and optimum performance. Action Target Quality of supply voltage...
Page 155: Heatsink
Maintenance 155 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 156: 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 157: Replacing The Main Cooling Fans
Maintenance 157 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 158: Replacing The Standard Drive Module
158 Maintenance Replacing the standard drive module Note: The replacement module must be of the same type as the original module: same type code and same option codes. WARNING! Obey the safety instructions in chapter Safety instructions. If you ignore them, injury or death, or damage to the equipment can occur. •...
Page 159 Maintenance 159...
Page 160: Replacing The Drive Module With Option +H381
160 Maintenance Replacing the drive module with option +H381 Note: The replacement module must be of the same type as the original module: same type code and same option codes. WARNING! Obey the safety instructions in chapter Safety instructions. If you ignore them, injury or death, or damage to the equipment can occur.
Page 161 Maintenance 161 8. Disconnect the power supply cable and the fiber optic cables from the external control unit and coil them on the top of the drive module. For drive modules with an internal control unit (option +P905): Detach the control unit from the drive module by undoing the fastening screws below the optional modules and turn the control unit and the cables aside.
Page 162: 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 163: Replacing The Control Unit Battery
Maintenance 163 Replacing the control unit battery Stop the drive and do the steps in section Precautions before electrical work on page before you start the work. To replace the control unit battery: 1. Stop the drive and do the steps in section Precautions before electrical work on page before you start the work.
Page 164: Replacing The Memory Unit
164 Maintenance Replacing the memory unit When a drive module is replaced, the parameter settings can be retained by transferring the memory unit from the defective drive module to the new module. The memory unit is located in the control unit, see page 38. WARNING! Do not remove or insert the memory unit when the drive module is powered.
Page 165: Ordering Information
Notes: • This chapter only lists the installation accessories available from ABB. All other parts must be sourced from a third party by the system integrator. For a listing, refer to the kit-specific installation instructions available at https://www151.abb.com/spaces/lvacdrivesengineeringsupport/content.
Page 166: Brake Resistors
166 Ordering information The control panel can be mounted on the cabinet door with the help of a door mounting kit. Type Description Ordering code Illustration Control panel with ACS-AP-W 3AXD50000025965 Bluetooth ACS-AP-I Control panel with 3AUA0000088311 Door mounting kit for flush mounting.
Page 167: Cabinet Ventilation
Ordering information 167 Cabinet ventilation Air inlet kits  Mounting screws are included. Enclosure width / Kit code Ordering code Illustration Degree of protection 400 mm / IP20 A-4-X-021 3AUA0000117002 Instruction code: 3AUA0000116879 400 mm / IP42 A-4-X-024 3AUA0000117007 Instruction code: 3AUA0000116873 400 mm / IP54 A-4-X-027 3AXD50000009184 Instruction code: 3AXD50000009989...
Page 168 168 Ordering information Enclosure width / Kit code Ordering code Illustration Degree of protection 600 mm / IP20 A-6-X-022 3AUA0000117003 Instruction code: 3AUA0000116880 600 mm / IP42 A-6-X-025 3AUA0000117008 Instruction code: 3AUA0000116874 600 mm / IP54 A-6-X-028 3AXD50000009185 Instruction code: 3AXD50000009990 800 mm / IP20 A-8-X-023 3AUA0000117005...
Page 169: Air Outlet Kits
Ordering information 169 Enclosure width / Kit code Ordering code Illustration Degree of protection 800 mm / IP42 A-8-X-026 3AUA0000117009 Instruction code: 3AUA0000116875 800 mm / IP54 A-8-X-029 3AXD50000009186 Instruction code: 3AXD50000010001 Air outlet kits  Note: The fan is to be ordered separately. Enclosure width / Kit code Ordering code...
Page 170 170 Ordering information Enclosure width / Kit code Ordering code Illustration Degree of protection 400 mm / IP42 A-4-X-060 3AUA0000114968 800 mm / IP42 Instruction code: 3AUA0000115290 Note: Fan to be ordered separately 600 mm / IP42 A-6-X-061 3AUA00001149789 Instruction code: 3AUA0000115152 Note: Fan to be ordered separately 400 mm / IP54 (IEC)
Page 171: Cooling Fans
Ordering information 171 Enclosure width / Kit code Ordering code Illustration Degree of protection 600 mm / IP54 A-6-X-065 3AXD50000009189 (IEC) Instruction code: 3AXD50000010004 Note: Fan to be ordered separately 600 mm / IP54 A-6-X-066 3AXD50000010327 (UL) Instruction code: 3AXD50000010004 Note: Fan to be ordered separately Cooling fans One or two cooling fans are to be installed inside the air outlet compartment to ensure...
Page 172: Emc Filter Arfi-10
172 Ordering information Enclosure width / Component Ordering code Degree of protection Name Data 800 mm / IP54 RB4C-355/170 3AXD50000006934 Capacitor MSB MKP 6/603/E1679 3AXD50000006959 Connector SPB2,5/7 (2.5 mm2, 12AWG) 3AXD50000000723 Connector SC 2,5-RZ/7 (2.5 mm2, 12AWG) 3AXD50000000724 400 mm, 600 mm / IP20, R2E225-RA92-17 (230 V) 3AXD50000000514 IP42...
Page 173: Fso Accessories Kit
Ordering information 173 FSO accessories kit Kit code Ordering code Illustration A-X-X-279 3AXD50000025495 Instruction code: 3AXD50000025583 Retrofit accessory kits Option Ordering code code Common mode filter kit E208 3AXD50000026145 Full size cable connection terminals for input power cables H370 3AXD50000019542 Full size cable connection terminals for output power cables 3AXD50000019544 For frame R10: Full power cabling panels to be attached to a cabinet...
Page 174 174 Ordering information...
Page 175: Technical Data
The ratings of the drive modules with 50 Hz and 60 Hz supply are given below. IEC RATINGS Drive type Frame Input Output ratings size current Nominal use Light-duty use Heavy-duty use ACS880-04- max_ start = 400 V 505A-3 585A-3 650A-3 725A-3 1020 1100...
Page 176 176 Technical data IEC RATINGS Drive type Frame Input Output ratings size current Nominal use Light-duty use Heavy-duty use ACS880-04- max_ start 460A-5 503A-5 583A-5 635A-5 715A-5 1100 820A-5 1020 1100 880A-5 1100 1100 697** = 690 V 330A-7 370A-7...
Page 177: When Is Derating Needed
The power ratings apply to most IEC 34 motors at the nominal voltage of the drive. We recommend to select the drive, motor and gear combination for the required motion profile with the DriveSize dimensioning tool available from ABB. When is derating needed ...
Page 178: Altitude Derating
Ex motor, sine filter, low noise Table below gives the deratings for these cases: • drive is used with an ABB motor for explosive atmospheres (Ex) and EX motor in Parameter 95.15 Special HW settings is enabled • sine filter given in the selection table on page is used and ABB sine filter in Parameter 95.15 Special HW settings is enabled...
Page 179 Technical data 179 With other than recommended sine filters (see section Sine filters on page 240) and Ex motors of other manufacturers, contact ABB. Drive Output ratings for special settings module Ex motor (ABB Ex motor) ABB sine filter Low noise mode...
Page 180: High Speed Mode
Contact ABB for operation above the recommended maximum output frequency or for the output current derating with output frequencies above 120 Hz and below the maximum output frequency.
Page 181: Fuses (Iec)
Continuous rms output current allowing 40% overload for 1 minute every 5 minutes 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 ACS880-04- current Manufacturer Type DIN 43620 Size = 400 V 505A-3 490000...
Page 182: Fuses (Ul)
0.1 seconds. The operating time depends on the fuse type, supply network impedance and the cross-sectional area, material and length of the supply cable. The fuses must be of the “non-time delay” type. Obey local regulations. Drive type Input Fuse ACS880-04- current Manufacturer UL class Type = 400 V...
Page 183: Dimensions, Weights And Free Space Requirements
Technical data 183 Dimensions, weights and free space requirements Standard drive module configuration Frame Height Width Depth Weight* size 1541 60.67 14.82 19.92 1741 68.54 14.82 19.92 Optional selection +0B051+0H371 (without shrouds and full-size output power cable connection terminals) Frame Height Width Depth...
Page 184: Losses, Cooling Data And Noise
184 Technical data Losses, cooling data and noise Drive type Frame size Air flow Heat dissipation Noise /min dB(A) = 400 V ACS880-04-505A-3 1200 5602 ACS880-04-585A-3 1200 6409 ACS880-04-650A-3 1200 8122 ACS880-04-725A-3 1200 8764 ACS880-04-820A-3 1200 9862 ACS880-04-880A-3 1420 10578...
Page 185: Units Without Full-Size Output Cable Connection Terminals (+0H371) And With A Common Mode Filter (+E208)
See page 108. Electrical power network specification Voltage (U ACS880-04-xxxx-3 drive modules: 380…415 V AC phase +10%/-15%. This is indicated in the type designation label as typical input voltage level 400 V AC. ACS880-04-xxxx-5 drive modules: 380...500 V AC 3-phase +10%/-15%.This is indicated in the type designation label as typical input voltage levels 400/480/500 V AC.
Page 186: Dc Connection Data
186 Technical data DC connection data Drive type Capacitance (mF) = 400 V ACS880-04-505A-3 ACS880-04-585A-3 ACS880-04-650A-3 ACS880-04-725A-3 ACS880-04-820A-3 1033 ACS880-04-880A-3 1120 = 500 V ACS880-04-460A-5 ACS880-04-503A-5 ACS880-04-583A-5 ACS880-04-635A-5 ACS880-04-715A-5 ACS880-04-820A-5 1033 ACS880-04-880A-5 1120 = 690 V ACS880-04-330A-7 ACS880-04-370A-7 ACS880-04-430A-7 ACS880-04-470A-7...
Page 187: Control Unit Connection Data (Zcu-14)
Technical data 187 Control unit connection data (ZCU-14) Power supply 24 V (±10%) DC, 2 A (XPOW) External power supply in. With some drive module sizes, not used as the control unit is supplied from the drive module. Connector pitch 5 mm, wire size 2.5 mm Relay outputs RO1…RO3 Connector pitch 5 mm, wire size 2.5 mm (XRO1…XRO3)
Page 188 188 Technical data Drive-to-drive link Connector pitch 5 mm, wire size 2.5 mm (XD2D) Physical layer: RS-485 Termination by jumper Safe torque off connection Connector pitch 5 mm (0.2 in), wire size 2.5 mm2 (14 AWG) (XSTO) Input voltage range: -3…30 V DC Logic levels: “0”...
Page 189: Control Panel Type
Technical data 189 Ground isolation diagram) XPOW +24VI +VREF -VREF AGND AI1+ Common mode voltage between AI1- AI2+ channels +30 V AI2- AGND AGND XD2D BGND XRO1, XRO2, XRO3 XD24 DIIL +24VD DICOM +24VD DIOGND XDIO DIO1 DIO2 XSTO OUT1 Ground * Ground selector (J6) settings (ZCU-14)
Page 190: Efficiency
190 Technical data Efficiency Approximately 98% at nominal power level Protection classes Degree of protection IP20, requires installation of bottom grille for standard drive module (IEC/EN 60529) configuration and option +H0354, see page 98. With option +0B051: IP00. Enclosure type (UL 508C) UL Open Type Overvoltage category (IEC 60664-1)
Page 191: Materials
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 192: Ce Marking
192 Technical data EN 61800-3:2004 +A1:2012 Adjustable speed electrical power drive systems. Part 3: EMC requirements and specific test methods UL 508C (3rd edition) UL Standard for Safety, Power Conversion Equipment, third edition CSA-C22.2 No. 0-10 General Requirements - Canadian Electrical Code, Part II CSA C22.2 No.
Page 193: Declaration Of Conformity
Technical data 193 Declaration of Conformity...
Page 194 194 Technical data...
Page 195: Compliance With En 61800-3:2004
Technical data 195 Compliance with 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. Likewise, the equipment must not disturb or interfere with any other product or system within its locality.
Page 196: Category C4
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 197: Csa Marking
Technical data 197 • The cables located within the motor circuit must be rated for at least 75 °C (167 °F) in UL-compliant installations. • Integral solid state short circuit protection does not provide branch circuit protection. The input cable must be protected with fuses. Suitable IEC fuses are listed on page and UL classified fuses on page 182.
Page 198: Generic Disclaimer
ABB and its affiliates are not liable for damages and/or losses related to such security breaches, any...
Page 199: Dimension Drawings
Dimension drawings 199 Dimension drawings Contents of this chapter This chapter contains dimension drawings of the drive modules with optional parts for Rittal TS 8 cabinet assembly.
Page 200: R10 - Standard Configuration
200 Dimension drawings R10 – Standard configuration...
Page 201: R10 With Options +E208+H370+J414+P905
Dimension drawings 201 R10 with options +E208+H370+J414+P905...
Page 202: R10 With Options +0B051+C173+E208+H356+0H354+0H371
202 Dimension drawings R10 with options +0B051+C173+E208+H356+0H354+0H371...
Page 203: R10 With Options +0B051+E208+H356+0H371
Dimension drawings 203 R10 with options +0B051+E208+H356+0H371...
Page 204: R10 With Options +E208+H356+H381+J414+P905
204 Dimension drawings R10 with options +E208+H356+H381+J414+P905...
Page 205: R10 - Cabling Panels (+H381) Installed Into A Rittal Ts 8 Cabinet
Dimension drawings 205 R10 – Cabling panels (+H381) installed into a Rittal TS 8 cabinet...
Page 206: Frame R10 With Options +E208+H370+H391+0J400
206 Dimension drawings Frame R10 with options +E208+H370+H391+0J400...
Page 207: R11 - Standard Configuration
Dimension drawings 207 R11 – Standard configuration...
Page 208: R11 With Options +E208+H370+J414+P905
208 Dimension drawings R11 with options +E208+H370+J414+P905...
Page 209: R11 With Options +0B051+E208+H356+0H371
Dimension drawings 209 R11 with options +0B051+E208+H356+0H371...
Page 210: R11 With Options +E208+H356+H381+J414+P905
210 Dimension drawings R11 with options +E208+H356+H381+J414+P905...
Page 211: R11 With Options +0B051+C173+E208+H356+0H354+0H371
Dimension drawings 211 R11 with options +0B051+C173+E208+H356+0H354+0H371...
Page 212: Frame R11 - Cabling Panels (+H381) Installed Into A Rittal Ts 8 Cabinet
212 Dimension drawings Frame R11 – Cabling panels (+H381) installed into a Rittal TS 8 cabinet...
Page 213: Bottom Plate For Option +H381 In Rittal Ts 8 400 Mm Wide Cabinet Installation
Dimension drawings 213 Bottom plate for option +H381 in Rittal TS 8 400 mm wide cabinet installation Note: The bottom plate is not an ABB part. Put nut PEM-S-M8-2 or equal (2 pcs) Cable lead-through area 3AUA0000082240...
Page 214: Frame R11 With Options +E208+H370+H391+0J400
214 Dimension drawings Frame R11 with options +E208+H370+H391+0J400...
Page 215: Air Baffles For The Standard Drive Module And Option +C173
Dimension drawings 215 Air baffles for the standard drive module and option +C173 This drawing shows the dimensions of the hole in the air baffle around the standard drive module and flat mounting option +C173. The drawing also shows the correct vertical location area of the air baffle as measured from the top grill.
Page 216: Air Baffles For Option +H381 In Rittal Ts 8 400 Mm Wide Cabinet Installation
216 Dimension drawings Air baffles for option +H381 in Rittal TS 8 400 mm wide cabinet installation Note: These air baffles are not ABB parts.
Page 217: External Control Unit
Dimension drawings 217 External control unit 3axd50000011687...
Page 218 218 Dimension drawings...
Page 219: Example Circuit Diagram 219
Example circuit diagram 219 Example circuit diagram Contents of this chapter This chapter shows an example circuit diagram for a cabinet-installed drive module.
Page 220: Example Circuit Diagram
220 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 221: Safe Torque Off Function
Safe torque off function 221 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 drive in case of danger (such as an emergency stop circuit).
Page 222: Compliance With The European Machinery Directive
222 Safe torque off function Standard Name IEC 61508-1:2010 Functional safety of electrical/electronic/programmable electronic safety- related systems – Part 1: General requirements IEC 61508-2:2010 Functional safety of electrical/electronic/programmable electronic safety- related systems – Part 2: Requirements for electrical/electronic/programmable electronic safety-related systems IEC 61511-1:2016 Functional safety –...
Page 223: Grounding Of Protective Shields
Ground the shield in the cabling between the activation switch and the control unit at the control unit. • Ground the shield in the cabling between two control units at one control unit only. Single drive (internal power supply)  Dual-channel connection ACS880-04 Control unit OUT1 +24 V SGND Control logic UDC+ T1/U2, T2/V2, T3/W2 UDC–...
Page 224: Single-Channel Connection
224 Safe torque off function Single-channel connection Inverter unit 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 225: Multiple Drives (Internal Power Supply)
Safe torque off function 225 Multiple drives (internal power supply)  ACS880-04 Control unit XSTO OUT1 +24 V SGND ACS880-04 Control unit XSTO OUT1 SGND ACS880-04 Control unit XSTO OUT1 SGND...
Page 226: Multiple Drives (External Power Supply)
226 Safe torque off function Multiple drives (external power supply)  24 V DC ACS880-04 – Control unit XSTO OUT1 +24 V SGND ACS880-04 Control unit XSTO OUT1 SGND ACS880-04 Control unit XSTO OUT1 SGND...
Page 227: Operation Principle
Safe torque off function 227 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 228 228 Safe torque off function Action Close the disconnector and switch the power on. 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. Ensure that the drive operates as follows: •...
Page 229: Use
Safe torque off function 229 1. Open the activation switch, or activate the safety functionality that is wired to the STO connection. 2. STO inputs on the drive control unit de-energize, and the drive control unit cuts off the control voltage from the drive IGBTs. 3.
Page 230: 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 227. Use only ABB approved spare parts. Record all maintenance and proof test activities in the machine logbook. Competence ...
Page 231: Safety Data
Any failures of the Safe torque off function must be reported to ABB. Safety data Note: The safety data is calculated for redundant use, and does not apply if both STO channels are not used.
Page 232 232 Safe torque off function Abbr. Reference Description IEC 61508 Hardware fault tolerance MTTF EN ISO 13849-1 Mean time to dangerous failure: (The total number of life units) / (the number of dangerous, undetected failures) during a particular measurement interval under stated conditions IEC 61508 Average probability of failure on demand IEC 61508...
Page 233: Resistor Braking
Resistor braking 233 Resistor braking Contents of this chapter This chapter describes how to select, protect and wire brake choppers and resistors. The chapter also contains the technical data. Operation principle and hardware description The dive can be equipped with optional built-in brake chopper (+D150). Brake resistors are available as add-on kits.
Page 234: Selecting A Custom Resistor
234 Resistor braking which two standard resistors are connected in parallel, two in series. The E value of the four-resistor assembly is four times the value specified for the standard resistor. Selecting a custom resistor  If you use a resistor other than the default resistor, make sure that: 1.
Page 235: Minimizing Electromagnetic Interference
The maximum length of the resistor cable(s) is 10 m (33 ft). EMC compliance of the complete installation Note: ABB has not verified that the EMC requirements are fulfilled with external user- defined brake resistors and cabling. The EMC compliance of the complete installation must be considered by the customer.
Page 236: Protecting The Resistor Cable Against Short-Circuits
236 Resistor braking A thermal switch (standard in ABB resistors) is required for safety reasons. The thermal switch cable must be shielded and may not be longer than the resistor cable. Wire the switch to a digital input on the drive control unit as shown in the figure below.
Page 237: Technical Data
Ensure proper ventilation at the start- Technical data Ratings  Drive type Internal brake Example brake resistor(s) chopper Type brcont Rcont = 400 V ACS880-04-505A-3 2xSAFUR125F500 2.00 7200 ACS880-04-585A-3 2xSAFUR200F500 1.35 10800 ACS880-04-650A-3 2xSAFUR200F500 1.35 10800...
Page 238: Safur Resistors
238 Resistor braking Continuous power (heat) dissipation of the resistor when placed correctly Rcont The ratings apply at an ambient temperature of 40 °C (104 °F). SAFUR resistors  The degree of protection of SAFUR resistors is IP00. The resistors are not UL listed. The thermal time constant of the resistors is 555 seconds.
Page 239: Du/Dt And Sine Filters
du/dt and sine filters 239 du/dt and sine filters Contents of this chapter This chapter describes how to select du/dt and sine filters for the drive. du/dt filters When is a du/dt filter needed?  See section Examining the compatibility of the motor and drive, page 64.
Page 240: Selection Table
650A-7 FOCH-0875-70 721A-7 FOCH-0875-70 3AXD00000588487 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]). Sine filters When is a sine filter needed? ...
Page 241: Ordering Codes
241 Ordering  codes Filter type ABB ordering code NSIN485-6 64254936 NSIN900-6 64254961 Derating  See section Deratings for special settings in the drive control program on page 180. Description, installation and technical data of the sine filters ...
Page 242 242 du/dt and sine filters...
Page 243: With Option +E208 In Rittal Ts 8 600 Mm Wide Cabinet
Step-by-step drawings for an installation example of standard drive configuration with option +E208 in Rittal TS 8 600 mm wide cabinet 243 Step-by-step drawings for an installation example of standard drive configuration with option +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 244: With Option +E208 In Rittal Ts 8 600 Mm Wide Cabinet
244 Step-by-step drawings for an installation example of standard drive configuration with option +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 20 N·m Combi screw M12×25 Hex Combi screw M6×12 Torx T25 Washer M12 or equal 8 N·m...
Page 245: With Option +E208 In Rittal Ts 8 600 Mm Wide Cabinet
Step-by-step drawings for an installation example of standard drive configuration with option +E208 in Rittal TS 8 600 mm wide cabinet 245 Hex nut M12 70 N·m Washer M12 or equal Hex screw M12×35 full thread 70 N·m Washer M12 or equal Combi screw M4×10 Torx T20 2 N·m Combi screw M6×20...
Page 246: With Option +E208 In Rittal Ts 8 600 Mm Wide Cabinet
246 Step-by-step drawings for an installation example of standard drive configuration with option +E208 in Rittal TS 8 600 mm wide cabinet...
Page 247: Step-By-Step Drawings For Installing Full Cabling Panels (Option +H381) In A Rittal Ts 8 400 Mm Wide Cabinet
Tapping screw M6×12 (4 pcs) 8 N·m Rittal 4396.500 (3 pcs) ABB parts Pedestal guide plate Top guide plate Customer-made parts (not ABB or Rittal products) Air baffle Installation procedure See the dimension drawing on page (frame R10) or page (frame R11) for the positions of the parts to be installed.
Page 248 248 Step-by-step drawings for installing full cabling panels (option +H381) in a Rittal TS 8 400 mm wide cabinet ABB parts Output cabling panel Side guide (2 pcs) Input cabling panel Telescopic extraction and insertion ramp Tapping screw M6×12 Torx T30 (Hex) (4 pcs) Combi screw M4×8 Torx...
Page 249: Step-By-Step Drawings For A Flat Installation Example In Rittal Ts 8 600 Mm Wide Cabinet 249
Combi screw M10×25 Hex 40 N·m Tapping screw M6×12 Torx T30 (Hex) 9 N·m Tapping screw M6×12 Torx T30 (Hex) 9 N·m Combi screw M10×25 Hex 40 N·m ABB parts Mounting bracket of flat mounting option +C173 No pedestal (option +0H354)
Page 250 250 Step-by-step drawings for a flat installation example in Rittal TS 8 600 mm wide cabinet...
Page 251 M6×12 Torx T25 8 N·m Combi screw M4×10 Torx T20 2 N·m M6×20 Torx T25 8 N·m ABB parts for option +H391 Support for back top mounting bracket Handle Bottom mounting bracket ABB standard parts Lowest back cover plate Back top mounting bracket Combi screw M8×30 Hex...
Page 252 252 Step-by-step drawings for option +H391 installation example in Rittal TS 8 600 mm wide cabinet...
Page 253: 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 254 Contact us www.abb.com/drives www.abb.com/drivespartners 3AUA0000128301 Rev G (EN) 2017-02-17...

ABB ACS880-04 Hardware Manual

1 Safety Instructions

2 Introduction to the Manual

3 Operation Principle and Hardware Description

4 Guidelines for Planning the Cabinet Installation

5 Guidelines for Planning the Electrical Installation

6 Installation Instructions

7 Installation Example of the Standard Drive Module Configuration

8 Installation Example with Full Cabling Panels (Option +H381)

9 Installation Checklist

10 Start-Up

11 Fault Tracing

12 Maintenance

13 Ordering Information

14 Technical Data

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Summary of Contents for ABB ACS880-04