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ABB ACS880-01 Hardware manual
Summary of ACS880-01
Page 1
Abb industrial drives hardware manual acs880-01 drives (0.55 to 250 kw, 0.75 to 350 hp).
Page 2
List of related manuals you can find manuals and other product documents in pdf format on the internet. See section document library on the internet on the inside of the back cover. For manuals not available in the document library, contact your local abb representative. The code below opens an onli...
Page 3: Hardware Manual
1. Safety instructions 6. Electrical installation table of contents 4. Mechanical installation 8. Start-up hardware manual acs880-01 drives (0.55 to 250 kw, 0.75 to 350 hp) 3aua0000078093 rev m en effective: 2017-08-08 2017 abb oy. All rights reserved..
Page 5: Table Of Contents
5 table of contents list of related manuals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 1. Safety instructions what this chapter contains . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Page 6
6 examining the installation site . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 necessary tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 moving the drive . . . . . . ....
Page 7: 6. Electrical Installation
7 signals in separate cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 signals allowed to be run in the same cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 relay cable type . . . . . . . . . . . . . . . . . . . ...
Page 8: 7. Installation Checklist
8 dc connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110 connecting the control cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110 default i/o connection diagram . ....
Page 9: 11. Technical Data
9 and ip21 frame r5 types acs880-01-xxxx-7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139 replacing the main cooling fan of frames r6 to r8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140 replacing the auxiliary cooling fan of frames r6 to r9 . . . . . . . . . . . ...
Page 10: 12. Dimension Drawings
10 control unit (zcu-12) connection data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 198 efficiency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 202 protection classes . . . . . . ....
Page 11: 14. Resistor Braking
11 13. Safe torque off function contents of this chapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 235 description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....
Page 12: Further Information
12 terminals and cable lead-through data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 257 dimensions and weights of external resistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 257 jbr-03 . . . . . . . . . . . . . . . . . . . . . . . . . . . ....
Page 13: Safety Instructions
Safety instructions 13 1 safety instructions what this chapter contains this chapter contains the safety instructions which you must obey when installing, operating and servicing the drive. If ignored, physical injury or death may follow, or damage may occur to the drive, motor or driven equipment. ...
Page 14: Electrical Safety
14 safety instructions safety in installation andmaintenance electrical safety these warnings are intended for all who work on the drive, motor cable or motor. Warning! Ignoring the following instructions can cause physical injury or death, or damage to the equipment: • only qualified electricians a...
Page 15
Safety instructions 15 grounding these instructions are intended for all who are responsible for the grounding of the drive. Warning! Ignoring the following instructions can cause physical injury, death, increased electromagnetic interference and equipment malfunction: • ground the drive, motor and ...
Page 16
16 safety instructions permanent magnet motor drives these are additional warnings concerning permanent magnet motor drives. Warning! Ignoring the instructions can cause physical injury or death, or damage to the equipment: • do not work on the drive when the permanent magnet motor is rotating. Also...
Page 17: General Safety
Safety instructions 17 general safety these instructions are intended for all who install and service the drive. Warning! Ignoring the following instructions can cause physical injury or death, or damage to the equipment: • use safety shoes with a metal toe cap to avoid foot injury. Wear protective ...
Page 18: Printed Circuit Boards
18 safety instructions printed circuit boards safe start-up and operation general safety these warnings are intended for all who plan the operation of the drive or operate the drive. Warning! Ignoring the following instructions can cause damage to the printed circuit boards: • wear a grounding wrist...
Page 19
Safety instructions 19 permanent magnet motor drives • when the control location is not set to local, the stop key on the control panel will not stop the drive. Warning! Do not run the motor over the rated speed. Motor overspeed leads to overvoltage which may damage or explode the capacitors in the ...
Page 20
20 safety instructions.
Page 21: Introduction to The Manual
Introduction to the manual 21 2 introduction to the manual what this chapter contains this chapter describes the manual. It contains a flowchart of steps for checking the delivery, installing and starting up the drive. The flowchart refers to chapters/sections in this manual and to other manuals. Ta...
Page 22: Related Manuals
22 introduction to the manual electrical installation gives instructions on wiring the drive. Installation checklist contains a list for checking the mechanical and electrical installation of the drive. Start-up describes the start-up procedure of the drive. Fault tracing describes the fault tracing...
Page 23
Introduction to the manual 23 quick installation, start-up and operating flowchart task see plan the electrical installation and acquire the accessories needed (cables, fuses, etc.). Check the ratings, required cooling air flow, input power connection, compatibility of the motor, motor connection, a...
Page 24: Terms And Abbreviations
24 introduction to the manual terms and abbreviations term/ abbreviation explanation emc electromagnetic compatibility emi electromagnetic interference emt electrical metallic tubing faio-01 optional analog i/o extension module fdio-01 optional digital /o extension module fio-01 optional digital i/o...
Page 25
Introduction to the manual 25 zgad gate driver adapter board in frames r6 to r9 zint main circuit board zmu the memory unit attached to the control unit of the drive r1…r9 frame size designation of the drive term/ abbreviation explanation.
Page 26
26 introduction to the manual.
Page 27: Operation Principle and
Operation principle and hardware description 27 3 operation principle and hardware description what this chapter contains this chapter briefly describes the operation principle and construction of the drive. Product overview the acs880-01 is a drive for controlling asynchronous ac induction motors, ...
Page 28: Main Circuit
28 operation principle and hardware description main circuit the main circuit of the drive is shown below. 1 rectifier. Converts alternating current and voltage to direct current and voltage. 2 dc link. Dc circuit between rectifier and inverter. 3 inverter. Converts direct current and voltage to alt...
Page 29: Layout (Ip21, Ul Type 1)
Operation principle and hardware description 29 layout (ip21, ul type 1) the components of the standard ip21 drive are shown below (view of frame r5). 1 control panel 2 front cover 3 cable entry box 4 four fastening points at the back of the unit 5 heatsink 6 lifting holes 1 2 3 4 5 6 4 6.
Page 30
30 operation principle and hardware description layout (ip55, option +b056) the components of the ip55 drive (option +b056) are shown below (view of frame r4). 1 control panel behind the control panel cover 2 front cover 3 four fastening points at the back of the unit 4 heatsink 5 lifting holes 1 2 ...
Page 31
Operation principle and hardware description 31 layout (ul type 12, option +b056) the components of the ul type 12 drive (option +b056) are shown below (view of frame r6). Layout (ip20 – ul open type, options +p940 and +p944) see acs880-01 +p940/+p944 drives for cabinet installation supplement (3aua...
Page 32
32 operation principle and hardware description overview of power and control connections the diagram shows the power connections and control interfaces of the drive. 1 2 3 analog and digital i/o extension modules, feedback interface modules and fieldbus communication modules can be inserted into sl...
Page 33
Operation principle and hardware description 33 external control connection terminals the layout of external control connection terminals of the drive is shown below. X13 description xpow external power input xai analog inputs xao analog outputs xd2d drive-to-drive link xro1 relay output 1 xro2 rela...
Page 34: Control Panel
34 operation principle and hardware description control panel the control panel can be removed by pulling it forward from the top edge and reinstalled in reverse order. For the use of the control panel, see the firmware manual or acs-ap assistant control panels user’s manual (3aua0000085685 [english...
Page 35: Type Designation Key
Operation principle and hardware description 35 type designation key the type designation contains information on the specifications and configuration of the drive. The first digits from left express the basic configuration, eg, acs880-01- 12a6-3 the optional selections are given thereafter, separat...
Page 36
36 operation principle and hardware description size xxxx refer tothe rating tables, page 150 voltage range 2 208…240 v 3 380…415 v 5 380…500 v 7 525…690 v option codes (plus codes) degree of protection b056 ip55 (ul type 12) construction c205 marine product certification for dnv-gl. Requires option...
Page 37
Operation principle and hardware description 37 k454 fpba-01 profibus dp adapter module k457 fcan-01 canopen adapter module k458 fsca-01 rs-485 adapter module k462 fcna-01 controlnet™ adapter module k469 feca-01 ethercat adapter module k470 fepl-01 ethernet powerlink adapter module k473 fena-11 high...
Page 38
38 operation principle and hardware description r702 italian r703 dutch r704 danish r705 swedish r706 finnish r707 french r708 spanish r709 portuguese r711 russian r713 polish r714 turkish code description.
Page 39: Mechanical Installation
Mechanical installation 39 4 mechanical installation what this chapter contains this chapter gives a description of the mechanical installation of the drive. Safety warning! For frame sizes r6 to r9: use the lifting eyes of the drive when you lift the drive. Do not tilt the drive. The drive is heavy...
Page 40: Necessary Tools
40 mechanical installation examining the installation site the drive must be installed in an upright position with the cooling section against a wall. All ip21 (ul type 1) and ip55 drives and ul type 12 drives of frames r1 to r3 can be installed tightly side by side. For ul type 12 drives of frames ...
Page 41: Moving The Drive
Mechanical installation 41 moving the drive move the transport package by pallet truck to the installation site..
Page 42
42 mechanical installation unpacking and examining the delivery (frames r1 to r5) this illustration shows the layout of the transport package. Examine that all items are present and there are no signs of damage. Read the data on the type designation label of the drive to make sure that the drive is ...
Page 43
Mechanical installation 43 to unpack: • cut the straps (10). • remove the top cardboard cover (11) and cushions (6…9). • lift the cardboard sleeve (5). • lift the drive. Item description item description 1 printed quick guides and manuals, multilingual residual voltage warning sticker 7…11 cushions ...
Page 44
44 mechanical installation frame r5 cable entry box (ip21, ul type 1) this illustration shows the contents of the cable entry box package. The package also includes an assembly drawing which shows how to install the cable entry box to the drive module frame. 3aua0000118007.
Page 45
Mechanical installation 45 unpacking and examining the delivery (frames r6 to r9) if you have option +h358, see the acs880-01 +h358 uk gland plate frames r6 to r9 installation guide (3axd50000034735). This illustration shows the layout of the transport package. Examine that all items are present and...
Page 46
46 mechanical installation to unpack: • cut the straps (6). • remove the top cardboard cover (3) and cushion (4). • lift the cardboard sleeve (5). • attach lifting hooks to the lifting eyes of the drive. Lift the drive with a hoist. For frames r6 to r9 with option +h358, see also the acs880-01 +h358...
Page 47
Mechanical installation 47 frame r6 cable entry box (ip21, ul type 1) this illustration shows the contents of the cable entry box package. The package also includes an assembly drawing which shows how to install the cable entry box to the drive module frame. 3aua0000112044.
Page 48
48 mechanical installation frame r7 cable entry box (ip21, ul type 1) this illustration shows the contents of the cable entry box package. The package also includes an assembly drawing which shows how to install the cable entry box to the drive module frame. 3aua0000111117.
Page 49
Mechanical installation 49 frame r8 cable entry box (ip21, ul type 1) this illustration shows the contents of the cable entry box package. There is also an assembly drawing which shows how to install the cable entry box to the drive module frame. 3aua0000112174.
Page 50
50 mechanical installation frame r9 cable entry box (ip21, ul type 1) this illustration shows the contents of the cable entry box package. The package also includes an assembly drawing which shows how to install the cable entry box to the drive module frame. 3aua0000112356.
Page 51: Installing The Drive
Mechanical installation 51 installing the drive this section tells you how to install the drive on wall without vibration dampers. Installing vibration dampers (option +c131) marine type approval (option +c132) requires the installation of vibration dampers for frames r4 to r9 in wall installations....
Page 52
52 mechanical installation × 4 × 4 × 4 × 4 1 2 3 5 4 m5.
Page 53
Mechanical installation 53 frames r5 to r9 (ip21, ul type 1) note: for frames r6 to r9 with option +h358, see acs880-01 +h358 uk gland plate frames r6 to r9 installation guide (3axd50000034735 [english]). 1. See the dimensions in chapter dimension drawings . Mark the locations for the four or six mo...
Page 54
54 mechanical installation 2 3 6 4 5 7 screw size r5 m5 r6 m8 r7 m8 r8 m8 r9 m8 1 200 mm 300 mm (7.87”) (11.81”) ip21 (ul type 1) r5 … r9 8.
Page 55
Mechanical installation 55 frames r1 to r9 (ip55, ul type 12) note: do not open or remove the cable entry box for easier installation. The gaskets do not fulfill the degree of protection if the box is opened. 1. See the dimensions in chapter dimension drawings . Mark the locations for the four or si...
Page 56
56 mechanical installation ip55 (ul type 12) r1…r9 1 2 4 3 200 mm 300 mm (7.87”) (11.81”) 7 5 6 6 8 screw size r1…r5 m5 r6…r9 m8 ul type 12 (r4…r9).
Page 57: Flange Mounting
Mechanical installation 57 flange mounting see flange mounting kit installation supplement (3axd50000019100 [english]). Cabinet installation this section gives the basic cabinet installation instructions for the drive. For more information, see acs880-01 +p940 drives for cabinet installation supplem...
Page 58
58 mechanical installation note: you can remove the front cover of the drive module for better cooling. Grounding inside the cabinet leave the contact surfaces of the attaching points of the drive unpainted (bare metal- to-metal contact). The drive frame will be grounded to the pe busbar of the cabi...
Page 59: Planning The Electrical
Planning the electrical installation 59 5 planning the electrical installation what this chapter contains this chapter contains instructions for planning the electrical installation of the drive. Some instructions are mandatory to follow in every installation, others provide useful information that ...
Page 60: European Union
60 planning the electrical installation european union to meet the european union directives, according to standard en 60204-1, safety of machinery, the disconnecting device must be one of the following types: • switch-disconnector of utilization category ac-23b (en 60947-3) • disconnector that has ...
Page 61: Requirements Table
Planning the electrical installation 61 protecting the motor insulation and bearings the drive employs modern igbt inverter technology. Regardless of frequency, the drive output comprises pulses of approximately the drive dc bus voltage with a very short rise time. The pulse voltage can almost doubl...
Page 62
62 planning the electrical installation motor type nominal ac supply voltage requirement for motor insulation system abb du/dt and common mode filters, insulated n-end motor bearings p n and frame size 100 kw p n 350 kw or iec 315 iec 400 p n and frame size 134 hp p n 469 hp or nema 500 size nema 58...
Page 63
Planning the electrical installation 63 non-abb motors random- wound and form- wound u n standard: Û ll = 1300 v - + n or cmf 420 v u n standard: Û ll = 1300 v + du/dt + du/dt + (n or cmf) or reinforced: Û ll = 1600 v, 0.2 microsecond rise time - + n or cmf 500 v u n reinforced: Û ll = 1600 v + du/d...
Page 64
64 planning the electrical installation the abbreviations used in the table are defined below. Additional requirements for explosion-safe (ex) motors if you will use an explosion-safe (ex) motor, follow the rules in the requirements table above. In addition, consult the motor manufacturer for any fu...
Page 65
Planning the electrical installation 65 additional requirements for abb high-output and ip23 motors the rated output power of high output motors is higher than what is stated for the particular frame size in en 50347 (2001). This table shows the requirements for abb random-wound motor series (for ex...
Page 66
66 planning the electrical installation additional requirements for non-abb high-output and ip23 motors the rated output power of high output motors is higher than what is stated for the particular frame size in en 50347 (2001). The table below shows the requirements for random-wound and form-wound ...
Page 67
Planning the electrical installation 67 additional data for calculating the rise time and the peak line-to-line voltage if you need to calculate the actual peak voltage and voltage rise time considering the actual cable length, proceed as follows: • peak line-to line voltage: read the relative Û ll ...
Page 68
68 planning the electrical installation a drive with du/dt filter b drive without du/dt filter l motor cable length Û ll /u n relative peak line-to-line voltage (du/dt)/u n relative du/dt value note: Ûll and du/dt values are approximately 20% higher with resistor braking. Û ll /u n l (m) du/dt un --...
Page 69: General Rules
Planning the electrical installation 69 additional note for sine filters sine filters protect the motor insulation system. Therefore, du/dt filter can be replaced with a sine filter. The peak phase-to-phase voltage with the sine filter is approximately 1.5 · u n . Selecting the power cables general ...
Page 70: Typical Power Cable Sizes
70 planning the electrical installation disconnection of the supply required in 411.3.2. Of iec 60364-4-41:2005 and be capable of withstanding the prospective fault current during the disconnection time of the protective device. The cross-sectional area of the protective conductor can either be sele...
Page 71
Planning the electrical installation 71 274a-2 r8 2 × (3×95) 3) 2 × (3×120) 2 × 3/0 - u n = 400 v 02a4-3 r1 3×1.5 - 14 - 03a3-3 r1 3×1.5 - 14 - 04a0-3 r1 3×1.5 - 14 - 05a6-3 r1 3×1.5 - 14 - 07a2-3 r1 3×1.5 - 14 - 09a4-3 r1 3×1.5 - 14 - 12a6-3 r1 3×1.5 - 14 - 017a-3 r2 3×6 - 10 - 025a-3 r2 3×6 - 10 -...
Page 72
72 planning the electrical installation 052a-5 r4 3×25 3×25 4 - 065a-5 r5 3×35 3×35 3 - 077a-5 r5 3×35 3×50 3 - 096a-5 r6 3×50 3×70 1 - 124a-5 r6 3×95 3×95 2/0 - 156a-5 r7 3×120 3×150 3/0 - 180a-5 r7 3×150 3×185 250 mcm - 240a-5 r8 2 × (3×70) 3) 2 × (3×95) 300 mcm - 260a-5 r8 2 × (3×70) 3) 2 × (3×95...
Page 73
Planning the electrical installation 73 1) the cable sizing is based on max. 9 cables laid on a cable ladder side by side, three ladder type trays one on top of the other, ambient temperature 30 °c, pvc insulation, surface temperature 70 °c (en 60204-1 and iec 60364-5-52/2001). For other conditions,...
Page 74
74 planning the electrical installation not allowed power cable types a four-conductor system (three phase conductors and a pe conductor in a pvc conduit) is allowed for input and motor cabling with phase conductor cross-section less than 10 mm 2 (8 awg) or motors . Not allowed in usa. Corrugated or...
Page 75: Motor Cable Shield
Planning the electrical installation 75 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. To effectively suppress radiated ...
Page 76: Shielding
76 planning the electrical installation armored cable / shielded power cable six conductor (3 phases and 3 ground) type mc continuous corrugated aluminum armor cable with symmetrical grounds is available from the following suppliers (trade names in parentheses): • anixter wire & cable (philsheath) •...
Page 77: Routing The Cables
Planning the electrical installation 77 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). Cable type: shielded cat 5e or better ethernet patch cable with rj-45 ends. Routing the cables route the motor cable aw...
Page 78: Motor Cable
78 planning the electrical installation separate control cable ducts lead 24 v and 230 v (120 v) control cables in separate ducts unless the 24 v cable is insulated for 230 v (120 v) or insulated with an insulation sleeving for 230 v (120 v). Continuous motor cable shield or enclosure for equipment ...
Page 79
Planning the electrical installation 79 size the fuses at the distribution board according to instructions given in chapter technical data . The fuses will protect the input cable in short-circuit situations, restrict drive damage and prevent damage to adjoining equipment in case of a short-circuit ...
Page 80
80 planning the electrical installation 274a-2 r8 - - 1sda054141r1 65 u n = 400 v 02a4-3 r1 s 203 m/p-b/c 6 5 - - 03a3-3 r1 s 203 m/p-b/c 6 5 - - 04a0-3 r1 s 203 m/p-b/c 6 5 - - 05a6-3 r1 s 203 m/p-b/c 10 5 - - 07a2-3 r1 s 203 m/p-b/c 13 5 - - 09a4-3 r1 s 203 m/p-b/c 13 5 - - 12a6-3 r1 s 203 m/p-b/c...
Page 81
Planning the electrical installation 81 065a-5 r5 s 803 s-b/c 125 10 1sda067918r1 65 077a-5 r5 s 803 s-b/c 125 10 1sda067918r1 65 096a-5 r6 - - 1sda068555r1 65 124a-5 r6 - - 1sda068555r1 65 156a-5 r7 - - 1sda068555r1 65 180a-5 r7 - - 1sda054141r1 65 240a-5 r8 - - 1sda054420r1 65 260a-5 r8 - - 1sda05...
Page 82: Thermal Overload
82 planning the electrical installation 1) maximum allowed rated conditional short-circuit current (iec 61800-5-1) of the electrical power network protecting the motor and motor cable in short-circuits the drive protects the motor cable and motor in a short-circuit situation when the motor cable is ...
Page 83
Planning the electrical installation 83 protecting the drive against ground faults the drive is equipped with an internal ground fault protective function to protect the unit against ground faults in the motor and motor cable. This is not a personnel safety or a fire protection feature. The ground f...
Page 84: Declaration Of Conformity
84 planning the electrical installation for the installation of the safety functions module, see section installation of safety functions modules on page 123 . For wiring instructions, safety data and more information on the option, see fso-12 safety functions module user’s manual (3axd50000015612[e...
Page 85
Planning the electrical installation 85 if there are power factor compensation capacitors in parallel with the three phase input of the drive: 1. Do not connect a high-power capacitor to the power line while the drive is connected. The connection will cause voltage transients that may trip or even d...
Page 86: Example Bypass Connection
86 planning the electrical installation installation must be clearly marked as defined in iec/en 61800-5-1, subclause 6.5.3, for example, “this machine starts automatically”. Warning! Never connect the drive output to the electrical power network. The connection may damage the drive. Example bypass ...
Page 87
Planning the electrical installation 87 switching the motor power supply from drive to direct-on-line 1. Stop the drive and the motor with the drive control panel (drive in local control mode) or with the external stop signal (drive in remote control mode). 2. Open the main contactor of the drive wi...
Page 88
88 planning the electrical installation 1) relay outputs; 2) varistor; 3) rc filter; 4) diode 230 v ac 230 v ac + 24 v dc - 1 2 3 4.
Page 89
Planning the electrical installation 89 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 ea...
Page 90
90 planning the electrical installation this table shows what temperature sensor types you can connect to the drive i/o extension modules as well as the insulation requirement for the sensor. Note: the inaccuracy of the drive analog inputs for pt100 sensors is 10 °c (18 °f). If a better accuracy is ...
Page 91: Electrical Installation
Electrical installation 91 6 electrical installation what this chapter contains this chapter gives instructions on wiring the drive. Warnings warning! Only qualified electricians are allowed to carry out the work described in this chapter. Follow the safety instructions in the first chapter of this ...
Page 92: Motor And Motor Cable
92 electrical installation motor and motor cable check the insulation of the motor and motor cable as follows: 1. Check that the motor cable is disconnected from the drive output terminals t1/u, t2/v and t3/w. 2. Measure the insulation resistance between each phase conductor and then between each ph...
Page 93: Corner-Grounded Tn Systems
Electrical installation 93 checking the compatibility with it (ungrounded) and corner-grounded tn systems warning! Do not install the drive with emc filter +e200 or +e202 on an it system (an ungrounded power system or a high-resistance-grounded [over 30 ohms] power system), otherwise the system will...
Page 94: Connection Diagram
94 electrical installation connecting the power cables connection diagram 1 for alternatives, see section selecting the supply disconnecting device on page 59. 2 use a separate grounding pe cable (2a) or a cable with a separate pe conductor (2b) if the conductivity of the shield does not meet the re...
Page 95
Electrical installation 95 connection procedure for frames r1 to r3 1. Undo the mounting screws at the sides of the front cover. 2. Remove the cover by sliding it forward. 3. Attach the residual voltage warning sticker in the local language to the control panel mounting platform. 4. Remove the rubbe...
Page 96
96 electrical installation 2 1 1 3 5 10 4 ip21 ip55 1 r1…r3.
Page 97
Electrical installation 97 t3/w t2/v t1/u udc- r+ r- l3 l2 l1 l1, l2, l3, t1/u, t2/v, t3/w, r-, r+/udc+, udc (n·m) (n·m) r1 0.6 1.8 r2 0.6 1.8 r3 1.7 1.8 7 8 8 9 10 10 6 pe pe 9 8 6 pe pe 6 8 8 r1…r3.
Page 98
98 electrical installation connection procedure for frames r4 and r5 1. Remove the front cover. Ip21 units: release the retaining clip with a screwdriver (a) and lift the cover from the bottom outwards (b). 2. For ip21 drives: remove the cable entry box cover by undoing the mounting screw. 3. For fr...
Page 99
Electrical installation 99 note for cable lug installation (frame r5): detach the connector and install a cable lug to the terminal post as follows: • remove the combi screw that attaches the connector to its terminal post and pull the connector off. • attach the cable lug to the conductor. • put th...
Page 100
100 electrical installation 2 1b 1a 4b 4 4a 3 3 ip55 ip21 1 r4, r5.
Page 101
Electrical installation 101 6 6 7 5 pe pe 7 6 r4, r5.
Page 102
102 electrical installation 12 13 9 l1, l2, l3, t1/u, t2/v, t3/w (n·m) r-, r+/udc+, udc- (n·m) (n·m) r4 3.3 3.3 2.9 r5 5.6 5.6 2.9 8 9 10 9 10 11 r4, r5.
Page 103
Electrical installation 103 connection procedure for frames r6 to r9 note: for frames r6 to r9 with option +h358, see also acs880-01 +h358 uk gland plate frames r6 to r9 installation guide (3axd50000034735 [english]). 1. Remove the front cover: for ip21 drives: release the retaining clip with a scre...
Page 104
104 electrical installation warning! Before using tools, make sure that the nut/screw is not cross- threading. Cross-threading will damage the drive and cause danger. • tighten the combi screw to a torque of 30 n·m. • tighten the conductor(s) to 40 n·m for frame r8 or to 70 n·m for frame r9. T1/u, t...
Page 105
Electrical installation 105 17. Secure the cables outside the unit mechanically. Install the rubber grommets to the unused lead-through plate holes. Note for us cable conduit installation: see the quick installation guide. In case of a cable lug installation, use ul listed cable lugs and tools to ag...
Page 106
106 electrical installation 1a 2 1b 4 5a 3 2 5b 3 4 ip55 ip21 r6 … r9.
Page 107
Electrical installation 107 6 8a 7 pe pe 7 r8, r9 r6 … r9.
Page 108
108 electrical installation 9 10 10 10 11 * for 525…690 v drives frame l1, l2, l3, t1/u, t2/v, t3/w r-, r+/udc+, udc- t (wire screw) t (wire screw) t m… n·m m… n·m n·m r6 m10 30 m8 20 9.8 r7 m10 40 (30*) m10 30 9.8 r8 m10 40 m10 40 9.8 r9 m12 70 m12 70 9.8 11 12 r6 … r9.
Page 109
Electrical installation 109 16 13 r8, r9 r6 … r9.
Page 110: Dc Connection
110 electrical installation grounding the motor cable shield at the motor end always ground the motor cable shield at the motor end. For minimum radio frequency interference, ground the motor cable shield 360 degrees at the lead-through of the motor terminal box. Dc connection the udc+ and udc- term...
Page 111
Electrical installation 111 default i/o connection diagram fault see the next page for the notes. Xpow external power input 1 +24vi 24 v dc, 2 a 2 gnd xai reference voltage and analog inputs 1 +vref 10 v dc, r l 1…10 kohm 2 -vref -10 v dc, r l 1…10 kohm 3 agnd ground 4 ai1+ speed reference 0(2)…10 v...
Page 112
112 electrical installation notes: 1) current [0(4)…20 ma, r in = 100 ohm] or voltage [ 0(2)…10 v, r in > 200 kohm] input selected with jumper j1. Change of setting requires reboot of control unit. 2) current [0(4)…20 ma, r in = 100 ohm] or voltage [ 0(2)…10 v, r in > 200 kohm] input selected with j...
Page 113
Electrical installation 113 external power supply for the control unit (xpow) external +24 v (2 a) power supply for the control unit can be connected to terminal block xpow. Using an external supply is recommended if • the control board needs to be kept operational during input power breaks, for exa...
Page 114
114 electrical installation drive-to-drive link (xd2d) the drive-to-drive link is a daisy-chained rs-485 transmission line that allows basic master/follower communication with one master drive and multiple followers. Set termination activation jumper j3 (see section jumpers and switches above) next ...
Page 115
Electrical installation 115 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 end...
Page 116
116 electrical installation control cable connection procedure warning! Follow the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ensure by me...
Page 117
Electrical installation 117 6 5 7 7 1.5 n·m 0.5 n·m 3 3 1.5 n·m.
Page 118: Connecting A Pc
118 electrical installation connecting a pc warning! Do not connect the pc directly to the control panel connector of the control unit as this can cause damage. Connect a pc to the drive with an usb data cable (usb type a usb type mini- b) as follows: 1. Lift the usb connector cover from bottom upwa...
Page 119
Electrical installation 119 controlling several drives 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. Note for ip55 (ul type 12) drives: remove the front cover and p...
Page 120
120 electrical installation ip55 (ul type 12) 1 2 3 3 1 2 ip21 (ul type 1) 1.
Page 121: Installing Optional Modules
Electrical installation 121 installing optional modules note: in frames r1 and r2, 90° connector cannot be used in slot 1. In other frames, there is 50 to 55 mm free space for the connector and its cable available on slots 1, 2 and 3. Mechanical installation of i/o extension, fieldbus adapter and pu...
Page 122: Modules
122 electrical installation wiring i/o extension, fieldbus adapter and pulse encoder interface modules see the appropriate optional module manual for specific installation and wiring instructions. See page 117 for the routing of the cables. 3 4 5.
Page 123
Electrical installation 123 installation of safety functions modules the safety functions module can be mounted onto slot 2 on the control unit or, in frames r7 to r9, also next to the control unit. Installation procedure into slot 2 warning! Follow the safety instructions, page 14 . Ignoring the in...
Page 124
124 electrical installation 3 5 5a 5 5 6 x12.
Page 125
Electrical installation 125 installation next to the control unit on frames r7 to r9 warning! Follow the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting d...
Page 126
126 electrical installation x12 6 1 4 4a 4 4 5.
Page 127: Installation Checklist
Installation checklist 127 7 installation checklist what this chapter contains this chapter contains a list for checking the mechanical and electrical installation of the drive. Checklist check the mechanical and electrical installation of the drive before start-up. Go through the checklist together...
Page 128
128 installation checklist there is an adequately sized protective earth (ground) conductor between the motor and the drive. All protective earth (ground) conductors have been connected to the appropriate terminals and the terminals have been tightened (pull conductors to check). The supply voltage ...
Page 129: Start-Up
Start-up 129 8 start-up what this chapter contains this chapter describes the start-up procedure of the drive. Startup procedure 1. Run setup of the drive control program according to the start-up instructions given in quick start-up guide for acs880 primary control program or in the firmware manual...
Page 130
130 start-up.
Page 131: Fault Tracing
Fault tracing 131 9 fault tracing what this chapter contains this chapter describes the fault tracing possibilities of the drive. Leds warning and fault messages see the firmware manual for the descriptions, causes and remedies of the drive control program warning and fault messages. Where led color...
Page 132
132 fault tracing.
Page 133: Maintenance
Maintenance 133 10 maintenance what this chapter contains this chapter contains preventive maintenance instructions. 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/drive...
Page 134: Descriptions Of Symbols
134 maintenance descriptions of symbols recommended annual maintenance actions by the user abb recommends these annual inspections to ensure the highest reliability and optimum performance. Recommended maintenance intervals after start-up heatsink the module heatsink fins pick up dust from the cooli...
Page 135: Fans
Maintenance 135 warning! Use a vacuum cleaner with antistatic hose and nozzle. Using a normal vacuum cleaner creates static discharges which can damage circuit boards. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ensure by measuring that there is no voltage. 2....
Page 136
136 maintenance replacing the main cooling fan of frames r1 to r3 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ensure by m...
Page 137
Maintenance 137 replacing the auxiliary cooling fan of ip55 frames r1 to r3 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and e...
Page 138
138 maintenance replacing the main cooling fan of frames r4 and r5 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ensure by ...
Page 139
Maintenance 139 replacing the auxiliary cooling fan of frames r4 and r5 (ip55 and option +c135) and ip21 frame r5 types acs880-01-xxxx-7 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive ...
Page 140
140 maintenance replacing the main cooling fan of frames r6 to r8 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ensure by m...
Page 141
Maintenance 141 replacing the auxiliary cooling fan of frames r6 to r9 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ensure...
Page 142
142 maintenance replacing the ip55 auxiliary cooling fan of frames r8 and r9 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ...
Page 143
Maintenance 143 3 4 5 3.
Page 144
144 maintenance replacing the main cooling fans of frame r9 warning! Obey the safety instructions, page 14 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. 1. Disconnect the drive from the power line. Lock the main disconnecting device and ensure by measuri...
Page 145
Maintenance 145 replacing the drive (ip21, ul type 1, frames r1 to r9) this section gives instructions for replacing the drive module without the cable entry box. This allows you to leave the cables installed (except from disconnecting the conductors). Note for ip55 (ul type 12) drives: it is not al...
Page 146: Capacitors
146 maintenance capacitors the drive intermediate dc circuit employs several electrolytic capacitors. Their lifespan depends on the operating time of the drive, loading and ambient temperature. Capacitor life can be prolonged by lowering the ambient temperature. In frames r1 to r3, the capacitors ar...
Page 147: Reforming The Capacitors
Maintenance 147 capacitor failure is usually followed by damage to the unit and an input cable fuse failure, or a fault trip. Contact abb if capacitor failure is suspected. Replacements are available from abb. Do not use other than abb specified spare parts. Reforming the capacitors reform the capac...
Page 148: And Fso-21, Option +Q972)
148 maintenance replacing the control panel battery the battery is housed on the rear of the control panel. Replace with a new cr 2032 battery. Dispose the old battery according to local disposal rules or applicable laws. Replacing the control unit battery for instructions how to replace the control...
Page 149: Technical Data
Technical data 149 11 technical data what this chapter contains this chapter contains the technical specifications of the drive, for example, the ratings, sizes and technical requirements, provisions for fulfilling the requirements for ce and other markings. Marine type-approved drives (option +c132...
Page 150: Ratings
150 technical data ratings the nominal ratings for the drives with 50 hz and 60 hz supply are given below. The symbols are described below the table. Iec ratings drive type acs880- 01- frame size input rating output ratings nominal use light-overload use heavy-duty use i 1 i max i 2 p n s n i ld p l...
Page 151
Technical data 151 087a-3 r5 87 122 87 45 60 83 45 72 37 105a-3 r6 105 148 105 55 73 100 55 87 45 145a-3 r6 145 178 145 75 100 138 75 105 55 169a-3 r7 169 247 169 90 117 161 90 145 75 206a-3 r7 206 287 206 110 143 196 110 169 90 246a-3 r8 246 350 246 132 170 234 132 206 110 293a-3 r8 293 418 293 160...
Page 152
152 technical data u n = 500 v 02a1-5 r1 2.1 3.1 2.1 0.75 1.8 2.0 0.55 1.7 0.55 03a0-5 r1 3.0 4.1 3.0 1.1 2.6 2.8 1.1 2.1 0.75 03a4-5 r1 3.4 5.6 3.4 1.1 2.9 3.2 1.1 3.0 1.1 04a8-5 r1 4.8 6.8 4.8 1.5 4.2 4.6 1.5 3.4 1.1 05a2-5 r1 5.2 9.5 5.2 2.2 4.5 5.0 2.2 4.8 1.5 07a6-5 r1 7.6 12.2 7.6 3.0 6.6 7.2 ...
Page 153
Technical data 153 u n = 690 v 07a4-7 r3 7.4 12.2 7.4 5.5 8.8 7.0 5.5 5.6 4 09a9-7 r3 9.9 18 9.9 7.5 11.8 9.4 7.5 7.4 5.5 14a3-7 r3 14.3 22 14.3 11 17 13.6 11 9.9 7.5 019a-7 r3 19 29 19 15 23 18 15 14.3 11 023a-7 r3 23 38 23 18.5 27 22 18.5 19 15 027a-7 r3 27 46 27 22 32 26 22 23 18.5 07a3-7 r5 7.3 ...
Page 154
154 technical data nema ratings drive type acs880- 01- frame size input rating output ratings max. Current app. Power light-overload use heavy-duty use i 1 i max s n i ld p ld i hd p hd a a kva a kw hp a kw hp u n = 230 v 04a6-2 r1 4.4 6.3 1.8 4.4 0.75 1.0 3.7 0.55 0.75 06a6-2 r1 6.3 7.8 2.6 6.3 1.1...
Page 155
Technical data 155 u n = 460 v 02a1-5 r1 2.1 3.1 1.8 2.1 0.75 1.0 1.7 0.55 0.75 03a0-5 r1 3.0 4.1 2.6 3.0 1.1 1.5 2.1 0.75 1.0 03a4-5 r1 3.4 5.6 2.9 3.4 1.5 2.0 3.0 1.1 1.5 04a8-5 r1 4.8 6.8 4.2 4.8 2.2 3.0 3.4 1.5 2.0 05a2-5 r1 5.2 9.5 4.5 5.2 3.0 3.0 4.8 1.5 2.0 07a6-5 r1 7.6 12.2 6.6 7.6 4.0 5.0 ...
Page 156: Definitions
156 technical data definitions u n = 575 v 07a4-7 r3 7.0 12.2 8.8 7.0 4.0 5.0 5.6 3.0 3.0 09a9-7 r3 9.4 18 11.8 9.4 5.5 7.5 7.4 4.0 5.0 14a3-7 r3 13.6 22 17 13.6 7.5 10 9.9 5.5 7.5 019a-7 r3 18 29 23 18 11 15 14.3 7.5 10 023a-7 r3 22 38 27 22 15 20 19 11 15 027a-7 r3 27 46 32 27 18.5 25 23 15 20 07a...
Page 157
Technical data 157 i ld continuous rms output current allowing 10% overload for 1 minute every 5 minutes p ld typical motor power in light-overload use i max maximum output current. Available for 10 seconds at start. Then as long as allowed by drive temperature. I hd continuous rms output current al...
Page 158: Derating
158 technical data derating ambient temperature derating ip21 (ul type 1) drive types and other ip55 (ul type 12) types than listed in the following subheadings in the temperature range +40…55 °c (+104…131 °f), the rated output current is derated by 1% for every added 1 °c (1.8 °f). The output curre...
Page 159
Technical data 159 ip55 (ul type 12) drive type -240a-5 in the temperature range +40…50 °c (+104…122 °f), the rated output current is derated by 1% for every added 1 °c (1.8 °f). In the temperature range +50…55 °c (+122…131 °f), the rated output current is derated by 2.5% for every added 1 °c (1.8 °...
Page 160
160 technical data ip55 (ul type 12) drive types -363a-3 and -361a-5 in the temperature range +40…45 °c (+104…113 °f), the rated output current is derated by 1% for every added 1 °c (1.8 °f). In the temperature range +45…50 °c (+113…122 °f), the rated output current is derated by 2.5% for every adde...
Page 161: Altitude Derating
Technical data 161 ip55 (ul type 12) drive type -210a-7 in the temperature range +40…45 °c (+104…113 °f), the rated output current is derated by 3.5% for every added 1 °c (1.8 °f). The maximum temperature is 45 °c (113 °f). The output current can be calculated by multiplying the current given in the...
Page 162
162 technical data the altitude derating can be reduced if the temperature is below +40 °c, for example, if the temperature is 30 °c, the derating factor is 1 - 1.5% · 10 = 0.85. You can reduce the output current by 35% instead of 40% at 4000 meter above the see level. Deratings for special settings...
Page 163
Technical data 163 ex motor, sine filter, low noise contact abb for the deratings of 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 265 is used and abb sin...
Page 164
164 technical data 12a6-3 12.9 5.5 12.0 10.0 12.1 5.5 11.5 9.2 017a-3 17 8 16 12.6 16 7.5 15 12 025a-3 25 11 24 17 24 11 23 16 032a-3 32 15 30 25 31 15 29 23 038a-3 38 19 36 32 37 18.5 35 31 045a-3 45 22 43 38 43 22 41 36 061a-3 61 30 58 45 58 30 55 43 072a-3 72 37 68 61 64 30 61 58 087a-3 87 45 83 ...
Page 165
Technical data 165 156a-5 147 75 140 115 140 75 133 104 180a-5 170 90 162 147 161 90 153 140 240a-5 220 110 209 170 204 110 194 161 260a-5 238 132 226 220* 221 110 210 204* 361a-5 322 200 306 270 289 160 275 242 414a-5 370 200 352 322** 332 200 315 289** u n = 690 v 07a4-7 * * * * * * * * 09a9-7 * *...
Page 166
166 technical data i hd continuous rms output current allowing 50% overload for 1 minute every 5 minutes. * continuous rms output current allowing 30% overload for 1 minute every 5 minutes. ** continuous rms output current allowing 25% overload for 1 minute every 5 minutes. P hd typical motor power ...
Page 167
Technical data 167 025a-3 22 20.9 15.0 032a-3 30 29 22 038a-3 35 33 30 045a-3 41 39 35 061a-3 56 53 41 072a-3 56 53 47 087a-3 67 64 56 105a-3 86 82 67 145a-3 118 112 86 169a-3 146 139 118 206a-3 178 169 146 246a-3 194 184 178 293a-3 236 224 194* 363a-3 274 260 236 430a-3 325 309 274** u n = 500 v 02...
Page 168
168 technical data 361a-5 258 245 206 414a-5 296 281 258** u n = 690 v 07a4-7 * * * 09a9-7 * * * 14a3-7 * * * 019a-7 * * * 023a-7 * * * 027a-7 * * * 07a3-7 6.9 6.6 5.5 09a8-7 9.3 8.8 6.9 14a2-7 13.5 12.8 9.3 018a-7 17 16 14 022a-7 21 20 17 026a-7 24 22.8 21.0 035a-7 33 31 24 042a-7 40 38 33 049a-7 4...
Page 169
Technical data 169 i hd continuous rms output current allowing 50% overload for 1 minute every 5 minutes. * continuous rms output current allowing 30% overload for 1 minute every 5 minutes. ** continuous rms output current allowing 25% overload for 1 minute every 5 minutes. P hd typical motor power ...
Page 170
170 technical data high speed mode selection high speed mode of parameter 95.15 special hw settings improves control performance at high output frequencies. We recommend it to be selected with output frequency of 120 hz and above. This table gives the drive ratings for the maximum output frequency w...
Page 171
Technical data 171 12a6-3 500 11.3 10.7 8.5 017a-3 500 15 14.3 11.3 025a-3 500 22 20.9 15.0 032a-3 500 30 29 22 038a-3 500 35 33 30 045a-3 500 41 39 35 061a-3 500 56 53 41 072a-3 500 56 53 47 087a-3 500 67 64 56 105a-3 500 77 73 67 145a-3 500 106 101 77 169a-3 500 135 128 106 206a-3 500 165 157 135 ...
Page 172
172 technical data 180a-5 500 140 133 122 240a-5 500 168 160 140 260a-5 500 182 173 168* 361a-5 500 206 196 182 414a-5 500 236 224 206** u n = 690 v 07a4-7 500 * * * 09a9-7 500 * * * 14a3-7 500 * * * 019a-7 500 * * * 023a-7 500 * * * 027a-7 500 * * * 07a3-7 500 6.6 6.3 5.3 09a8-7 500 8.8 8.4 6.6 14a...
Page 173: Fuses (Iec)
Technical data 173 fuses (iec) gg and ar fuses for protection against short-circuit in the input power cable or drive are listed below. Either fuse type can be used for frames r1 to r9 if it operates rapidly enough. The operating time depends on the supply network impedance and the cross-sectional a...
Page 174
174 technical data 075a-2 380 75 200 15000 690 bussmann 170m3815 1 087a-2 500 87 250 28500 690 bussmann 170m3816 1 115a-2 700 115 315 46500 690 bussmann 170m3817 1 145a-2 1000 145 315 46500 690 bussmann 170m3817 1 170a-2 1280 170 450 105000 690 bussmann 170m5809 2 206a-2 1450 206 500 155000 690 buss...
Page 175
Technical data 175 07a6-5 65 7.6 25 130 690 bussmann 170m1561 000 11a0-5 65 11.0 25 130 690 bussmann 170m1561 000 014a-5 120 14 40 460 690 bussmann 170m1563 000 021a-5 120 21 40 460 690 bussmann 170m1563 000 027a-5 170 27 63 1450 690 bussmann 170m1565 000 034a-5 170 34 63 1450 690 bussmann 170m1565 ...
Page 176
176 technical data 119a-7 1610 119 400 74000 690 bussmann 170m3816 2 142a-7 2210 142 500 145000 690 bussmann 170m5810 2 174a-7 2210 174 500 145000 690 bussmann 170m5810 2 210a-7 3200 210 700 320000 690 bussmann 170m6811d 3 271a-7 3200 271 700 320000 690 bussmann 170m6811d 3 1) minimum short-circuit ...
Page 177
Technical data 177 gg fuses (frames r1 to r9) check on the fuse time-current curve to ensure the operating time of the fuse is below 0.5 seconds. Obey the local regulations. Gg fuses (one fuse per phase) drive type acs880- 01… min. Short- circuit current 1) input current fuse a a a a 2 s v manufactu...
Page 178
178 technical data 087a-3 1000 87 100 63600 500 abb ofaf000h100 000 105a-3 1300 105 125 103000 500 abb ofaf00h125 00 145a-3 1700 145 160 185000 500 abb ofaf00h160 00 169a-3 3300 169 250 600000 500 abb ofaf0h250 0 206a-3 5500 206 315 710000 500 abb ofaf1h315 1 246a-3 6400 246 355 920000 500 abb ofaf1...
Page 179
Technical data 179 14a3-7 190 14.3 25 4000 690 abb ofaa000gg25 000 019a-7 280 19 35 12000 690 abb ofaa000gg35 000 023a-7 450 23 50 24000 690 abb ofaa000gg50 000 027a-7 450 27 50 24000 690 abb ofaa000gg50 000 07a3-7 115 7.3 16 1200 690 abb ofaa000gg16 000 09a8-7 145 9.8 20 2400 690 abb ofaa000gg20 00...
Page 180
180 technical data quick guide for selecting between gg and ar fuses the combinations (cable size, cable length, transformer size and fuse type) in this table fulfil the minimum requirements for the proper operation of the fuse. Use this table to select between gg and ar fuses or calculate the short...
Page 181
Technical data 181 072a-3 3×35 3×35 48 49 52 23 24 25 087a-3 3×35 3×50 48 49 52 34 35 38 105a-3 3×50 3×70 63 65 68 62 67 80 145a-3 3×95 3×95 82 85 88 62 65 70 169a-3 3×120 3×150 160 170 187 87 93 104 206a-3 3×150 3×185 269 298 357 107 116 132 246a-3 2×(3×70) 2×(3×95) 311 335 393 145 157 180 293a-3 2...
Page 182
182 technical data 14a3-7 3×2.5 - 16 16 16 7.8 7.8 7.8 019a-7 3×4 - 23 23 23 9.9 10 10 023a-7 3×6 - 37 37 38 13 13 13 027a-7 3×10 - 37 37 38 13 13 13 07a3-7 3×1.5 - 9.5 9.5 9.5 3.3 3.3 3.3 09a8-7 3×1.5 - 12 12 12 4.4 4.4 4.4 14a2-7 3×2.5 - 16 16 16 7.8 7.8 7.8 018a-7 3×4 - 23 23 23 9.9 10 10 022a-7 ...
Page 183
Technical data 183 calculating the short-circuit current of the installation check that the short-circuit current of the installation is at least the value given in the fuse table. The short-circuit current ot the installation can be calculated as follows: where i k2-ph = short-circuit current in sy...
Page 184: Fuses (Ul)
184 technical data the calculated short-circuit current 2.7 ka is higher than the minimum short-circuit current of the drive gg fuse type ofaf00h160 (1700 a). -> the 500 v gg fuse (abb control ofaf00h160) can be used. Fuses (ul) ul class t fuses for branch circuit protection per nec are listed below...
Page 185
Technical data 185 drive type acs880-01… input current fuse (one fuse per phase) a a v manufacturer type ul class u n = 230 v 04a6-2 4.4 15 600 bussmann jjs-15 t 06a6-2 6.3 15 600 bussmann jjs-15 t 07a5-2 7.1 15 600 bussmann jjs-15 t 10a6-2 10.1 20 600 bussmann jjs-20 t 16a8-2 16.0 25 600 bussmann j...
Page 186
186 technical data 302a-5 302 400 600 bussmann jjs-400 t 361a-5 361 500 600 bussmann jjs-500 t 414a-5 414 600 600 bussmann jjs-600 t u n = 575 v 07a4-7 7.0 15 600 bussmann jjs-15 t 09a9-7 9.4 20 600 bussmann jjs-20 t 14a3-7 13.6 30 600 bussmann jjs-30 t 019a-7 18 40 600 bussmann jjs-40 t 023a-7 22 5...
Page 187
Technical data 187 dimensions, weights and free space requirements h1 height with cable entry box. H2 height without cable entry box (option +p940) h3 height with hood w width with cable entry box d depth with cable entry box * hood increases height with 155 mm (6.10 in) in frames r4 to r8 and with ...
Page 188: Free Space Requirements
188 technical data free space requirements 200 mm (7.87 in.) free space is required at top of the drive. 300 mm (11.81 in.) free space (when measured from the drive base without the cable entry box) is required at bottom of the drive. Frame weight of flange mounting kit (option +c135) kg lb r1 2.9 6...
Page 189
Technical data 189 losses, cooling data and noise drive type acs880-01- frame air flow heat dissipation noise m 3 /h ft 3 /min w db(a) u n = 230 v 04a6-2 r1 44 26 73 46 06a6-2 r1 44 26 94 46 07a5-2 r1 44 26 122 46 10a6-2 r1 44 26 172 46 16a8-2 r2 88 52 232 51 24a3-2 r2 88 52 337 51 031a-2 r3 134 79 ...
Page 190
190 technical data 293a-3 r8 550 324 3900 65 363a-3 r9 1150 677 4800 68 430a-3 r9 1150 677 6000 68 u n = 500 v 02a1-5 r1 44 26 30 46 03a0-5 r1 44 26 40 46 03a4-5 r1 44 26 52 46 04a8-5 r1 44 26 73 46 05a2-5 r1 44 26 94 46 07a6-5 r1 44 26 122 46 11a0-5 r1 44 26 172 46 014a-5 r2 88 52 232 51 021a-5 r2 ...
Page 191: +C135)
Technical data 191 cooling air flow and heat dissipation for flange mounting (option +c135) 022a-7 r5 280 165 578 62 026a-7 r5 280 165 660 62 035a-7 r5 280 165 864 62 042a-7 r5 280 165 998 62 049a-7 r5 280 165 1120 62 061a-7 r6 435 256 1295 67 084a-7 r6 435 256 1440 67 098a-7 r7 450 265 1940 67 119a...
Page 192
192 technical data 03a3-3 r1 44 9 27 13 04a0-3 r1 44 9 38 14 05a6-3 r1 44 9 57 16 07a2-3 r1 44 9 76 18 09a4-3 r1 44 9 101 21 12a6-3 r1 44 9 146 26 017a-3 r2 88 16 195 37 025a-3 r2 88 16 290 47 032a-3 r3 134 22 393 64 038a-3 r3 134 22 488 74 045a-3 r4 134 32 573 94 061a-3 r4 280 32 789 118 072a-3 r5 ...
Page 193
Technical data 193 096a-5 r6 435 52 1121 175 124a-5 r6 435 52 1251 189 156a-5 r7 450 75 1701 239 180a-5 r7 450 75 2034 276 240a-5 r8 550 120 2925 375 260a-5 r8 550 120 3465 435 302a-5 r9 1150 170 3735 465 361a-5 r9 1150 170 4275 525 414a-5 r9 1150 170 5355 645 u n = 690 v 07a4-7 r3 134 22 68 46 09a9...
Page 194: Iec
194 technical data terminal and lead-through data for the power cables iec input, motor, resistor and dc cable terminal screw sizes, accepted wire sizes (per phase) and tightening torques (t) are given below. L denotes stripping length inside the terminal. * maximum cable diameter accepted. For the ...
Page 195
Technical data 195 us input, motor, resistor and dc cable terminal screw sizes, accepted wire sizes (per phase) and tightening torques (t) in us units are given below. L denotes stripping length inside the terminal. * maximum cable diameter accepted. Cable connector inside diameter: 3/4” (frames r1 ...
Page 196
196 technical data ul listed cable lugs and tools terminal data for the control cables see control unit (zcu-12) connection data below. Wire size compression lug crimping tool kcmil/awg manufacturer type manufacturer type no. Of crimps 6 thomas & betts e10731 54136 thomas & betts tbm4s tbm45s 1 burn...
Page 197: Motor Connection Data
Technical data 197 electrical power network specification voltage (u 1 ) acs880-01-xxxx-2 drives: 208 … 240 v ac 3-phase +10%…-15%. This is indicated in the type designation label as typical input voltage level 3 230 v ac. Acs880-01-xxxx-3 drives: 380 … 415 v ac 3-phase +10%…-15%. This is indicated ...
Page 198
198 technical data maximum recommended motor cable length for acs880-01-xxxx-2, acs880-01-xxxx-3 and acs880- 01-xxxx-5 frames r1 to r3 and for types acs880-01- 07a3-7, acs880-01-09a8-7, acs880-01-14a2-7 and acs880-01-018a-7: 150 m (492 ft) for acs880-01-xxxx-2, acs880-01-xxxx-3 and acs880- 01-xxxx-5...
Page 199
Technical data 199 digital inputs/outputs dio1 and dio2 (xdio:1 and xdio:2) input/output mode selection by parameters. Dio1 can be configured as a frequency input (0…16 khz with hardware filtering of 4 microseconds) for 24 v level square wave signal (sinusoidal or other wave form cannot be used). Di...
Page 200
200 technical data safe torque off connection (xsto) connector pitch 5 mm, wire size 2.5 mm 2 input voltage range: -3…30 v dc logic levels: “0” 17 v current consumption of frames r1 to r7: 30 ma (24 v dc, continuous) per sto channel current consumption of frames r8 and r9: 12 ma (24 v dc, continuous...
Page 201
Technical data 201 ground isolation diagram xpow +24vi 1 gnd 2 xai +vref 1 -vref 2 agnd 3 ai1+ 4 ai1- 5 ai2+ 6 ai2- 7 xao ao1 1 agnd 2 ao2 3 agnd 4 xd2d b 1 a 2 bgnd 3 xro1, xro2, xro3 nc 11 com 12 no 13 nc 21 com 22 no 23 nc 31 com 32 no 33 xd24 diil 1 +24vd 2 dicom 3 +24vd 4 diognd 5 xdio dio1 1 d...
Page 202: Efficiency
202 technical data efficiency approximately 98% at nominal power level protection classes degree of protection (iec/en 60529) ip21, ip55. Option +p940 and +p944: ip20 enclosure types (ul508c) ul type 1, ul type 12. Option +p940: ul open type. For indoor use only. Overvoltage category (iec 60664-1) i...
Page 203: Materials
Technical data 203 contamination levels (iec 60721-3-3, iec 60721-3-2, iec 60721-3-1) no conductive dust allowed. Chemical gases: class 3c2. For circuit boards in ip55 drives class 3c3 and ansi/isa s71.04-1985 gx solid particles: class 3s2 chemical gases: class 1c2 solid particles: class 1s3 chemica...
Page 204
204 technical data package plywood and cardboard. Foam cushions pp-e, bands pp. Disposal the main parts of the drive can be recycled to preserve natural resources and energy. Product parts and materials should be dismantled and separated. Generally all metals, such as steel, aluminum, copper and its...
Page 205: Ce Marking
Technical data 205 ce marking a ce mark is attached to the drive to verify that the drive follows the provisions of the european low voltage, emc and rohs directives. The ce marking also verifies that the drive, in regard to its safety functions (such as safe torque off), conforms with the machinery...
Page 206
206 technical data compliance with the european rohs directive the rohs directive defines the restriction of the use of certain hazardous substances in electrical and electronic equipment. Compliance with the european machinery directive the drive is an electronic product which is covered by the eur...
Page 207
Technical data 207 declaration of conformity.
Page 208
208 technical data.
Page 209: Definitions
Technical data 209 compliance with the 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 othe...
Page 210: Category C3
210 technical data category c3 the drive complies with the standard with the following provisions: 1. The drive is equipped with emc filter +e200 or +e201. 2. The motor and control cables are selected as specified in the hardware manual. 3. The drive is installed according to the instructions given ...
Page 211: Ul Marking
Technical data 211 warning! A drive of category c4 is not intended to be used on a low-voltage public network which supplies domestic premises. Radio frequency interference is expected if the drive is used on such a network. Ul marking the drive is culus listed. Ul checklist • the drive must be inst...
Page 212: Rcm Marking
212 technical data contain toxic and hazardous substances or elements above the maximum concentration values, and that it is an environmentally-friendly product which can be recycled and reused. Rcm marking rcm marking is required in australia and new zealand. An rcm mark is attached to the drive mo...
Page 213: Disclaimer
Technical data 213 disclaimer the manufacturer shall have no obligation hereunder with respect to any product which (i) has been improperly repaired or altered; (ii) has been subjected to misuse, negligence or accident; (iii) has been used in a manner contrary to the manufacturer's instructions; or ...
Page 214
214 technical data.
Page 215: Dimension Drawings
Dimension drawings 215 12 dimension drawings what this chapter contains this chapter contains dimension drawings of the standard drive (ip21, ul type 1) and drive with option +b056 (ip55, ul type 12). For dimension drawings of options +p940 and +p944 (ip20, ul open type), see acs880-01 +p940/+p944 d...
Page 216
216 dimension drawings frame r1 (ip21, ul type 1) 3a u a 000009762 1.
Page 217
Dimension drawings 217 frame r1 (ip55, ul type 12) 3a u a 000009 7621.
Page 218
218 dimension drawings frame r2 (ip21, ul type 1) 3a u a 00000 97691.
Page 219
Dimension drawings 219 frame r2 (ip55, ul type 12) 3a u a 000009 7691.
Page 220
220 dimension drawings frame r3 (ip21, ul type 1) 3a u a 0000097 847.
Page 221
Dimension drawings 221 frame r3 (ip55, ul type 12) 3a u a 000009 7847.
Page 222
222 dimension drawings frame r4 (ip21, ul type 1) gp j 65[2.55] 74[2.90] 576[22.69] 48[1.89] 124[4.86] 274[10.80] 160[6.30] suggested mounting holes 98[3.86] 475[18.70] suggested mounting holes 505[19.88] 490[19.291] without gland box 7 .26 [] 203[7.99] 13 .51 [] 22[.85] 8[.32] 18[.72] 7 .26 [] 15 ....
Page 223
Dimension drawings 223 frame r4 (ip55, ul type 12) 3aua000 0098285.
Page 224
224 dimension drawings frame r5 (ip21, ul type 1) gp j 7 .26 [] 15 .57 [] 22[.85] 7[.28] 98[3.86] 160[6.30] suggested mounting holes 581[22.87] suggested mounting holes 612[24.07] 596[23.46] without gland box 7 .26 [] 274[10.77] 65[2.55] 74[2.90] 48[1.88] 730[28.73] 203[7.99] 124[4.86] 7 .26 [] 8[.3...
Page 225
Dimension drawings 225 frame r5 (ip55, ul type 12) 3a ua 00 00 09 79 65.
Page 226
226 dimension drawings frame r6 (ip21, ul type 1) 3a u a 000009 8321.
Page 227
Dimension drawings 227 frame r6 (ip55, ul type 12) 3a u a 000009 8321.
Page 228
228 dimension drawings frame r7 (ip21, ul type 1) 3a u a 000007 3149.
Page 229
Dimension drawings 229 frame r7 (ip55, ul type 12) 3a u a 000007 3149.
Page 230
230 dimension drawings frame r8 (ip21, ul type 1) 3a u a 000007 3150
Page 231
Dimension drawings 231 frame r8 (ip55, ul type 12) 3a u a 000007 3150
Page 232
232 dimension drawings frame r9 (ip21, ul type 1) 3a u a 000007 3151.
Page 233
Dimension drawings 233 frame r9 (ip55, ul type 12) 3a u a 000007 3151.
Page 234
234 dimension drawings.
Page 235: Safe Torque Off Function
Safe torque off function 235 13 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 ...
Page 236: Wiring
236 safe torque off function the function also corresponds to prevention of unexpected start-up as specified by en 1037:1995 + a1:2008 and uncontrolled stop (stop category 0) as specified in en 60204-1:2006 + ac:2010. Compliance with the european machinery directive see section compliance with the e...
Page 237: Activation Switch
Safe torque off function 237 activation switch in the wiring diagrams below, the activation switch has the designation (k). This represents a component such as a manually operated switch, an emergency stop push button switch, or the contacts of a safety relay or safety plc. • in case a manually oper...
Page 238
238 safe torque off function dual-channel connection +24 v out1 sgnd in2 t1/u, t2/v , t3/w control logic udc+ udc– acs880-01 zcu a k in1.
Page 239
Safe torque off function 239 single-channel connection +24 v out1 sgnd in2 k in1 acs880-01 zcu 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....
Page 240
240 safe torque off function multiple drives (internal power supply) out1 sgnd in1 in2 acs880-01 zcu out1 sgnd in1 in2 acs880-01 zcu k +24 v out1 sgnd in1 in2 acs880-01 zcu.
Page 241
Safe torque off function 241 multiple drives (external power supply) +24 v out1 acs880-01 zcu out1 sgnd in1 in2 acs880-01 zcu out1 sgnd in1 in2 acs880-01 zcu +24 v dc - + k sgnd in1 in2.
Page 242: Operation Principle
242 safe torque off function operation principle 1. The safe torque off activates (the activation switch is opened, or safety relay contacts open). 2. The sto inputs on the drive control unit de-energize. 3. The control unit cuts off the control voltage from the drive igbts. 4. The control program g...
Page 243
Safe torque off function 243 action warning! Follow the safety instructions given in safety instructions , page 13 . Ignoring the instructions can cause physical injury or death, or damage to the equipment. Ensure that the drive can be run and stopped freely during start-up. Stop the drive (if runni...
Page 244: Use
244 safe torque off function use 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 inverter igbts. 3. The control program gener...
Page 245: Maintenance
Safe torque off function 245 the safe torque off function is supported by any acs880 inverter or drive firmware. It is not supported by supply or brake firmware. Warning! (with permanent magnet or synchronous reluctance [synrm] motors only) in case of a multiple igbt power semiconductor failure, the...
Page 246: Competence
246 safe torque off function include the safe torque off operation test described above in the routine maintenance program of the machinery that the inverter runs. If any wiring or component change is needed after start up, or the parameters are restored, follow the test given in section acceptance ...
Page 247
Safe torque off function 247 • this temperature profile is used in the safety value calculations: • 670 on/off cycles per year with t = 71.66 °c • 1340 on/off cycles per year with t = 61.66 °c • 30 on/off cycles per year with t = 10.0 °c • 32 °c board temperature at 2.0% of time • 60 °c board temper...
Page 248: Abbreviations
248 safe torque off function • sto response time: 2 ms (typical), 5 ms (maximum) • fault detection time: channels in different states for longer than 200 ms • fault reaction time: fault detection time + 10 ms • sto fault indication (parameter 31.22) delay: • sto warning indication (parameter 31.22) ...
Page 249: Resistor Braking
Resistor braking 249 14 resistor braking what this chapter contains this chapter describes how to select, protect and wire brake choppers and resistors. The chapter also contains technical data. Operation principle and hardware description frames r1 to r4 have a built-in brake chopper as standard. F...
Page 250
250 resistor braking note: if the e r value is not sufficient, it is possible to use a four-resistor assembly in which two standard resistors are connected in parallel, two in series. The e r value of the four-resistor assembly is four times the value specified for the standard resistor. Selecting a...
Page 251
Resistor braking 251 minimizing electromagnetic interference follow these rules in order to minimize electromagnetic interference caused by the rapid current changes in the resistor cables: • shield the braking power line completely, either by using shielded cable or a metallic enclosure. Unshielded...
Page 252
252 resistor braking protecting the system against thermal overload the brake chopper protects itself and the resistor cables against thermal overload when the cables are dimensioned according to the nominal current of the drive. The drive control program includes a resistor and resistor cable therm...
Page 253: Mechanical Installation
Resistor braking 253 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. Protecting the resisto...
Page 254
254 resistor braking set the following parameters (acs880 primary control program): • disable the overvoltage control of the drive by parameter 30.30 overvoltage control. • set parameter 31.01 external event 1 source to point to the digital input where the thermal switch of the brake resistor is wir...
Page 255: Technical Data
Resistor braking 255 technical data ratings drive type internal brake chopper example brake resistor(s) p brcont r min type r e r p rcont kw ohm ohm kj kw u n = 230 v acs880-01-04a6-2 0.75 65 jbr-03 80 40 0.14 acs880-01-06a6-2 1.1 65 jbr-03 80 40 0.14 acs880-01-07a5-2 1.5 65 jbr-03 80 40 0.14 acs880...
Page 256
256 resistor braking acs880-01-169a-3 90 3.3 safur125f500 4 3600 9 acs880-01-206a-3 110 3.3 safur125f500 4 3600 9 acs880-01-246a-3 132 2.3 safur200f500 2.7 5400 13.5 acs880-01-293a-3 132 2.3 safur200f500 2.7 5400 13.5 acs880-01-363a-3 160 2.0 safur200f500 2.7 5400 13.5 acs880-01-430a-3 160 2.0 safur...
Page 257
Resistor braking 257 p brcont maximum continuous braking power. The braking is considered continuous if the braking time exceeds 30 seconds. R min the minimum allowed resistance value of the brake resistor r resistance value for the listed resistor assembly e r short energy pulse that the resistor a...
Page 258: Jbr-03
258 resistor braking jbr-03 3afe68711444.
Page 259: Sace08Re44
Resistor braking 259 sace08re44 jbr-03 brake resistor dimension a 340 mm (13.39 in) dimension b 200 mm (7.87 in) dimension c 170 mm (6.69 in) weight 0.8 kg (1.8 lb) maximum wire size of main terminals 10 mm 2 (awg6) tightening torque of main terminals 1.5 … 1.8 n·m (13 … 16 lbf·in) wire size of ther...
Page 260: Sace15Re13 And Sace15Re22
260 resistor braking sace15re13 and sace15re22 safur80f500 and safur90f575 sace15rexx 260 290 350 36 5 Ø 6 131 weight: 6 kg (13 lb) 234 300 60 0 Ø 7 345 r+ r- 55 0 brake resistor type weight safur80f500 14 kg (31 lb) safur90f500 12 kg (26 lb).
Page 261
Resistor braking 261 safur125f500 and safur200f500 234 300 132 0 Ø 7 345 1270 brake resistor type weight safur125f500 25 kg (55 lb) safur200f500 30 kg (66 lb).
Page 262
262 resistor braking.
Page 263: Common Mode, Du/dt And
Common mode, du/dt and sine filters 263 15 common mode, du/dt and sine filters what this chapter contains this chapter describes how to select external filters for the drive. Common mode filters when is a common mode filter needed? See section checking the compatibility of the motor and drive , page...
Page 264: Du/dt Filter Types
264 common mode, du/dt and sine filters du/dt filter types description, installation and technical data of the foch filters see foch du/dt filters hardware manual (3afe68577519 [english]). Description, installation and technical data of the noch filters see aoch and noch du/dt filters hardware manua...
Page 265: Sine Filters
Common mode, du/dt and sine filters 265 sine filters selecting a sine filter for a drive check housing of sine filters from the manufacturer. Drive type acs880- 01-... Sine filter type i cont. Max p cont. Max heat dissipation noise drive filter total a kw w w w db(a) u n = 400 v 02a4-3 b84143v0004r2...
Page 266
266 common mode, du/dt and sine filters 05a2-5 b84143v0006r229* 4.8 3.6 94 100 194 72 07a6-5 b84143v0011r229* 7.0 5.3 122 90 212 72 11a0-5 b84143v0011r229* 10.2 7.7 172 90 262 72 014a-5 b84143v0016r229* 13 9.8 232 80 312 70 021a-5 b84143v0025r229* 20 14.7 337 140 477 75 027a-5 b84143v0033r229* 25 18...
Page 267: Definitions
Common mode, du/dt and sine filters 267 definitions derating see section deratings for special settings in the drive control program on page 162 . Description, installation and technical data see sine filters hardware manual (3axd50000016814 [english]) 042a-7 b84143v0040r230* 40 30.1 998 250 1248 75...
Page 268
268 common mode, du/dt and sine filters.
Page 269
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/searchcha...
Page 270
Contact us www.Abb.Com/drives www.Abb.Com/drivespartners 3aua0000078093 rev m (en) effective: 2017-08-08.