ABB ACS180, Quick Installation And Start-Up Manual

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Related documents
3AXD50000510344 Rev C EN 2022-03-25
Original instructions.
© Copyright 2022 ABB. All rights reserved.
ACS180 manual list
Ecodesign information
(EU 2019/1781)
ACS180 Smart Guide
Warnings and faults
WARNING! If you activate the automatic fault reset or automatic restart functions
of the drive control program, make sure that no dangerous situations can occur.
These functions reset the drive automatically and continue operation after a fault
or supply break. If these functions are activated, the installation must be clearly
marked as defined in IEC/EN 61800-5-1, subclause 6.5.3, for example, “THIS
MACHINE STARTS AUTOMATICALLY”.
List of most commonly used parameters
For the complete list of parameters, refer to the drive firmware manual.
Code Description
2310 Overcurrent. The output current is more than the internal limit. This can be
caused by an earth fault or phase loss.
2330 Earth leakage. A load unbalance that is typically caused by an earth fault in the
motor or the motor cable.
2340 Short circuit. There is a short circuit in the motor or the motor cable.
3130 Input phase loss. The intermediate DC circuit voltage oscillates.
3181 Cross connection. The input and motor cable connections are incorrect.
3210 DC link overvoltage. There is an overvoltage in the intermediate DC circuit.
3220 DC link undervoltage. There is an undervoltage in the intermediate DC circuit.
3381 Output phase loss. All three phases are not connected to the motor.
5091 Safe torque off. The Safe torque off (STO) function is on.
6681 EFB communication loss. Break in embedded fieldbus communication.
AFF6 Identification run. The motor ID run occurs at the next start.
FA81 Safe torque off 1: Safe torque off circuit 1 is broken.
FA82 Safe torque off 2: Safe torque off circuit 2 is broken.
Par. No. Par. Name Settings/Range (default value in bold)
Group 99 Motor data
99.03 Motor type [0]Asynchronous motor , [1]Permanent magnet motor
99.04 Motor control mode [0]Vector, [1]Scalar
99.06 Motor nominal current depends on rating
99.07 Motor nominal voltage depends on rating
99.08 Motor nominal
frequency
depends on rating
99.09 Motor nominal speed depends on rating
99.10 Motor nominal power depends on rating
99.11 Motor nominal cos
φ
0.00 … 1.00
99.12 Motor nominal torque depends on rating
99.16 Motor phase order [0]UVW ,[1]UWV
Group 01 Actual values (read-only)
1.01 Motor speed used -30000.00 … 30000.00 RPM
1.06 Output frequency -500.00 … 500.00 Hz
1.07 Motor current 0.00 … 30000.00 A
1.10 Motor Torque -1600.00% … 1600.00%
1.11 DC voltage 0.00 … 2000.00 V
1.13 Output voltage 0 … 2000 V
1.14 Output power -32768.00 … 32767.00 kW
Group 5 Diagnostics (read-only)
5.02 Run-time counter 0 … 65535 days
5.11 Inverter temperature -40.0 … 160.0 %
Group 10 Standard DI, RO
10.24 RO1 source [2]Ready run, [7]Running , [14]Fault, [16]Fault/Warning
Group 11 Standard DI, RO
11.06 DO output source [2]Ready run, [7]Running, [14]Fault , [16]Fault/Warning
11.21 DI5/AI1 configuration [0]Digital input, [1]Analog input
Group 12 Standard AI
12.15 AI1 unit selection [2]V , [10]mA
12.17 AI1 min -22.000 … 22.000 mA or V, 0mA or 0V
12.18 AI1 max -22.000 … 22.000 mA or V, 20mA or 10V
12.19 AI1 scaled at AI1 min -32768.000 … 32767.000, 0
12.20 AI1 scaled at AI1 max -32768.000 … 32767.000, 50
12.25 AI2 unit selection [2]V , [10]mA
12.27 AI2 min -22.000 … 22.000 mA or V, 0mA or 0V
12.28 AI2 max -22.000 … 22.000 mA or V, 20mA or 10V
12.29 AI2 scaled at AI2 min -32768.000 … 32767.000, 0
12.30 AI2 scaled at AI2 max -32768.000 … 32767.000, 50
Group 13 Standard AO
13.12 AO1 source [3]Output frequency , [4]Motor current
13.15 AO1 unit selection [2]V, [10]mA
13.17 AO1 source min -32768.000 … 32767.000, 0
13.18 AO1 source max -32768.000 … 32767.000, 50
13.19 AO1 out at AO1 src min -22.000 … 22.000 mA or V, 0mA or 0V
13.20 AO1 out at AO1 src max -22.000 … 22.000 mA or V, 20mA or 10V
Group 19 Operation mode
19.11 Ext1/Ext2 selection [0]EXT1 , [1]EXT2, [3]DI1, [4]DI2, [5]DI3, [6]DI4, [7]DI5,
[32]Embeded fieldbus
19.17 Local control disable [0]No , [1]Yes
Group 20 Start/stop/direction
20.01 Ext1 commands [0]Not selected, [1]In1 Start, [2]In1 Start ; In2 Dir , [3]In1
Start fwd;In2 Start rev, [4]In1P Start;In2 Stop,[5]In1P
Start;In2 Stop;In3 Dir, [6]In1P Start fwd;In2P Start
rev;In3 Stop, [14]Embeded fieldbus
20.03 Ext1 in1 source [0]Always off, [2]DI1 , [3]DI2, [4]DI3, [5]DI4, [6]DI5
20.04 Ext1 in2 source [0]Always off,[2]DI1, [3]DI2 , [4]DI3, [5]DI4, [6]DI5
20.05 Ext1 in3 source [0]Always off , [2]DI1, [3]DI2, [4]DI3, [5]DI4, [6]DI5
20.06 Ext2 commands [0]Not selected , [1]In1 Start, [2]In1 Start;In2 Dir, [3]In1
Start fwd;In2 Start rev, [4]In1P Start;In2 Stop,[5]In1P
Start;In2 Stop;In3 Dir, [6]In1P Start fwd;In2P Start
rev;In3 Stop, [14]Embeded fieldbus
20.08 Ext2 in1 source [0]Always off , [2]DI1, [3]DI2, [4]DI3, [5]DI4, [6]DI5
20.09 Ext2 in2 source [0]Always off , [2]DI1, [3]DI2, [4]DI3, [5]DI4, [6]DI5
20.10 Ext2 in3 source [0]Always off , [2]DI1, [3]DI2, [4]DI3, [5]DI4, [6]DI5
20.21 Direction [0]Request , [1]Forward, [2]Reverse
Group 21 Start/stop mode
21.01 Start mode [0]Fast, [1]Const time , [2]Automatic
21.02 Magnetization time 0 … 10000 ms, 500ms
21.03 Stop mode [0]Coast, [1]Ramp
21.19 Scalar start mode [0]Normal, [1]Const time , [2]Automatic, [3]Torque
Boost, [5]Flying start
Group 22 Speed reference selection
22.11 Ext1 speed ref1 [1]AI1 scaled , [2]AI2 scaled, [8]EFB ref1, [9]EFB ref2,
[16]PID
22.18 Ext2 speed ref1 [0]Zero , [1]AI1 scaled, [2]AI2 scaled, [8]EFB ref1, [9]EFB
ref2, [16]PID
22.22 Constant speed sel1 [0]Always off, [2]DI1, [3]DI2, [4]DI3 , [5]DI4, [6]DI5
22.23 Constant speed sel2 [0]Always off, [2]DI1, [3]DI2, [4]DI3, [5]DI4 , [6]DI5
22.26 Constant speed 1 -30000.00 … 30000.00rpm, 300rpm
22.27 Constant speed 2 -30000.00 … 30000.00rpm, 600rpm
22.28 Constant speed 3 -30000.00 … 30000.00rpm, 900rpm
22.71 Motor potentiometer
function
[0]Disabled, [1]Enabled (init at stop/power-up),
[2]Enabled (resume always), [3]Enabled (init to actual)
22.72 Motor potentiometer
initial value
-32768.00… 32767.00, 0.00
22.73 Motor potentiometer up
source
[0]Not selected , [2]DI1, [3]DI2, [4]DI3, [5]DI4, [6]DI5
22.74 Motor potentiometer
down source
[0]Not selected , [2]DI1, [3]DI2, [4]DI3, [5]DI4, [6]DI5
22.75 Motor potentiometer
ramp time
0.0…3600.0 s, 40.0s
22.76 Motor potentiometer
min value
-32768.00… 32767.00, -50.00
22.77 Motor potentiometer
max value
-32768.00… 32767.00, 50.00
Group 23 Speed reference ramp
23.12 Acceleration time 1 0.000 … 1800.000s, 3.000s
23.13 Deceleration time 1 0.000 … 1800.000s, 3.000s
Group 28 Frequency reference chain
28.11 Ext1 frequency ref1 [1]AI1 scaled , [2]AI2 scaled, [8]EFB ref1, [9]EFB ref2,
[16]PID
28.15 Ext2 frequency ref1 [0]Zero , [1]AI1 scaled, [2]AI2 scaled, [8]EFB ref1, [9]EFB
ref2, [16]PID
28.22 Constant frequency sel1 [0]Always off, [2]DI1, [3]DI2, [4]DI3 , [5]DI4, [6]DI5
Ratings
Fuses and typical power cable sizes
28.23 Constant frequency sel2 [0]Always off, [2]DI1, [3]DI2, [4]DI3, [5]DI4 , [6]DI5
28.26 Constant freqency 1 -500.00 … 500.00Hz, 5Hz
28.27 Constant freqency 2 -500.00 … 500.00Hz, 10Hz
28.28 Constant freqency 3 -500.00 … 500.00Hz, 15Hz
28.72 Freq acceleration time 1 0.000 … 1800.000 s, 3s
28.73 Freq deceleration time 1 0.000 … 1800.000 s, 3s
Group 30 Limits
30.11 Minimum speed -30000.00 … 30000.00rpm, -1500.00rpm
30.12 Maximum speed -30000.00 … 30000.00rpm, 1500.00rpm
30.13 Minimum frequency -500 … 500 Hz, -50Hz
30.14 Maximum frequency -500 … 500 Hz, 50Hz
30.17 Maximum current depends on rating
Group 31 Fault functions
31.11 Fault reset selection [0]not used, [2]DI1, [3]DI2, [4]DI3, [5]DI4, [6]DI5
Group 40 Process PID set 1
40.07 Process PID operation
mode
[0]OFF , [1]ON, [2]ON when drive running
40.08 Set 1 feedback 1 source [8]AI1 percent , [9]AI2 percent
40.16 Set 1 setpoint 1 source [2]Internal setpoint, [11]AI1 percent, [12]AI2 percent
40.24 Set 1 internal setpoint 0 -200000.00 … 200000.00, 0
40.31 Set 1 deviation inversion [0]Not inverted (Ref - Fbk) , [1]Inverted (Fbk - Ref)
40.32 Set 1 gain 0.01 … 100.00, 1
40.33 Set 1 integration time 0.0 … 9999.0 s, 60s
Group 45 Energy efficiency
45.11 Energy optimizer [0]Disable , [1]Enable
Group 58 Embedded fieldbus
58.01 Protocol enable [0]None , [1]ModbusRTU
58.03 Node address 0 … 255, 1
58.04 Baud rate [1]4800, [2]9600, [3]19200 , [4]38400, [5]57600,
[6]76800, [7]115200
58.05 Parity [0]8 NONE 1 , [1]8 NONE 2, [2]8 EVEN 1, [3]8 ODD 1
58.06 Communication control [0]Enabled , [1]Refresh settings
58.14 Communication loss
action
[0]No action, [1]Fault , [2]Last speed, [5]Warning
Type
ACS180-
04x-...
Input current
Output ratings
No
choke
With
choke
Max.
current Nominal use
Light-duty use Heavy-duty use
I
1
I
1
I
max
I
N
P
N
I
Ld
P
Ld
I
Hd
P
Hd
A A A A kW A kW
hp
A kW
hp
1-phase U
N
= 230 V (range 200 … 240 V)
02A4-1 5 3.3 3.2 2.4 0.37 2.3 0.37 0.5 1.8 0.25 0.33
03A7-1 6.9 4.8 4.3 3.7 0.55 3.5 0.55 0.75 2.4 0.37 0.5
04A8-1 9 6.2 6.7 4.8 0.75 4.6 0.75 1 3.7 0.55 0.75
06A9-1 12.6 9.2 8.1 6.9 1.1 6.6 1.1 1.5 4.5 0.75 1
07A8-1 17.3 12 11.9 7.8 1.5 7.4 1.5 2 6.6 1.1 1.5
09A8-1 21.8 17 13.3 9.8 2.2 9.3 2.2 3 7.4 1.5 2
12A2-1 23.9 21.1 17.6 12.2 3 11.6 3 3 9.8 2.2 3
3-phase U
N
= 230 V (range 200 … 240 V)
02A4-2 3.6 2.4 3.2 2.4 0.37 2.3 0.37 0.5 1.8 0.25 0.33
03A7-2 5.6 3.7 4.3 3.7 0.55 3.5 0.55 0.75 2.4 0.37 0.5
04A8-2 7.2 4.8 6.7 4.8 0.75 4.6 0.75 1 3.7 0.55 0.75
06A9-2 10.4 6.9 8.1 6.9 1.1 6.6 1.1 1.5 4.5 0.75 1
07A8-2 11.7 7.8 11.9 7.8 1.5 7.4 1.5 2 6.6 1.1 1.5
09A8-2 14.7 9.8 13.3 9.8 2.2 9.3 2.2 3 7.4 1.5 2
15A6-2 19.2 15.6 19.3 15.6 3 14.6 3 3 10.7 2.2 3
17A5-2 23.6 17.5 22 17.5 4 16.7 4 5 12.2 3 3
25A0-2 27.7 25 31.5 25 5.5 24.2 5.5 7.5 17.5 4 5
033A-2 33.9 32 45 32 7.5 30.8 7.5 10 25 5.5 7.5
048A-2 48.4 48 57.6 48 11 46.2 11 15 32 7.5 10
055A-2 60 55 86.4 55 11 52.8 11 15 48 11 15
3-phase U
N
= 400 V (range 380 … 415 V)
01A8-4 2.8 1.5 2.2 1.8 0.55 1.7 0.55 - 1.2 0.37 -
02A6-4 3.6 1.9 3.2 2.6 0.75 2.5 0.75 - 1.8 0.55 -
03A3-4 4.6 2.5 4.3 3.3 1.1 3.1 1.1 - 2.4 0.75 -
04A0-4 6.3 3.3 5.9 4 1.5 3.8 1.5 - 3.3 1.1 -
05A6-4 9.1 4.6 7.2 5.6 2.2 5.3 2.2 - 4 1.5 -
07A2-4 12 5.9 10.1 7.2 3 6.8 3 - 5.6 2.2 -
09A4-4 13 7.9 13 9.4 4 8.9 4 - 7.2 3 -
12A6-4 17.4 12.6 16.9 12.6 5.5 12 5.5 - 9.4 4 -
17A0-4 25.2 17 22.7 17 7.5 16.2 7.5 - 12.6 5.5 -
25A0-4 31.8 25 30.6 25 11 23.8 11 - 17 7.5 -
033A-4 40.7 32 45 32 15 30.5 15 - 25 11 -
038A-4 49 38 57.6 38 18.5 36 18.5 - 32 15 -
045A-4 55.7 45 68.4 45 22 42 22 - 38 18.5 -
050A-4 55.7 50 81 50 22 48 22 - 45 22 -
3-phase
U
N
= 460 V (range 440 … 480 V)
01A8-4 1.9 1.3 2.2 - - 1.6 - 0.75 1.1 - 0.5
02A6-4 2.4 1.6 3.2 - - 2.1 - 1 1.6 - 0.75
03A3-4 3.5 2.1 4.3 - - 3 - 1.5 2.1 - 1
04A0-4 4.6 2.8 5.9 - - 3.5 - 2 3 - 1.5
05A6-4 6.9 3.8 7.2 - - 4.7 - 3 3.4 - 2
07A2-4 9.2 5 10.1 - - 6 - 3 4.8 - 3
09A4-4 10.3 6.7 13 - - 7.6 - 5 6.3 - 3
12A6-4 14.8 11 16.9 - - 11 - 7.5 7.6 - 5
17A0-4 20.3 14 22.7 - - 14 - 10 11 - 7.5
25A0-4 26.6 21 30.6 - - 21 - 15 14 - 10
033A-4 33.7 27 45 - - 27 - 20 21 - 15
038A-4 41.3 34 57.6 - - 34 - 25 27 - 20
045A-4 46.9 40 68.4 - - 40 - 30 34 - 25
050A-4 46.9 42 81 - - 42 - 30 40 - 30
I
1
Input current for 230 V and 400 V with motor power P
N
(kW), and for 480 V with motor
power P
Ld
(hp).
I
max
Maximum output current. Available for 2 seconds every 10 minutes when the output
frequency is less than 9 Hz.
I
N
Nominal output current. Maximum continuous rms output current (no overload).
I
Ld
Continuous rms output current. Allows 10% overload for 1 minute every 10 minutes.
I
Hd
Continuous rms output current. Allows 50% overload for 1 minute every 10 minutes.
P
N
Typical motor power in nominal use (no overload)
P
Ld
Typical motor power in light-duty use (10% overload)
P
Hd
Typical motor power heavy-duty use (50% overload)
The kilowatt ratings are applicable to most IEC 4-pole motors. The horsepower ratings
are applicable to most NEMA 4-pole motors.
Type
ACS180
-04x-...
Fuses Cable conductor
sizes (Cu)
Frame
size
gG gR UL class T
1) 2) 3) 4)
ABB type
Bussmann
type
Bussmann/
Edison type
mm
2
AWG
1-phase U
N
= 230 V (range 200 … 240 V)
02A4-1 C10G10 FWP-32G14F JJN-6 3×1.5 + 1.5 16 R0
03A7-1 C10G16 FWP-32G14F JJN-10 3×1.5 + 1.5 16 R0
04A8-1 C10G16 FWP-40G14F JJN-15 3×1.5 + 1.5 16 R0
06A9-1 C10G20 FWP-50G14F JJN-20 3×1.5 + 1.5 16 R1
07A8-1 C10G25 FWP-50G14F JJN-25 3×2.5 + 2.5 14 R1
09A8-1 C14G40 FWP-50G14F JJN-35 3×2.5 + 2.5 14 R1
12A2-1 C14G40 FWP-63G22F JJN-35 3×2.5 + 2.5 14 R2
3-phase U
N
= 230 V (range 200 … 240 V)
02A4-2 C10G6 FWP-25G14F JJN-6 3×1.5 + 1.5 16 R0
03A7-2 C10G8 FWP-32G14F JJN-10 3×1.5 + 1.5 16 R0
04A8-2 C10G16 FWP-32G14F JJN-10 3×1.5 + 1.5 16 R0
06A9-2 C10G16 FWP-50G14F JJN-15 3×1.5 + 1.5 16 R1
07A8-2 C10G20 FWP-50G14F JJN-20 3×2.5 + 2.5 14 R1
09A8-2 C10G25 FWP-50G14F JJN-20 3×2.5 + 2.5 14 R1
15A6-2 C10G32 FWP-50G14F JJN-30 3×6 + 6 10 R2
17A5-2 C10G32 FWP-50G14F JJN-35 3×6 + 6 10 R2
25A0-2 OFAF000H50 FWP-80G22F JJN-50 3×6 + 6 10 R3
033A-2 OFAF000H63 FWP-100G22F JJN-60 3×10 + 10 8 R3
048A-2 OFAF000H100 FWP-150A JJN-100 3×25 + 16 4 R4
055A-2 OFAF000H100 FWP-150A JJN-100 3×25 + 16 4 R4
3-phase U
N
= 400 V (range 380 … 415 V) or 460 V (range 440 … 480 V)
01A8-4 C10G4 FWP-20G14F JJS-6 3×1.5 + 1.5 16 R0
02A6-4 C10G6 FWP-20G14F JJS-6 3×1.5 + 1.5 16 R0
03A3-4 C10G10 FWP-20G14F JJS-10 3×1.5 + 1.5 16 R0
04A0-4 C10G10 FWP-25G14F JJS-10 3×1.5 + 1.5 16 R1
05A6-4 C10G16 FWP-25G14F JJS-20 3×1.5 + 1.5 16 R1
07A2-4 C10G20 FWP-32G14F JJS-20 3×2.5 + 2.5 14 R1
09A4-4 C10G25 FWP-32G14F JJS-25 3×2.5 + 2.5 14 R1
12A6-4 C14G32 FWP-50G14F JJS-30 3×2.5 + 2.5 14 R2
17A0-4 C14G40 FWP-50G14F JJS-35 3×6 + 6 10 R2
25A0-4 OFAF000H50 FWP-80G22F JJS-50 3×6 + 6 10 R3
033A-4 OFAF000H63 FWP-100G22F JJS-60 3×10 + 10 8 R3
038A-4 OFAF000H80 FWP-125A JJS-80 3×10 + 10 8 R4
045A-4 OFAF000H100 FWP-150A JJS-100 3×16 + 16 6 R4
050A-4 OFAF000H100 FWP-150A JJS-100 3×25 + 16 4 R4
Par. No. Par. Name Settings/Range (default value in bold)
Terminal data for the power cables
Notes:
•
The minimum specified wire size does not necessarily have sufficient current carrying
capacity at maximum load.
•
The terminals do not accept a conductor that is one size larger than the maximum
specified wire size.
•
The maximum number of conductors per terminal is 1.
Free space requirements
Note: Frame size R0 requires 50mm sides space. If the ambient temperature is < 40°C, it can
be installed side-by-side.
Dimensions and weights
Ambient conditions
Markings
The applicable markings are shown on the type label of the product.
Safe torque off (STO)
The drive has a Safe torque off function (STO) in accordance with IEC/EN 61800-5-2. It can be
used, for example, as the final actuator device of safety circuits that stop the drive in case of
danger (such as an emergency stop circuit).
When activated, the STO function disables the control voltage of the power semiconductors
of the drive output stage, thus preventing the drive from generating the torque required to
rotate the motor. The control program generates an indication as defined by parameter 31.22.
If the motor is running when Safe torque off is activated, it coasts to a stop. Closing the
activation switch deactivates the STO. Any faults generated must be reset before restarting.
The STO function has a redundant architecture, that is, both channels must be used in the
safety function implementation. The safety data given is calculated for redundant use, and
does not apply if both channels are not used.
WARNING! The STO function does not disconnect the voltage from the main and
auxiliary circuits of the drive.
Notes:
•
If stopping by coasting is not acceptable, stop the drive and machinery using the
appropriate stop mode before activating the STO.
•
The STO function overrides all other functions of the drive.

Wiring
The safety contacts must open/close within 200 ms of each other.
Double-shielded twisted-pair cable is recommended for the connection. The maximum length
of the cabling between the switch and the drive control unit is 300 m (1000 ft). Ground the
shield of the cable at the control unit only.

Validation
To ensure the safe operation of a safety function, a validation test is required. The test must
be carried out by a competent person with adequate expertise and knowledge of the safety
function. The test procedures and report must be documented and signed by this person.
Validation instructions of the STO function can be found in the drive hardware manual.

Technical data
•
Minimum voltage at S1 and S2 to be interpreted as “1”: 13 V DC
•
STO reaction time (shortest detectable break): 1 ms
•
STO response time: 2 ms (typical), 5 ms (maximum)
•
Fault detection time: Channels in different states for longer than 200 ms
•
Fault reaction time: Fault detection time + 10 ms
•
STO fault indication (parameter 31.22) delay: < 500 ms
•
STO warning indication (parameter
31.22) delay: < 1000 ms
•
Safety integrity level (EN 62061): SIL 3
•
Performance level (EN ISO 13849-1): PL e
The drive STO is a type A safety component as defined in IEC 61508-2.
For the full safety data, exact failure rates and failure modes of the STO function, refer to the
drive hardware manual.
Declaration of conformity
1) The recommended branch protection fuses must be used to maintain the IEC/EN/
UL 61800-5-1 listing.
2) The drive is suitable for use on a circuit capable of delivering not more than 100000
symmetrical amperes (rms) at 480 V (480 V drives) or 240 V (240 V drives) maximum when
protected by the fuses given in this table.
3) As an alternative to Class T fuses, you can use Class J or Class CF fuses of the same voltage
and current rating for branch circuit protection of 3-phase drives.
4) Refer to
Alternate Fuses, MMPs and Circuit Breakers for ABB Drives (
3AXD50000645015
[English] ) for additional UL fuses and circuit breakers that can be used as branch circuit
protection.
Frame size L1, L2, L3, T1/U, T2/V, T3/W, R-, R+/UDC+, UDC- PE
Min. wire size
(solid/
stranded)
Max. wire size
(solid/
stranded)
Tightening
torque
Max. wire size
(solid/
stranded)
Tightening
torque
mm
2
AWG mm
2
AWG N·m lbf·in mm
2
AWG N·m lbf·in
R0 0.2/0.2 18 6/4 10 0.5…0.6 5 6/4 10 1.2 10.6
R1...R2 0.2/0.2 18 6/6 8 0.5…0.6 5 6/4 10 1.2 10.6
R3 0.5/0.5 20 16/16 6 1.2…1.5 11…13 16/16 6 1.2 10.6
R4 0.5/0.5 20 25/35 2 2.5…3.7 22…32 25/35 2 1.2 10.6
Frame size
Above Below Sides
mm in mm in mm in
R0 75 3 75 3 50 2
R1…R4 75 3 75 3 0 0
Frame
size
Dimensions Weights
H1 H2 H3 W D M1 M2
mm in mm in mm in mm in mm in mm in mm in kg lb
R0 174 6.85 209 8.23 136 5.35 70 2.76 143 5.63 60 2.36 164 6.46 0.92 2.03
R1 190 7.48 220 8.66 152 5.98 70 2.76 143 5.63 60 2.36 180 7.09 1.24 2.73
R2 202 7.95 230 9.06 164.5 6.48 120 4.72 143 5.63 106 4.17 190.5 7.5 1.92 4.23
R3 205 8.07 241 9.5 164.5 6.48 170 6.69 174 6.85 148 5.83 191 7.52 3.3 7.28
R4 205 8.07 240 9.45 164.5 6.48 260 10.24 178.6 7.03 234 9.21 191 7.52 5.3 11.69
Requirement During operation (installed for stationary use)
Installation site
altitude
0 … 2000 m (0 … 6562 ft)
Derating:
The output current must be derated 1% for each 100 m (328 ft)
above 1000 m (3281 ft).
Surrounding air
temperature
For frame size R0 :
-10 … +50 °C (14 … 122 °F). No frost permitted.
For frame sizes R1...R4:
-10 … +60 °C (14 … 140 °F). No frost permitted.
See derating in Hardware Manual ( 3AXD50000467945 [English]) .
Relative humidity <95% (IEC 60068-2-78) without condensation
Contamination levels No conductive dust permitted.
Shock or free fall Not permitted
CE UL RCM EAC UKCA KC EIP green WEEE TÜV Nord