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SINAMICS G130
Motor reactors
Operating instructions · 03/2012
SINAMICS
s
Motor reactors
SINAMICS
SINAMICS G130
Motor reactors
Operating Instructions
Control version V4.5
03/2012
A5E00409660A
Legal information
Warning notice system
This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger.
DANGER indicates that death or severe personal injury will result if proper precautions are not taken.
WARNING indicates that death or severe personal injury may result if proper precautions are not taken.
CAUTION with a safety alert symbol, indicates that minor personal injury can result if proper precautions are not taken.
CAUTION without a safety alert symbol, indicates that property damage can result if proper precautions are not taken.
NOTICE indicates that an unintended result or situation can occur if the relevant information is not taken into account.
If more than one degree of danger is present, the warning notice representing the highest degree of danger will be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to property damage.
Qualified Personnel
The product/system described in this documentation may be operated only by personnel qualified for the specific task in accordance with the relevant documentation, in particular its warning notices and safety instructions.
Qualified personnel are those who, based on their training and experience, are capable of identifying risks and avoiding potential hazards when working with these products/systems.
Proper use of Siemens products
Note the following:
WARNING
Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems. The permissible ambient conditions must be complied with. The information in the relevant documentation must be observed.
Trademarks
All names identified by ® are registered trademarks of Siemens AG. The remaining trademarks in this publication may be trademarks whose use by third parties for their own purposes could violate the rights of the owner.
Disclaimer of Liability
We have reviewed the contents of this publication to ensure consistency with the hardware and software described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions.
A5E00409660A
Ⓟ 04/2012 Technical data subject to change
Copyright © Siemens AG 2012.
All rights reserved
Siemens AG
Industry Sector
Postfach 48 48
90026 NÜRNBERG
GERMANY
Table of contents
1
4
5
2
3
1.1
1.2
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
3
Table of contents
4
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Safety information
1
1.1
Warnings
WARNING
Hazardous voltages are present when electrical equipment is in operation.
Severe personal injury or substantial material damage may result if these warnings are not observed.
Only qualified personnel are permitted to work on or around the equipment.
This personnel must be thoroughly familiar with all the warnings and maintenance procedures described in these operating instructions.
The successful and safe operation of this device is dependent on correct transport, proper storage and installation, as well as careful operation and maintenance.
National safety guidelines must be observed.
DANGER
Five safety rules
When carrying out any kind of work on electrical devices, the "five safety rules" according to
EN 50110 must always be observed:
1.
Disconnect the system.
2.
Protect against reconnection.
3.
Make sure that the equipment is de-energized.
4.
Ground and short-circuit.
5.
Cover or enclose adjacent components that are still live.
NOTICE
For a UL-approved system use 60/75°C copper conductors only.
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
5
6
Safety information
1.2 Safety and application instructions
1.2
Safety and application instructions
DANGER
This equipment is used in industrial high-voltage installations. During operation, this equipment contains live, bare parts. For this reason, they could cause severe injury or significant material damage if the required covers are removed, if they are used or operated incorrectly, or have not been properly maintained.
When the machines are used in non-industrial areas, the installation location must be protected against unauthorized access (protective fencing, appropriate signs).
Prerequisites
Those responsible for protecting the plant must ensure the following:
● The basic planning work for the plant and the transport, assembly, installation, commissioning, maintenance, and repair work is carried out by qualified personnel and/or checked by experts responsible.
● The operating manual and machine documentation are always available.
● The technical specifications regarding the applicable installation, connection, environmental, and operating conditions are always observed.
● The plant-specific assembly and safety guidelines are observed and personal protection equipment is used.
● Unqualified personnel are forbidden from using these machines and working near them.
This operating manual is intended for qualified personnel and only contain information and notes relating to the intended purpose of the machines.
The operating manual and machine documentation are written in different languages as specified in the delivery contracts.
Note
We recommend engaging the support and services of your local Siemens service center for all planning, installation, commissioning and maintenance work.
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
General
Description
2
Motor reactors reduce the voltage load on the motor windings by reducing the voltage gradients at the motor terminals that occur during converter operation. At the same time, the capacitive charge/discharge currents that occur at the converter output when long motor cables are used are reduced.
The maximum output frequency when a motor reactor is used is 150 Hz.
Note
The connecting cables to the Power Module must be kept as short as possible.
CAUTION
The surface temperature of the motor reactors may exceed 80°C.
CAUTION
The 100 mm cooling clearances above and to the side of the components must be observed.
CAUTION
Provisions for component cooling must be made at the installation site. Power loss data are given in the technical specifications.
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
7
8
General
Assignment of motor reactor and Power Module
Table 2- 1 Assignment of motor reactor and Power Module
Power Module
6SL3310-1GE32-1AAx
6SL3310-1GE32-6AAx
6SL3310-1GE33-1AAx
6SL3310-1GE33-8AAx
6SL3310-1GE35-0AAx
6SL3310-1GE36-1AAx
6SL3310-1GE37-5AAx
6SL3310-1GE38-4AAx
6SL3310-1GE41-0AAx
6SL3310-1GF31-8AAx
6SL3310-1GF32-2AAx
6SL3310-1GF32-6AAx
6SL3310-1GF33-3AAx
6SL3310-1GF34-1AAx
6SL3310-1GF34-7AAx
6SL3310-1GF35-8AAx
6SL3310-1GF37-4AAx
6SL3310-1GF38-1AAx
6SL3310-1GH28-5AAx
6SL3310-1GH31-0AAx
6SL3310-1GH31-2AAx
6SL3310-1GH31-5AAx
6SL3310-1GH31-8AAx
6SL3310-1GH32-2AAx
6SL3310-1GH32-6AAx
6SL3310-1GH33-3AAx
6SL3310-1GH34-1AAx
6SL3310-1GH34-7AAx
6SL3310-1GH35-8AAx
6SL3310-1GH37-4AAx
6SL3310-1GH38-1AAx
Unit rating of the Power Module
Line voltage 380 – 480 V 3 AC
110 kW
132 kW
160 kW
200 kW
250 kW
315 kW
400 kW
450 kW
560 kW
Line voltage 500 – 600 V 3 AC
110 kW
132 kW
160 kW
200 kW
250 kW
315 kW
400 kW
500 kW
560 kW
Line voltage 660 – 690 V 3 AC
75 kW
90 kW
110 kW
132 kW
160 kW
200 kW
250 kW
315 kW
400 kW
450 kW
560 kW
710 kW
800 kW
Suitable motor reactor
6SL3000-2BE32-1AA0
6SL3000-2BE32-6AA0
6SL3000-2BE33-2AA0
6SL3000-2BE33-8AA0
6SL3000-2BE35-0AA0
6SL3000-2AE36-1AA0
6SL3000-2AE38-4AA0
6SL3000-2AE38-4AA0
6SL3000-2AE41-0AA0
6SL3000-2AH31-8AA0
6SL3000-2AH32-4AA0
6SL3000-2AH32-6AA0
6SL3000-2AH33-6AA0
6SL3000-2AH34-5AA0
6SL3000-2AH34-7AA0
6SL3000-2AH35-8AA0
6SL3000-2AH38-1AA0
6SL3000-2AH38-1AA0
6SL3000-2AH31-0AA0
6SL3000-2AH31-0AA0
6SL3000-2AH31-5AA0
6SL3000-2AH31-5AA0
6SL3000-2AH31-8AA0
6SL3000-2AH32-4AA0
6SL3000-2AH32-6AA0
6SL3000-2AH33-6AA0
6SL3000-2AH34-5AA0
6SL3000-2AH34-7AA0
6SL3000-2AH35-8AA0
6SL3000-2AH38-1AA0
6SL3000-2AH38-1AA0
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
General
Using a motor reactor and dv/dt filter to limit the voltage gradient and transients
IGBT converter switching frequencies result in high voltage gradients (dv/dt) at the converter output. If long motor cables are used, this leads to an additional current load on the converter due to capacitive charge/discharge currents. The high voltage gradients, and the resulting transients at the motor terminals, cause the motors' electrical winding load to increase as compared with direct on-line operation. In conjunction with the connected cable capacitances, the motor reactors with their adapted inductances reduce the capacitive charge/discharge currents in the motor cables and, as a function of these motor cables, limit the voltage gradient (dv/dt) and the transients Û
LL
at the motor terminals.
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3
2
1
8
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5
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4
3
2
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8
1
GYGW
6
5
0
0
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UHDFWRU
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9ROWDJH3HDN
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Figure 2-1 Using a motor reactor and dv/dt filter to limit the voltage gradient and transients
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
9
General
10
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Mechanical installation
Dimension drawing
O
O O
0RXQWLQJKROH
G
Q
D
D
D
Q
Q
7\SH
D
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Figure 3-1 Dimension drawing, motor reactor
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
D
7\SH
D
3
11
12
Mechanical installation
Table 3- 1 Dimensions of motor reactor, 380 V – 480 V 3 AC, part 1 (all specifications in mm)
6SL3000-
Connection type a2 a3 a4 a5
I4
I5 h1 h2 h3 h4 n1 1) n2 1)
2BE32-1AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
163
224
2BE32-6AA0
Type 1
25
5
12.5
11
300
100
-
227
60
315
183
224 n3 n4 n5
257
79
-
277
79
- d3 M8 M8
1) Lengths n1 and n2 correspond to the drill hole spacing
2BE33-2AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
163
224
257
79
-
M8
2BE33-8AA0
Type 1
100
-
194
60
285
183
224
277
79
-
M8
25
5
12.5
11
300
Table 3- 2 Dimensions of motor reactor, 380 V – 480 V 3 AC, part 2 (all specifications in mm)
6SL3000-
Connection type a2 a3 a4 a5
I4
I5 h1 h2 h3 h4 n1 1) n2 1) n3 n4 n5
2BE35-0AA0
Type 2
30
6
15
14
300
100
-
245
60
365
183
224
277
79
-
2AE36-1AA0
Type 1
40
8
20
14
410
140
392
252
120
385
191
316
292
84.5
30 d3 M10 M10
1) Lengths n1 and n2 correspond to the drill hole spacing
2AE38-4AA0
Type 1
40
8
20
14
410
140
392
252
120
385
191
316
292
84.5
30
M10
2AE41-0AA0
Type 1
410
140
392
252
120
40
8
20
14
385
206
316
302
79.5
-
M10
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Mechanical installation
Table 3- 3 Dimensions of motor reactor, 500 V – 600 V 3 AC, part 1 (all specifications in mm)
6SL3000-
Connection type a2 a3 a4 a5
I4
I5 h1 h2 h3 h4 n1 1) n2 1)
2AH31-8AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
118
224
2AH32-4AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
118
224 n3 n4 n5
212
79
-
212
79
- d3 M8 M8
1) Lengths n1 and n2 correspond to the drill hole spacing
2AH32-6AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
118
224
212
79
-
M8
2AH33-6AA0
Type 1
100
-
194
60
285
118
224
212
79
-
M8
25
5
12.5
11
300
Table 3- 4 Dimensions of motor reactor, 500 V – 600 V 3 AC, part 2 (all specifications in mm)
6SL3000-
Connection type a2 a3 a4 a5
I4
I5 h1 h2 h3 h4 n1 1) n2 1) n3 n4 n5
2AH34-5AA0
Type 1
30
6
15
14
350
120
-
235
60
330
138
264
215
63
-
2AH34-7AA0
Type 1
40
8
20
14
410
140
392
252
120
385
141
316
292
134.5
30 d3 M8 M10
1) Lengths n1 and n2 correspond to the drill hole spacing
2AH35-8AA0
Type 1
40
8
20
14
410
140
392
252
120
385
141
316
292
134.5
30
M10
2AH38-1AA0
Type 1
410
140
392
252
120
40
8
20
14
385
183
316
279
79.5
-
M10
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
13
Mechanical installation
Table 3- 5 Dimensions of motor reactor, 660 V – 690 V 3 AC, part 1 (all specifications in mm)
6SL3000-
Connection type a2 a3 a4 a5
I4
I5 h1 h2 h3 h4
2AH31-0AA0
Type 1
25
5
12.5
11
270
88
-
150
60
248
2AH31-5AA0
Type 1
25
5
12.5
11
270
88
-
150
60
248 n1 1) n2 1) n3 n4
103
200
200
82
103
200
200
82 n5 d3
-
M8
-
M8
1) Lengths n1 and n2 correspond to the drill hole spacing
2AH31-8AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
118
224
212
79
-
M8
2AH32-4AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
118
224
212
79
-
M8
Table 3- 6 Dimensions of motor reactor, 660 V – 690 V 3 AC, part 2 (all specifications in mm)
6SL3000-
Connection type a2 a3 a4 a5
I4
I5 h1 h2 h3 h4 n1 1)
2AH33-6AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
118
2AH34-5AA0
Type 1
30
6
15
14
350
120
-
235
60
330
138 n2 1) n3 n4 n5
224
212
79
-
264
215
63
- d3 M8 M8
1) Lengths n1 and n2 correspond to the drill hole spacing
2AH34-7AA0
Type 1
40
8
20
14
410
140
392
252
120
385
141
316
292
134.5
30
M10
2AH35-8AA0
Type 1
40
8
20
14
316
292
134.5
30
M10
410
140
392
252
120
385
141
2AH38-1AA0
Type 1
40
8
20
14
410
140
392
252
120
385
183
316
279
79.5
-
M10
2AH32-6AA0
Type 1
25
5
12.5
11
300
100
-
194
60
285
118
224
212
79
-
M10
14
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Electrical installation
4
Important safety precautions
WARNING
The devices are operated with high voltages.
All connection procedures must be carried out when the cabinet is de-energized.
All work on the device must be carried out by trained personnel only.
Death, serious injury, or substantial material damage can result if these warnings are not taken into account.
Work on an open device must be carried out with extreme caution because external supply voltages may be present. The power and control terminals may be live even when the motor is not running.
Dangerously high voltage levels are still present in the cabinet up to five minutes after it has been disconnected due to the DC link capacitors on the Power Module. For this reason, the cabinet should not be opened until a reasonable period of time has elapsed.
The operator is responsible for ensuring that the motor reactor and other components are installed and connected in accordance with the recognized technical rules in the country of installation and applicable regional guidelines. Special attention should be paid to cable dimensioning, fuses, grounding, shutdown, disconnection, and overcurrent protection.
If an item of protective gear trips in a branch circuit, a leakage current may have been disconnected. To reduce the risk of fire or an electric shock, the current-conducting parts and other components in the built-in unit should be inspected and damaged parts replaced.
When an item of protective gear trips, the cause of the trip must be identified and rectified.
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
15
Electrical installation
Connection
When connecting the motor reactor, you must take into account the following conditions to ensure that it functions correctly:
● With analog control cables, connecting the shield at both ends can result in coupled-in noise. To prevent this, the shield must only be connected at one end on the Power
Module.
● Control cables must be routed separately from power cables. Power cables are motor cables or connecting cables from the DC link of the Power Module (terminals
DCPA/DCNA) to other components (e.g., Braking Module). In particular, you must ensure that control cables and power cables are not routed in parallel in a joint cable raceway, even if all the cables are shielded.
● You must use shielded motor cables. The shield for the motor cable must be attached to the shield plate and motor housing.
● The ground wire for the motor must be fed directly back to the Power Module.
Connection overview
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U1
V1
U2
V2
W1 W2
1U1
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1U2
1V1
1W1
1V2
1W2
PE1
0RXQWLQJSODWH
PE2
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V
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U
PE
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Figure 4-1 Connecting the motor reactor and Power Module
16
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Technical specifications
5
General technical data
Table 5- 1 General technical data
Output frequency
Product standard
Ambient conditions
Ambient temperature
Relative air humidity 1)
(condensation not permissible) corresponds to class
Mechanical strength
Vibrational load 1)
- Displacement
- Acceleration corresponds to class
Shock load 1)
- Acceleration corresponds to class
0 ... 150 Hz
EN 61800-5-1
Storage
-25 ... +70 °C
5 ... 95 %
1K4 acc. to EN 60721-3-1
Storage
1.5 mm at 5 ... 9 Hz
5 m/s² at > 9 ... 200 Hz
1M2 to EN 60721-3-1
40 m/s² at 22 ms
1M2 to EN 60721-3-1
Transport
-25 ... +70 °C
5 ... 95% at 40 °C
2K3 to EN 60721-3-2
Transport
3.5 mm at 5 ... 9 Hz
10 m/s² at > 9 ... 200 Hz
2M2 to EN 60721-3-2
100 m/s² at 11 ms
2M2 to EN 60721-3-2
Operation
0 ... +50 °C
5 ... 95%
3K3 to EN 60721-3-3
Operation
0.075 mm at 10 ... 58 Hz
10 m/s² at >58 ... 200 Hz
-
100 m/s² at 11 ms
3M4 to EN 60721-3-3
Deviations from the specified classes are shown in italics.
1) The EN standards specified are the European editions of the international IEC standards with the same designations.
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
17
Technical specifications
Detailed technical data
Table 5- 2 Technical specifications of motor reactors 380 V – 480 V 3 AC, part 1
Order number
Suitable for Power Module 6SL3310-
Rated current
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight
6SL3000-
A kW kW m mm mm mm kg
2BE32-1AA0
1GE32-1AAx
210
0.436
0.486
M10
M10
M8
IP00
300
285
257
66
2BE32-6AA0
1GE32-6AAx
260
0.454
0.5
M10
M10
M8
300 (shielded)
450 (unshielded)
0.422
0.47
M10
M10
M8
IP00
300
315
277
66
2BE33-2AA0
1GE33-1AAx
310
IP00
300
285
257
66
Table 5- 3 Technical specifications of motor reactors 380 V – 480 V 3 AC, part 2
Order number 6SL3000-
Suitable for Power Module 6SL3310-
Rated current A
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE kW kW
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight m mm mm mm kg
2BE35-0AA0
1GE35-0AAx
490
0.448
0.5
M12
M12
M8
IP00
300
365
277
100
2AE36-1AA0
1GE36-1AAx
605
1GE37-5AAx
840
0.798
0.9
M12
M12
M10
300 (shielded)
450 (unshielded)
0.75
0.84
M12
M12
M10
IP00
410
392
292
130
2AE38-4AA0
IP00
410
392
292
140
2BE33-8AA0
1GE33-8AAx
380
0.447
0.5
M10
M10
M8
IP00
410
392
292
140
IP00
300
285
277
73
2AE38-4AA0
1GE38-4AAx
840
0.834
0.943
M12
M12
M10
18
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Technical specifications
Table 5- 4 Technical specifications of motor reactors 380 V – 480 V 3 AC, part 3
Order number
Suitable for Power Module
Rated current
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight mm mm mm kg
6SL3000-
6SL3310-
A kW kW m
2AE41-0AA0
1GE41-0AAx
985
0.939
1.062
M12
M12
M10
IP00
410
392
302
146
300 (shielded)
450 (unshielded)
Table 5- 5 Technical specifications of motor reactors 500 V – 600 V 3 AC, part 1
Order number
Suitable for Power Module
Rated current
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight mm mm mm kg
6SL3000-
6SL3310-
A kW kW m
2AH31-8AA0
1GF31-8AAx
175
0.357
0.403
M10
M10
M6
IP00
300
285
212
34
2AH32-4AA0
1GF32-2AAx
215
1GF32-6AAx
260
0.376
0.425
M10
M10
M6
300 (shielded)
450 (unshielded)
0.389
0.441
M10
M10
M6
IP00
300
285
212
34
2AH32-6AA0
IP00
300
285
212
40
2AH33-6AA0
1GF33-3AAx
330
0.4
0.454
M10
M10
M6
IP00
300
285
212
46
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
19
Technical specifications
Table 5- 6 Technical specifications of motor reactors 500 V – 600 V 3 AC, part 2
Order number
Suitable for Power Module 6SL3310-
Rated current
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight
6SL3000-
A kW kW m mm mm mm kg
2AH34-5AA0
1GF34-1AA0x
410
0.481
0.545
M12
M12
M8
IP00
350
330
215
68
2AH34-7AA0
1GF34-7AAx
465
0.631
0.723
M12
M12
M8
300 (shielded)
450 (unshielded)
0.705
0.801
M12
M12
M8
IP00
410
392
292
80
2AH35-8AA0
1GF35-8AAx
575
IP00
410
392
292
80
Table 5- 7 Technical specifications of motor reactors 500 V – 600 V 3 AC, part 3
Order number
Suitable for Power Module 6SL3310-
Rated current A
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE kW kW
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight
6SL3000- m mm mm mm kg
2AH38-1AA0
1GF38-1AAx
810
0.877
1.003
M12
M12
M8
IP00
410
392
279
146
300 (shielded)
450 (unshielded)
2AH38-1AA0
1GF37-4AAx
810
0.79
0.91
M12
M12
M8
IP00
410
392
279
146
20
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Technical specifications
Table 5- 8 Technical specifications of motor reactors 660 V – 690 V 3 AC, part 1
Order number
Suitable for Power Module
Rated current
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight mm mm mm kg
6SL3000-
6SL3310-
A kW kW m
2AH31-0AA0
1GH28-5AAx
100
0.215
0.26
M10
M10
M6
IP00
270
248
200
25
2AH31-0AA0
1GH31-0AAx
100
0.269
0.3
M10
M10
M6
300 (shielded)
450 (unshielded)
0.237
0.26
M10
M10
M6
IP00
270
248
200
25
2AH31-5AA0
1GH31-2AAx
150
IP00
270
248
200
25.8
Table 5- 9 Technical specifications of motor reactors 660 V – 690 V 3 AC, part 2
Order number
Suitable for Power Module
Rated current
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight mm mm mm kg
6SL3000-
6SL3310-
A kW kW m
2AH31-8AA0
1GH31-8AAx
175
0.357
0.403
M10
M10
M6
IP00
300
285
212
34
2AH32-4AA0
1GH32-2AAx
215
1GH32-6AAx
260
0.376
0.425
M10
M10
M6
300 (shielded)
450 (unshielded)
0.389
0.441
M10
M10
M6
IP00
300
285
212
34
2AH32-6AA0
IP00
300
285
212
40
2AH31-5AA0
1GH31-5AAx
150
0.296
0.332
M10
M10
M6
IP00
270
248
200
25.8
2AH33-6AA0
1GH33-3AAx
330
0.4
0.454
M10
M10
M6
IP00
300
285
212
46
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
21
Technical specifications
Table 5- 10 Technical specifications of motor reactors 660 V – 690 V 3 AC, part 3
Order number
Suitable for Power Module 6SL3310-
Rated current
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight
6SL3000-
A kW kW m mm mm mm kg
2AH34-5AA0
1GH34-1AAx
410
0.481
0.545
M12
M12
M8
IP00
350
330
215
68
2AH34-7AA0
1GH34-7AAx
465
0.631
0.723
M12
M12
M8
300 (shielded)
450 (unshielded)
0.705
0.801
M12
M12
M8
IP00
410
392
292
80
2AH35-8AA0
1GH35-8AAx
575
IP00
410
392
292
80
Table 5- 11 Technical specifications of motor reactors 660 V – 690 V 3 AC, part 4
Order number
Suitable for Power Module 6SL3310-
Rated current A
Power loss
- at 50 Hz
- at 150 Hz
Connections
- to the Power Module
- load
- PE kW kW
Max. permissible cable length between motor reactor and motor
Degree of protection
Dimensions
Width
Height
Depth
Weight
6SL3000- m mm mm mm kg
2AH38-1AA0
1GH38-1AAx
810
0.877
1.003
M12
M12
M8
IP00
410
392
279
146
300 (shielded)
450 (unshielded)
2AH38-1AA0
1GH37-4AAx
810
0.78
0.91
M12
M12
M8
IP00
410
392
279
146
22
Motor reactors
Operating Instructions, 03/2012, A5E00409660A
Siemens AG
Industry Sector
Drive Technologies
Large Drives
P.O. Box 4743
90025 NUREMBERG
GERMANY www.siemens.com/automation
Subject to change without prior notice
© Siemens AG 2012
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