• The correlation between the minimum output frequency and permissible output current (current derating). Information is provided in the SINAMICS Low Voltage Engineering Manual.
Line voltage 380 ... 480 V 3 AC DC link voltage 510 ... 720 V DC
Motor Modules
6SL3325-1TE32-1AA3
6SL3325-1TE32-6AA3
6SL3325-1TE33-1AA3
6SL3325-1TE35-0AA3
6SL3325-1TE36-1AA3
Type rating
At IL (50 Hz 400 V) 1)
kW
110
132
160
250
315
At IH (50 Hz 400 V) 1)
kW
90
110
132
200
250
At IL (60 Hz 460 V) 2)
hp
150
200
250
400
500
At IH (60 Hz 460 V) 2)
hp
150
200
200
350
350
Output current
Rated current Irated O
A
210
260
310
490
605
Base-load current IL3)
A
205
250
302
477
590
Base-load current IH4)
A
178
233
277
438
460
Maximum current Imax O
A
307
375
453
715
885
DC link current
Rated current Irated DC when supplied via
Basic Line Module
A
256
317
380
600
738
Active Line Module
A
230
287
340
538
664
Base-load current IL DC3) when supplied via
Basic Line Module
A
250
305
368
581
719
Active Line Module
A
225
274
331
522
646
Base-load current IH DC 4) when supplied via
Basic Line Module
A
227
284
338
534
561
Active Line Module
A
195
255
303
480
504
Current demand
24 V DC auxiliary power supply
A
1.4
1.4
1.5
1.5
1.6
DC link capacitance
?F
4800
5800
8400
9600
12600
Pulse frequency 5)
Rated frequency
kHz
2
2
2
2
1.25
Pulse frequency, max.
Without current derating
kHz
2
2
2
2
1.25
With current derating
kHz
8
8
8
8
7.5
Power loss, max. 6)
At 50 Hz 400 V
kW
1.61
1.95
2.29
3.56
4.81
At 60 Hz 460 V
kW
1.68
2.06
2.38
3.74
5.25
Dissipated to ambient air
kW
0.06
0.07
0.09
0.14
0.16
Coolant volume flow 7)
l/min
9
9
12
12
16
Liquid volume
of the integrated heat exchanger
dm3
0.31
0.31
0.91
0.91
0.74
Pressure drop, typ. 8)
for volume flow
Pa
70000
70000
70000
70000
70000
Heat exchanger material
Stainless steel
Stainless steel
Stainless steel
Stainless steel
Aluminum
Sound pressure level LpA
(1 m) at 50/60 Hz
dB
52
52
52
52
54
DC link connection
DCP, DCN
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
Motor connection
U2, V2, W2
Hole for M12
Hole for M12
Hole for M12
Hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
2 ? 95
2 ? 95
2 ? 240
2 ? 240
4 ? 185
PE/GND connection
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
2 ? 95
2 ? 95
2 ? 240
2 ? 240
4 ? 185
Cable length, max. 9)
Shielded
m (ft)
300 (984)
300 (984)
300 (984)
300 (984)
300 (984)
Unshielded
m (ft)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
Dimensions
Width
mm (in)
150 (5.91)
150 (5.91)
150 (5.91)
150 (5.91)
265 (10.4)
Height
mm (in)
746 (29.4)
746 (29.4)
1172 (46.1)
1172 (46.1)
1002 (39.5)
Depth
mm (in)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
Weight, approx.
kg (lb)
41 (90)
41 (90)
80 (176)
80 (176)
110 (243)
Frame size
FXL
FXL
GXL
GXL
HXL
1) Rated output of a typical 6?pole standard induction motor based on IL or IH for 400 V 3 AC 50 Hz.
2) Rated output of a typical 6?pole standard induction motor based on IL or IH for 460 V 3 AC 60 Hz.
3) The base-load current IL is based on a duty cycle of 110 % for 60 s or 150 % for 10 s with a duty cycle duration of 300 s.
4) The base-load current IH is based on a duty cycle of 150 % for 60 s or 160 % for 10 s with a duty cycle duration of 300 s.
5)Additional notes regarding the correlation between the pulse frequency and maximum output current/output frequency is provided in the SINAMICS Low Voltage Engineering Manual.
6) The specified power loss represents the maximum value at 100 % utilization. The value is lower under normal operating conditions. To ensure safe dissipation of the minor power loss released to the ambient air, it is important to follow the instructions pertaining to control cabinet installation in the SINAMICS Low Voltage Engineering Manual.
7) The value applies to coolants comprising water and a mixture of water and anti-freeze agent.
8)The value is valid for water as coolant. Additional information and notes on other coolants is provided in the SINAMICS Low Voltage Engineering Manual.
9) Total of all motor cables. Longer cable lengths for specific configurations are available on request. For additional information, please refer to the SINAMICS Low Voltage Engineering Manual.
Line voltage 380 ... 480 V 3 AC DC link voltage 510 ... 720 V DC
Motor Modules
6SL3325-1TE37-5AA3
6SL3325-1TE38-4AA3
6SL3325-1TE41-0AA3
6SL3325-1TE41-2AA3
6SL3325-1TE41-4AA3
6SL3325-1TE41-4AS3 1)
Type rating
At IL (50 Hz 400 V) 2)
kW
400
450
560
710
800
800
At IH (50 Hz 400 V) 2)
kW
315
400
450
630
710
630
At IL (60 Hz 460 V) 3)
hp
600
700
800
1000
1150
1000
At IH (60 Hz 460 V) 3)
hp
450
600
700
900
1000
900
Output current
Rated current Irated O
A
745
840
985
1260
1405
1330
Base-load current IL4)
A
725
820
960
1230
1370
1310
Base-load current IH 5)
A
570
700
860
1127
1257
1150
Maximum current Imax O
A
1087
1230
1440
1845
2055
2055
DC link current
Rated current Irated DC when supplied via
Basic Line Module
A
894
1025
1202
1512
1714
1550
Active Line Module
A
805
922
1080
1361
1544
1403
Base-load current IL DC4) when supplied from
Basic Line Module
A
871
1000
1170
1474
1670
1525
Active Line Module
A
784
898
1051
1326
1500
1405
Base-load current IH DC 5) when supplied from
Basic Line Module
A
795
853
1048
1345
1532
1676
Active Line Module
A
716
767
942
1211
1377
1403
Current demand
24 V DC auxiliary power supply
A
1.6
1.6
1.46
1.46
1.46
1.46
DC link capacitance
?F
17400
17400
21000
29000
29000
21000
Pulse frequency 6)
Rated frequency
kHz
1.25
1.25
1.25
1.25
1.25
2
Pulse frequency, max.
Without current derating
kHz
1.25
1.25
1.25
1.25
1.25
2
With current derating
kHz
7.5
7.5
7.5
7.5
7.5
4
Power loss, max. 7)
At 50 Hz 400 V
kW
5.1
5.75
7.9
9.15
10.2
10.9
At 60 Hz 460 V
kW
5.61
6.33
8.55
10.05
11.2
12.3
Dissipated to ambient air
kW
0.2
0.23
0.44
0.56
0.62
0.65
Coolant volume flow 8)
l/min
16
16
27
27
27
27
Liquid volume
of the integrated heat exchanger
dm3
0.74
0.74
1.56
1.56
1.56
1.56
Pressure drop, typ. 9)
for volume flow
Pa
70000
70000
70000
70000
70000
70000
Heat exchanger material
Aluminum
Aluminum
Aluminum
Aluminum
Aluminum
Aluminum
Sound pressure level LpA
(1 m) at 50/60 Hz
dB
54
54
56
56
56
56
DC link connection
DCP, DCN
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
Motor connection
U2, V2, W2
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
4 ? 185
4 ? 185
4 ? 240
4 ? 240
4 ? 240
4 ? 240
PE/GND connection
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
4 ? 185
4 ? 185
Busbar
Busbar
Busbar
Busbar
Cable length, max. 10)
Shielded
m (ft)
300 (984)
300 (984)
300 (984)
300 (984)
300 (984)
300 (984)
Unshielded
m (ft)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
Dimensions
Width
mm (in)
265 (10.4)
265 (10.4)
295 (11.6)
295 (11.6)
295 (11.6)
295 (11.6)
Height
mm (in)
1002 (39.5)
1002 (39.5)
1516 (59.7)
1516 (59.7)
1516 (59.7)
1516 (59.7)
Depth
mm (in)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
Weight, approx.
kg (lb)
110 (243)
110 (243)
220 (485)
220 (485)
220 (485)
230 (507)
Frame size
HXL
HXL
JXL
JXL
JXL
JXL
1) This Motor Module has been specifically designed for loads demanding a high dynamic performance. The derating factor kIGBT and the derating characteristics can be ignored (see section “Duty cycles” in the SINAMICS Low Voltage Engineering Manual).
2) Rated output of a typical 6?pole standard induction motor based on IL or IH for 400 V 3 AC 50 Hz.
3) Rated output of a typical 6?pole standard induction motor based on IL or IH for 460 V 3 AC 60 Hz.
4) The base-load current IL is based on a duty cycle of 110 % for 60 s or 150 % for 10 s with a duty cycle duration of 300 s.
5) The base-load current IH is based on a duty cycle of 150 % for 60 s or 160 % for 10 s with a duty cycle duration of 300 s.
6) Additional notes regarding the correlation between the pulse frequency and maximum output current/output frequency is provided in the SINAMICS Low Voltage Engineering Manual.
7) The specified power loss represents the maximum value at 100 % utilization. The value is lower under normal operating conditions. To ensure safe dissipation of the minor power loss released to the ambient air, it is important to follow the instructions pertaining to control cabinet installation in the SINAMICS Low Voltage Engineering Manual.
8) The value applies to coolants comprising water and a mixture of water and anti-freeze agent.
9)The value is valid for water as coolant. Additional information and notes on other coolants is provided in the SINAMICS Low Voltage Engineering Manual.
10) Sum of all motor cables. Longer cable lengths for specific configurations are available on request. For additional information, please refer to the SINAMICS Low Voltage Engineering Manual.
Line voltage 500 ... 690 V 3 AC DC link voltage 675 ... 1035 V DC
Motor Modules
6SL3325-1TG31-0AA3
6SL3325-1TG31-5AA3
6SL3325-1TG32-2AA3
6SL3325-1TG33-3AA3
6SL3325-1TG34-7AA3
6SL3325-1TG35-8AA3
Type rating
At IL (50 Hz 690 V) 1)
kW
90
132
200
315
450
560
At IH (50 Hz 690 V) 1)
kW
75
110
160
250
400
450
At IL (50 Hz 500 V) 1)
kW
55
90
132
200
315
400
At IH (50 Hz 500 V) 1)
kW
55
90
132
200
250
315
At IL (60 Hz 575 V) 2)
hp
75
150
200
300
450
600
At IH (60 Hz 575 V) 2)
hp
75
125
200
250
450
500
Output current
Rated current Irated O
A
100
150
215
330
465
575
Base-load current IL3)
A
95
142
208
320
452
560
Base-load current IH4)
A
89
134
192
280
416
514
Maximum current Imax O
A
142
213
312
480
678
840
DC link current
Rated current Irated DC when supplied via
Basic Line Module
A
122
183
263
403
558
702
Active Line Module
A
110
165
237
363
502
632
Base-load current IL DC3) when supplied via
Basic Line Module
A
116
173
253
390
544
683
Active Line Module
A
105
156
229
352
489
616
Base-load current IH DC 4) when supplied from
Basic Line Module
A
108
163
234
341
496
627
Active Line Module
A
98
147
211
308
446
565
Current demand
24 V DC auxiliary power supply
A
1.0
1.0
1.5
1.5
1.6
1.6
DC link capacitance
?F
2800
2800
4200
5800
9670
9670
Pulse frequency 5)
Rated frequency
kHz
1.25
1.25
1.25
1.25
1.25
1.25
Pulse frequency, max.
Without current derating
kHz
1.25
1.25
1.25
1.25
1.25
1.25
With current derating
kHz
7.5
7.5
7.5
7.5
7.5
7.5
Power loss, max. 6)
At 50 Hz 690 V
kW
1.15
1.64
2.34
3.38
5.44
5.61
At 60 Hz 575 V
kW
1.02
1.45
2.05
2.96
5.1
5.45
Dissipated to ambient air
kW
0.06
0.07
0.09
0.12
0.14
0.16
Coolant volume flow 7)
l/min
9
9
12
12
16
16
Liquid volume
of the integrated heat exchanger
dm3
0.31
0.31
0.91
0.91
0.74
0.74
Pressure drop, typ. 8)
for volume flow
Pa
70000
70000
70000
70000
70000
70000
Heat exchanger material
Stainless steel
Stainless steel
Stainless steel
Stainless steel
Aluminum
Aluminum
Sound pressure level LpA
(1 m) at 50/60 Hz
dB
52
52
52
52
54
54
DC link connection
DCP, DCN
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
Motor connection
U2, V2, W2
Hole for M12
Hole for M12
Hole for M12
Hole for M12
2 ? hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
2 ? 95
2 ? 95
4 ? 240
4 ? 240
4 ? 185
4 ? 185
PE/GND connection
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
2 ? 95
2 ? 95
2 ? 240
2 ? 240
4 ? 185
4 ? 185
Cable length, max. 9)
Shielded
m (ft)
300 (984)
300 (984)
300 (984)
300 (984)
300 (984)
300 (984)
Unshielded
m (ft)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
Dimensions
Width
mm (in)
150 (5.91)
150 (5.91)
150 (5.91)
150 (5.91)
265 (10.4)
265 (10.4)
Height
mm (in)
728 (28.7)
728 (28.7)
1172 (46.1)
1172 (46.1)
1002 (39.5)
1002 (39.5)
Depth
mm (in)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
Weight, approx.
kg (lb)
41 (90)
41 (90)
80 (176)
80 (176)
110 (243)
110 (243)
Frame size
FXL
FXL
GXL
GXL
HXL
HXL
1) Rated output of a typical 6?pole standard induction motor based on IL or IH for 500 V or 690 V 3 AC 50 Hz.
2) Rated output of a typical 6?pole standard induction motor based on IL or IH for 575 V 3 AC 60 Hz.
3) The base-load current IL is based on a duty cycle of 110 % for 60 s or 150 % for 10 s with a duty cycle duration of 300 s.
4) The base-load current IH is based on a duty cycle of 150 % for 60 s or 160 % for 10 s with a duty cycle duration of 300 s.
5)Additional notes regarding the correlation between the pulse frequency and maximum output current/output frequency is provided in the SINAMICS Low Voltage Engineering Manual.
6) The specified power loss represents the maximum value at 100 % utilization. The value is lower under normal operating conditions. To ensure safe dissipation of the minor power loss released to the ambient air, it is important to follow the instructions pertaining to control cabinet installation in the SINAMICS Low Voltage Engineering Manual.
7) The value applies to coolants comprising water and a mixture of water and anti-freeze agent.
8) The value is valid for water as coolant. Additional information and notes on other coolants is provided in the SINAMICS Low Voltage Engineering Manual.
9) Total of all motor cables. Longer cable lengths for specific configurations are available on request. For additional information, please refer to the SINAMICS Low Voltage Engineering Manual.
Line voltage 500 ... 690 V 3 AC DC link voltage 675 ... 1035 V DC
Motor Modules
6SL3325-1TG37-4AA3
6SL3325-1TG38-0AA3 1)
6SL3325-1TG38-1AA3
6SL3325-1TG41-0AA3
6SL3325-1TG41-3AA3
6SL3325-1TG41-6AA3
Type rating
At IL (50 Hz 690 V) 2)
kW
710
800
800
1000
1200
1500
At IH (50 Hz 690 V) 2)
kW
630
710
710
900
1000
1260
At IL (50 Hz 500 V) 2)
kW
500
560
560
710
900
1000
At IH (50 Hz 500 V) 2)
kW
450
500
560
630
800
900
At IL (60 Hz 575 V) 3)
hp
700
800
800
1000
1250
1500
At IH (60 Hz 575 V) 3)
hp
700
700
700
900
1000
1250
Output current
Rated current Irated O
A
735
810
810
1025
1270
1560
Base-load current IL5)
A
710
790
790
1000
1230
1500
Base-load current IH 5)
A
657
724
724
917
1136
1284
Maximum current Imax O
A
1065
1185
1185
1500
1845
2055
DC link current
Rated current Irated DC when supplied via
Basic Line Module
A
903
990
990
1250
1550
1903
Active Line Module
A
759
891
891
1125
1395
1605
Base-load current IL DC4) when supplied from
Basic Line Module
A
870
948
963
1219
1500
1800
Active Line Module
A
781
870
869
1100
1353
1650
Base-load current IH DC 5) when supplied from
Basic Line Module
A
795
885
883
1118
1384
1680
Active Line Module
A
732
808
796
1009
1250
1550
Current demand
24 V DC auxiliary power supply
A
1.6
1.6
1.46
1.46
1.46
1.46
DC link capacitance
?F
10500
10500
14000
16000
19330
21000
Pulse frequency 6)
Rated frequency
kHz
1.25
1.25
1.25
1.25
1.25
1.25
Pulse frequency, max.
Without current derating
kHz
1.25
1.25
1.25
1.25
1.25
1.25
With current derating
kHz
7.5
7.5
7.5
7.5
7.5
7.5
Power loss, max. 6)
At 50 Hz 690 V
kW
7.65
8.47
9.56
10.87
13.49
17.9
At 60 Hz 575 V
kW
6.67
7.39
8.34
9.55
11.84
15.7
Dissipated to ambient air
kW
0.2
0.22
0.43
0.53
0.57
0.78
Coolant volume flow 8)
l/min
16
16
27
27
27
27
Liquid volume
of the integrated heat exchanger
dm3
0.74
0.74
1.56
1.56
1.56
1.56
Pressure drop, typ. 9)
for volume flow
Pa
70000
70000
70000
70000
70000
70000
Heat exchanger material
Aluminum
Aluminum
Aluminum
Aluminum
Aluminum
Aluminum
Sound pressure level LpA
(1 m) at 50/60 Hz
dB
54
54
56
56
56
56
DC link connection
DCP, DCN
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
2 ? hole for M12
Busbar
Motor connection
U2, V2, W2
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
4 ? 185
4 x 185
Busbar
Busbar
Busbar
Busbar
PE/GND connection
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
2 ? hole for M12
Conductor cross section, max. (IEC)
mm2
4 ? 185
4 ? 185
Busbar
Busbar
Busbar
Busbar
Cable length, max. 10)
Shielded
m (ft)
300 (984)
300 (984)
300 (984)
300 (984)
300 (984)
300 (984)
Unshielded
m (ft)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
450 (1476)
Dimensions
Width
mm (in)
265 (10.4)
265 (10.4)
295 (11.6)
295 (11.6)
295 (11.6)
295 (11.6)
Height
mm (in)
1002 (39.5)
1002 (39.5)
1516 (59.7)
1516 (59.7)
1516 (59.7)
1516 (59.7)
Depth
mm (in)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
545 (21.5)
Weight, approx.
kg (lb)
110 (243)
110 (243)
220 (485)
220 (485)
220 (485)
230 (507)
Frame size
HXL
HXL
JXL
JXL
JXL
JXL
1) The device is optimized for a base pulse frequency of 1.25 kHz, for an increased pulse frequency – or for certain overloads the derating factor is higher than that for the device with article number 6SL3325?1TG38?1AAx.
2) Rated output of a typical 6?pole standard induction motor based on IL or IH for 500 V or 690 V 3 AC 50 Hz.
3) Rated output of a typical 6?pole standard induction motor based on IL or IH for 575 V 3 AC 60 Hz.
4) The base-load current IL is based on a duty cycle of 110 % for 60 s or 150 % for 10 s with a duty cycle duration of 300 s.
5) The base-load current IH is based on a duty cycle of 150 % for 60 s or 160 % for 10 s with a duty cycle duration of 300 s.
6)Additional notes regarding the correlation between the pulse frequency and maximum output current/output frequency is provided in the SINAMICS Low Voltage Engineering Manual.
7) The specified power loss represents the maximum value at 100 % utilization. The value is lower under normal operating conditions. To ensure safe dissipation of the minor power loss released to the ambient air, it is important to follow the instructions pertaining to control cabinet installation in the SINAMICS Low Voltage Engineering Manual.
8) The value applies to coolants comprising water and a mixture of water and anti-freeze agent.
9) The value is valid for water as coolant. Additional information and notes on other coolants is provided in the SINAMICS Low Voltage Engineering Manual.
10) Sum of all motor cables. Longer cable lengths for specific configurations are available on request. For additional information, please refer to the SINAMICS Low Voltage Engineering Manual.
