ABB
22
ABB/ BU Machines / HV Induction motors IEC catalogue / Standard motors EN 12-2007
1
Efficiency
Power factor
Current
Speed
r/min
Full
load
100%
3/4
load
75%
Full
load
100%
3/4
load
75%
I
N
A
I
S
I
N
I
0
A
Output
kW
Motor type
Product
code
HV Process performance cast iron motors
Technical data for totally enclosed squirrel
cage three phase motors
IP 55 – IC 411 – Insulation class F, temperature rise class B, ambient temperature 40°C
1)
315LK, 355LK, 400L, 400LK:
The given values of load inertia assume two
starts from cold and one start from warm conditions in succession against
quadratic load torque with 90% of the rated torque at the rated speed and at
80% of the rated voltage.
450L:
The given values of load inertia assume two starts from cold and one
start from warm conditions in succession against quadratic load torque with
85% of the rated torque at the rated speed and at 80% of the rated voltage.
To check validity against other starting requirements, contact ABB.
2)
315LK, 355LK, 400L, 400LK:
Starting time with given values of the load
inertia from cold condition in succession against quadratic load torque with
90% of the rated torque at the rated speed and at rated voltage.
450L:
Starting time with given values of the load inertia from cold condition
in succession against quadratic load torque with 85% of the rated torque at
the rated speed and at rated voltage.
3)
The sound pressure levels are presented at no-load. The magnetic noise
level of 2- and 4-pole motors is typically low compared
to the fan noise,
resulting no increase in the noise level on-load.
The variation and measuring
tolerance of the figures is +3 dB(A).
4)
Unidirectional fan construction as standard. Direction of rotation must be
stated when ordering, see variant codes 044 and 045.
The bullet in the product code indicates choice of mounting arrangement
(see ordering information page).
3000 r/min = 2 poles
3000 V
50 Hz
132
M3BM
315 LKA
3GBM
311 810
-•
QA
2971
94.6
94.5
0.92
0.92
29
6.3
5
160
M3BM
315 LKB
3GBM
311 820
-•
QA
2971
94.9
94.8
0.92
0.92
35
6.5
6
200
4)
M3BM
355 LKA
3GBM
351 811
-•
QA
2974
94.8
94.7
0.90
0.90
45
5.6
9
250
4)
M3BM
355 LKB
3GBM
351 821
-•
QA
2975
95.4
95.3
0.90
0.90
56
6.1
11
315
4)
M3BM
355 LKC
3GBM
351 831
-•
QA
2973
95.8
95.9
0.91
0.92
69
6.0
11
325
4)
M3BM
355 LKD
3GBM
351 842
-•
QA
2974
95.9
96.0
0.91
0.92
71
6.2
11
355
4)
M3BM
355 LKE
3GBM
351 850
-•
QA
2983
96.2
96.1
0.91
0.91
78
6.4
15
355
4)
M3BM
400 LA
3GBM
401 510
-•
QA
2980
96.0
95.9
0.90
0.90
79
6.3
16
400
4)
M3BM
400 LB
3GBM
401 520
-•
QA
2978
96.2
96.2
0.91
0.91
88
6.2
15
450
4)
M3BM
400 LC
3GBM
401 530
-•
QA
2978
96.4
96.4
0.91
0.92
98
6.4
16
500
4)
M3BM
400 LKA
3GBM
401 810
-•
QA
2983
96.7
96.6
0.91
0.91
109
6.2
19
560
4)
M3BM
400 LKB
3GBM
401 820
-•
QA
2983
96.8
96.8
0.91
0.92
122
6.1
19
630
4)
M3BM
450 LA
3GBM
451 510
-•
QA
2986
96.9
96.8
0.91
0.91
138
6.5
26
710
4)
M3BM
450 LB
3GBM
451 520
-•
QA
2986
97.1
97.0
0.91
0.91
154
6.5
27
3000 r/min = 2 poles
3300 V
50 Hz
160
M3BM
315 LKA
3GBM
311 811
-•
RA
2976
95.0
94.9
0.91
0.91
32
6.4
6
200
4)
M3BM
355 LKA
3GBM
351 811
-•
RA
2978
94.9
94.6
0.90
0.89
41
6.3
9
250
4)
M3BM
355 LKB
3GBM
351 821
-•
RA
2975
95.4
95.3
0.90
0.90
51
6.1
10
315
4)
M3BM
355 LKC
3GBM
351 831
-•
RA
2975
95.9
95.9
0.91
0.92
63
6.4
11
335
4)
M3BM
355 LKD
3GBM
351 841
-•
RA
2975
96.0
96.1
0.91
0.92
67
6.5
11
355
4)
M3BM
400 LA
3GBM
401 510
-•
RA
2979
96.1
95.9
0.90
0.90
71
6.3
14
400
4)
M3BM
400 LB
3GBM
401 520
-•
RA
2978
96.2
96.2
0.91
0.91
80
6.2
14
445
4)
M3BM
400 LC
3GBM
401 531
-•
RA
2977
96.4
96.4
0.91
0.92
88
6.2
14
500
4)
M3BM
400 LKA
3GBM
401 810
-•
RA
2983
96.7
96.7
0.91
0.92
99
6.0
16
560
4)
M3BM
400 LKB
3GBM
401 820
-•
RA
2983
96.8
96.8
0.91
0.92
111
6.1
17
630
4)
M3BM
450 LA
3GBM
451 510
-•
RA
2986
96.9
96.8
0.91
0.91
125
6.5
24
700
4)
M3BM
450 LB
3GBM
451 520
-•
RA
2986
97.1
97.0
0.91
0.91
138
6.5
24
3000 r/min = 2 poles
6000 V
50 Hz
250
4)
M3BM
355 LKA
3GBM
351 811
-•
TA
2975
95.2
95.2
0.91
0.92
28
6.1
5
280
4)
M3BM
355 LKB
3GBM
351 821
-•
TA
2982
95.6
95.5
0.91
0.90
31
6.2
6
300
4)
M3BM
355 LKC
3GBM
351 830
-•
TA
2982
95.8
95.7
0.91
0.91
33
6.3
6
315
4)
M3BM
400 LA
3GBM
401 510
-•
TA
2981
95.5
95.4
0.89
0.88
35
6.4
8
355
4)
M3BM
400 LB
3GBM
401 520
-•
TA
2979
95.9
95.8
0.91
0.91
39
6.3
7
385
4)
M3BM
400 LC
3GBM
401 531
-•
TA
2979
96.0
96.0
0.91
0.91
42
6.4
8
410
4)
M3BM
400 LD
3GBM
401 541
-•
TA
2979
96.2
96.2
0.92
0.92
45
6.6
8
450
4)
M3BM
400 LKA
3GBM
401 810
-•
TA
2983
96.3
96.3
0.91
0.91
49
6.0
9
500
4)
M3BM
400 LKB
3GBM
401 820
-•
TA
2984
96.5
96.5
0.91
0.92
55
6.4
10
530
4)
M3BM
400 LKC
3GBM
401 830
-•
TA
2984
96.7
96.7
0.92
0.92
58
6.5
10
560
4)
M3BM
450 LA
3GBM
451 510
-•
TA
2986
96.6
96.5
0.90
0.90
62
6.3
13
630
4)
M3BM
450 LB
3GBM
451 520
-•
TA
2986
96.8
96.7
0.91
0.91
69
6.4
12
670
4)
M3BM
450 LC
3GBM
451 530
-•
TA
2986
97.0
96.9
0.92
0.92
73
6.5
13
3000 r/min = 2 poles
6600 V
50 Hz
280
4)
M3BM
355 LKA
3GBM
351 811
-•
SA
2982
95.6
95.5
0.91
0.91
28
6.1
5
315
4)
M3BM
400 LA
3GBM
401 510
-•
SA
2980
95.6
95.4
0.90
0.89
32
6.4
7
355
4)
M3BM
400 LB
3GBM
401 520
-•
SA
2980
95.8
95.7
0.91
0.91
36
6.3
7
390
4)
M3BM
400 LC
3GBM
401 531
-•
SA
2980
96.1
96.0
0.91
0.91
39
6.7
7
415
4)
M3BM
400 LD
3GBM
401 541
-•
SA
2979
96.2
96.2
0.91
0.92
41
6.6
7
450
4)
M3BM
400 LKA
3GBM
401 810
-•
SA
2983
96.4
96.4
0.91
0.91
45
6.1
8
500
4)
M3BM
400 LKB
3GBM
401 820
-•
SA
2984
96.5
96.5
0.91
0.91
50
6.5
9
530
4)
M3BM
400 LKC
3GBM
401 830
-•
SA
2984
96.7
96.7
0.92
0.92
52
6.5
9
560
4)
M3BM
450 LA
3GBM
451 510
-•
SA
2986
96.6
96.5
0.90
0.90
56
6.3
11
630
4)
M3BM
450 LB
3GBM
451 520
-•
SA
2987
96.8
96.7
0.91
0.91
63
6.4
12
670
4)
M3BM
450 LC
3GBM
451 530
-•
SA
2986
96.9
96.9
0.91
0.92
66
6.4
11