IEC 400V, 50Hz

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Transcript IEC 400V, 50Hz 

Motores | Automação | Energia | Tintas
WQuattro Motors
WEG Line-Start Permanent Magnet Motors
Overview

Hybrid motor: induction + permanent magnet + reluctance
Permanent
magnet
Flux
barrier
Aluminium
cage
Example picture, not actual geometry
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Developed lines of product

IEC 380V, 60Hz:
Frames 80 to 132S
4 poles: 0.75 to 11kW
6 poles : 0.37 to 7.5kW
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IEC 400V, 50Hz:
Frames 80 to 132S
4 poles : 0.55 to 7.5kW
6 poles : 0.37 to 5.5kW
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IEC 525V, 50Hz:
Frames 80 to 132S
4 poles : 0.55 to 7.5kW
6 poles : 0.37 to 5.5kW
NEMA 460V, 60Hz:
Frames 143 to 213
4 poles : 0.75 to 7.5kW
6 poles : 0.75 to 3.7kW
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Characteristics
Higher efficiency in the same frame size
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Three-phase distributed winding
in stator (identical to conventional
induction motors).
Rotor with aluminum cage and
internal high-energy permanent
magnets.
Starts and accelerates directly
connected to the mains, as an
induction motor.
Operates at synchronous speed
(invariant with load).
Same frame size of induction
motor, for same power.
WQuattro
W22
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Advantages
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Synchronous operation  no I²R losses in the
aluminum cage.
Higher efficiency compared to Premium Efficiency
induction motors  high energy savings.
Low bearing temperature  longer life and less
maintenance.
No sensors  high reliability.
Interchangeability with existing installations.
No need for special protection relays.
Multi-motor operation  several motors in
synchronism fed by the same inverter.
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Limitations

Limited synchronization capability with inertia  not
suitable for all applications.
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Care must be taken in the assembly and disassembly
of the motor, due to magnets in the rotor, and special
tools may be necessary for the IEC frame 132.
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Development tools (software)

SPEED software package (analytical and numerical analysis). WEG is
member of the SPEED Consortium – SPEED Lab – Glasgow
University.
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Development tools (software)

FLUX2D software (numerical analysis) from CEDRAT – France.
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PM x LSPM
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PM (inverter-fed PM motor):
- Have no cage in the rotor;
- Needs a FOC (field oriented control) inverter and information
about the rotor position at any instant (either from an encoder
or a sensorless algorithm);
- Cannot be directly connected to the mains, even for nonvariable speed applications;
LSPM (line-start PM motor):
- Have a cage in the rotor;
- Can be directly connected to the mains;
- Do not need an inverter to run in a non-variable speed
application;
- For variable-speed applications, can be driven by an inverter
with scalar control algorithm.
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WQUATTRO MOTORS IEC 400V 50Hz 4 Poles
HP kW
0.75 0.55
Full
Full
Locked
Full
Locked
Pull-out
Load
IEC
Load
Rotor
Load
Rotor
Torque
Speed frame Current Current Torque Torque
Tp/Tn
(RPM)
In (A)
Il/In
Tn (Nm) Tl/Tn
Efficiency
Power Factor
η%
Cosφ
% of full load
50
75
100
50
75
100
Maximum
Moment Moment of Approx.
of Inertia Inertia of Weight
(kg.m²)
Load
(kg)
(kg.m²)
1500
80
1.2
5.89
3.5
2.31
2.0
81.7
84
84.2
0.57
0.71
0.79
0.00217
0.0759
15
1
0.75
1500
80
1.6
6.08
4.8
2.55
2.0
83
86.5
87.5
0.55
0.7
0.8
0.00253
0.0886
16
1.5
1.1
1500
90L
2.4
6.98
7.0
3.24
2.0
82
86
87.4
0.55
0.68
0.76
0.00499
0.1748
23
2
1.5
1500
90L
3.3
6.71
9.6
3.41
2.0
83.5
86.8
88.1
0.53
0.66
0.74
0.00520
0.1819
25
3
2.2
1500
100L
4.0
7.33
14.0
3.94
2.0
86
89
90.2
0.67
0.8
0.87
0.00803
0.2809
32
4
3
1500
100L
5.8
6.57
19.1
3.82
2.0
86.5
89.5
90.4
0.6
0.75
0.82
0.00833
0.2914
39
5.5
4
1500
112M
7.2
6.31
25.5
3.32
2.0
89
91
91.7
0.68
0.81
0.88
0.01170
0.4096
41
7.5
5.5
1500
132S
9.2
8.18
35.0
4.17
2.0
89
92
92.5
0.76
0.88
0.93
0.0418
1.4613
61
10
7.5
1500
132S
12.6
7.82
47.8
4.22
2.0
90.5
92.2
93.0
0.77
0.88
0.93
0.0496
1.7354
67
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WQUATTRO MOTORS IEC 400V 50Hz 4 Poles
EFFICIENCY - 4 poles
Efficiency (%)
95
90
85
80
75
70
65
0.55
0.75
1.1
1.5
2.2
3
4
5.5
7.5
Power (kW)
WQUATTRO
W22 PREMIUM EFF
IEC-IE4
10
WQUATTRO MOTORS IEC 400V 50Hz 6 Poles
HP kW
Full
Full
Locked
Full
Locked
Pull-out
Load
IEC
Load
Rotor
Load
Rotor
Torque
Speed frame Current Current Torque Torque
Tp/Tn
(RPM)
In (A)
Il/In
Tn (Nm) Tl/Tn
Efficiency
Power Factor
η%
Cosφ
% of full load
50
75
100
50
75
100
Maximum
Moment Moment of Approx.
of Inertia Inertia of Weight
(kg.m²)
Load
(kg)
(kg.m²)
0.50 0.37
1000
80
1.0
4.62
3.5
3.05
2.00
66.6
75.5
79.6
0.37
0.53
0.66
0.00236
0.0825
15
0.75 0.55
1000
80
1.5
4.31
5.3
2.91
2.00
68.1
76.3
80
0.38
0.54
0.66
0.00261
0.0912
16
1.00 0.75
1000
90S
1.8
5.27
7.2
2.70
2.00
75
81.1
83.4
0.41
0.59
0.7
0.00454
0.1590
22
1.50 1.1
1000
90L
2.7
5.25
10.5
3.04
2.00
75.4
81.6
84.1
0.4
0.57
0.7
0.00515
0.1803
24
2.00 1.5
1000
100L
3.3
5.12
14.3
3.98
2.00
81.3
85.7
87.6
0.49
0.63
0.74
0.00726
0.2542
30
3.00 2.2
1000
112M
4.6
5.00
21.0
2.43
2.00
83.7
86.5
87.1
0.58
0.72
0.8
0.01049
0.3673
39
4.00 3.0
1000
132S
5.8
5.75
28.7
4.01
2.00
86.6
89.6
90.7
0.58
0.73
0.82
0.03294
1.1528
55
5.50 4.0
1000
132M
7.8
5.50
38.2
4.00
2.00
87.4
90.1
91
0.58
0.72
0.81
0.039
1.3656
59
7.50 5.5
1000
132M/L
11.2
4.96
52.5
3.98
2.00
87.6
90.1
91
0.56
0.7
0.78
0.0436
1.5253
63
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WQUATTRO MOTORS IEC 400V 50Hz 6 Poles
EFFICIENCY - 6 poles
Efficiency (%)
95
90
85
80
75
70
65
0.37
0.55
WQUATTRO
0.75
1.1
1.5
2.2
Power (kW)
W22 PREMIUM EFF
3
4
5.5
IEC-IE4
12
Motores | Automação | Energia | Tintas
Thank you!
Sebastião L. Nau
[email protected]