Compresor CombCat_460V

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    IEC Low Voltage Induction Motors 460 V 60 Hz

    Motors for all applications

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    IndustrialIT

    As a key element of its business strategy, ABB has committed to a broad program ofpro uct eve opment an pos t on ng un er t e n ustr a

     um re a. s n t at ve s

    geared towards increasing standardization of ABB products as the ‘building blocks’f larger solutions, while incorporating functionality that will allow multiple products to

    interact seamlessly as components of real-time automation and information systems.

    Motors and generators represent one of the fundamental building blocks in thendustrial

     architecture.

    ABB (www.abb.com) is a leader in power and automation technologies that enable utility and industry customers

    o mprove per ormance w e ower ng env ronmen a mpac s. e roup o compan es opera es n

    aroun coun r es an empoys aroun , peope  

    Making you more competitiveABB has been manufacturing motors for over 100 years. Our products areesigned to be reliable, efficient and cost effective, and we can supply motors for

    pract ca y any app cat on. u range o serv ces s ava a e t roug ourworldwide service organization, with the latest eBusiness systems providingroun -t e-c oc access, easy or er ng an ast e very.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    General Purpose MotorsABB’s General purpose motors are readily available

    from central stock locations and distributorsthroughout the world. While designed for standard

    nd straightforward uses, the motors can bemo e to meet most spec cat ons. u t to t e

    highest manufacturing standards, the Generalpurpose motors use the best materials sourced fromroun t e wor . s r ngs a qua ty an re a ty

    that can see motors operating for over 30 years.Competitively priced, the motors meet EFF2 energy

    c ent c ass cat on, w t as opt on.

    BusinessOnlineBusinessOnline, at http//online.abb.com/motors gives

    ou real-time, on-line access to your own personalporta to motors an r ves. ou can c oose,

    onfigure and order products, determine theirvailability and stock levels, follow their progress

    roug t e or er-process ng an e very c a ns, anccess a wealth of support services and technical

    information such as drawings, test results and technicocumentat on.

    Process Performance MotorsBB’s Process performance motor is engineered

    o meet the most demanding applications found inindustries including pulp and paper, water treatment,ood and beverage, metals and building materials.

    Such is the high design specification of the motor,hen used in conjunction with applications in these

    industries, ABB is able to provide a 3-year warranty.

    Built to the highest manufacturing standards, the

    process per ormance motors use t e est mater a sourced from around the world. This brings a qualitynd reliability that can see motors operating for over

    years. ompet t ve y pr ce , t e motors meetFF1 energy efficient classification.

    AvailabilityThrough our extended support and services such as an

    fficient global stock concept, we provide you with easyor er ng an qu c e very.

    – ase or er ng– Over 300,000 motors stocked worldwide

    – Most frequently used OEM motors stocked in depth– to ours e very or stoc e motors

    – Modifications within 24 hours

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    IEC Low Voltage Induction Motors

    460 V 60 Hz

    ontents age

    General............................................................................................

    Ordering info ................................................................................

    General purpose motors

    um num motors, - ...................................................Steel motors, IEC 280 - 400....................................................... ..............

      Cast iron motors, IEC 71 - 355................................................... .............. 4

      ar ant co es...........................................................................Motors in Brief

    Process performance motors

    Cast iron motors, IEC 71 - 400 .................................................................  Aluminum motors, IEC 112 - 280................................................ ............. 4  ar ant co es...........................................................................

    Motors in Brief ..........................................................................................

    raw ngs

    ABB Motors' total product offer 

    Visit our web site ........................................................................................

    reserves e r g o c ange

    the design, technical specification and

    dimensions without prior notice.

    Detailed product information

    This combination catalogue is intended to give brief summary on technical

    data and dimensions for our General purpose and Process performancemotors. More detailed information on the ranges can be found from

    following product catalogues:

    Drive General Purpose Motors GBr ve Process Performance Motors GB

    Contact your local Sales office for the catalogue or download if from our

    web site www.abb.com/motors&drives.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    ingle speed motors Code

    80 VY 50 Hz A

    80 VD 50 Hz B

    00 VD 50 Hz (mid range value) D

    00 VD 50 Hz (mid range value) E

    00 VY 50 Hz (mid range value) F

    15 VY 50 Hz

    15 VD 50 Hz H

    90 VY 60 Hz J

    Motors for other voltagesotors woun or a g ven vo tage at

    0 Hz can also be used for othervoltages. Recalculation factors for

    urrent an torque va ues are g venbelow; efficiency, power factor and

    peed remain approximately the.

    Guaranteed values available on

    request.ABB reserves the right to change the design, technispecification and dimensions without prior notice.

    Motor wound for 460 V 60 Hz 575 V 60 Hz

    onnected to 60 Hz 440V 480V 575V

    of values at 460V, 60 Hz

     ut ut 100 100 100

    I 105 96 80

    I /I 90 109 100

    S /T

    N  90 109 100

    max /T 90 109 100

    Ordering information

    Motor size

      o or ypeB Motor size

      ro uc co e

    D Code for mounting rrangemen  o age an requency co e

    F Generation codefollowed by variant codes

    C , ,

    M3AA 112 MA 3GAA 112 021 - ADA, 003, ...  1 21  

    Position 12

    Mounting arrangement

      = oot-mounte motor, top mounte term na ox.

      = ange-mounte motor. arge ange.

      = Flange-mounted motor. Small flange.

    F  = Foot- and flange-mounted motor. Special flange.

    Foot- and flange-mounted motor.

      arge ange w t c earance o es.

      = Foot- and flange-mounted motor.

      Small flange with tapped holes.

    L  = Foot-mounted, terminal box on LHS seen from D-en

      Flange-mounted (CI ring flange FF)

      oot-an ange-mounte motor r ng ange

    R  = Foot-mounted, terminal box on RHS seen from D-en

    S  = Foot- and flange-mounted, terminal box RHS

    seen from D-end.

      Foot- and flange-mounted, terminal box LHS

    seen rom -en .

      = Flange-mounted motor. Special flange.

    Position 13o tage an requency:  See tables below

    Position 14

    ersion A,B,C... =

    Generation code followed by variant codes

    Explanation of the product codePositions 1 and 2

    3G = Business area LV Motors

    Position 3-4

    Enclosure and stator frame material

    3GVA, 3GAA, 3GAP = Totally enclosed

    motor with aluminum stator frame3 , 3 , 3 = ota y enc ose

    motor with cast iron stator frame

    3GCA = Totally enclosed motor with steel

    stator frame

    Position 4

    Type of rotor 

    A = Squirrel cage

     = rocess per ormance motor

    Positions 5 and 6

    IEC size

    05  = 5606  = 63

    07  = 7108  = 8009  = 9010  = 100

    Position 7

    Pole pairs

    1  = 2 po es

    2  = 4 po es

    3  = 6 poles

    4  = 8 poles

    5  = 10 po es6  = 12 po es

    7  = > 12 po es

    8  = Two-speed motors

    9  = Multi-speed motors

    os t ons 8 to 10

    Running number

    os t on 11

      as

    Sample orderWhen placing an order, please state the following

    minimum data in the order, as in the example.

    The product code of the motor is composed in accor-

    ance with the following example.

    Motor type M3AA 112 MAo e num er

    Mounting arrangement (IM-code) IM B3 (IM 1001)Rated output 3 kW

    ro uct co e -Variant codes if needed

    Single speed motors Code

    690 VD 50 Hz (mid range value) U

    220 VDD/440 VD Hz (Manilla) V

    660 VY 60 Hz W

    o her X

    600 VD 60 Hz Y

    575 VD 60 Hz Z

    ingle speed motors Code

    40 VD 50 Hz (mid range value) K

    30 VYY/460 VY 60 Hz M

    60 VY/230 VD 60 Hz N

    00 VD 60 HZ P

    40 VY 50 Hz / 480 VY 60 Hz

    80 VY/220VD 60 Hz R

    00 VY 50 Hz (mid range value)

    60 VD 50 Hz T

    25  = 25028  = 280

    31  = 31535  = 35540  = 400

    11  = 11213 = 132

    16  = 16018  = 18020  = 20022  = 225

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

    ) Temperature rise class F) On request.

    Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

    Efficiency Moment Sound

    Full 3/4 Power Current Torque f inertia pressure

    u pu Type Produc peed load load ac or I I T T Tax

    =1/4 GD2 Weigh level LP

    kW HP esigna ion ode r/min 100% 75% ϕ I N T T kgm2 kg lbs dB( )

    -po es = r m n z as c es gn.11 .15 M2VA 56 A GVA 51 001-•• 360 8.6 52.1 0.72 .33 .8 0.31 2.7 2.5 .00011 3.2 7 1

    .15 .2 M2VA 56 B GVA 51 002-•• 390 9.2 65.8 0.68 .4 .1 0.42 2.8 2.4 .00012 3.4 1

    . . GVA -•• . . . . . . . . . .

    .3 .4 M2VA 63 B GVA 61 002-•• 360 8.5 76.8 0.75 .64 .4 0.86 3.3 3.0 .00016 4.4 10 7

    .45 .6 M2VA 71 A GVA 71 001-•• 390 7.3 76.7 0.75 .4 1.26 3.4 3.5 .0004 . 12 1

    .65 .9 M2VA 71 B GVA 71 002-•• 380 0.2 79.2 0.81 .31 .5 1.84 3.3 3.4 .00045 6.5 14 1

    .9 1.25 M2VA 80 A GVA 81 001-•• 420 2.2 80.3 0.75 .85 .1 2.51 2.7 3.4 .000722 9 20 3

    1.3 1.8 M2VA 80 B GVA 81 002-•• 400 1.1 79.2 0.80 .5 .9 3.65 2.2 3.4 .000763 11 24 3

    1.75 .4 M2AA 90 S GAA 91 001-••E 460 0.1 76.2 0.82 .5 .5 4.83 2.3 2.9 .0019 13 29 6

    2.5 .4 M2AA 90 L GAA 91 002-••E 470 0.8 79.0 0.85 .7 .0 6.88 2.6 2.9 .0024 16 35 6

    3.5 .7 M2AA 100 L GAA 101 001-••E . . . . . . . . .

    4.6 .2 M2AA 112 M GAA 111 001-••A 450 7.4 88.4 0.92 .4 .0 12.8 2.1 3.3 .01 25 55 )

    .4 .6 M2AA 132 SA GAA 131 001-••A 465 6.4 86.7 0.89 0.5 .0 17.6 2.4 3.6 .014 37 81

    . . M2AA 132 SB GAA 131 002-••A . . . . . . . . )

    13 17.4 M2AA 160 MA GAA 161 111-••A 510 8.7 88.9 0.90 0.5 .1 35.4 1.9 2.5 .039 73 161 3

    17.5 3 M2AA 160 M GAA 161 112-••A 505 0.3 90.6 0.90 7 .0 47.7 2.2 2.6 .047 84 185 3

      GAA -•• . . . . . . .

    25.5 4 M2AA 180 M GAA 181 111-••A 525 2.1 92.2 0.90 8.5 .0 69 2.5 3.3 .06 111 244 5

    35 7 M2AA 200 LA GAA 201 011-••A 545 2.8 92.8 0.89 4 .9 94 2.8 3.5 .094 139 306

    42 6 M2AA 200 L GAA 201 012-••A 545 3.5 93.5 0.91 3 .4 113 3.0 3.6 .115 170 374 5

    52 0 M2AA 225 M GAA 221 011-••A 550 4.3 94.4 0.89 8 .2 140 2.7 3.4 .21 209 460 5

    3 4 M2AA 250 M GAA 251 011-••A . . . . . . .

    General purpose aluminum motorsTechnical data for totally enclosed squirrel cage three phase motors

    IP 55, IC 411; Insulation class F, temperature rise class B

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    Efficiency Moment ound

    Full 3/4 Power Curren Torque o iner ia

    u pu Type Produc peed load load ac or IN

    I TN

    TS

    Tax

    J 1/4 GD2 Weigh level LP

    kW HP designa ion code r/min 100% 75% cos ϕ I Nm T T kgm2 kg lbs dB(A)

    -poles = 3600 r/min z as c es gn1.3 1.8 M3VA 0 C 3GVA -•• . . . . . . . . .

    1.75 2.4 M3AA 0 L 3GAA 091 312-••E 3480 85.5 85.9 0.88 3.2 7.8 4.8 2.6 3.6 0.0024 16 35 66

    .5 3.4 M3AA 0 LB 3GAA 091 313-••E 3480 87.0 87.7 0.87 4.2 7.9 6.9 3.0 3.7 0.0027 18 40 66

    .5 4.7 M3AA 100 LB 3GAA 101 312-••E . . . . . . . . .

    .6 6.2 M3AA 112 M 3GAA 111 022-••C 3460 86.9 87.9 0.91 7.1 7.7 12.7 2.3 3.6 0.012 33 73 66

    .4 8.6 M3AA 132 SA 3GAA 131 023-••C 3500 89.8 89.9 0.88 10.3 10.0 17.5 3.5 4.6 0.016 42 93 72

    . . M3AA 132 SB 3GAA 131 024-••C . . . . . . . . .

    12.5 16.8 M3AA 160 MA 3GAA 161 101-••C 3530 90.1 90.5 0.88 20 6.5 34 2.0 2.6 0.039 73 161 2)

    17.5 23 M3AA 160 M 3GAA 161 102-••C 3520 91.9 92.6 0.92 27.5 6.6 47 2.2 2.8 0.047 84 185 2

      3GAA 161 103-••C 3520 92.5 93.0 0.91 32 7.2 57 2.3 2.8 0.053 94 207 2)

    6.5 36 M3AA 180 M 3GAA 181 101-••C 3530 92.4 92.9 0.89 38.5 7.0 67 2.5 2.8 0.077 119 2622)

    5 47 M3AA 00 MLA 3GAA 201 001-••C 3555 93.3 93.3 0.89 53 8.6 94 2.1 3.0 0.15 175 385 2)

    3 58 M3AA 00 MLB 3GAA 201 002-••C 3550 93.6 93.7 0.90 64 7.3 116 2.4 2.9 0.18 200 441 2)

    2 70 M3AA 25 SMB 3GAA 221 001-••C 3560 94.1 93.8 0.88 79 7.9 140 2.4 2.9 0.26 235 518 2

    3 84 M3AA 50 SMA 3GAA 251 001-••C . . . . . . . 2)

    6 115 M3AA 80 SMA 3GAA 281 001-••C 3565 95.2 95.0 0.90 127 8.1 230 2.3 3.1 0.57 375 826 2)

    105 141 M3AA 80 SMB 3GAA 281 002-••C 3565 95.8 95.9 0.91 152 8.1 281 2.4 3.2 0.59 390 859 2

    -poles = 3600 r/min z High-output design

    .45 0.61 M2VA 3 BB 3GVA 061 003-•• 3340 71.6 71.1 0.84 0.93 3.3 1.29 2.0 1.9 0.00036 4.9 11 57

    .82 1.15 M2VA 1 BB 3GVA 071 003-•• 3390 77.4 75.9 0.85 1.6 5.0 2.32 2.9 3.0 0.00045 6.5 14 61

    .9 1.25 M2VA 1 BC 3GVA 071 004-•• 3350 76.0 75.4 0.87 1.75 4.9 2.57 2.8 2.9 0.00045 6.5 14 61

    1.75 2.4 M2VA 0 C 3GVA 081 003-•• 3300 80.9 80.7 0.87 3.15 5.3 5.1 2.6 2.9 0.001093 11.5 25 63

    4 M3AA 0 LB 3GAA 091 003-••E 3470 80.7 83.5 0.85 5.8 7.0 8.26 2.5 2.9 0.0027 18 40 71

    .6 6.2 ) M3AA 100 LB 3GAA 101 002-••E . . . . . . . . .

    .4 8.6 ) M3AA 112 MB 3GAA 111 002-••C 3455 87.5 88.6 0.93 9.9 7.5 17.8 2.3 3.6 0.012 33 73 2)

    10.6 14.2 M3AA 132 SBB 3GAA 131 004-••C 3440 87.6 88.8 0.93 16.5 8.5 30 2.9 3.6 0.02 50 110 72

    . . ) M3AA 132 SC 3GAA 131 003-••C . . . . . . . . 2)

    5 34 ) M3AA 160 LB 3GAA 161 104-••C 3520 92.7 93.5 0.91 38 7.7 69 2.6 3.0 0.058 100 220 2)

    5 48 M3AA 180 LB 3GAA 181 102-••C 3545 93.6 93.9 0.89 53 8.4 93 2.9 3.2 0.092 137 302 2

    00 MLC 3GAA 201 003-••C . . . . . . . 2)

    4 86 ) M3AA 00 MLD 3GAA 201 004-••C 3540 94.7 94.8 0.89 95 7.8 173 2.8 3.0 0.2 215 474 2)

    3 84 M3AA 25 SMC 3GAA 221 002-••C 3565 94.8 94.6 0.89 94 7.9 169 2.5 2.9 0.29 260 573 2)

    2 124 M3AA 25 SMD 3GAA 221 003-••C 3560 95.2 95.3 0.87 143 7.5 247 2.7 3.0 0.3 275 606 2

    6 115 M3AA 50 SMB 3GAA 251 002-••C . . . . . . . 2)

    110 148 ) M3AA 50 SMC 3GAA 251 003-••C 3565 95.1 95.2 0.90 160 8.0 295 2.3 2.9 0.59 345 760 2)

    General purpose aluminum motorsTechnical data for totally enclosed squirrel cage three phase motors

    IP 55, IC 411; Insulation class F, temperature rise class B

    1) Temperature rise class F2) n request.

    Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    General purpose aluminum motorsTechnical data for totally enclosed squirrel cage three phase motors

    IP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment Sound

    Full 3/4 Power Current Torque f inertia pressure

    u pu Type Produc Speed load load ac or IN

    Is

    Ts

    Tax

    J=1/4 GD2 eigh level LP

    kW HP designa ion ode r/min 100% 75% ϕ IN

    NmN

    T kgm2 kg lbs dB( )

    1500 r/min = 4 poles z as c es gn.075 0.1 M2VA 56 A GVA 052 001-•• 1605 50.5 45.2 0.70 0.27 2.4 0.43 .0 2 .00017 .2 7 39

    .11 0.15 M2VA 56 B GVA 052 002-•• 1630 57.1 51.8 0.66 0.37 2.7 0.65 .6 2.6 .00018 .4 7 39

    .15 0.2 M2VA 63 A GVA -•• . . . . . . . . .

    .22 0.3 M2VA 63 B GVA 062 002-•• 1650 66.9 63.4 0.67 0.64 3.0 1.27 .2 2.2 .00026 .5 10 43

    .3 0.4 M2VA 71 A GVA 072 001-•• 1680 69.9 68.6 0.74 0.78 4.0 1.7 .5 2.7 .00066 .5 12 48

    . . M2VA 71 B GVA -•• . . . . . . . . . .

    .65 0.89 M2VA 80 A GVA 082 001-•• 1640 75.5 73.2 0.76 1.49 4.5 3.79 .4 2.8 .001257 20 53

    .9 1.25 M2VA 80 B GVA 082 002-•• 1660 78.7 76.1 0.76 1.9 4.8 5.18 .1 3.6 .001565 0.5 23 53

    . . 90 S GAA -•• . . . . . . . . .

    1.75 2.4 M2AA 90 L GAA 092 002-••E 1710 80.3 78.1 0.79 3.5 5.0 9.77 .3 2.8 .0043 6 35 53

    .5 3.4 M2AA 100 LA GAA 102 001-••E 1720 83.0 82.7 0.79 4.9 . 13.88 .3 2.8 .0069 1 46 67

    .5 4.7 M2AA 100 LB GAA 102 002-••E 1720 85.0 83.9 0.79 6.6 5.5 19.43 .4 2.8 .0082 4 53 69

    .6 6.2 M2AA 112 M GAA 112 001-••A 1740 86.3 86.6 0.80 8.6 6.5 25 .3 3.4 .015 7 59 2)

    .4 8.6 M2AA 132 S GAA 132 001-••A 1750 87.7 88.2 0.83 11.1 7.0 35 .9 3.2 .031 0 88 2)

    .6 11.5 M2AA 132 M GAA 132 002-••A 1750 88.9 89.4 0.84 14.8 7.8 47 .2 3.1 .038 8 106 2)

    13 17.4 M2AA 160 M GAA 162 111-••A 1765 90.2 90.9 0.83 22 6.5 70 .5 2.5 .067 5 165 2

    17.5 23 M2AA 160 L GAA 162 112-••A . . . . . . . 2)

    1 28 M2AA 180 M GAA 182 111-••A 1760 92.1 92.4 0.82 35 7.8 114 .9 3.5 .102 10 242 64

    5.5 34 M2AA 180 L GAA 182 112-••A 1760 92.6 93.0 0.84 41.5 7.9 138 .9 3.7 .127 28 282 2

    M2AA 200 L GAA 202 011-••A . . . . . . .

    3 58 M2AA 225 S GAA 222 011-••A 1775 93.7 94.1 0.85 69 6.8 232 .7 2.9 .35 16 476 68

    2 70 M2AA 225 M GAA 222 012-••A 1775 94.3 94.6 0.85 83 8.1 280 .3 3.1 .41 37 522 68  GAA -•• . . . . . . .

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

    1) Temperature rise class F2) n request.

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

    1) Temperature rise class F2) n request.

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

    Efficiency Moment ound

    Full /4 Power Curren Torque o iner ia

    Ou pu Type Produc peed load load ac or IN

    Is

    TN

    Ts

    Tax

    J=1/4 GD2 eigh level L

    kW HP designa ion code r/min 100% 5% cos ϕ I Nm T T kgm2 kg lbs B(A)

    4-poles = 1800 r/min z Stan ar es gn1.3 1.75 M3AA 90 L 3GAA 092 312-••E 720 3.9 4.3 0.80 2.4 .2 7.2 2.3 3.0 0.0043 6 5 3

    1.75 .4 M3AA 100 LA 3GAA 102 311-••E 730 5.1 4.8 0.83 3.2 .1 9.7 2.6 3.4 0.0069 1 46 7

    2.5 .4 M3AA 100 LC 3GAA 102 313-••E . . . . . . . . .

    3.5 .7 M3AA 112 MA 3GAA 112 021-••C 750 8.6 9.1 0.83 6.2 .8 19.1 2.3 3.7 0.018 4 5 9

    4.6 .2 M3AA 112 M 3GAA 112 022-••C 760 9.9 9.6 0.78 8.3 .7 25 3.0 4.4 0.018 4 5 9

    6.4 .6 M3AA 132 S 3GAA 132 023-••C . . . . . . . .

    8.6 11.6 M3AA 132 M 3GAA 132 024-••C 750 1.1 2.0 0.87 13.9 .8 47 2.0 3.1 0.048 9 130 2

    12.5 16.8 M3AA 160 M 3GAA 162 101-••C 750 1.6 2.2 0.83 21 .3 71 2.9 2.9 0.091 4 207 2

    M3AA 160 L 3GAA 162 102-••C . . . . . . . . 2)

    22 9 M3AA 180 M 3GAA 182 101-••C 770 2.4 1.5 0.84 36 .1 119 2.8 2.8 0.161 24 273 2)

    26 7 M3AA 180 L 3GAA 182 102-••C 765 3.0 3.7 0.85 42 .0 144 2.8 3.1 0.225 61 552

      3GAA 202 001-••C 770 3.5 4.1 0.85 60 .0 205 2.2 2.4 0.34 05 452 2)

    42 4 M3AA 225 SMA 3GAA 222 001-••C 780 3.7 3.7 0.84 70 .6 225 2.6 3.4 0.37 15 474 2)

    55 4 M3AA 225 SMB 3GAA 222 002-••C 780 4.2 4.3 0.83 90 .4 296 3.0 2.8 0.42 30 07 2)

    65 7 M3AA 250 SMA 3GAA 252 001-••C 780 4.4 4.5 0.86 100 .6 350 2.9 3.2 0.72 75 06 2)

    86 115 M3AA 280 SMA 3GAA 282 001-••C 775 5.0 5.3 0.87 132 .1 463 3.3 3.4 0.88 80 37 2

    105 141 M3AA 280 SMB 3GAA 282 002-••C . . . . . . .

    -po es = r m n z g -output es gn

    0.3 .4 M2VA 63 BB 3GVA 062 003-•• 630 0.9 8.0 0.71 0.76 .1 1.78 2.2 1.8 0.0003 11 43

    0.55 .75 M2VA 71 BB 3GVA 072 003-•• 650 5.1 4.9 0.78 1.2 .9 3.18 1.9 2.1 0.00089 .5 14 48

    0.65 .9 M2VA 71 C 3GVA 072 004-•• 680 7.0 6.7 0.77 1.43 4.6 3.7 2.4 2.6 0.0011 15 48

    1.3 1.8 M2VA 80 C 3GVA 082 004-•• 690 8.1 9.5 0.80 2.6 4.6 7.5 2.7 2.4 0.001948 1 24 3

    2.2 1) M3AA 90 L 3GAA 092 003-••E 690 9.5 8.1 0.79 4.4 4.5 12.43 2.1 2.4 0.0043 6 5 3

    2.5 .4 1) M3AA 90 LB 3GAA 092 004-••E 690 0.3 1.0 0.82 5.1 4.5 14.13 2.1 2.4 0.0048 7 7 3

    4.6 .2 1 M3AA 100 LC 3GAA 102 003-••E 710 1.0 1.7 0.78 8.8 5.5 25.69 2.4 2.7 0.009 5 5 3

    6.4 .6 1) M3AA 112 MB 3GAA 112 002-••C . . . . . . . . . 2)

    10.6 14.2 1) M3AA 132 MBA 3GAA 132 004-••C 745 8.3 9.4 0.87 17.4 .2 58 2.2 2.8 0.048 9 130 1

    12.6 16.9 1 M3AA 132 MB 3GAA 132 003-••C 745 9.3 0.1 0.85 21 .8 69 2.2 2.6 0.048 9 130 2

    1) M3AA 160 LB 3GAA 162 103-••C . . . . . . . 2)

    35 7 1) M3AA 180 LB 3GAA 182 103-••C 765 3.2 3.8 0.84 56 .8 189 2.4 2.7 0.225 61 55 2)

    42 6 M3AA 200 MLB 3GAA 202 002-••C 775 3.6 4.0 0.84 70 .9 226 3.3 3.2 0.34 05 452 2

    ) 1) M3AA 200 MLC 3GAA 202 003-••C . . . . . . .

    65 7 M3AA 225 SMC 3GAA 222 003-••C 775 4.5 4.8 0.87 104 .3 350 3.0 2.7 0.49 65 842)

    84 ) 1) M3AA 225 SMD 3GAA 222 004-••C 770 4.8 5.0 0.86 132 .1 453 4.1 3.1 0.56 90 39 9

    88 117 M3AA 250 SMB 3GAA 252 002-••C 775 4.7 5.0 0.87 132 .2 474 3.3 3.4 0.88 35 38 2)

    109 146 1) M3AA 250 SMC 3GAA 252 003-••C 770 5.3 5.9 0.88 165 .4 588 2.7 3.0 0.95 60 93 0

    eneral purpose aluminum motorsTechnical data for totally enclosed squirrel cage three phase motors

    IP 55, IC 411; Insulation class F, temperature rise class B

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    General purpose aluminum motorsTechnical data for totally enclosed squirrel cage three phase motors

    IP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment Sound

    Full 3/4 Power Current Torque of inertia ressure

    u pu ype Produc peed load load ac or IN

    Is

    T Ts

    Tax

    J=1/4 GD2 Weigh level LP

    kW HP esigna ion code r/min 100% 75% IN

    Nm TN

    T kgm2 kg lbs dB( )

    -poles = 1200 r/min z Standard es gn.11 0.15 M2VA 63 A 3GVA 63 001 •• 1080 49.6 45.0 .59 .48 2.0 0.98 1.8 1.8 .0002 4 9 41

    .15 0.2 M2VA 63 B 3GVA 63 002 •• 1080 59.1 55.6 .61 .53 2.0 1.32 1.8 1.8 .00027 4.5 10 41

    .22 0.3 M2VA 71 A 3GVA . . . . . . . . . .

    .3 0.4 M2VA 71 B 3GVA 73 002 •• 1090 5.4 62.8 .68 .85 3.0 2.65 2.3 2.5 .00081 6.5 14 45

    .45 0.62 M2VA 80 A 3GVA 83 001 •• 1080 2.7 70.6 .72 .1 3.7 3.98 2.7 3.0 .001842 20 50

    . . M2VA 80 B 3GVA -•• . . . . . . . . .

    .9 1.2 M3AA 90 S 3GAA 93 001-••E 1120 1.5 70.7 .68 .4 4.0 7.67 1.8 2.3 .0032 13 29 47

    1.3 1.7 M3AA 90 L 3GAA 93 002-••E 1120 4.4 72.5 .67 .3 4.0 11.08 2.0 2.3 .0043 16 35 47

    . . 3GAA 03 001-••E 1130 0.0 77.0 .69 4.5 14.79 1.8 2.3 .0082 23 51 52

    2.5 3.4 M3AA 112 M 3GAA 13 001-••C 1140 2.4 82.7 .74 .4 5.7 21 1.9 2.9 .015 27 59 2)

    3.5 4.7 M3AA 132 S 3GAA 33 001-••C 1160 6.0 86.2 .75 .9 6.5 29 1.8 3.0 .031 39 86 2)

    4.6 6.2 M3AA 132 MA 3GAA 33 002-••C 1160 7.1 87.3 .78 .7 7.1 38 2.0 3.1 .038 46 101 2)

    .4 8.6 M3AA 132 MB 3GAA 33 003-••C 1155 7.5 88.0 .79 1.9 7.1 53 2.5 2.9 .045 54 119 2

    .6 11.5 M3AA 160 M 3GAA 63 101-••C . . . . . . . . 2)

    12.5 16.8 M3AA 160 L 3GAA 63 102-••C 1170 0.1 90.8 .77 3 7.6 105 2.2 3.1 .107 102 225 2)

    17 23 M3AA 180 L 3GAA 83 101-••C 1170 0.9 91.4 .78 1 7.0 139 2.0 3.0 .217 151 333 2

    21 28 M3AA 200 MLA 3GAA 03 001-••C . . . . . . . 2)

    25 34 M3AA 200 MLB 3GAA 03 002-••C 1180 1.9 92.2 .81 5 7.0 202 2.8 3.0 .43 185 407 2)

    34 46 M3AA 225 SMB 3GAA 23 001-••C 1185 2.8 92.8 .82 6 8.0 274 3.3 2.9 .64 225 496 2

    M3AA 250 SMA 3GAA 53 001-••C . . . . . . . 2)

    52 70 M3AA 280 SMA 3GAA 83 001-••C 1185 3.7 94.1 .84 2 7.3 419 2.5 2.7 .49 375 826 2)

    -poles = 1200 r/min 60 V 60 Hz High-output design.18 0.25 M2VA 63 BB 3GVA -•• . . . . . . . . .

    .45 0.62 M2VA 71 C 3GVA 73 004-•• 1090 4.8 65.4 .70 .2 2.9 4 2.1 2.1 .0011 7 15 45

    .9 1.25 M2VA 80 C 3GVA 83 003-•• 1120 1.9 74.2 .77 3.7 8 2.2 2.3 .002576 10 22 50

    . ) M3AA 90 LB 3GAA 93 003-••E . . . . . . . . .

    2.5 3.4 ) M3AA 100 LC 3GAA 03 002-••E 1130 7.0 72.8 .69 .9 4.5 21.13 1.8 2.3 .009 26 57 52

    3.5 4.7 M3AA 112 MB 3GAA 13 002-••C 1140 1.7 82.5 .77 5.8 30 2.3 2.9 .018 33 73 2

    . . ) M3AA 132 MC 3GAA 33 004-••C . . . . . . . . 2)

    16.1 22 ) M3AA 160 LB 3GAA 63 103-••C 1165 9.7 89.9 .75 0 7.9 132 2.6 3.2 .127 117 258 2)

    21 27 ) M3AA 180 LB 3GAA 83 102-••C 1165 0.7 91.5 .81 6 7.1 163 2.2 2.9 .237 160 352 2)

    34 46 ) M3AA 200 MLC 3GAA 03 003-••C 1180 1.8 92.3 .81 5 7.8 275 3.2 3.1 .49 200 441 2)

    42 55 M3AA 225 SMC 3GAA 23 002-••C 1185 3.2 93.6 .83 8 7.1 340 3.1 2.7 .75 252 555 2)

    52 70 ) M3AA 250 SMB 3GAA 53 002-••C 1185 3.8 94.2 .84 3 7.6 420 3.3 3.1 .49 320 705 2)

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

      Temperature rise class F.  On reques .

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    Efficiency Moment Sound

    Full 3/4 Power Current Torque f inertia pressu

    u pu Type Produc Speed load load ac or IN

    Is

    T Ts

    Tax

    J=1/4 GD2 Weigh level L

    kW HP designa ion ode r/min 100% 75% ϕ IN

    Nm T T kgm2 kg lbs dB( )

    -poles = 900 r/min z as c es gn.07 0.095 M2VA 63 B GVA 64 002-•• 810 1.2 34.7 0.50 0.44 1.7 0.83 2.0 2.0 .00027 4.5 10 39

    .11 0.15 M2VA 71 A GVA 74 001-•• 810 6.3 38.0 0.60 0.5 2.1 1.2 2.1 2.1 .00063 5.5 12 43

    .15 0.2 M2VA 71 B GVA -•• . . . . . . . . . .

    .22 0.3 M2VA 80 A GVA 84 001-•• 830 1.1 55.7 0.64 0.7 3.1 2.53 2.9 3.3 .001842 9 20 48

    .3 0.4 M2VA 80 B GVA 84 002-•• 810 0.2 66.9 0.64 0.85 2.9 3.54 2.7 2.9 .002176 10 22 48

    . . M3AA 90 S GAA 94 001-••E . . . . . . . . .

    .65 0.9 M3AA 90 L GAA 94 002-••E 840 2.9 56.4 0.57 2.5 3.0 7.39 1.6 2.1 .0043 16 5 46

    .9 1.2 M3AA 100 LA GAA 04 001-••E 850 2.0 63.6 0.60 2.7 3.5 10.11 2.0 2.6 .0069 20 44 49

    . . GAA 04 002-••E 850 3.0 68.8 0.65 3.5 3.5 14.61 2.0 2.6 .0082 23 51 49

    1.7 2.3 M3AA 112 M GAA 14 001-••C 850 6.5 76.1 0.64 4.4 4.4 19.4 1.8 2.7 .016 28 2 2)

    .5 3.4 M3AA 132 S GAA 34 001-••C 870 1.8 81.3 0.66 5.8 5.1 28 1.6 2.7 .038 46 101 2)

    .5 4.7 M3AA 132 M GAA 34 002-••C 870 3.9 83.3 0.69 7.7 5.6 39 2.1 2.7 .045 53 117 2)

    .6 6.2 M3AA 160 MA GAA 64 101-••C 865 4.3 84.8 0.70 10 5.3 51 1.9 2.4 .072 75 165 2

    .4 8.6 M3AA 160 M GAA 64 102-••C . . . . . . . . 2)

    .6 11.5 M3AA 160 L GAA 64 103-••C 865 6.2 87.0 0.70 18.6 5.7 95 2.2 2.8 .131 118 260 2)

    13.5 18.1 M3AA 180 L GAA 84 101-••C 870 9.4 90.2 0.77 24.5 5.6 149 2.1 2.4 .224 147 24 2

    17 23 M3AA 200 MLA GAA 04 001-••C . . . . . . . 2)

    1 28 M3AA 225 SMA GAA 24 001-••C 880 1.0 91.3 0.79 38 7.0 227 2.6 3.3 .61 210 463 2)

    5 34 M3AA 225 SMB GAA 24 002-••C 880 1.7 92.3 0.78 45 6.5 271 2.4 2.8 .68 225 496 2

    M3AA 250 SMA GAA 54 001-••C . . . . . . . 2)

    2 56 M3AA 280 SMA GAA 84 001-••C 885 2.7 93.0 0.81 71 7.2 453 1.8 2.8 1.52 375 26 2)

    -poles = 900 r/min 460 V 60 Hz High-output design.22 0.3 M2VA 71 C GVA -•• . . . . . . . . .

    .45 0.6 M2VA 80 C GVA 84 003-•• 840 7.9 68.6 0.69 1.2 3.1 5.3 2.1 2.2 .002576 11 24 48

    .9 1.2 M3AA 90 LB GAA 94 003-••E 830 4.0 60.0 0.65 2.7 3.0 10.36 1.7 2.0 .0048 18 40 46

    . . ) M3AA 100 LC GAA 04 003-••E . . . . . . . . .

    .2 3 ) M3AA 112 MB GAA 14 002-••C 845 6.7 76.8 0.67 5.5 4.5 25 1.9 2.7 .018 33 3 2)

    .4 5.9 M3AA 132 MB GAA 34 003-••C 865 0.8 80.8 0.70 .9 . 49 2.1 2.7 .049 59 130 2

    . . ) M3AA 160 LB GAA 64 104-••C . 2) . . . . . 2)

    17 23 ) M3AA 180 LB GAA 84 102-••C 870 8.0 88.8 0.76 32.5 6.1 187 2.3 2.6 .24 155 41 2)

    1 28 M3AA 200 MLB GAA 04 002-••C 885 1.5 91.8 0.82 36 7.3 224 2.4 3.1 .54 200 441 2)

    4 46 ) M3AA 225 SMC GAA 24 003-••C 885 1.9 92.3 0.79 61 7.0 367 2.7 3.3 .8 255 562 2)

    2 56 M3AA 250 SMB GAA 54 002-••C 885 1.9 92.6 0.82 72 7.8 453 2.9 3.5 1.52 320 05 2)

    General purpose aluminum motorsTechnical data for totally enclosed squirrel cage three phase motors

    IP 55, IC 411; Insulation class F, temperature rise class B

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

      Temperature rise class F.2 On request.

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    eneral purpose steel motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment Sound

    Full 3/4 Power urrent Torque of inertia pressure

    u pu Type Produc peed load load ac or I I TN

    Ts

    Tmax

    J=1/4 GD2 Weigh level LP

    kW HP designa ion code r/min 100% 75% ϕ I Nm TN

    TN

    kgm kg lbs dB( )

    -poles = 3600 r/min z as c es gn0 120 M2CA 80 SA 3GCA 81 110-••A 577 94.6 93.8 0.88 135 7.1 240 1.7 2.7 0.8 480 1057 82

    105 140 M2CA 80 SMA 3GCA 81 210-••A 573 95.1 94.9 0.90 155 7.2 281 1.9 2.9 0.9 545 1200 82

    125 168 M2CA 15 SA 3GCA 11 110-••A . . . . . . .

    155 208 M2CA 15 SMA 3GCA 11 210-••A 580 95.1 94.2 0.88 234 7.3 413 2.0 2.9 1.4 770 1696 85

    185 248 M2CA 15 MB 3GCA 11 320-••A 580 95.5 94.8 0.89 273 7.7 493 2.2 2.9 1.7 840 1850 85

    ) M2CA 15 LA 3GCA 11 510-••A . . . . . . .

    230 310 M2CA 55 SA 3GCA 51 110-••A 576 94.8 94.4 0.92 30 6.4 614 1.1 2.7 3.2 1220 2687 88

    285 380 M2CA 55 MA 3GCA 51 310-••A 579 95.9 95.7 0.91 410 6.8 760 1.3 3.1 3.8 1320 2907 88

    M2CA 3GCA 51 320-••A 577 95.8 95.6 0.91 455 5.7 840 1.1 2.9 3.8 1320 2907 88

    360 480 M2CA 55 LA 3GCA 51 510-••A 575 96.0 95.8 0.92 10 7.6 961 1.2 3.3 4.8 1530 3370 88

    400 535 M2CA 55 LB 3GCA 51 520-••A 574 96.0 95.8 0.92 70 7.0 1068 1.1 3.2 4.8 1550 3414 88

    -po es = r m n z g -output es gn

    125 170 M2CA 80 MB 3GCA 81 320-••A 578 95.5 95.0 0.90 184 7.9 334 2.2 3.0 1.15 580 1278 82

    150 201 M2CA 80 MC 3GCA 81 330-••A 574 95.8 95.4 0.91 220 7.8 401 2.4 3.0 1.4 1663 82

    ) M2CA 80 MD 3GCA -•• . . . . . . .

    288 386 M2CA 15 LB 3GCA 11 520-••A 580 96.2 95.8 0.90 422 8.1 768 2.6 2.9 2.65 1230 2709 85

    362 485 M2CA 15 LC 3GCA 11 530-••A 580 96.5 96.2 0.90 25 9.2 966 3.2 3.1 3.3 1410 3106 85

    -poles = 1800 r/min z as c es gn

    8 120 M2CA 80 SA 3GCA 82 110-••A 1783 95.1 94.3 0.85 138 6.8 471 2.2 2.6 1.15 445 980 73

    105 140 M2CA 80 SMA 3GCA 82 210-••A 1782 95.3 94.9 0.85 164 7.1 563 2.5 2.8 1.4 490 1079 73

    M2CA 15 SA 3GCA 12 110-••A . . . . . .

    150 201 M2CA 15 SMA 3GCA 12 210-••A 1786 95.5 95.5 0.85 233 6.9 802 2.1 2.7 2.3 730 1608 75

    185 248 M2CA 15 MB 3GCA 12 320-••A 1786 95.9 95.9 0.86 285 7.2 989 2.2 2.9 2.9 850 1872

    M2CA 3GCA -•• . . . . . . .

    230 310 M2CA 55 SA 3GCA 52 110-••A 1787 95.6 95.5 0.86 50 7.0 1229 1.9 2.6 5.5 1220 2687 85

    300 400 M2CA 55 MA 3GCA 52 310-••A 1786 96.0 95.9 0.87 450 6.8 1604 2.0 2.5 6.5 1350 2974 85

    345 460 M2CA 55 LA 3GCA 52 510-••A 1788 96.4 96.4 0.87 15 7.9 1842 2.1 3.0 7.8 1550 3414 85

    375 505 M2CA 55 LB 3GCA 52 520-••A 1790 96.5 96.5 0.89 50 7.8 2000 1.4 3.2 7.8 1550 3414 85

    450 600 M2CA 55 LKD 3GCA 52 540-••A . . . . . .

    500 670 M2CA 00 MLA 3GCA 02 410-••A 1788 96.5 96.5 0.89 30 6.9 2670 1.2 2.8 13 2400 5286 90

    550 740 M2CA 00 MLB 3GCA 02 420-••A 1789 96.6 96.6 0.89 00 7.3 2935 1.2 2.8 13 2400 5286 90

    00 800 M2CA 00 LKA 3GCA 02 510-••A . . . . . .

    70 900 M2CA 00 LKB 3GCA 02 520-••A 1789 96.7 96.7 0.88 90 7.0 3576 1.1 2.8 15 2800 6167 90

    -poles = 1800 r/min 60 V 60 Hz High-output design

    125 170 M2CA 80 MB 3GCA 82 320-••A 1783 95.4 95.2 0.86 193 7.6 670 2.5 2.9 1.7 550 1211 73

    150 201 M2CA 80 MC 3GCA 82 330-••A 1782 95.7 95.6 0.87 229 7.4 805 2.8 3.0 2.3 775 1707 75

    185 248 M2CA 80 MD 3GCA 82 340-••A 1782 95.6 95.7 0.86 283 7.2 992 2.6 3.1 2.5 820 1806 75

    288 386 M2CA 15 LB 3GCA 12 520-••A . . . . . . .

    362 485 M2CA 15 LC 3GCA 12 530-••A 1787 96.2 96.2 0.86 55 8.3 1934 2.6 3.2 5.5 1380 3040 83

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.

    Motors are also available acc. to CSA Energy Efficiency Verification,IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

    ) Temperature rise class F

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    General purpose steel motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment ound

    Full 3/4 Power urrent Torque of inertia ressu

    Ou pu ype Produc Speed load load ac or I Is

    TN s max

    J=1/4

    D2Weigh level LP

    kW HP esignation ode r/min 100% 75% cos ϕ A I Nm kgm2 kg lbs B(A)

    6-poles = 1200 r/min 460 V 60 Hz Basic design

    M2CA 280 SA GCA 83 110-••A . . . . . . .

    63 84 M2CA 280 SMA GCA 83 210-••A 1189 94.8 94.5 0.83 103 6.6 507 .4 .5 2 475 1046 1

    86 115 M2CA 315 SA GCA 13 110-••A 1191 94.9 94.7 0.81 141 7.3 690 .2 .7 2.9 630 1388 0

    M2CA 315 SMA GCA -•• . . . . . . .

    125 168 M2CA 315 MB GCA 13 320-••A 1191 95.1 94.9 0.83 198 7.5 1002 .4 .8 4.5 805 1773 3

    150 201 M2CA 315 LA GCA 13 510-••A 1190 95.4 95.3 0.84 37 6.9 1204 .4 .7 5.4 910 2004 3

    M2CA 355 SA GCA 53 110-••A 1190 95.6 95.4 0.85 70 5.6 1404 1.4 .2 8.7 1200 2643 2

    200 270 M2CA 355 SB GCA 53 120-••A 1191 95.6 95.4 0.86 05 6.4 1603 1.5 .4 10 1320 2907 2

    230 310 M2CA 355 MA GCA 53 310-••A 1192 95.7 95.5 0.85 55 7.4 1842 1.9 .7 13 1550 3414 2

    275 370 M2CA 355 MB GCA 53 320-••A 1191 95.9 95.8 0.83 35 7.5 2205 .1 .1 13 1550 3414 2

    340 455 M2CA 355 LKD GCA 53 540-••A 1191 96.0 95.9 0.84 30 7.8 2726 1.9 .0 15 1900 4185 8

    400 535 M2CA 400 MLA GCA 03 410-••A . . . . . .

    440 590 M2CA 400 MLB GCA 03 420-••A 1192 96.3 96.2 0.85 70 6.4 3525 1.2 .7 17 2400 5286 8

    500 670 M2CA 400 LKA GCA 03 510-••A 1193 96.5 96.4 0.86 60 6.8 4002 1.2 .8 19 2700 5947 8

    1) M2CA 400 LKB GCA 03 520-••A . . . . . .

    6-poles = 1200 r/min 460 V 60 Hz High-output design

    86 115 M2CA 280 MB GCA 83 320-••A 1189 94.8 94.6 0.83 137 7.5 691 .7 .7 2.6 545 1200 2

    105 2) M2CA 280 MC GCA 83 330-••A 1188 94.9 94.8 0.83 169 . 845 .7 .8 3.1 815 1795 2

    125 2) M2CA 280 MD GCA 83 340-••A 1190 95.1 95.0 0.83 198 8.2 1005 .0 .0 4.1 835 1839 2

    185 248 1 M2CA 315 LB GCA 13 520-••A 1191 95.5 95.4 0.83 94 7.9 1483 .8 .0 7.3 1200 2643 6

    230 3081)

    M2CA 315 LC GCA 13 530-••A . . . . . . .

    8-poles = 900 r/min 460 V 60 Hz Basic design

    43 58 M2CA 280 SA GCA 84 110-••A 891 93.9 92.7 0.79 3 7.2 461 1.6 .0 1.85 460 1013 2

    55 74 M2CA 280 SMA GCA 84 210-••A 890 94.0 93.3 0.81 2 . 591 1.6 .9 2.2 500 1101 2

    63 84 M2CA 315 SA GCA 14 110-••A 892 94.0 93.8 0.81 105 7.1 674 1.5 .7 2.9 630 1388 7

    85 114 M2CA 315 SMA GCA 14 210-••A 890 94.5 94.4 0.82 139 7.1 912 1.6 .6 3.8 715 1575 7

    105 141 M2CA 315 MB GCA 14 320-••A . . . . . . .

    125 168 1) M2CA 315 LA GCA 14 510-••A 889 94.8 94.7 0.83 01 7.0 1343 1.6 .6 5.4 900 1982 3

    125 170 M2CA 355 SA GCA 54 110-••A 891 94.3 94.2 0.81 05 5.7 1339 1.3 .2 8.7 1200 2643 3

    M2CA 355 MA GCA 54 310-••A . . . . . .

    180 240 M2CA 355 MB GCA 54 320-••A 893 95.3 94.9 0.80 00 6.2 1924 1.5 .2 13 1550 3414 3

    230 310 M2CA 355 LKD GCA 54 540-••A 893 95.5 95.3 0.75 02 6.4 2459 1.6 .6 15 1900 4185 8M2CA 400 MLA GCA -•• . . . . . .

    360 480 1) M2CA 400 LKA GCA 04 510-••A 894 96.1 95.8 0.80 90 7.0 3845 1.4 .7 19 2700 5947 8

    8-poles = 900 r/min 460 V 60 Hz High-output design

    65 87 M2CA 280 MB GCA 84 320-••A . . . . . . .

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

    ) Temperature rise class F2) On request.

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    eneral purpose cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment ound

    Full 3/4 Power urrent Torque of inertia ressure

    u pu ype Produc Speed load load ac or IN

    Is

    T Ts

    Tax

    J=1/4 GD2 Weigh level LP

    kW HP esigna ion code r/min 100% 5% ϕ IN

    Nm TN

    T kgm2 kg lbs B( )

    -poles = 3600 r/min z as c es gn.43 .57 M2QA 71 M2A 3GQA 071 301-••A 3340 70.0 2) 0.83 .97 .1 1.23 .2 2.8 0.0003 10 2 9

    .63 .85 M2QA 71 M2B 3GQA 071 302-••A 3340 73.0 2 0.84 1.35 .1 1.8 .2 2.4 0.00037 11 4 9

    .86 1.16 M2QA 80 M2A 3GQA 081 301-••A . 2) . . . . . . . 2)

    1.27 1.7 M2QA 80 M2B 3GQA 081 302-••A 3430 78.0 2) 0.88 2.43 .0 .54 .2 2.2 0.00107 17 7 1

    1.73 .31 M2QA 90 S2A 3GQA 091 101-••A 3420 79.0 2 0.87 .3 .0 4.83 .2 2.3 0.00135 21 6 2

    . . M2QA 90 L2A 3GQA 091 501-••A . 2) . . . . . . . 2)

    .45 .62 M2QA 100 L2A 3GQA 101 501-••A 3430 83.0 2) 0.89 .13 .0 .61 .2 2.7 0.00402 33 3 8

    .6 .17 M2QA 112 M2A 3GQA 111 301-••A 3480 85.0 2 0.91 .85 .0 12.62 .2 2.9 0.00671 42 3 2

    . . M2QA 132 S2A 3GQA -•• . 2) . . . . . . .

    .6 11.6 M2QA 132 S2B 3GQA 131 102-••A 3510 88.5 2) 0.91 14.01 .0 23.4 .2 3.2 0.01491 63 39 2)

    12.7 17.1 M2QA 160 M2A 3GQA 161 301-••A 3515 91.52

    0.91 20.02 .5 4.5 .5 3.0 0.0436 112 472

    17.3 3 M2QA 160 M2B 3GQA 161 302-••A 3517 91.6 2) 0.91 27.24 .5 46.98 .5 3.2 0.0551 122 69 2)

    1.3 8 M2QA 160 L2A 3GQA 161 501-••A 3520 91.8 2) 0.91 3.46 .5 7 .5 3.2 0.06549 142 13 2)

    5.3 3 M2QA 180 M2A 3GQA 181 301-••A 3528 92.1 2) 0.90 40.05 .5 8 .3 2.8 0.08805 170 74 2)

    4.5 6 M2QA 200 L2A 3GQA 201 501-••A 3550 91.4 2) 0.91 54 .5 2 .2 2.7 0.14821 235 18 2)

    2.6 7 M2QA 200 L2B 3GQA 201 502-••A 3550 91.2 2 0.91 7 .5 114 .3 2.7 0.16822 254 59 2

    1.8 9 M2QA 225 M2A 3GQA 221 301-••A . 2) . . . . . 2)

    3 5 M2QA 250 M2A 3GQA 251 301-••A 3559 93.8 2) 0.91 6 .5 169 .4 3.0 0.3784 390 59 2)

    6 115 M2BAT 280 SMA 3GBA 281 210-••D 3573 93.5 2.6 0.88 132 .8 230 1.5 2.6 0.7 570 256 3

    M2BAT 280 SMB 3GBA 281 220-••D . . . . . . .

    125 168 M2BAT 315 SMA 3GBA 311 210-••D 3577 93.2 2.1 0.86 198 .2 34 1.3 2.5 1.05 820 806 8

    150 01 M2BAT 315 SMB 3GBA 311 220-••D 3577 94.0 3.1 0.87 230 .3 400 1.5 2.5 1.25 870 916 8M2BAT 315 SMC 3GBA -•• . . . . . . .

    30 08 M2BAT 315 MLA 3GBA 311 410-••D 3580 95.3 4.6 0.89 44 .0 14 .4 3.0 1.95 1130 489 8

    85 82 M2BAT 355 S 3GBA 351 100-••D 3582 95.7 5.1 0.89 420 .8 60 1.4 2.8 2.7 1500 304 8

    -poles = 3600 r/min z g -output es gn

    .3 .5 1) M2QA 112 L2 A 3GQA 111 501-••A 3480 84.0 2) 0.93 10.12 .0 17.3 .0 2.1 0.008262 49 08 3

    10.6 14 1 M2QA 132 M2A 3GQA 131 301-••B 3500 85.5 2 0.89 17.48 .5 28.9 .0 2.2 0.014995 68 50 4

    . 1) M2QA 132 M2B 3GQA 131 302-••B . 2) . . . . . . .

    5.3 3 1) M2QA 160 L2B 3GQA 161 502-••A 3520 89.3 2) 0.91 9.08 .5 8 .3 2.8 0.06549 130 86 8

    4.5 6 1 M2QA 180 L2A 3GQA 181 501-••A 3540 92.1 2 0.90 52 .5 3 .3 2.8 0.10339 185 07 8

    . 1) M2QA 200 L2C 3GQA -•• . 2) . . . . .

    3 4 1) M2QA 225 M2B 3GQA 221 302-••A 3570 92.2 2) 0.90 5 .0 169 .5 2.8 0.33431 340 49 4

    6 115 1) M2QA 250 M2B 3GQA 251 302-••A 3560 91.4 2) 0.91 130 .0 231 .4 2.8 0.45829 411 05 8

    120 161 M2BAT 280 SMC 3GBA 281 230-••D 3572 94.7 4.1 0.89 180 .1 21 1.8 2.7 1.05 660 454 3

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

    1 Temperature rise class F.2 n reques .

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    General purpose cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment ound

    Full /4 Power Current Torque f inertia ressu

    u pu Type Produc peed load load ac or I I TN s

    Tmax

    =1/4 GD2 Weigh level L

    kW HP designa ion code r/min 100% 5% ϕ I NmN

    TN

    kgm2 kg lbs dB( )

    -poles = 1800 r/min z as c es gn.29 0.39 M2QA 1 M4A 3GQA 72 301-••A 1670 65.5 2) 0.74 0.79 5.2 1.66 .1 .5 .00053 11 24 46

    .43 0.57 M2QA 1 M4B 3GQA 72 302-••A 1670 68.5 2 0.76 1.08 5.2 2.46 .1 .5 .00066 11 24 48

    .63 0.85 M2QA 0 M4A 3GQA 82 301-••A . 2) . . . . . . . 2)

    .86 1.16 M2QA 0 M4B 3GQA 82 302-••A 1680 74.5 2) 0.77 1.97 6.0 4.89 .4 .4 .00174 17 37 2)

    1.27 1.7 M2QA 0 S4A 3GQA 92 101-••A 1680 77.5 2 0.78 2.77 6.0 7.22 .3 .2 .00254 21 46 2

    . . M2QA 0 L4A 3GQA 92 501-••A . 2) . . . . . . . 2)

    .53 3.39 M2QA 100 L4A 3GQA 102 501-••A 1720 81.5 2) 0.82 4.97 6.0 14.05 .3 .5 .00679 32 70 2)

    .45 4.62 M2QA 100 L4B 3GQA 102 502-••A 1700 82.8 2 0.86 6.36 6.5 19.38 .3 .5 .00862 36 79 2

    . . M2QA 112 M4A 3GQA -•• . 2) . . . . . . . 2)

    .33 8.5 M2QA 132 S4A 3GQA 132 101-••A 1700 86.0 2) 0.86 11.23 6.5 35.56 .3 .7 .02673 60 132 62

    .6 11.6 M2QA 132 M4A 3GQA 132 301-••A 1730 88.52

    0.86 14.83 6.5 47.47 .3 .5 .03432 73 161 62

    12.7 17 M2QA 160 M4A 3GQA 162 301-••A 1755 91.0 2) 0.87 21.06 6.5 69 .4 .8 .06543 116 256 69

    17.3 23 M2QA 160 L4A 3GQA 162 501-••A 1752 91.6 2) 0.88 21.17 6.5 94 .3 .4 .09349 137 302 69

    1.3 28 M2QA 180 M4A 3GQA 182 301-••A 1764 92.8 2) 0.87 34.62 6.5 115 .3 .0 .16049 170 374 69

    5.3 33 M2QA 180 L4A 3GQA 182 501-••A 1764 93.1 2) 0.89 40.06 6.5 137 .4 .1 .18046 186 410 69

    4.5 46 M2QA 00 L4A 3GQA 202 501-••A 1765 92.6 2 0.89 54 6.5 186 .2 .8 .2819 254 559 74

    2.6 M2QA 25 S4A 3GQA 222 101-••A . 2) . . . . .

    1.8 69 M2QA 25 M4A 3GQA 222 301-••A 1770 92.8 2) 0.88 83 7.0 279 .2 .8 .42 335 738 76

    3 84 M2QA 50 M4A 3GQA 252 301-••A 1779 93.8 2 0.89 99 7.0 338 .4 .0 .78 450 991 79

    M2BAT 80 SMA 3GBA 282 210-••D . . . . . . .

    102 137 M2BAT 80 SMB 3GBA 282 220-••D 1780 94.6 4.5 0.86 158 6.7 547 .0 .4 .32 600 1322 75

    125 168 M2BAT 15 SMA 3GBA 12 210-••D 1785 94.3 3.7 0.85 196 6.6 669 .6 .3 .9 800 1762 83M2BAT 15 SMB 3GBA -•• . . . . . . .

    185 248 M2BAT 15 SMC 3GBA 12 230-••D 1784 95.2 4.8 0.85 288 6.7 990 .0 .6 .6 930 2048 83

    30 308 M2BAT 15 MLA 3GBA 12 410-••D 1784 95.6 5.3 0.86 355 6.6 1231 .0 .5 .2 1030 2269 83

    88 386 M2BAT 55 S 3GBA 52 100-••D 1788 95.5 5.0 0.85 445 6.8 1538 .8 .5 .4 1500 3304 87

    -poles = 1800 r/min 60 V 60 Hz High-output design

    .3 8.48 1 M2QA 112 L4A 3GQA 112 501-••A 1720 84.0 2 0.84 11.27 7.0 35 .2 .2 .01484 49 108 67

    . 1) M2QA 132 M4B 3GQA 132 302-••A . 2) . . . . . .

    12.7 2) 1) M2QA 132 M4C 3GQA 132 303-••A 1720 84.5 2) 0.86 21.93 6.5 70 .2 .2 .04227 80 176 76

    1.3 28 1 M2QA 160 L4B 3GQA 162 502-••A 1750 88.6 2 0.88 34.29 6.5 116 .2 .4 .10686 147 324 69

    . 1) M2QA 3GQA -•• . 2) . . . . .

    2.6 57 1) M2QA 00 L4B 3GQA 202 502-••A 1760 89.6 2) 0.89 67 6.5 231 .2 .6 .29715 277 610 75

    3 84 1) M2QA 25 M4B 3GQA 222 302-••A 1780 91.0 2) 0.88 98 7.0 338 .1 .4 .6244 351 773 78

    6 115 1) M2QA 50 M4B 3GQA 252 302-••A 1780 90.8 2) 0.89 133 7.0 461 .3 .4 .9125 485 1068 80

    125 168 M2BAT 80 SMC 3GBA 282 230-••D 1783 95.2 4.9 0.86 193 7.5 669 .6 .8 .7 660 1454 75

    The technical data above are acc. to IEC 60034-2 Determination of efficiencyMotors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

      Temperature rise class F.2 On request.

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

     

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    General purpose cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Momen ound

    Full 3/4 Power Current Torque of inertia ressure

    Output Type Product peed load load actor I Is

    T Ts

    Tmax

    J=1/4 GD eight level LP

    kW HP esigna ion code r/min 100% 75% IN

    Nm T TN

    kgm2 kg lbs B( )

    6-poles = 1200 r/min 460 V 60 Hz Basic design0.21 0.28 M2QA 71 M6A 3GQA 73 301-••A 1090 55.0 2) .66 0.76 4.0 1.84 1.8 2.2 0.00056 0 2 2)

    0.29 0.39 M2QA 71 M6B 3GQA 73 302-••A 1070 0.0 2) .66 0.96 4.0 2.59 1.8 2.3 0.00074 1 4 2)

    0.43 0.58 M2QA 0 M6A 3GQA 83 301-••A 1101 3.0 2) .67 1.34 5.0 3.72 1.9 1.9 0.00159 7 7 2)

    0.63 0.84 M2QA 0 M6B 3GQA 83 302-••A 1101 5.0 2 .68 1.87 5.0 5.45 1.9 1.8 0.00196 8 0 2

    0.86 1.15 M2QA 0 S6A 3GQA 93 101-••A . 2) . . . . . . . 2)

    1.27 1.7 M2QA 0 L6A 3GQA 93 501-••A 1100 73.0 2) .75 3.04 5.0 11.03 2.0 2.3 0.00379 5 5 2)

    1.73 2.32 M2QA 100 L6A 3GQA 103 501-••A 1130 76.0 2 .77 3.88 5.5 14.62 2.0 2.2 0.00999 2 0 2

    . . M2QA 112 M6A 3GQA 113 301-••A . 2) . . . . . . . 2)

    3.45 4.62 M2QA 132 S6A 3GQA 133 101-••A 1150 2.5 2) .79 6.95 6.5 28.65 2.0 2.2 0.03116 5 121 2)

    4.6 6.17 M2QA 132 M6A 3GQA 133 301-••A 1150 4.0 2 .79 9.1 6.5 38.2 2.0 2.7 0.04074 5 143 9

    . . M2QA 132 M6B 3GQA -•• . 2) . . . . . . 2)

    8.6 11.6 M2QA 160 M6A 3GQA 163 301-••A 1167 8.0 2) .79 16.23 6.0 70 2.0 2.3 0.09231 19 62 2)

    12.7 17 M2QA 160 L6A 3GQA 163 501-••A 1166 9.9 2 .80 23.17 6.0 104 2.2 2.3 0.1297 40 08 2

    . M2QA 3GQA 183 501-••A 1176 1.1 2) .83 30.03 6.0 140 2.3 2.8 0.2418 80 96 6

    21.3 28 M2QA 200 L6A 3GQA 203 501-••A 1175 0.9 2) .84 36.62 6.0 173 2.2 2.5 0.34174 31 09 7

    25.3 33 M2QA 200 L6B 3GQA 203 502-••A 1175 0.0 2) .85 43.39 6.0 205 2.1 2.8 0.46837 54 59 7

    34.5 46 M2QA 225 M6A 3GQA 223 301-••A 1180 0.9 2) .78 63 6.6 279 2.2 2.8 0.62691 08 78 9

    42.6 57 M2QA 250 M6A 3GQA 253 301-••A 1179 2.8 2 .89 67 6.8 345 2.3 2.8 0.97 82 41 1

    52 70 M2BAT 280 SMA 3GBA 283 210-••D . . . . . . .

    63 84 M2BAT 280 SMB 3GBA 283 220-••D 1188 3.6 93.2 .83 102 6.6 506 2.3 2.4 1.9 80 1278 5

    86 115 M2BAT 315 SMA 3GBA 313 210-••D 1191 4.1 93.7 .82 141 6.6 690 1.8 2.3 2.8 80 1718 9

    M2BAT 315 SMB 3GBA 313 220-••D . . . . . . .

    125 168 M2BAT 315 SMC 3GBA 313 230-••D 1191 5.1 94.8 .82 201 7.1 1002 2.0 2.6 4.4 30 048 9

    152 204 M2BAT 315 MLA 3GBA 313 410-••D 1190 5.1 95.1 .83 242 6.7 1220 2.2 2.5 5.3 040 291 9

    M2BAT 355 S 3GBA -•• . . . . . . .

    6-poles = 1200 r/min 460 V 60 Hz High-output design

    3.45 4.62 1 M2QA 112 M6B 3GQA 113 302-••A 1140 77.0 2 .77 7.35 6.5 28.9 1.9 2.1 0.0199 5 9 9

    . 10 1) M2QA 132 M6C 3GQA 133 303-••A . 2) . . . . . .

    16 20 1) M2QA 160 L6B 3GQA 163 502-••A 1160 6.9 2) .80 28.89 6.0 132 2.1 2.2 0.139 55 41 7

    21.3 1 M2QA 180 L6B 3GQA 183 502-••A 1180 7.1 2 .83 36.98 6.0 172 2.2 2.7 0.283984 96 32 8

    . 1) M2QA 200 L6C 3GQA 203 503-••A . 2) . . . . .

    42.6 57 1) M2QA 225 M6B 3GQA 223 302-••A 1180 7.9 2) .78 78 6.6 345 2.1 2.6 0.803267 51 73 1

    51.8 69 1 M2QA 250 M6B 3GQA 253 302-••A 1180 9.8 2 .89 81 6.8 419 2.2 2.6 1.32 55 1002 4

    280 SMC 3GBA -•• . . . . . . .

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    Technical data for those motors available on request.

      Temperature rise class F.  On request.

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    General purpose cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment Sound

    Full 3/4 Power Current Torque of inertia ressu

    u pu Type Produc peed load load ac or IN

    I TN s max

    J=1/4 GD2 Weigh level L

    kW HP designa ion code r/min 100% 75% ϕ I NmN N

    kgm2 kg lbs dB( )

    -poles = 900 r/min z as c es gn.21 0.28 M2QA 0 M8A 3GQA 84 301-••A 20 3.8 2) 0.54 0.91 3.3 2.45 .8 1.9 0.00111 16 35 2)

    .29 0.39 M2QA 0 M8B 3GQA 84 302-••A 20 8.6 2 0.55 1.13 3.6 3.38 .8 1.9 0.00326 17 37 2

    .43 0.58 M2QA 90 S8A 3GQA 94 101-••A . 2) . . . . . . . 2)

    .63 0.84 M2QA 90 L8A 3GQA 94 501-••A 30 3.8 2) 0.58 2.14 4.7 7.25 .8 .0 0.00756 24 53 2)

    .86 1.16 M2QA 100 L8A 3GQA 104 501-••A 40 0.0 2 0.64 2.52 5.0 9.78 .8 .0 0.00971 31 68 2

    . . M2QA 100 L8B 3GQA 104 502-••A . 2) . . . . . . . 2)

    1.73 2.32 M2QA 112 M8A 3GQA 114 301-••A 50 5.0 2) 0.69 4.42 5.0 19.44 .8 .2 0.01559 42 93 2)

    .53 3.39 M2QA 132 S8A 3GQA 134 101-••A 1.0 2 0.71 . . 28.09 .8 .2 0.03625 56 123 2

    . . M2QA 132 M8A 3GQA -•• ) . 2) . . . . . . . 2)

    .6 6.17 M2QA 160 M8A 3GQA 164 301-••A 65 8.0 2) 0.76 9.03 5.5 50 .1 .5 0.0676 105 231 2)

    .33 8.5 M2QA 160 M8B 3GQA 164 302-••A 66 5.92

    0.76 12.72 . 69 .1 .5 0.09524 125 2752

    .6 11.6 M2QA 160 L8A 3GQA 164 501-••A 65 6.5 2) 0.77 16.94 5.5 94 .1 .5 0.12122 142 313 2)

    12.7 17 M2QA 180 L8A 3GQA 184 501-••A 76 6.0 2) 0.78 24.85 5.4 138 .0 .8 0.23645 176 388 64

    17.3 23 M2QA 200 L8A 3GQA 04 501-••A 75 9.0 2) 0.78 32.69 . 188 .3 .8 0.37103 235 518 66

    1.3 28 M2QA 225 S8A 3GQA 24 101-••A 90 0.0 2) 0.75 41.41 5.5 228 .1 .8 0.53287 290 639 68

    5.3 33 M2QA 225 M8A 3GQA 24 301-••A 90 0.5 2 0.76 48.27 6.0 271 .2 .8 0.65825 302 665 68

    4.5 46 M2QA 250 M8A 3GQA 54 301-••A . 2) . . . . .

    3 58 M2BAT 280 SMA 3GBA 84 210-••D 91 3.9 93.6 0.79 73 7.2 461 .5 .8 1.85 570 1256 69

    5 74 M2BAT 280 SMB 3GBA 84 220-••D 90 4.0 94.1 0.81 92 7.3 591 .6 .0 2.2 610 1344 69

    M2BAT 315 SMA 3GBA 14 210-••D . . . . . . .

    5 114 M2BAT 315 SMB 3GBA 14 220-••D 91 4.5 94.4 0.82 138 7.2 911 .6 .7 4.1 910 2004 72

    105 141 M2BAT 315 SMC 3GBA 14 230-••D 91 4.8 94.8 0.83 169 7.3 1127 .6 .6 4.9 980 2159 72M2BAT 315 MLA 3GBA -•• . . . . . . .

    150 201 M2BAT 355 S 3GBA 54 100-••D 93 5.2 95.1 0.82 243 6.3 1604 .2 .3 7.3 1500 3304 80

    -poles = 900 r/min 60 V 60 Hz igh-output design

    .3 3 ) M2QA 112 M8B 3GQA 114 302-••A . 2) . . . . . . .

    .37 5.86 ) M2QA 132 M8B 3GQA 134 302-••A 50 8.0 2) 0.77 9.13 5.5 49.1 .7 1.9 0.04776 75 165 62

    .8 13 M2QA 160 L8B 3GQA 164 502-••A 60 3.5 2 0.77 19.13 5.5 109 .0 .4 0.1312 136 300 64

    . ) M2QA 180 L8B 3GQA 184 502-••A . 2) . . . . . .

    1.3 28 ) M2QA 200 L8B 3GQA 04 502-••A 80 6.0 2) 0.78 39.85 5.4 231 .9 .6 0.46854 274 604 68

    4.5 46 M2QA 225 M8B 3GQA 24 302-••A 90 7.5 2 0.76 65 5.8 370 .1 .6 0.803267 349 769 70

    . ) M2QA 3GQA -•• . 2) . . . . .

    5 87 M2BAT 280 SMC 3GBA 84 230-••D 90 4.7 94.4 0.81 107 7.6 698 .6 .0 2.85 690 1520 69

    he technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,

    IEEE, Std 112 Determination of efficiency (EPact -92).

    echnical data for those motors available on request.

    1) Temperature rise class F.2) n request.

      Note that HP-values are recalculated with factor

    1.34 from kW-values; not stamped on the name plate.

     

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

     

    um num mo ors ee , cas ron mo ors

    ode Variant 56- 0- 112- 160- 200- 1- 160- 80- 355-

    Bearings and Lubrication

    37 Roller bearing at D-end. Transport lock included. NA M NA M M NA M M M/R

    39 Cold resistant grease. M M M M M M M M M

    40 Hea resis an grease. M M S S M M M/N M/N

    41 Bearings regreasable via grease nipples. NA M M M S/M NA/M M /NA S/NA

    43 SPM nipples. NA R M M M NA/M M M M57 2RS bearings a bo h ends. M M M M/R M/R N N N

    ranc s an ar es gn

    178 S ainless s eel/acid proo bol s. M M M M M M M M/P M/P

    oo ng sys em

    53 Metal fan cover. S M S S

    68 Aluminum fan. NA/M M M M M M M M M

    75 Cooling me hod IC418 (wi hou an). P P R R R N N P/N P/N

    183 Separa e mo or cooling ( an axial, N-end). N /M R N M/R M/R P/M M/P N N

    Drain holes

    66 Modified drain hole position. Specify IM designation. M M M M M NA NA M M

    Earthing bolt

    67 External earthing bolt. M M M M M M M M M

    Heating elements450 Hea ing elemen 100-120 V. M M M M M M M M/P M/P

    451 Hea ing elemen 200-240 V. M M M M M M M M M

    Mounting arrangements

    07 IM 3001 flange mounted, from IM 1001 (B5 from B3). NA/M M NA NA/R M/R NA NA NA NA

    08 IM 2101 foot/flange mounted, from IM 1001 (B34 from B3). NA/M M M R NA/R M M/NA NA NA

    09 IM 2001 oo / ange moun ed, rom IM 1001 (B35 rom B3). M M M M M M M M M

    47 IM 3601 flange mounted, from IM 3001 (B14 from B5). M M M R R/NA M M/NA NA NA

    48 IM 3001 flange mounted, from IM 3601 (B5 from B14). M M M NA NA NA NA NA NA

    Painting

    114 Special paint colour, standard grade. M M M M M M M M M

    179 Special pain speci ca ion. N R R R R N N P/N P/N

    ro ec on

    05 Protective roof, vertical motor, shaft down. Vertically mounted mo ors

    wi h sha ex ension downwards.

    M M M M M M M M M

    72 Radial seal at D-end. P M R R R M M M M

    158 Degree of protection IP65 or IP65X. Dust proof version. P P M M M M M NA NA

    211 Wea her pro ec ed, IP xx W. N P N N N M M N N

    403 Degree o pro ec ion IP56. P P M M M M M M/N M/N

    Rating & instruction plates

    02 Restamping voltage, frequency and output, continuous duty. M M M M M M M M M

    03 Individual serial number. P M M M M S

    98 S ainless ra ing pla e. M M M M/R M/R S

    138 Mounting of additional identification plate, aluminum. M M M M M M M M M

    tator winding temperature sensors

    122 Bimetal detectors, break type (NCC), (3 in series), 150°C. M M M M M M M M M

    436 PTC - hermis ors (3 in series), 150 °C. M M M M S/M M S

    439 PTC - hermis ors (2x3 in series), 150 °C. M M M M M M M M M

    445 Pt100 (1 per phase). NA R M M M M M M/NA M/NA

    Terminal box

    21 Terminal box left-hand side, seen from D-end. NA/M M N N P/R/NA P P P P/NA

    180 Terminal box righ -hand side, seen rom D-end. N /M M N N P/R/N P P N N

    230 Standard gable glands. M M M M M M M /NA S/NA

    Two standard cable glands.  NA/M M M M M M M NA/S NA/S

    Testing

    145 Type test report from identical catalogue motor. 400V 50 Hz. M M M M M M M M M

    148 Rou ine es repor . P M M M M M M M M

    eneral purpose motors - Variant codes 

    Certain variant codes cannot be used together.

    o e s s s an ex rac o a w e range o poss e mo ca ons.Please see the General Purpose or Process Performance Motor Cataloguefor a complete list of variant codes.

    S = Included as s andard.

    M = On modification of a stocked motor,

      or on new manufacture,the number

    per order may be limi ed.

    P = New manuac ure only.

    R = On request.

    NA = Not applicable.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    )  Tempera ure rise class F-3dB(A) sound pressure level reduction with unidirectional fanconstruction. Direction of rotation must be stated when ordering, seevarian codes 044 and 045.

    )  Unidirec ional an cons ruc ion as s andard. Direc ion o ro a ion mus bes a ed when ordering, see varian codes 044 and 045.

    ) Size with alternative dimensions.

    Efficiency Moment Sound

    Full 3/4 Power Current orque of inertia ressure

    Ou pu Type Produc Speed load load ac or I IN

    Ts max

    J=1/4 GD2 Weigh level LP

    kW HP esigna ion code r/min 100% 5% ϕ I Nm TN N

    kgm2 kg lbs dB( )

    2-poles = 3600 r/min z as c es gn0.43 0.57 M2BA 71 M2 A GBA 071 310-••A 3390 1.0 5) .83 0.93 6.1 .21 .2 2.7 0.0003 10 2 59

    0.63 0.85 M2BA 71 M2 B GBA 071 320-••A 3390 4.0 5) .82 1.31 6.1 .77 .2 2.5 0.0004 11 4 59

    0.86 1.16 M2BA 80 M2 A GBA 081 310-••A 3420 7.2 5) .86 1.63 6.1 .4 .2 2.7 0.0009 16 5 60

    1.27 1.7 M2BA 80 M2 B GBA 081 320-••A 3420 0.2 5) .85 2.34 7.0 .55 .2 2.2 0.0011 17 7 61

    1.73 2.31 M2BA 90 S2 A GBA 091 110-••A 3420 1.6 5) .87 3.06 7.0 .83 .2 2.3 0.0014 1 6 64

    . . GBA -•• . 5) . . . . . . .

    . . M2BA 100 L2 A GBA 101 510-••A . 5) . . . . . . .

    4.6 6.17 M2BA 112 M2 A GBA 111 310-••A . 5) . . . . . . .

    6.33 8.5 M2BA 132 S2 A GBA 131 110-••A 3510 8.6 5) .88 10.19 7.0 7.22 .2 2.8 0.0124 8 128 73

    8.6 11.6 M2BA 132 S2 B GBA 131 120-••A 3510 9.0 5) .88 13.78 7.0 3.4 .2 3.0 0.0149 3 139 73

    12.5 16.8 M3BP 160 MA GBP 161 101-••A 3530 0.1 0.5 .88 20 6.5 4 .0 2.6 0.039 105 31 5

    17.5 23 M3BP 160 M GBP 161 102-••A 3520 1.9 2.6 .92 27.5 6.6 7 .2 2.8 0.047 118 60 5

    21 28 M3BP 160 L GBP 161 103-••A 3520 2.5 3.0 .91 32 7.2 7 .3 2.8 0.053 133 935

    26.5 36 M3BP 180 M GBP 181 101-••A 3530 2.4 2.9 .89 38.5 7.0 7 .5 2.8 0.077 178 92 5)

    35 47 M3BP 200 MLA GBP 201 001-••A 3555 3.3 3.3 .89 53 8.6 4 .1 3.0 0.15 50 51 5)

    43 58 M3BP 200 MLB GBP 201 002-••A 3550 3.6 3.7 .90 64 7.3 16 .4 2.9 0.18 70 95 5)

    52 70 M3BP 225 SMB GBP 221 001-••A 3560 4.1 3.8 .88 79 7.9 40 .4 2.9 0.26 35 38 5)

    63 84 M3BP 250 SMA GBP 251 001-••A 3570 4.7 4.4 .89 95 7.5 69 1.9 2.7 0.49 20 25 5)

    2) 280 SMA GBP 281 210-••G . . . . . . .2) M3BP 280 SMB GBP 281 220-••G . . . . . . .

    125 168 2) M3BP 315 SMA GBP 311 210-••G . . . . . . .

    155 208 2) M3BP 315 SMB GBP 311 220-••G 3580 5.1 4.3 .88 234 7.3 13 .0 2.9 1.4 40 070 83

    185 248 2 M3BP 315 SMC GBP 311 230-••G 3580 5.5 4.9 .89 273 . 93 .1 2.9 1.7 1025 258 83

    230 308 2 M3BP 315 MLA GBP 311 410-••G 3580 5.9 5.5 .90 339 7.6 14 .3 2.9 2.1 1190 621 83

    290 390 2 M3BP 355 SMA GBP 351 210-••G 3582 5.9 5.3 .90 427 7.6 73 1.9 3.2 3 1600 524 88

    362 485 2 M3BP 355 SMB GBP 351 220-••G 3578 6.2 5.8 .89 535 7.0 66 1.9 2.9 3.4 1680 700 88

    410 550 2) M3BP 355 SMC GBP 351 230-••G 3582 6.5 6.1 .89 602 7.3 093 .0 2.9 3.6 1750 855 88

    450 603 2) M3BP 355 MLA GBP 351 410-••G 3580 6.5 6.1 .89 660 7.4 200 .1 2.9 4.1 000 405 88

    510 683 2) M3BP 355 MLB GBP 351 420-••G 3582 6.9 6.5 .91 735 8.1 360 .1 3.6 4.3 080 581 88

    575 770 2) M3BP 355 LKA GBP 351 810-••G 3581 6.9 6.7 .91 830 7.5 533 1.9 3.5 4.8 320 110 88

    620 830 2) M3BP 355 LKB GBP 351 820-••G 3582 7.0 6.7 .91 890 8.4 653 .2 3.7 5.2 460 419 88)   GBP 401 510-••G . . . . . . .) 4) M3BP 400 LKA GBP 401 810-••G . . . . . . .

    710 950 ) M3BP 400 LB GBP 401 520-••G . . . . . . .

    710 950 ) 4) M3BP 400 LKB GBP 401 820-••G 3587 7.1 6.8 .89 1035 7.9 890 .1 3.4 8.2 050 718 86

    780 1045 M3BP 400 LC GBP 401 530-••G 3587 7.3 6.9 .90 1130 8.2 077 .5 3.5 9.3 300 269 86

    780 1045  4 M3BP 400 LKC GBP 401 830-••G 3587 7.3 6.9 .90 1130 8.2 077 .5 3.5 9.3 300 269 86

    2-poles = 3600 r/min 460 V 60 Hz High-output design

    25 34 ) M3BP 160 LB GBP 161 104-••A 3520 2.7 3.5 .91 38 . 9 .6 3.0 0.058 140 08 5)

    35 48 M3BP 180 LB GBP 181 102-••A 3545 3.6 3.9 .89 53 8.4 3 .9 3.2 0.092 194 27 5

    52 70 M3BP 200 MLC GBP 201 003-••A 3550 4.1 4.3 .89 78 8.8 40 .8 3.2 0.19 80 17 5

    63 84 M3BP 225 SMC GBP 221 002-••A 3565 4.8 4.6 .89 94 7.9 69 .5 2.9 0.29 55 82 5

    86 115 M3BP 250 SMB GBP 251 002-••A 3570 5.2 4.9 .90 127 8.1 30 .4 3.1 0.57 65 1024 5)

    125 168 2) M3BP 280 SMC GBP 281 230-••G 3576 5.3 4.8 .91 183 7.9 34 .2 3.0 1.15 25 1597 82

    288 386 2) M3BP 315 LKA GBP 311 810-••G 3579 6.2 5.8 .89 425 8.1 68 .6 2.9 2.65 1440 172 83

    335 449 ) 2) M3BP 315 LKC GBP 311 830-••G 3582 6.4 6.0 .90 485 9.8 93 .3 3.4 3.3 1630 590 83

    Process performance cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    5 On request.

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Mo ors are also available acc. o CS Energy E ciency Veri ca ion,IEEE, S d 112 De ermina ion o e ciency (EPac -92).Technical data for those motors available on request.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    Process performance cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    Efficiency Moment Sound

    Full /4 Power Current Torque of inertia pressu

    u pu ype Produc Speed load load ac or IN

    Is

    TN s

    Tax

    J=1/4 GD2 Weigh level L

    kW HP esigna ion code r/min 100% 5% ϕ IN

    NmN

    T kgm2 kg lbs dB( )

    -poles = 1800 r/min z as c es gn.29 0.39 M2BA 71 M4 A 3GBA 072 310-••A 1680 66.3 ) 0.74 0.74 5.2 1.65 .1 2.5 0.0005 11 24 46

    .43 0.57 M2BA 71 M4 B 3GBA 072 320-••A 1670 70.8 ) 0.76 1 5.2 2.46 .1 2.4 0.0007 11 24 48

    .63 0.85 M2BA 80 M4 A 3GBA 082 310-••A 1690 75.0 ) 0.75 1.41 5.2 3.56 .4 2.5 0.0014 16 35 3)

    .86 1.16 M2BA 80 M4 B 3GBA 082 320-••A 1680 76.3 ) 0.76 1.86 .0 4.89 .4 2.4 0.0017 17 37 3)

    1.27 1.7 M2BA 90 S4 A 3GBA 092 110-••A 1680 78.5 ) 0.79 2.57 .0 7.22 .3 2.3 0.0025 21 46 3)

    . . 3GBA -•• . ) . . . . . . . 3)

    . . M2BA 100 L4 A 3GBA 102 510-••A . ) . . . . . . . 3)

    3.45 4.62 M2BA 100 L4 B 3GBA 102 520-••A . ) . . . . . . . 3)

    4.6 6.17 M2BA 112 M4 A 3GBA 112 310-••A 1720 86.0 ) 0.82 8.19 .5 25.54 .3 2.6 0.0131 45 99 3)

    6.33 8.5 M2BA 132 S4 A 3GBA 132 110-••A 1700 87.4 ) 0.85 10.7 .5 35.56 .3 2.6 0.0267 60 132 3)

    .6 11.6 M2BA 132 M4 A 3GBA 132 310-••A 1730 89.0 0.84 14.44 .5 47.47 .3 2.5 0.0343 73 161 3

    12.5 16.8 M3BP 160 M 3GBP 162 101-••A 1750 91.6 2.2 0.83 21 .3 71 .9 2.9 0.091 115 253 3

    18 24 M3BP 160 L 3GBP 162 102-••A 1755 92.2 2.8 0.84 29.5 .8 98 .7 .3 0.102 135 2973

    22 29 M3BP 180 M 3GBP 182 101-••A 1770 92.4 1.5 0.84 36 .1 119 .8 2.8 0.161 175 385 3)

    26 37 M3BP 180 L 3GBP 182 102-••A 1765 93.0 3.7 0.85 42 .0 144 .8 .1 0.225 203 447 3)

    38 51 M3BP 200 MLB 3GBP 202 001-••A 1770 93.5 4.1 0.85 60 .0 205 .2 2.4 0.34 275 606 3)

    42 54 M3BP 225 SMA 3GBP 222 001-••A 1780 93.7 3.7 0.84 70 .6 225 .6 .4 0.37 310 683 3)

    55 74 M3BP 225 SMB 3GBP 222 002-••A 1780 94.2 4.3 0.83 90 .4 296 .0 2.8 0.42 330 727 3)

    250 SMA 3GBP -•• . . . . . . . 3)

    M3BP 280 SMA 3GBP 282 210-••G . . . . . . .

    105 141 M3BP 280 SMB 3GBP 282 220-••G . . . . . . .

    125 168 M3BP 315 SMA 3GBP 312 210-••G 1788 95.4 5.0 0.86 192 .3 668 .9 2.5 2.3 900 1982 74

    150 201 M3BP 315 SMB 3GBP 312 220-••G 1786 95.6 5.3 0.86 230 .3 802 .2 2.7 2.6 960 2115 74

    185 248 M3BP 315 SMC 3GBP 312 230-••G 1786 95.9 5.6 0.86 286 .3 989 .2 2.9 2.9 1000 2203 74

    230 308 M3BP 315 MLA 3GBP 312 410-••G 1786 96.0 6.0 0.86 354 .3 1230 .4 2.9 3.5 1160 2555 74

    288 386 M3BP 355 SMA 3GBP 352 210-••G 1788 96.4 6.1 0.86 435 .2 1538 .1 2.6 5.9 1610 3546 79

    362 485 M3BP 355 SMB 3GBP 352 220-••G 1788 96.6 6.4 0.86 546 .4 1933 .1 2.7 6.9 1780 3921 79

    400 536 M3BP 355 SMC 3GBP 352 230-••G 1787 96.6 6.3 0.86 605 .9 2138 .2 2.7 7.2 1820 4009 83

    450 603 M3BP 355 MLA 3GBP 352 410-••G 1789 96.8 6.5 0.86 690 .0 2402 .2 2.6 8.4 2140 4714 83

    500 670 M3BP 355 MLB 3GBP 352 420-••G 1790 96.9 6.6 0.86 755 .3 2667 .3 .0 8.4 2140 4714 83

    575 770 M3BP 355 LKA 3GBP 352 810-••G 1790 97.0 6.7 0.87 860 .1 3068 .1 .0 10 2500 5507 83

      3GBP 352 820-••G . . . . . . .

    M3BP 400 LA 3GBP 402 510-••G . . . . . .

    630 844 ) M3BP 400 LKA 3GBP 402 810-••G . . . . . .

    710 950 M3BP 400 LB 3GBP 402 520-••G 1791 97.0 6.7 0.88 1055 .8 3786 .1 .1 16 3300 7269 83

    710 950 M3BP 400 LKB 3GBP 402 820-••G 1791 97.0 6.7 0.88 1055 .8 3786 .1 .1 16 3300 7269 83

    780 1045 M3BP 400 LC 3GBP 402 530-••G 1792 97.0 6.7 0.86 1180 .0 4157 .3 .3 17 3400 7489 83

    780 1045 M3BP 400 LKC 3GBP 402 830-••G 1792 97.0 6.7 0.86 1180 .0 4157 .3 .3 17 3400 7489 83

    po es = r m n z g -output es gn

    21 28 M3BP 160 LB 3GBP 162 103-••A 1750 91.7 2.8 0.85 35 .8 114 .8 2.9 0.102 135 297 3

    35 47 M3BP 180 LB 3GBP 182 103-••A 1765 93.2 3.8 0.84 56 .8 189 .4 2.7 0.225 203 447 3

    42 56 M3BP 200 MLB 3GBP 202 002-••A 1775 93.6 4.0 0.84 70 .9 226 .3 .2 0.34 275 606 3

    65 87 M3BP 225 SMC 3GBP 222 003-••A 1775 94.5 4.8 0.87 104 .3 350 .0 2.7 0.49 355 782 3)

    8 117 M3BP 250 SMB 3GBP 252 002-••A 1775 94.7 5.0 0.87 132 .2 474 .3 .4 0.88 465 1024 3)

    125 168 M3BP 280 SMC 3GBP 282 230-••G 1785 95.6 5.3 0.87 189 .0 669 .9 .0 1.85 725 1597 72

    288 386 M3BP 315 LKA 3GBP 312 810-••G 1786 95.9 5.8 0.86 442 .6 1540 .4 2.9 4.4 1410 3106 82

    322 431 M3BP 315 LKB 3GBP 312 820-••G 1787 96.2 5.9 0.87 486 .9 1721 .5 .0 5 1520 3348 82

    315 LKC 3GBP 312 830-••G . . . . . . .

      Tempera ure rise class F. 2) Size wi h al erna ive dimensions.3) On request.

    The echnical da a above are acc. o IEC 60034-2 De ermina ion o e ciency.Motors are also available acc. to CSA Energy Efficiency Verification,IEEE, Std 112 Determination of efficiency (EPact -92).Technical data for those motors available on request.

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    rocess performance cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    1)  Temperature rise class F .2)  ize with alternative dimensions.3 n reques .

    The technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,IEEE, Std 112 Determination of efficiency (EPact -92).Technical data for those motors available on request.

    Efficiency Moment ound

    Full 3/4 Power Current Torque of inertia ressure

    Ou pu Type Produc peed load load ac or IN

    Is

    TN

    Ts

    Tmax

    J=1/4 GD2 eigh level LP

    kW HP designa ion ode r/min 100% 75% ϕ IN

    Nm TN

    TN

    kgm kg lbs B( )

    6-poles = 1200 r/min 60 V 60 Hz Basic design. . GBA 73 310-••A 1070 57.0 3) 0.65 0.71 4.0 1.87 1.7 2.2 0.0006 0 2 )

    . . M2BA 1 M6 B GBA 73 320-••A . 3) . . . . . . . )

    0.43 0.57 M2BA 0 M6 A GBA 83 310-••A . 3) . . . . . . . )

    0.63 0.85 M2BA 0 M6 B GBA 83 320-••A . 3) . . . . . . . )

    0.86 1.16 M2BA 0 S6 A GBA 93 110-••A 1105 74.0 3) 0.72 2.03 5.0 7.43 2.0 2.3 0.0029 1 46 )

    1.27 1.7 M2BA 0 L6 A GBA 93 510-••A 1100 75.0 3 0.74 2.87 5.0 11.03 2.0 2.4 0.0038 5

    1.73 2.31 M2BA 100 L6 A GBA 103 510-••A 1120 79.0 3 0.75 3.67 5.5 14.75 2.0 2.4 0.01 2 0

    2.53 3.39 M2BA 112 M6 A GBA 113 310-••A 1145 83.0 3 0.73 5.24 5.5 21.1 2.0 2.3 0.0156 0 8

    3.45 4.62 M2BA 132 S6 A GBA 133 110-••A 1150 84.5 3) 0.78 6.57 6.5 28.65 2.0 2.3 0.0312 5 121 )

    4.6 6.17 M2BA 132 M6 A GBA 133 310-••A 1150 85.0 3) 0.75 9.06 6.5 38.2 2.0 2.6 0.0407 5 143 )

    6.33 8.5 M2BA 132 M6 B GBA 133 320-••A 1150 87.0 3) 0.79 11.56 6.5 52 2.0 2.7 0.0533 5 165 )

    8.6 11.5 M3BP 160 M GBP 163 101-••A 1170 89.8 90.7 0.80 15.3 6.5 70 1.7 2.6 0.089 15 53 )

    12.5 16.8 M3BP 160 L GBP 163 102-••A 1170 0.1 90.8 0.77 23 7.6 105 2.2 3.1 0.107 35 97 )

      GBP 183 101-••A 1170 0.9 91.4 0.78 31 7.0 139 2.0 3.0 0.217 77 90 )

    M3BP 00 MLA GBP 03 001-••A . . . . . . . )

    25 34 M3BP 00 MLB GBP 03 002-••A . . . . . . . )

    34 46 M3BP 25 SMB GBP 23 001-••A 1185 2.8 92.8 0.82 56 8.0 274 3.3 2.9 0.64 20 05 )

    42 55 M3BP 50 SMA GBP 53 001-••A 1185 3.7 93.9 0.83 68 . 338 3.1 2.7 1.16 15 14 )

    55 74 M3BP 80 SMA GBP 83 210-••G 1189 4.5 94.4 0.84 87 6.7 442 2.2 2.3 1.85 05 1333 0

    63 84 M3BP 80 SMB GBP 83 220-••G 1190 4.7 94.5 0.84 99 7.3 506 2.6 2.6 2.2 45 1421 0

    86 115 M3BP 15 SMA GBP 13 210-••G 1192 5.0 94.7 0.83 137 7.8 689 2.3 2.8 3.2 30 1828 5

    105 141 M3BP 15 SMB GBP 13 220-••G 1192 5.4 95.2 0.84 166 7.5 841 2.3 2.8 4.1 30 048 5

    125 168 M3BP 15 SMC GBP 13 230-••G 1191 5.6 95.5 0.83 198 7.8 1002 2.5 2.9 4.9 000 203 5

    150 201 M3BP 15 MLA GBP 13 410-••G 1191 5.8 95.7 0.84 235 7.9 1203 2.7 3.0 5.8 150 533 2

    195 261 M3BP 55 SMA GBP 53 210-••G 1192 6.0 95.8 0.84 306 6.7 1562 1.8 2.4 7.9 520 348 0

    230 308 M3BP 55 SMB GBP 53 220-••G 1193 6.2 96.0 0.84 357 7.4 1841 2.1 2.7 9.7 680 700 0

    55 SMC GBP 53 230-••G . . . . . . .

    M3BP 55 MLB GBP 53 420-••G . . . . . . .

    400 536 M3BP 55 LKA GBP 53 810-••G . . . . . . .

    440 590 M3BP 55 LKB GBP 53 820-••G 1192 6.4 96.1 0.82 700 7.8 3525 2.6 2.7 16.5 600 727 0

    450 603 M3BP 00 LA GBP 03 510-••G 1193 6.7 96.5 0.83 710 7.3 3602 2.1 2.7 17 900 388 9

    450 603 2 M3BP 00 LKA GBP 03 810-••G 1193 6.7 96.5 0.83 710 7.3 3602 2.1 2.7 17 900 388 9

    510 683 M3BP 00 LB GBP 03 520-••G 1194 6.9 96.6 0.83 806 7.4 4079 2.2 2.8 20.5 150 938 9

    510 683 2 M3BP 00 LKB GBP 03 820-••G 1194 6.9 96.6 0.83 806 7.4 4079 2.2 2.8 20.5 150 938 9

    560 750 M3BP 00 LC GBP 03 530-••G 1193 6.9 96.7 0.84 868 7.5 4482 2.3 2.7 22 300 269 9

    560 750 2) M3BP 00 LKC GBP 03 830-••G 1193 6.9 96.7 0.84 868 7.5 4482 2.3 2.7 22 300 269 9

    630 844 M3BP 00 LD GBP 03 540-••G 1193 6.9 96.7 0.85 975 7.5 5043 2.3 3.0 24 400 489 9

    630 844 2) M3BP 00 LKD GBP 03 840-••G 1193 6.9 96.7 0.85 975 7.5 5043 2.3 3.0 24 400 489 9

    -po es = r m n z g -output es gn

    16.1 22 1) M3BP 160 LB GBP 163 103-••A . . . . . . . )

    21 27 1) M3BP 180 LB GBP 183 102-••A 1165 0.7 91.5 0.81 36 7.1 163 2.2 2.9 0.237 85 407 )

    34 46 1 M3BP 00 MLC GBP 03 003-••A 1180 1.8 92.3 0.81 7.8 275 3.2 3.1 0.49 75 06

    42 55 M3BP 25 SMC GBP 23 002-••A 1185 3.2 93.6 0.83 68 7.1 340 3.1 2.7 0.75 45 60

    52 70 1 M3BP 50 SMB GBP 53 002-••A 1185 3.8 94.2 0.84 83 7.6 420 3.3 3.1 1.49 60 1013

    86 115 M3BP 80 SMC GBP 83 230-••G 1189 5.2 95.1 0.84 135 7.5 691 2.6 2.6 2.85 25 1597 0

    185 248 M3BP 15 LKA GBP 13 810-••G 1191 5.7 95.5 0.83 293 7.6 1483 2.5 2.7 7.3 410 106 8

    210 281 M3BP 15 LKB GBP 13 820-••G 1191 5.8 95.6 0.83 332 7.7 1684 2.6 2.8 8.3 520 348 8

    230 308 M3BP 15 LKC GBP 13 830-••G 1189 5.9 95.7 0.84 360 7.0 1847 2.5 2.6 9.2 600 524 8

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    Process performance cast iron motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

      Temperature rise class F .2)  Size with alternative dimensions.3) On request.

    The technical data above are acc. to IEC 60034-2 Determination offficiency.

    Motors are also available acc. to CSA Energy Efficiency Verification,IEEE, Std 112 Determination of efficiency (EPact -92).Technical data for those motors available on request.

    Efficiency Moment Sound

    Full /4 Power urrent Torque of inertia pressu

    u pu Type Produc peed load load ac or I Is

    TN

    Ts

    Tmax

    J=1/4 GD2 Weigh level L

    kW HP esigna ion ode r/min 100% 5% ϕ I Nm TN

    TN

    kgm kg lbs dB( )

    8-poles = 900 r/min 460 V 60 Hz Basic design. . GBP -•• . . . . . . . 3)

    . . M3BP 160 M GBP 164 102-••A . . . . . . . . 3)

    8.6 11.5 M3BP 160 L GBP 164 103-••A . . . . . . . . 3)

    13.5 18.1 M3BP 180 L GBP 184 101-••A 870 9.4 0.2 0.77 4.5 5.6 49 .1 .4 0.224 177 390 3)

    17 3 M3BP 200 MLA GBP 204 001-••A 890 1.5 1.8 0.82 9 7.8 85 .4 .0 0.45 250 551 3)

    21 8 M3BP 225 SMA GBP 224 001-••A 880 1.0 1.3 0.79 8 7.0 27 .6 .3 0.61 305 672 3

    25 4 M3BP 225 SMB GBP 224 002-••A 880 1.7 2.3 0.78 5 .5 71 .4 .8 0.68 320 705 3

    34 6 M3BP 250 SMA GBP 254 001-••A 885 2.8 2.9 0.79 9 7.4 67 .0 .8 1.25 415 914 3

    43 8 M3BP 280 SMA GBP 284 210-••G 891 3.8 3.6 0.79 3 7.2 61 1.5 .9 1.85 605 1333 69

    55 4 M3BP 280 SMB GBP 284 220-••G 891 4.2 4.1 0.80 2 7.3 89 1.5 .9 2.2 645 1421 69

    63 4 M3BP 315 SMA GBP 314 210-••G 891 4.1 4.0 0.82 103 7.1 75 1.5 .7 3.2 830 1828 68

    85 114 M3BP 315 SMB GBP 314 220-••G 891 4.5 4.4 0.82 138 7.2 11 1.6 .7 4.1 930 2048 68

    105 141 M3BP 315 SMC GBP 314 230-••G 891 4.8 4.8 0.83 169 7.3 127 1.6 .6 4.9 1000 2203 70

      GBP 314 410-••G . . . . . . .

    M3BP 355 SMA GBP 354 210-••G . . . . . . .

    185 48 M3BP 355 SMB GBP 354 220-••G . . . . . . .

    230 08 M3BP 355 SMC GBP 354 230-••G 893 5.8 5.7 0.80 75 7.2 460 1.4 .5 11.3 1820 4009 73

    285 82 M3BP 355 MLB GBP 354 420-••G 892 6.0 5.9 0.80 67 7.4 051 1.4 .6 13.5 2180 4802

    330 42 1 M3BP 355 LKB GBP 354 820-••G 893 6.0 5.8 0.80 40 .4 529 1.8 .0 16.5 2600 5727 78

    360 82 M3BP 400 LA GBP 404 510-••G 894 6.5 6.4 0.81 80 .9 845 1.1 .5 17 2900 6388 73

    360 82 2 M3BP 400 LKA GBP 404 810-••G 894 6.5 6.4 0.81 80 .9 845 1.1 .5 17 2900 6388 73

    400 36 M3BP 400 LB GBP 404 520-••G 893 6.5 6.4 0.83 35 .7 277 1.1 .5 21 3200 7048 73

    400 36 2) M3BP 400 LKB GBP 404 820-••G 893 6.5 6.4 0.83 35 .7 277 1.1 .5 21 3200 7048 73

    450 03 M3BP 400 LC GBP 404 530-••G 894 6.6 6.5 0.82 15 7.3 807 1.2 .7 24 3400 7489 73

    450 03 2) M3BP 400 LKC GBP 404 830-••G 894 6.6 6.5 0.82 15 7.3 807 1.2 .7 24 3400 7489 73

    8-poles = 900 r/min z g -output es gn9.8 13.1 1) M3BP 160 LB GBP 164 104-••A . 3) . . . . . 3)

    17 3 1) M3BP 180 LB GBP 184 102-••A 870 8.0 8.8 0.76 2.5 .1 87 .3 .6 0.24 185 407 3)

    21 8 M3BP 200 MLB GBP 204 002-••A 885 1.5 1.8 0.82 6 7.3 24 .4 .1 0.54 275 606 3

    34 6 1 M3BP 225 SMC GBP 224 003-••A 885 1.9 2.3 0.79 1 7.0 67 .7 .3 0.8 345 760 3

    42 6 M3BP 250 SMB GBP 254 002-••A 885 1.9 2.6 0.82 2 7.8 53 .9 .5 1.52 460 1013 3

    65 7 M3BP 280 SMC GBP 284 230-••G 890 4.5 4.4 0.81 107 7.5 97 1.6 .9 2.85 725 1597 69

    150 01 M3BP 315 LKA GBP 314 810-••G 890 5.3 5.3 0.84 35 7.4 609 1.7 .6 7.3 1410 3106 78

    173 32 M3BP 315 LKB GBP 314 820-••G 890 5.5 5.4 0.84 74 7.6 856 1.8 .7 8.3 1520 3348 78

    185 48 1) M3BP 315 LKC GBP 314 830-••G 889 5.5 5.4 0.84 93 7.6 987 1.8 .7 9.2 1600 3524 82

  • 8/9/2019 Compresor CombCat_460V

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    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004

    1   Temperature rise class F.2 On requ s .

      When ordering, he ollowing varian code has o be added o he produccode: 199 = Extreme heavy duty design. Type designation M3AP.

    Process performance aluminum motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    he technical data above are acc. to IEC 60034-2 Determination of efficiency.Motors are also available acc. to CSA Energy Efficiency Verification,IEEE, Std 112 Determination of efficiency (EPact -92).echnical da a or hose mo ors available on reques .

    Efficiency Moment ound

    Full 3/4 Power Current Torque of inertia ressure

    Ou pu Type Produc peed load load ac or IN

    I TN

    Ts

    Tmax

    J=1/4 GD2 Weigh level LP

    kW HP designa ion ode r/min 100% 75% ϕ I Nm TN

    T kgm2 kg lbs B( )

    -poles = 3600 r/min  60 V 60 Hz asic design.6 6.2 M3AP 112 M 3GAA 111 022-••C 460 6.9 7.9 0.91 .1 .7 12.7 .4 3.4 0.012 33 73 66

    .4 8.6 M3AP 132 SA 3GAA 131 023-••C 500 9.8 9.9 0.88 0.3 .8 17.5 .6 4.6 0.016 42 93 72

    . . 132 SB 3GAA 131 024-••C . . . . . . . . .

    12.5 16.8 M3AP 160 MA 3GAA 161 101-••C 530 0.1 0.5 0.88 0 .5 34 .0 2.6 0.039 81 178 2)

    17.5 23 M3AP 160 M 3GAA 161 102-••C 520 1.9 2.6 0.92 7.5 .6 47 .2 2.8 0.047 92 203 2

    1 28 M3AP 160 L 3GAA 161 103-••C 520 2.5 3.0 0.91 2 .2 .3 2.8 0.053 102 225 2)

    . 3GAA 181 101-••C . . . . . . . . 2)

    5 47 M3AP 200 MLA 3GAA 201 001-••C 555 3.3 3.3 0.89 3 .6 4 .1 3.0 0.15 192 423 2)

    3 58 M3AP 200 MLB 3GAA 201 002-••C 550 3.6 3.7 0.90 4 .3 116 .4 2.9 0.18 217 478 2

    2 70 M3AP 225 SMB 3GAA 221 001-••C 560 4.1 3.8 0.88 9 .9 140 .4 2.9 0.26 257 566 2)

    250 SMA 3GAA 251 001-••C . . . . . . . 2)

    6 115 M3AP 280 SMA 3GAA 281 001-••C 565 5.2 5.0 0.90 27 .1 230 .3 3.1 0.57 375 826 2)

    105 141 1 M3AP 280 SMB 3GAA 281 002-••C 565 5.8 5.9 0.91 52 .1 281 .4 3.2 0.59 404 890 2

    -poles = 3600 r/min  60 V 60 Hz High-output design.4 8.6 1) M3AP 112 MB 3GAA 111 002-••C . . . . . . . . . 2)

    10.6 14.2 1) M3AP 132 SBB 3GAA 131 004-••C 440 7.6 8.8 0.93 6.5 .5 30 .9 3.6 0.02 50 110 72

    12.6 16.9 1) M3AP 132 SC 3GAA 131 003-••C 450 7.9 9.1 0.92 9.5 .5 35 .5 3.4 0.022 56 123 2)

    5 34 1 M3AP 160 LB 3GAA 161 104-••C 520 2.7 3.5 0.91 8 .7 69 .6 3.0 0.058 108 238 2

    5 48 M3AP 180 LB 3GAA 181 102-••C . . . . . . . 2)

    2 70 M3AP 200 MLC 3GAA 201 003-••C 550 4.1 4.3 0.89 8 .8 140 .8 3.2 0.19 222 489 2)

    4 86 1) M3AP 200 MLD 3GAA 201 004-••C 540 4.7 4.8 0.89 5 .8 173 .8 3.0 0.2 232 511 2)

    3 84 M3AP 225 SMC 3GAA 221 002-••C 565 4.8 4.6 0.89 4 .9 169 .5 2.9 0.29 282 621 2

    2 124 1) M3AP 225 SMD 3GAA 221 003-••C . . . . . . . 2)

    6 115 M3AP 250 SMB 3GAA 251 002-••C 570 5.2 4.9 0.90 27 .1 230 .4 3.1 0.57 375 826 2)

    110 148 1) M3AP 250 SMC 3GAA 251 003-••C 565 5.1 5.2 0.90 60 .0 295 .3 2.9 0.59 395 870 2)

    -poles = 1800 r/min  60 V 60 Hz asic design.5 4.7 M3AP 112 MA 3GAA 112 021-••C 1750 8.6 9.1 0.83 .2 .8 19.1 .3 3.7 0.018 34 59

    . . M3AP 112 M 3GAA 112 022-••C . . . . . . . . .

    .4 8.6 M3AP 132 S 3GAA 132 023-••C 1760 0.6 1.6 0.86 0.6 .8 35 .0 2.7 0.038 48 106 62

    .6 11.6 M3AP 132 M 3GAA 132 024-••C 1750 1.5 2.6 0.85 4 .7 47 .0 3.1 0.048 59 130 62

    12.5 16.8 M3AP 160 M 3GAA 162 101-••C 1750 1.6 2.2 0.83 1 .3 71 .9 2.9 0.091 102 225 2

    M3AP 160 L 3GAA 162 102-••C . . . . . . . . 2)

    2 29 M3AP 180 M 3GAA 182 101-••C 1770 2.4 1.5 0.84 6 .1 119 .8 2.8 0.161 133 293 2)

    6 37 M3AP 180 L 3GAA 182 102-••C 1765 3.0 3.7 0.85 2 .0 144 .8 3.1 0.225 171 377 2)

    8 51 M3AP 200 MLB 3GAA 202 001-••C 1770 3.5 4.1 0.85 0 .0 205 .2 2.4 0.34 222 489 2

    M3AP 225 SMA 3GAA 222 001-••C . . . . . . . 2)

    5 74 M3AP 225 SMB 3GAA 222 002-••C 1780 4.2 4.3 0.83 0 .4 296 .0 2.8 0.42 252 555 2)

    5 87 M3AP 250 SMA 3GAA 252 001-••C 1780 4.4 4.5 0.86 00 .6 350 .9 3.2 0.72 301 663 2

    6 115 M3AP 280 SMA 3GAA 282 001-••C 1775 5.0 5.3 0.87 32 .1 463 .3 3.4 0.88 394 868 2

    M3AP 280 SMB 3GAA 282 002-••C . . . . . . .

    -po es = r m n  z g -output es gn.4 8.6 1) M3AP 112 MB 3GAA 112 002-••C 1725 6.0 7.0 0.84 1.1 .9 35.5 .2 3.3 0.018 34 75 2)

    10.6 14.2 1 M3AP 132 MBA 3GAA 132 004-••C 1745 8.3 9.4 0.87 7.4 .2 58 .2 2.8 0.048 59 130 61

    12.6 16.9 1) M3AP 132 MB 3GAA 132 003-••C 1745 9.3 0.1 0.85 1 .8 69 .2 2.6 0.048 59 130 2)1) 3GAA 162 103-••C . . . . . . . 2)

    5 47 1) M3AP 180 LB 3GAA 182 103-••C 1765 3.2 3.8 0.84 6 .8 189 .4 2.7 0.225 170 374 2)

    2 56 M3AP 200 MLB 3GAA 202 002-••C 1775 3.6 4.0 0.84 0 .9 226 .3 3.2 0.34 222 489 2

    5 2) 1) M3AP 200 MLC 3GAA 202 003-••C 1770 4.2 4.4 0.84 9 .1 296 .1 3.2 0.38 287 632 66

    225 SMC 3GAA 222 003-••C . . . . . . . 2)

    4 2) 1) M3AP 225 SMD 3GAA 222 004-••C 1770 4.8 5.0 0.86 32 .1 453 .1 3.1 0.56 312 687 69

    8 117 M3AP 250 SMB 3GAA 252 002-••C 1775 4.7 5.0 0.87 32 .2 474 .3 3.4 0.88 357 786 2

    109 146 1) M3AP 250 SMC 3GAA 252 003-••C 1770 5.3 5.9 0.88 65 .4 588 .7 3.0 0.95 386 850 70

  • 8/9/2019 Compresor CombCat_460V

    25/32

    ABB / LV Motors / Cat. BU / 460 V 60 Hz GB 07-2004  

    Process performance aluminum motorsTechnical data for totally enclosed squirrel cage three phase motorsIP 55, IC 411; Insulation class F, temperature rise class B

    1)  Temperature rise class F2) n reques . 

    When ordering, the following variant code has to be added to theproduct code: 199 = Extreme heavy duty design. Type designation M3AP.

    he technical data above are acc. to IEC 60034-2 Determination of efficiencyMotors are also available acc. to CSA Energy Efficiency Verification,IEEE, Std 112 Determination of efficiency (EPact -92).echnical data for those motors available on request.

    Efficiency Moment ound

    Full 3/4 Power urrent Torque f inertia ressur

    u pu Type Produc Speed load load ac or I I T Ts

    Tmax

    J=1/4 GD2 Weigh level LP

    kW HP designa ion code r/min 100% 75% ϕ I Nm TN

    T kgm2 kg lbs B( )

    6-poles = 1200 r/min 60 V 60 Hz Basic design. . M3AP 112 M GAA 113 001-••C . . . . . . . . 2)

    3.5 4.7 M3AP 132 S GAA 133 001-••C . . . . . . . . 2)

    4.6 6.2 M3AP 132 MA GAA 133 002-••C . . . . . . . . 2)

    6.4 8.6 M3AP 132 MB GAA 133 003-••C 1155 87.5 88.0 0.79 11.9 7.1 53 2.5 .9 0.045 54 119 2)

    8.6 11.5 M3AP 160 M GAA 163 101-••C 1170 89.8 90.7 0.80 15.3 6.5 70 1.7 .6 0.089 96 211 2

    12.5 16.8 M3AP 160 L GAA 163 102-••C 1170 90.1 90.8 0.77 23 7.6 105 2.2 .1 0.107 110 242 2

    17 23 M3AP 180 L GAA 183 101-••C 1170 90.9 91.4 0.78 31 7.0 139 2.0 .0 0.217 160 352 2

    21 28 M3AP 00 MLA GAA 03 001-••C 1185 91.3 91.6 0.81 36 6.7 170 2.4 .6 0.37 182 401 2)

    25 34 M3AP 00 MLB GAA 03 002-••C 1180 91.9 92.2 0.81 45 7.0 202 2.8 .0 0.43 202 445 2)

    34 46 M3AP 25 SMB GAA 23 001-••C 1185 92.8 92.8 0.82 56 8.0 274 3.3 .9 0.64 247 544 2)

    42 55 M3AP 50 SMA GAA 53 001-••C 1185 93.7 93.9 0.83 68 7.5 338 3.1 .7 1.16 306 674 2)

    52 70 M3AP 80 SMA GAA 83 001-••C 1185 93.7 94.1 0.84 82 7.3 419 2.5 .7 1.49 389 857 2)

    6-poles = 1200 r/min z g -output es gn3.5 4.7 ) M3AP 112 MB GAA 113 002-••C 1140 81.7 82.5 0.77 5.8 30 2.3 .9 0.018 33 73 2)

    7.2 9.7 M3AP 132 MC GAA 133 004-••C 1160 86.1 86.0 0.77 14.2 7.6 60 2.1 .2 0.049 59 130 2

    16.1 22 M3AP 160 LB GAA 163 103-••C 1165 89.7 89.9 0.75 30 7.9 132 2.6 .2 0.127 125 275 2

    21 27 M3AP 180 LB GAA 183 102-••C 1165 90.7 91.5 0.81 36 7.1 163 2.2 .9 0.237 169 372 2

    34 46 M3AP 00 MLC GAA 03 003-••C 1180 91.8 92.3 0.81 55 7.8 275 3.2 .1 0.49 217 478 2

    42 55 M3AP 25 SMC GAA 23 002-••C 1185