a nema

a nema
A
MANAGEMENT SERVICE
ISO 9001
A
A
High efficiency (η 0.95÷0.97) thanks
to the high performance offered
by the patented hypoid bevel gear pair
at output
Low-noise gearing
High load capacity
INDEX
1.0
GENERAL INFORMATION
2.13
SPEED REDUCER RATING CHARTS . 50
2.14
MOTOR AVAILABILITY . . . . . . . . . . . . . 64
2.15
MASS MOMENT OF INERTIA . . . . . . . . 67
2.16
DIMENSIONS . . . . . . . . . . . . . . . . . . . . 76
2.17
TORQUE ARM. . . . . . . . . . . . . . . . . . . 117
3.0
ELECTRIC MOTORS
1.1
SYMBOLS AND UNITS . . . . . . . . . . . . . . 2
1.2
TORQUE . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.3
POWER . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.4
THERMAL CAPACITY. . . . . . . . . . . . . . . 3
1.5
EFFICIENCY . . . . . . . . . . . . . . . . . . . . . . 4
3.1
GENERAL INFORMATION . . . . . . . . . 120
1.6
MASS MOMENT OF INERTIA. . . . . . . . . 4
3.2
MOTOR ORDERING NUMBERS . . . . 121
1.7
SERVICE FACTOR . . . . . . . . . . . . . . . . . 4
3.3
MECHANICAL CHARACTERISTICS . . 122
1.8
SELECTION. . . . . . . . . . . . . . . . . . . . . . . 5
3.4
ELECTRICAL CHARACTERISTICS . . 124
1.9
VERIFICATIONS . . . . . . . . . . . . . . . . . . . 9
3.5
BRAKE MOTORS . . . . . . . . . . . . . . . . 127
1.10
INSTALLATION . . . . . . . . . . . . . . . . . . . . 9
3.6
DC BRAKE MOTORS TYPE BN_FD . 128
1.11
STORAGE . . . . . . . . . . . . . . . . . . . . . . . 10
3.7
AC BRAKE MOTORS TYPE BN_FA. . 132
1.12
MAINTENANCE. . . . . . . . . . . . . . . . . . . 10
3.8
BRAKE RELEASE SYSTEMS. . . . . . . 134
2.0
BEVEL-HELICAL GEARMOTORS
3.9
SPECIAL EXECUTIONS . . . . . . . . . . . 135
3.10
COMPACT MOTOR RATING CHARTS. . 139
2.1
ORDERING NUMBERS . . . . . . . . . . . . 12
3.11
IEC MOTOR RATING CHARTS . . . . . 142
2.2
DESIGN ADVANTAGES . . . . . . . . . . . . 14
3.12
DIMENSIONS . . . . . . . . . . . . . . . . . . . 145
2.3
VERSIONS . . . . . . . . . . . . . . . . . . . . . . 14
2.4
SPEED REDUCER OPTIONS. . . . . . . . 14
2.5
SYMBOLS . . . . . . . . . . . . . . . . . . . . . . . 14
2.6
LUBRICATION. . . . . . . . . . . . . . . . . . . . 15
2.7
MOUNTING POSITION AND
TERMINAL BOX SPECIFICATION. . . . 16
2.8
OVERHUNG LOADS . . . . . . . . . . . . . . . 22
2.9
SHAFT ARRANGEMENT . . . . . . . . . . . 23
2.10
ANTI-RUN BACK DEVICE . . . . . . . . . . 23
2.11
INSTALLATION INSTRUCTIONS . . . . . 24
2.12
GEARMOTOR RATING CHARTS. . . . . 25
Revisions
Refer to page 150 for the catalogue revision index.
Visit www.bonfiglioli.com to search for catalogues with latest revision
index.
1
1.0 GENERAL INFORMATION
1.1 SYMBOLS AND UNITS
Symb. U.m.
Description
Symb. U.m.
Description
Ac
[lbs]
Calculated thrust load
Pt
[hp]
Thermal capacity
An
[lbs]
Rated thrust load
Pr
[hp]
Power required
fm
–
Adjusting duty factor
Rc
[lbs]
Calculated radial load
ft
–
Thermal correction factor
Rn
[lbs]
Rated OHL
i
–
Gear ratio
Rx
[lbs]
Radial OHL for load shifted from
shaft midpoint
I
–
Intermittence
S
–
Safety factor
S.F.
–
Service factor
ta
[°C/ °F] Ambient temperature
tf
[min]
Operating time under constant load
tr
[min]
Rest time
W
[ft×lb]
Brake dissipated energy between
two successive air-gap adjustments
Wmax
[ft×lb]
Maximum energy for each braking
operation
x
[in]
Load application distance from shaft
shoulder
Z
[1/h]
Number of permitted starts in loaded
conditions
Zr
[1/h]
Number of starts
Jc
2
[Ib·ft ]
2
Load moment of inertia
Jm
[Ib·ft ]
Mass moment of inertia for motor
Jr
[Ib·ft2]
Mass moment of inertia for gearbox
K
–
Acceleration factor of masses
Kr
–
Transmission element factor
Tb
[lb·in]
Brake torque
T
[lb·in]
Torque
Tc
[lb·in]
Calculated torque
Tn
[lb·in]
Speed reducer rated torque
Tr
[lb·in]
Torque required
n
[rpm]
Speed
P
[hp]
Power
Pc
[hp]
Calculated power
Pn
[hp]
Motor rated power
Pn
[hp]
Rated horsepower
Dynamic efficiency
hd
Footnotes:
1
2
Applies to input shaft
1.4 THERMAL CAPACITY
NOMENCLATURE
1.2 TORQUE
Nominal output torque
Tn2
Torque transmitted at output shaft under uniform
load, referred to input speed n1 and corresponding
output speed n2.
It is calculated according to service factor S.F. = 1.
Application torque
Tr2
This is torque corresponding to application requirements. It must be equal to or less than rated output
torque Tn2 for the gearmotor selected.
Calculated torque
Pt
The value indicates the speed reducer thermal limit and
corresponds to the power transmission capacity under
continuous duty at an ambient temperature of 20°C
[70°F] without using a supplementary cooling system.
For short operating periods with sufficiently long pauses
to allow the unit to cool, thermal power is not a factor
important and it does not need to be taken into consideration.
For ambient temperature different from 20°C [70°F] and
intermittent duty, Pt value can be adjusted according to
thermal factor ft listed in table (A1), provided the following condition is satisfied.
Pr1 £ Pt x ft
Gear units A 10 through A 30 are not thermally limited
and the thermal verification does not apply.
Tc2
Torque value to be used for selecting the gearbox,
considering required torque Tr2 and service factor
S.F., and is obtained by:
T c2 = T r2 x S.F. £ T n2
(A0)
Pt [hp] [20 °C / 70 °F]
1.3 POWER
Rated input horsepower
Pn1
In the speed reducer selection charts, this is power
applicable at input shaft referred to speed n1 and
considering a service factor S.F. = 1.
Output horsepower
Pn2
Value represents rated HP as referred to speed reducer
output shaft.
Pn2 = Pn1 x hd
Pn2 =
Tn2 x n 2
63025
Pn2 in [hp]; Mn2 in [ib·in]
n1 = 1750 rpm
n1 = 3500 rpm
A 10 2
6.4
5.4
A 20 2
8.0
7.2
A 30 2
10.7
8.9
A 41 2
13.4
11.7
A 50 2
27
24.1
A 60 2
36
31
A 70 3
42
35
A 80 3
59
52
A 90 3
86
76
3
(A1)
1.7 SERVICE FACTOR
ft
Intermittent duty
ta max.
°C [°F]
Continuous
duty
Intermittence % (I)
80
60
40
20
S.F.
The service factor is the numerical parameter that describes the severity of the application. Its value results from the combination of the actual duty the gearbox is operated at, the number of starts per hour and
the daily operating hours.
The graph (A2) here after comes handy when
calculating the actual value for the service factor:
40 [105]
0.8
1.1
1.3
1.5
1.6
1. Enter the chart with the starts per hour [Zr]
30 [85]
0.85
1.3
1.5
1.6
1.8
2. Intersect the K_ curve that applies for the application
20 [70]
1.0
1.5
1.6
1.8
2.0
3. Read the service factor S.F. from the column
marked with the applicable hours per day [h/d]
50 [10]
1.15
1.6
1.8
2.0
2.3
Intermediate values can be obtained by interpolation.
(A2)
h /d
Intermittence (I)% is obtained dividing operating time
under load [tf] by total time, expressed as a percentage:
24
16
8
2.0
1.9
1.8
1.9
1.8
1.7
1.8
tf
I=
x 100
t f + tr
1.7
SF
1.5
K3
1.6
K2
1.5
1.4
1.3
1.4
1.4
1.3
K1
1.2
1.1
1.2
1.0
1.3
1.1
0.9
1.2
1.0
0.8
0
25
50
75
100
h
Obtained from the relationship of output power P2 to
input power P1, according to the following equation:
h=
1.6
1.6
1.5
1.5 EFFICIENCY
1.7
Starts per hour
P2
P1
Torque value Mn2 specified in this catalogue takes the
dynamic efficiency hd into account.
125
150
Zr
175
200
Acceleration factor of masses
225
250
275
300
K
Used for establishing the service factor and obtained
from the following equation:
K=
Jc
Jm
Where:
Jc [Ib·ft2]
moment of inertia of the driven masses in proportion
to the speed of the applied motor
Jm [Ib·ft2]
motor moment of inertia
1.6 MASS MOMENT OF INERTIA Jr
Values for the moment of inertia specified in the catalogue refer to gear unit input shaft.
They are therefore related to motor speed, in the
case of direct motor mounting.
4
K1 uniform load
K £ 0.25
K2 moderate shock load
K£3
K3 heavy shock load
K £ 10
For values of K > 10, please contact our Technical Service.
1.8
SELECTION
Application
AGMA Service Factor charting
24hr service (continuous duty)
(A3)
Application
S.F.
AGITATORS
Pure Liquids
1.25
Liquids & Solids
1.50
Liquids - variable density
1.50
BLOWERS
Centrifugal
1.25
Lobe
1.50
Vane
1.50
BREWING AND DISTILLING
Bottling Machinery
1.25
Brew Kettles - Continuous Duty
1.25
Cookers - Continuous Duty
1.25
Mash Tubs - Continuous Duty
1.25
Scale Hopper - Frequent Starts
1.50
CAN FILLING MACHINES
1.25
CAR DUMPERS
2.00
CAR PULLERS
1.50
CLARIFIERS
1.25
CLASSIFIERS
1.50
CLAY WORKING MACHINERY
Brick Press
2.00
Briquette Machine
2.00
Pug Mill
1.50
COMPACTORS
2.00
COMPRESSORS
Centrifugal
1.25
Lobe
1.50
Reciprocating, Multi-Cylinder
1.75
Reciprocating, Single-Cylinder
2.00
CONVEYORS - GENERAL PURPOSE
includes Apron, Assembly, Belt, Bucket, Chain,
Flight, Oven and Screw
Uniformly Loaded or Fed
1.25
Heavy Duty - Not Uniformly Fed
1.50
Severe Duty - Reciprocating or Shaker 2.00
CRANES
Dry Dock
Main Hoist
2.50
Auxiliary Hoist
3.00
Boom Hoist
3.00
Slewing Hoist
3.00
Traction Drive
3.00
Container
Main Hoist
Boom Hoist
Trolley Drive
Gantry Drive
Traction Drive
Mill Duty
Main Hoist
Auxiliary
Bridge Travel
Trolley Travel
Industrial Duty
Main
Auxiliary
Bridge Travel
Trolley Travel
CRUSHERS
Stone or Ore
DREDGES
Cable Reels
Conveyors
Cutter Head Drives
Pumps
Screen Drives
Stackers
Winches
ELEVATORS
Bucket
Centrifugal Discharge
Escalators
Freight
Gravity Discharge
EXTRUDERS
General
Plastics
Variable Speed Drive
Fixed Speed Drive
Rubber
Continuous Screw Operation
Intermittent Screw Operation
FANS
Centrifugal
Cooling Towers
Forced Draft
Induced Draft
Industrial & Mine
FEEDERS
Apron
Belt
Disc
Reciprocating
Screw
S.F.
3.00
2.00
3.00
2.00
3.50
3.50
3.00
3.00
3.00
3.00
3.00
3.00
2.00
1.50
1.50
2.00
2.00
2.00
1.50
1.50
1.50
1.25
1.25
1.50
1.25
1.50
1.50
1.75
1.75
1.75
1.25
2.00
1.25
1.50
1.50
1.50
1.50
1.25
2.00
1.50
5
Application
FOOD INDUSTRY
Cereal Cooker
Dough Mixer
Meat Grinder
Slicers
GENERATORS AND EXITORS
HAMMER MILLS
HOISTS
Heavy Duty
Medium Duty
Skip Hoist
LUMBER INDUSTRY
Barkers
Spindle Feed
Main Drive
Conveyors
Burner
Main or Heavy Duty
Main Log
Re-saw, Merry-Go-Round
Slab
Transfer
Chains
Floor
Green
Cut-Off Saws
Chain
Drag
Debarking Drums
Feeds
Edger
Gang
Trimmer
Log Deck
Log Hauls - Incline - Well Type
Log Turning Devices
Planer Feed
Planer Tilting Hoists
Rolls - Live-off brg. - Roll Cases
Sorting Table
Tipple Hoist
Transfer
Chain
Craneway
Tray Drives
Veneer Lathe Drives
METAL MILLS
Draw Bench Carriage and Main Drive
Runout Table
Non-reversing
Group Drives
Individual Drives
6
S.F.
1.25
1.50
1.50
1.50
1.25
2.00
2.00
1.50
1.50
1.50
1.75
1.50
1.50
2.00
1.50
2.00
1.50
1.50
1.75
1.75
1.75
2.00
1.50
1.75
1.50
1.75
1.75
1.75
1.50
1.50
1.75
1.50
1.50
1.75
1.75
1.50
1.50
1.50
1.50
1.50
2.00
Application
S.F.
Reversing
2.00
Slab Pushers
1.50
Shears
2.00
Wire Drawing
1.50
Wire Winding Machine
1.50
METAL STRIP PROCESSING MACHINERY
Bridles
1.50
Coilers & Uncoilers
1.25
Edge Trimmers
1.50
Flatteners
1.50
Loopers (Accumulators)
1.25
Pinch Rolls
1.50
Scrap Choppers
1.50
Shears
2.00
Slitters
1.50
MILLS, ROTARY TYPE
Ball & Rod
Spur Ring Gear
2.00
Helical Ring Gear
1.50
Direct Connected
2.00
Cement Kilns
1.50
Dryers & Coolers
1.50
MIXERS, CEMENT
1.50
PAPER MILLS
Agitator (Mixer)
1.50
Agitator for Pure Liquors
1.25
Barking Drums
2.00
Barkers - Mechanical
2.00
Beater
1.50
Breaker Stack
1.25
Calendar
1.25
Chipper
2.00
Chip Feeder
1.50
Coating Rolls
1.25
Conveyors
Chip, Bark, Chemical
1.25
Log (including Slab)
2.00
Couch Rolls
1.25
Cutter
2.00
Cylinder Molds
1.25
Dryers
Paper Machine
1.25
Conveyor Type
1.25
Embosser
1.25
Extruder
1.50
Fourdrinier Rolls
1.25
(includes Lump breaker, dandy roll,
wire turning, and return rolls)
Jordan
1.50
Kiln Drive
1.50
Mt. Hope Roll
1.25
Paper Rolls
1.25
Platter
1.50
Application
S.F.
Presses - Felt & Suction
1.25
Pulper
2.00
Pumps - Vacuum
1.50
Reel (Surface Type)
1.25
Screens
Chip
1.50
Rotary
1.50
Vibrating
2.00
Size Press
1.25
Super Calender
1.25
Thickener (AC Motor)
1.50
Thickener (DC Motor)
1.25
Washer (AC Motor)
1.50
Washer (DC Motor)
1.25
Wind and Unwind Stand
1.25
Winders (Surface Type)
1.25
Yankee Dryers
1.25
PLASTICS INDUSTRY - PRIMARY PROCESSING
Intensive Internal Mixers
Batch Mixers
1.75
Continuous Mixers
1.50
Batch Drop Mill - 2 smooth rolls
1.25
Continuous Feed, Holding & Blend Mill 1.25
Calender
1.50
PLASTICS INDUSTRY - SECONDARY PROCESSING
Blow Molder
1.50
Coating
1.25
Film
1.25
Pipe
1.25
Pre-Plasticizer
1.50
Rods
1.25
Sheet
1.25
Tubing
1.50
PULLER - BARGE HAUL
1.50
PUMPS
Centrifugal
1.25
Proportioning
1.50
Reciprocating
Single Acting, 3 or more cylinders
1.50
Double Acting, 2 or more cylinders
1.50
Rotary
Gear Type
1.25
Lobe
1.25
Vane
1.25
RUBBER INDUSTRY
Intensive Internal Mixers
Batch Mixers
1.75
Continuous Mixers
1.50
Mixing Mill
2 smooth rolls
1.50
1 or 2 corrugated rolls
Batch Drop Mill - 2 smooth rolls
1.50
Application
S.F.
Cracker - 2 corrugated rolls
Holding, Feed & Blend Mill - 2 rolls
Refiner - 2 rolls
Calender
SAND MULLER SEWAGE DISPOSAL
EQUIPMENT
Bar Screens
Chemical Feeders
Dewatering Screens
Scum Breakers
Slow or Rapid Mixers
Sludge Collectors
Thickener
Vacuum Filters
SCREENS
Air Washing
Rotary - Stone or Gravel
Traveling Water Intake
SUGAR INDUSTRY
Beet Slicer
Cane Knives
Crushers
Mills (low speed end)
TEXTILE INDUSTRY
Batchers,
Calenders
Cards
Dry Cans
Dyeing Machinery
Looms
Mangles
Nappers
Pads
Slashers
Soapers
Spinners
Tenter Frames
Washers
Winders
2.00
1.25
1.50
1.50
1.50
1.25
1.25
1.50
1.50
1.50
1.25
1.50
1.50
1.25
1.50
1.25
2.00
1.50
1.50
1.75
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
1.50
7
Recommended procedure for correct selection of
drive unit:
(A5)
Duty
S2
S3*
Cycle duration
[min]
Intermittence
(I)
Selecting a gearmotor
A) Determine service factor S.F. according to type of
duty (factor K), number of starts per hour Zr and
hours of operation.
B) Once torque Tr2, speed n2 and dynamic efficiency hd
are known, input power can be calculated as follows:
Pr1(hp) =
Tr2 (Ib × in) x n 2 (rpm)
63,025 x h d
30
60
fm 1.35 1.15 1.05
25%
40% 60%
1.25
1.15
1.1
Please
consult
factory
* Cycle duration, in any event, must be 10 minutes or less. If it is longer, please contact our Technical Service Department.
Intermittence:
I=
tf
x 100
tf + tr
tf = operating time at constant load
tr = rest time
Values for hd for the different sizes of speed reducer
are indicated in table (A4) below:
(A4)
Next, according to output speed n2, select a
gearmotor featuring a safety factor S greater than or
equal to service factor S.F.
S ³ S.F.
Reductions
hd
10
S4 - S8
2
3
4
0.95
0.93
0.91
The gearmotor selection charts features combination
with 2, 4 and 6 pole motors.
If motors with different speed shall be used, refer to the
selection procedure for speed reducers and choose the
most suitable gear unit.
For applications such as hoisting and travelling, contact our Technical Service Department.
C) Consult the gearmotor selection charts and locate
the table corresponding to power
Pn ³ Pr1
Unless otherwise specified, power Pn of motors indicated in the catalogue refers to continuous duty S1.
For motors used in conditions other than S1, the type
of duty required by reference to CEI 2-3/IEC 60034-1
Standards must be mentioned.
For duties from S2 to S8 in particular, and for IEC
motor frame 132 or smaller, extra power can be obtained with respect to continuous duty, consequently
the following condition must be satisfied:
P
Pn ³ r1
fm
The adjusting duty factor fm can be obtained from
chart (A5).
8
Selecting a speed reducer
with a motor adapter
A) Determine service factor S.F. based on application.
See pages 5 - 7.
B) Assuming the required output torque for the application Tr2 is known, the calculated torque can be
defined as:
Tc2 = Tr2 x S.F.
C) The gear ratio is calculated according to requested
output speed n2 and the drive input speed n1
i=
n1
n2
Once the torque Tc2 and gear ratio [i] are calculated
consult the speed reducer rating chart for the actual
drive speed n1 and select the unit that features a
torque rating Tn2 that equals or exceeds the computational torque Tc2:
Tn2 ³ Tc2
If an electric motor, with either a NEMA or a IEC
flange, is going to be fitted onto the captioned gear
unit, check that matching is feasible at chapter “Motor availability”.
D) Thrust loads
Thrust loads, if applicable, must also be compared
to the permitted values indicated in the catalogue.
In the event of extremely high thrust loads, or a
combination of thrust and radial loads, contact our
Technical Service for advise.
E) Electric motors
For duties with considerable number of starts per hour,
factor Z must be considered (it can be sorted from the
motor rating chart). Factor Z defines the maximum
number of starts for the application under consideration.
1.9 VERIFICATIONS
1.10 INSTALLATION
After the selection of the speed reducer, or gearmotor,
is complete:
The following installation instructions must be followed:
A) Thermal capacity
Make sure that the thermal capacity of the speed reducer is equal to or higher than power required by
the application. If this condition is not verified, select
a larger speed reducer or apply a supplementary
cooling system.
B) Maximum torque
The maximum torque (intended as momentary peak
load) applicable to the speed reducer must not, in
general, exceed 200% of rated torque Tn2. Therefore,
check that this limit is not exceeded, using suitable
torque limiting devices, if necessary.
For three-phase two speed motors, it is important to
pay attention to switching torque generated (from
high to low speed), because it could be significantly
higher than maximum torque.
A) Make sure that the speed reducer is adequately
secured to avoid vibrations. If shocks, prolonged
overloading, or the possibility of locking are expected, install hydraulic couplings, clutches, torque
limiters, etc.).
B) Prior to painting the gear unit,, the outer face of the
oil seals must be protected to prevent the solvent
drying out the rubber, thus jeopardizing the sealing
function.
C) Contact surfaces must be cleaned and treated with
suitable protective products before mounting to avoid
oxidation and, as a result, seizure of parts.
D) Before starting up the machine, make sure that oil
level is correct for the actual mounting position, and
that viscosity is suitable for the specific duty. See table (B1).
C) Radial loads
Check that forces applying on input and/or output
shafts are within permitted catalogue values. If they
are higher, select a larger speed reducer or change
bearing arrangement.
Remember that all values listed in the catalogue refer to loads acting at mid-point of the shaft. The
permissible radial load value should be adjusted if
the radial load is not acting at mid point of shaft.
See para 2.8.
9
1.11 STORAGE
Observe the following instructions to ensure correct
storage of products:
A) Do not store outdoors, in areas exposed to
weather or with excessive humidity.
B) Always place boards, wood, or other material between the products and the floor. The gearbox
should not have direct contact with the floor.
C) For long term storage (over 60 days), all machined
surfaces such as flanges, shafts and couplings must
be protected with a suitable rust inhibiting product
(Mobilarma 248 or equivalent).
D) The following measures must be taken when products are stored for a period exceeding 6 months:
For life lubricated products, the machined areas
must be greased to prevent oxidation.
In addition to above, products originally supplied w/o
oil must be positioned with the breather plug at the
highest point, and filled with oil.
Before operating the speed reducer, restore the correct quantity of oil.
1.12 MAINTENANCE
Speed reducers A 10 throught A 30 are lubricated
and do not require periodical oil change.
For larger speed reducers, the first oil change must
take place after about 300 hours of operation, flushing the interior of the unit using suitable detergents.
Do not mix mineral oils with synthetic oils.
Check oil periodically and restore the level, if necessary.
10
2.0 BEVEL-HELICAL GEARMOTORS
A
SERIES
11
2.1 ORDERING NUMBERS
Speed reducer designation
A 30 2 NUH
F1A
76.5
S1
B3
.....
OPTIONS
MOUNTING POSITION
B3 (default), B6, B7, B8, VA, VB
INPUT OPTIONS
NHS for speed reducer with solid input shaft (inch dims.)
HS for speed reducer with solid input shaft (metric dims.)
P + IEC frame size for gear head with IEC motor adapter
S + motor size for integral gearmotor
Specify for NEMA inputs:
56C
140TC
180TC
N+
210TC for motors:
250TC
280TC
320TC
56C
143TC and 145TC
182TC and 184TC
213TC and 215TC
254TC and 256TC
284TC and 286TC
324TC and 326TC
GEAR RATIO
F = flange
1 = R.H. mount; 2 = L.H. mount
A, B, C = size of flange
VERSION
‚

shaft
dims.
NUH: hollow shaft
NUL
NUR
NUD
(A 10...A 60)
(A 10...A 60)
(A 10...A 60)
(A 10...A 60)
UH_: hollow shaft
(A 70...A 90)
REDUCTIONS
2, 3, 4
FRAME SIZE
10, 20, 30, 41, 50, 60, 70, 80, 90
SERIES
A = bevel-helical
12
—
—
UR
UD
US: shrink disc
(A 70...A 90)
(A 70...A 90)
(A 10...A 90)
inch
metric
Bonfiglioli motor
MOTOR
BRAKE
M 1LA 4 230/460-60 IP54 CLF ..... W FD 15 R SB 220 SA ....
OPTIONS
BRAKE SUPPLY
AC/DC RECTIFIER
NB, NBR, SB, SBR
BRAKE HAND RELEASE (optional)
R, RM
BRAKE TORQUE [specify Nm!]
[1 ft • lb = 1.356 Nm]
BRAKE TYPE
FD (DC brake)
FA (AC brake)
TERMINAL BOX
W (default), N, S, E
MOUNTING
blank for compact motor
B5 for IEC motor
INSULATION CLASS
CL F default
PROTECTION CLASS
IP 55 standard (IP 54 standard for brake motors)
VOLTAGE - FREQUENCY
NUMBER OF POLES
MOTOR FRAME SIZE
05A...5LA - integral motor
63A...225S4 - IEC style motor
TYPE OF MOTOR
M = AC, 3-ph, integral style
BN = AC, 3-ph, IEC face motor
NEMA motors to be specified thru their ordering numbers
13
2.2 DESIGN ADVANTAGES
2.4 SPEED REDUCER OPTIONS
The main design characteristics are:
AL, AR
Anti-run back device.
The gear units the device can be specified for and the
direction of free rotation are described at chapter 2.11
• modularity
• compact design
SO
Gearboxes A 10, A 20, A 30, are supplied without oil.
• universal mounting
• high efficiency
• low noise
• gears in hardened and case-hardened steel
• aluminium housing for sizes 10, 20, 30, unpainted,
high strength painted cast-iron housings for larger
sizes.
• input and output shafts in high grade steel
LO
Gearboxes A 41, A 50, A 60, A 70, A 80, A 90, usually
supplied without oil, to be factory filled with synthetic oil
currently used by BONFIGLIOLI RIDUTTORI according
to the mounting position specified.
DV
Two oil seals on input shaft.
(Available only for compact gearmotors).
VV
Viton® oil seal on input shaft.
2.3 VERSIONS
PV
All oil seals in Viton® material.
Available version for A series gearbox and gearmotors
are illustrated below.
Terminal box location
NUL
(inch series)
UR (metric series)
NUR (inch series)
UD (metric series)
NUD (inch series)
UH (metric series)
NUH (inch series)
US
14
(metric series)
Location of motor terminal box can be specified by viewing the motor from the fan side; default position is highlighted in bold (W).
Angular position of the brake release lever
Unless otherwise specified, brake motors have the manual device side located, 90° apart from terminal box.
Different angles can be specified through the relevant
options available.
2.5 SYMBOLS
Gearmotor with compact motor.
Gearmotor with motor adapter.
Gearbox with NEMA input.
Gearbox with solid input shaft.
2x
2 Reduction
3x
3 Reduction
4x
4 Reduction
The symbol shows the
page the information
can be sorted from.
(B1)
2.6 LUBRICATION
Ambient temp.
Speed reducer size A 10...A 30 are supplied with life lubrication and do not have oil filling, level, and drain plugs.
These long-life lubricated units are capable of operating at
an ambient temperature range of 0 °C to +50 °C [32 to
122 °F]. For temperatures below 0 °C [32 °F], contact our
Technical Service.
Speed reducers for which the SO options is specified
come without oil and must be filled by the user prior to be
put into operation.
In this case refer to charts (B1) and (B2) for the most appropriate type of oil and relevant change interval.
Customers must always advise mounting position to ensure
the correct arrangement of the filling, level and drain plugs.
0 - 20 °C
[32 - 70 °F]
Duty
Ambient temp.
20 - 40 °C
[70 - 104 °F]
Mineral oil Synthetic oil Mineral oil Synthetic oil
ISO VG
ISO VG
ISO VG
ISO VG
Light duty
150
150
220
220
Medium duty
150
150
320
220
Heavy duty
220
220
460
320
(B2)
Oil temperature
°C [°F]
< 65
[< 150 °F]
Periodical oil changes are not required for sizes A 10...A 30
as they are lubricated for life with synthetic oil.
Oil change interval [hours]
Mineral oil
Synthetic oil
8000
25000
65 - 80
[150 °F - 175 °F]
4000
15000
80 - 95
[175 °F - 200 °F]
2000
12500
(B3)
Oil quantity
Mounting positions
B3
A 10 2
A 20 2
A 20 3
A 30 2
A 30 3
A 41 2
A 41 3
A 50 2
A 50 3
A 50 4
A 60 2
A 60 3
A 60 4
A 70 3
A 70 4
A 80 3
A 80 4
A 90 3
A 90 4
Life lubricated
0.37
1.4
0.61
2.3
0.69
2.6
0.84
3.2
0.95
3.6
1.06
4.0
1.06
4.0
1.29
4.9
1.35
5.1
1.66
6.3
1.80
6.8
1.80
6.8
1.90
7.2
2.64
10
3.43
13
3.96
15
5.28
20
8.18
31
10.82
41
B6
0.37
1.4
0.61
2.3
0.69
2.6
0.84
3.2
0.95
3.6
1.08
4.1
1.06
4.0
2.14
8.1
2.14
8.1
2.16
8.2
2.14
8.1
2.14
8.1
2.90
11
3.70
14
3.70
14
5.81
22
5.81
22
9.24
35
9.24
35
B7
0.37
1.4
0.61
2.3
0.69
2.6
0.84
3.2
0.95
3.6
1.08
4.1
1.06
4.0
1.24
4.7
1.24
4.7
1.40
5.3
3.17
12
3.17
12
1.95
7.4
2.64
10
2.64
10
3.96
15
3.96
15
9.77
37
9.77
37
B8
0.37
1.4
0.61
2.3
0.69
2.6
0.84
3.2
0.95
3.6
1.24
4.7
1.24
4.7
2.22
8.4
2.22
8.4
2.19
8.3
3.96
15
3.96
15
4.22
16
3.96
15
3.96
15
6.86
26
6.86
26
11.62
44
11.62
44
VA
0.37
1.4
0.61
2.3
0.69
2.6
0.84
3.2
0.95
3.6
1.37
5.2
1.61
6.1
2.90
11
2.90
11
3.43
13
4.75
18
4.75
18
5.02
19
5.28
20
6.07
23
9.24
35
10.30
39
17.42
66
19.27
73
VB
0.37
1.4
0.61
2.3
0.69
2.6
0.84
3.2
0.95
3.6
1.16
4.4
1.03
3.9
2.43
9.2
2.43
9.2
2.40
9.1
3.96
15
3.96
15
3.70
14
3.70
14
3.70
14
5.81
22
5.81
22
10.30
39
10.30
39
Quantities are
gallons
litres
15
A 10...A 30
2.7 MOUNTING POSITION AND TERMINAL BOX SPECIFICATION
Fill / breather plug
Input:
Level plug
HS
Drain plug
P (IEC)
N (NEMA)
S
B3
2x
N
E
W
3x
S
W = Default
B6
2x
E
3x
S
N
W
W = Default
B7
2x
W
N
S
E
W = Default
16
3x
A 10...A 30
Input:
HS
P (IEC)
N (NEMA)
S
B8
2x
S
W
E
N
3x
W = Default
VA
2x
E
S
N
3x
W
W = Default
VB
2x
W
N
S
E
3x
W = Default
17
A 41...A 60
Input:
P (IEC)
N (NEMA)
HS
B3
(50)
(41-60)
S
(41-60)
(50)
(41-60)
(50)
(A41-A50-A60)
2x
3x
(A50-A60)
(41-60)
(50)
(41-60)
(50)
(41-60)
(50)
(A41)
N
3x
E
W
S
(60)
(60)
(50)
(50)
(60)
(41)
(41)
(41-50)
4x
(A50-A60)
W = Default
B6
(41-60)
(41-60)
(41-60)
(50)
(50)
(50)
(A41-A50-A60)
2x
3x
(A50-A60)
(41-60)
(50)
E
(41-60)
(50)
(41-60)
(50)
(A41)
S
N
3x
(50)
(50)
W
(50)
(60)
(41-60)
4x
(60)
(A50-A60)
W = Default
B7
(41)
(41)
(41)
(60)
(60)
(60)
(50)
(50)
(A41-A50-A60)
(50)
2x
3x
(A50-A60)
(41-60) (50)
(41-60) (50)
(41)
(A41)
(60)
(50)
(50)
N
S
(41-50)
(60)
(60)
W
(41-60) (50)
(41)
(50)
(50)
3x
(50)
E
4x
(41-60)
(41-60)
W = Default
18
(41-50) (60)
(41-50) (60)
(41-60)
(41-50) (60)
(A50-A60)
A 41...A 60
Input:
P (IEC)
N (NEMA)
HS
S
B8
(50-60)
(A41-A50-A60)
(50-60)
(50-60)
(41)
(41)
(41)
2x
3x
(A50-A60)
(50)
S
(41-60)
(50-60)
(41-60)
(50)
(41-60)
(A41)
(50-60)
(50-60)
W
E
(50)
(41)
(41)
(41)
N
3x
4x
(A50-A60)
(50)
W = Default
(41-60)
(50)
(41-60)
(50)
(41-60)
VA
(A41-A50-A60)
2x
3x
(A50-A60)
(60)
(41-50)
(41)
(50-60)
(50-60)
(A41)
3x
E
S
N
(41)
4x
W
(A50-A60)
W = Default
VB
(A41-A50-A60)
2x
3x
(A50-A60)
W
N
S
(A41)
E
3x
(50)
(50)
(50)
W = Default
(60)
4x
(60)
(60)
(A50-A60)
19
A 70...A 90
Input:
P (IEC)
N (NEMA)
HS
S
B3
3x
N
E
W
4x
S
W = Default
B6
(80)
(80)
(80)
3x
70-90
(80)
E
(80)
(80)
S
N
W
4x
70-90
W = Default
B7
(80)
(80)
(80)
3x
W
E
20
(80)
(80)
N
S
W = Default
(80)
4x
A 70...A 90
Input:
P (IEC)
N (NEMA)
HS
S
B8
3x
S
W
E
4x
N
W = Default
VA
3x
4x
E
S
N
W
W = Default
VB
(80)
3x
(70-90)
W
N
S
E
4x
(90)
(70-80)
W = Default
21
2.8 OVERHUNG LOADS
Input and output shaft of speed reducer can be subject
to loading generated by the transmission keyed on the
shaft itself.
Overhung load can be calculated with the following formula where all factors are determined at shaft under
study.
[N.B. (1) = input shaft; (2) = output shaft]
Rc =
a
b
c
x
= permitted OHL on shaft
mid-point [Ibs] (radial load table)
= load location factor
= load location factor
= load location factor
= distance of load from shaft shoulder [in]
load location factors a, b, c are shown in table (B6).
(B5)
2 x T x Kr
d
Rc = overhung load in [lbs]
T = torque in [lb·in]
d = pitch diameter in inches of sprocket, pinion, sheave
or pulley
Kr =transmission element factor
Sprocket (single or multiple strand) ............. 1.0
Spur or helical pinion ................................... 1.25
V-belt sheave ............................................... 1.50
Flat belt pulley .............................................. 2.50
a) load Rc1 or Rc2 applied at midpoint of shaft as indicated in table (B4).
This value can be directly compared with rated OHL capacity by observing the condition:
Rc1 £ Rn1
;
Rc2 £ Rn2
(B4)
b) load applied at distance "x" from shaft shoulder as
shown in table (B5).
Conversion to the new permitted overhung load values
Rx1 and Rx2 is obtained from the following equation:
Rx1 = Rn1 x
a
b + "x"
;
as long as L < "x" < c
2
22
Rn1, Rn2
Rx2 = Rn2 x
a
b + "x"
(B6)
Load location factors [in]
Output shaft
Input shaft
a
b
c
a
b
c
A 102
4.8
4.0
23.6
0.8
0
11.8
A 202
5.9
4.7
29.5
1.6
0.8
13.8
A 203
5.9
4.7
29.5
0.8
0
11.8
A 302
6.6
5.4
35.4
1.5
0.7
13.8
A 303
6.6
5.4
35.4
0.8
0
11.8
A 412
7.8
6.2
41.3
1.9
1.0
17.7
A 413
7.8
6.2
41.3
1.6
0.8
13.8
A 502 - A503
9.5
7.9
51.2
1.9
1.0
17.7
A 504
9.5
7.9
51.2
1.5
0.7
13.8
A 602 - A603
9.5
7.5
61.0
2.2
1.0
23.6
A 604
9.5
7.5
61.0
1.9
1.0
17.7
A 703
11.6
9.1
74.8
3.4
1.2
39.4
A 704
11.6
9.1
74.8
1.9
1.0
17.7
A 803
13.6
11.0
94.5
3.4
1.2
39.4
A 804
13.6
11.0
94.5
1.9
1.0
17.7
A 903
17.0
12.9
122.4
4.6
1.8
55.1
A 904
17.0
12.9
122.4
1.9
1.0
17.7
Overhung load capacity of
output shaft,
Rn2
(B7)
Rated values for radial load referred to mid-point of the
output shaft are listed in the gearmotor and speed reducer rating charts. They are based on transmitted
torque T2 and rated torque Tn2 respectively and for the
most unfavourable condition as far as the load angle
and rotation direction.
If permitted values are below required values, please
consult our Technical Service Department reporting the
load angle and shaft rotation direction.
A102 - A202 - A302 - A412 - A502 - A602
A504 - A603 - A704 - A804 - A904
Overhung load capacity of
input shaft,
Rn1
These values which are shown in the speed reducer selection charts refer to input speed and are calculated at
mid-point of the input shaft.
If permitted values are below required values, please
consult our Technical Service reporting load orientation
and shaft rotation direction.
Thrust loads,
An1 An2
Maximum permitted thrust loads can be calculated as
follows:
An1 = Rn1 • 0.2
An2 = Rn2 • 0.2
If thrust load exceeds permitted value, consult our
Technical Service.
A203 - A303 - A413 - A503 - A604
A703 - A803 - A903
2.10 ANTI-RUN BACK DEVICE
An anti-run back device is available upon request to allow rotation of the output shaft in one direction only (option AL-AR).
Table (B8) shows the models in which the anti-run back
device can be installed. Please specify in the order the
required rotation direction through option AL or AR (table B9) in the gearbox or motor designation. Default setting is as per rotation AR.
(B8)
Type
A302 A412
A503
A603 A703 A803 A903
A102 A202
A203 A303 A413 A502 A504 A602 A604 A704 A804 A904
2.9 SHAFT ARRANGEMENT
Table (B7) shows standard directions of rotation for 2, 3
and 4 stage helical-bevel gearboxes.
•
•
•
•
•
•
•
Anti-run back device can be fitted to compact motor only
Anti-run back device can be fitted either onto compact motor
or onto the gearbox
23
(B9)
2.11 INSTALLATION INSTRUCTIONS
for the hexagonal head bolt to be used. Besides, for an
easier installation, we suggest to use a wrench of the
type shown in table (B10).
Schemes in table (B10) show the 3 possible patterns for
bolting the A units onto the machine.
For each of these cases, table (B11) indicates the size
(B10)
À
Á
Â
(B11)
Bolts pattern
À
Á
Â
DL (mm)
A 10
M8 x 25
M8 x 20
M8 x...
20
A 20
M8 x 25
M8 x 20
M8 x...
20
A 30
M10 x 30
M10 x 25
M10 x...
25
A 41
M12 x 35
M12 x 30
M12 x...
30
A 50
M14 x 45
M14 x 40
M14 x...
35
A 60
M16 x 50
M16 x 45
M16 x...
40
A 70
M20 x 60
M20 x 55
M20 x...
45
A 80
M24 x 70
M24 x 65
M24 x...
55
24
2.12 GEARMOTOR RATING CHARTS
0.16 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
309
234
201
176
160
31
40
47
54
59
40.4
30.6
26.3
23.0
22.4
5.5:1
7.2:1
5.5:1
9.6:1
10.6:1
680
740
780
820
840
A102_5.5
A102_7.2
A102_5.5
A102_9.6
A102_10.6
S05 + M05A4
S05 + M05A4
S05 + M05B6
S05 + M05A4
S05 + M05A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63B6
P63 + BN63A4
P63 + BN63A4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
137
121
104
91
79
69
78
91
104
120
18.0
17.0
14.6
12.7
11.1
12.3:1
13.9:1
10.6:1
18.6:1
13.9:1
890
920
970
1010
1060
A102_12.3
A102_13.9
A102_10.6
A102_18.6
A102_13.9
S05 + M05A4
S05 + M05A4
S05 + M05B6
S05 + M05A4
S05 + M05B6
P63 + BN63A4
P63 + BN63A4
P63 + BN63B6
P63 + BN63A4
P63 + BN63B6
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
71
59
48
37
33
133
160
197
255
287
10.0
8.3
6.7
5.2
4.6
23.8:1
28.6:1
35.1:1
45.4:1
51.3:1
1090
1160
1230
1240
1240
A102_23.8
A102_28.6
A102_35.1
A102_45.4
A102_51.3
S05 + M05A4
S05 + M05A4
S05 + M05A4
S05 + M05A4
S05 + M05A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
31
25.6
22.1
21.5
18.4
303
370
429
442
514
4.4
3.6
3.1
3.0
2.2
35.1:1
65.9:1
76.4:1
51.3:1
91.6:1
1240
1240
1240
1240
1240
A102_35.1
A102_65.9
A102_76.4
A102_51.3
A102_91.6
S05 + M05B6
S05 + M05A4
S05 + M05A4
S05 + M05B6
S05 + M05A4
P63 + BN63B6
P63 + BN63A4
P63 + BN63A4
P63 + BN63B6
P63 + BN63A4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
18.3
16.7
14.4
14.0
13.8
518
568
658
654
688
3.4
2.3
2.0
2.8
2.7
92.3:1
65.9:1
76.4:1
120.5:1
79.9:1
1390
1240
1240
1390
1390
A202_92.3
A102_65.9
A102_76.4
A203_120.5
A202_79.9
S05 + M05A4
S05 + M05B6
S05 + M05B6
S05 + M05A4
S05 + M05B6
P63 + BN63A4
P63 + BN63B6
P63 + BN63B6
P63 + BN63A4
P63 + BN63B6
N56C
N56C
N56C
N56C
N56C
80...83
76...79
76...79
80...83
80...83
12.0
11.9
11.6
9.5
9.5
790
796
794
968
969
1.5
2.2
2.6
2.2
3.1
91.6:1
92.3:1
146.1:1
178.3:1
178.5:1
1240
1390
1390
1390
2160
A102_91.6
A202_92.3
A203_146.1
A203_178.3
A303_178.5
S05 + M05B6
S05 + M05B6
S05 + M05A4
S05 + M05A4
S05 + M05A4
P63 + BN63B6
P63 + BN63B6
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
N56C
N56C
N56C
N56C
N56C
76...79
80...83
80...83
80...83
84...87
7.8
7.6
6.5
6.2
5.4
1176
1202
1414
1474
1708
2.7
1.8
1.6
2.3
2.0
216.6:1
221.3:1
260.5:1
271.5:1
314.6:1
2160
1390
1390
2160
2160
A303_216.6
A203_221.3
A203_260.5
A303_271.5
A303_314.6
S05 + M05A4
S05 + M05A4
S05 + M05A4
S05 + M05A4
S05 + M05A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
N56C
N56C
N56C
N56C
N56C
84...87
80...83
80...83
84...87
84...87
5.2
5.1
4.5
4.2
4.2
1760
1789
2046
2176
2189
4.3
1.2
3.7
1.5
3.4
324.2:1
329.4:1
376.8:1
400.8:1
262.5:1
3370
1390
3370
2160
3370
A413_324.2
A203_329.4
A413_376.8
A303_400.8
A413_262.5
S05 + M05A4
S05 + M05A4
S05 + M05A4
S05 + M05A4
S05 + M05B6
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63A4
P63 + BN63B6
N56C
N56C
N56C
N56C
N56C
88...91
80...83
88...91
84...87
88...91
3.5
2624
1.4
314.6:1
2160
A303_314.6
S05 + M05B6
P63 + BN63B6
N56C
84...87
S
25
0.16 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
3.4
2.9
2.7
2.3
2.1
2704
3144
3379
3850
4320
2.8
2.4
3.9
3.4
3.1
324.2:1
376.8:1
621.3:1
707.9:1
529.5:1
3370
3370
4500
4500
4500
A413_324.2
A413_376.8
A504_621.3
A504_707.9
A504_529.5
1.8
1.6
1.5
1.4
1.2
5069
5776
6163
6349
7559
2.6
2.3
4.0
2.1
5.9
621.3:1
707.9:1
755.4:1
778.2:1
926.5:1
4500
4500
6740
4500
11200
1.0
0.82
0.64
8746
10982
13992
5.1
4.0
3.2
1072:1
1346:1
1715:1
11200
11200
11200
S
S05 + M05B6
S05 + M05B6
P63 + BN63B6
P63 + BN63B6
P63 + BN63A4
P63 + BN63A4
P63 + BN63B6
N56C
N56C
N56C
N56C
N56C
88...91
88...91
92...95
92...95
92...95
A504_621.3
A504_707.9
A604_755.4
A504_778.2
A704_926.5
P63 + BN63B6
P63 + BN63B6
P63 + BN63B6
P63 + BN63B6
P63 + BN63B6
N56C
N56C
N56C
N56C
N56C
92...95
92...95
96...99
92...95
100...103
A704_1072
A704_1346
A704_1715
P63 + BN63B6
P63 + BN63B6
P63 + BN63B6
N56C
N56C
N56C
100...103
100...103
100...103
0.25 hp
n2
T2
[rpm]
26
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
306
232
201
174
158
48
64
74
85
94
25.6
19.4
16.8
14.5
14.2
5.5:1
7.2:1
5.5:1
9.6:1
10.6:1
680
740
780
810
840
A102_5.5
A102_7.2
A102_5.5
A102_9.6
A102_10.6
S05 + M05B4
S05 + M05B4
S1 + M1SC6
S05 + M05B4
S05 + M05B4
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
P63 + BN63B4
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
136
120
114
104
90
109
124
129
142
165
11.4
10.7
9.6
9.3
8.1
12.3:1
13.9:1
9.6:1
10.6:1
18.6:1
880
910
930
960
1000
A102_12.3
A102_13.9
A102_9.6
A102_10.6
A102_18.6
S05 + M05B4
S05 + M05B4
S1 + M1SC6
S1 + M1SC6
S05 + M05B4
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
P71 + BN71A6
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
79
70
58
48
46
188
211
253
311
320
7.1
6.3
5.2
4.3
4.1
13.9:1
23.8:1
28.6:1
35.1:1
23.8:1
1040
1080
1140
1210
1230
A102_13.9
A102_23.8
A102_28.6
A102_35.1
A102_23.8
S1 + M1SC6
S05 + M05B4
S05 + M05B4
S05 + M05B4
S1 + M1SC6
P71 + BN71A6
P63 + BN63B4
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
37
33
31
26.4
25.3
403
455
473
560
585
3.3
2.9
2.8
3.9
2.3
45.4:1
51.3:1
35.1:1
63.1:1
65.9:1
1240
1240
1240
1390
1240
A102_45.4
A102_51.3
A102_35.1
A202_63.1
A102_65.9
S05 + M05B4
S05 + M05B4
S1 + M1SC6
S05 + M05B4
S05 + M05B4
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
P63 + BN63B4
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
80...83
76...79
21.9
20.9
678
708
2.0
2.6
76.4:1
79.9:1
1240
1390
A102_76.4
A202_79.9
S05 + M05B4
S05 + M05B4
P63 + BN63B4
P63 + BN63B4
N56C
N56C
76...79
80...83
S
0.25 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
18.2
18.1
17.1
14.4
14.4
813
819
865
1029
1030
1.4
2.2
3.1
1.3
3.0
91.6:1
92.3:1
97.5:1
76.4:1
76.5:1
1240
1390
2160
1240
2160
A102_91.6
A202_92.3
A302_97.5
A102_76.4
A302_76.5
13.9
13.9
13.8
11.9
11.4
1034
1035
1075
1243
1255
2.6
1.8
1.7
1.4
1.6
120.5:1
120.5:1
79.9:1
92.3:1
146.1:1
2160
1390
1390
1390
1390
11.1
9.4
9.4
7.7
7.7
1294
1531
1533
1859
1867
2.3
1.4
2.0
1.7
4.0
150.7:1
178.3:1
178.5:1
216.6:1
217.4:1
7.5
7.3
6.4
6.2
6.0
1900
1964
2253
2331
2403
1.2
1.7
3.3
1.4
3.1
5.3
5.2
4.4
4.2
4.1
2701
2783
3235
3421
3413
3.7
3.4
3.2
2.9
2.9
S
S05 + M05B4
S05 + M05B4
S1 + M1SC6
S1 + M1SC6
P63 + BN63B4
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
P71 + BN71A6
N56C
N56C
N56C
N56C
N56C
76...79
80...83
84...87
76...79
84...87
A303_120.5
A203_120.5
A202_79.9
A202_92.3
A203_146.1
S05 + M05B4
S05 + M05B4
S1 + M1SC6
S1 + M1SC6
S05 + M05B4
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
P71 + BN71A6
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
84...87
80...83
80...83
80...83
80...83
2160
1390
2160
2160
3370
A303_150.7
A203_178.3
A303_178.5
A303_216.6
A413_217.4
S05 + M05B4
S05 + M05B4
S05 + M05B4
S05 + M05B4
S05 + M05B4
P63 + BN63B4
P63 + BN63B4
P63 + BN63B4
P63 + BN63B4
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
84...87
80...83
84...87
84...87
88...91
221.3:1
150.7:1
262.5:1
271.5:1
184.4:1
1390
2160
3370
2160
3370
A203_221.3
A303_150.7
A413_262.5
A303_271.5
A413_184.4
S05 + M05B4
S1 + M1SC6
S05 + M05B4
S05 + M05B4
S1 + M1SC6
P63 + BN63B4
P71 + BN71A6
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
N56C
N56C
N56C
N56C
N56C
80...83
84...87
88...91
84...87
88...91
1.3
2.7
2.3
2.2
3.9
314.6:1
324.2:1
376.8:1
262.5:1
406.4:1
2160
3370
3370
3370
4500
A303_314.6
A413_324.2
A413_376.8
A413_262.5
A504_406.4
S05 + M05B4
S05 + M05B4
S05 + M05B4
S1 + M1SC6
P63 + BN63B4
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
84...87
88...91
88...91
88...91
92...95
3752
4225
4446
4912
4822
3.5
1.8
3.0
1.5
2.8
446.8:1
324.2:1
529.5:1
376.8:1
574.3:1
4500
3370
4500
3370
4500
A504_446.8
A413_324.2
A504_529.5
A413_376.8
A504_574.3
P63 + BN63B4
P71 + BN71A6
P63 + BN63B4
P71 + BN71A6
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
92...95
88...91
92...95
88...91
92...95
2.7
2.4
2.2
2.1
1.9
5217
5944
6378
6535
7320
2.5
2.2
3.9
2.0
1.8
621.3:1
707.9:1
500.3:1
778.2:1
574.2:1
4500
4500
6740
4500
4500
A504_621.3
A504_707.9
A604_500.3
A504_778.2
A504_574.2
P63 + BN63B4
P63 + BN63B4
P71 + BN71A6
P63 + BN63B4
P71 + BN71A6
N56C
N56C
N56C
N56C
N56C
92...95
92...95
96...99
92...95
92...95
1.9
1.6
1.4
1.2
1.1
7468
8889
9921
11302
13293
3.3
2.8
1.3
3.9
3.3
585.8:1
697.3:1
778.2:1
1346:1
1583:1
6740
6740
4500
11200
11200
A604_585.8
A604_697.3
A504_778.2
A704_1346
A704_1583
P71 + BN71A6
P71 + BN71A6
P71 + BN71A6
P63 + BN63B4
P63 + BN63B4
N56C
N56C
N56C
N56C
N56C
96...99
96...99
92...95
100...103
100...103
0.97
0.82
0.64
14401
17159
21863
3.1
2.6
2.0
1715:1
1346:1
1715:1
11200
11200
11200
A704_1715
A704_1346
A704_1715
P63 + BN63B4
P71 + BN71A6
P71 + BN71A6
N56C
N56C
N56C
100...103
100...103
100...103
S1 + M1SC6
S1 + M1SC6
S1 + M1SC6
S1 + M1SC6
S1 + M1SC6
S1 + M1SC6
S1 + M1SC6
S1 + M1SC6
S1 + M1SC6
27
0.33 hp
n2
T2
[rpm]
28
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
306
232
174
158
153
64
84
113
124
128
19.4
14.7
11.0
10.7
9.7
5.5:1
7.2:1
9.6:1
10.6:1
7.2:1
680
740
810
830
840
A102_5.5
A102_7.2
A102_9.6
A102_10.6
A102_7.2
S05 + M05C4
S05 + M05C4
S05 + M05C4
S05 + M05C4
S1 + M1SD6
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71B6
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
136
120
114
104
90
144
163
171
188
217
8.6
8.1
7.3
7.1
6.1
12.3:1
13.9:1
9.6:1
10.6:1
18.6:1
870
900
920
950
990
A102_12.3
A102_13.9
A102_9.6
A102_10.6
A102_18.6
S05 + M05C4
S05 + M05C4
S1 + M1SD6
S1 + M1SD6
S05 + M05C4
P71 + BN71A4
P71 + BN71A4
P71 + BN71B6
P71 + BN71B6
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
79
70
58
48
46
248
278
334
411
422
5.4
4.8
4.0
3.2
3.1
13.9:1
23.8:1
28.6:1
35.1:1
23.8:1
1030
1060
1120
1180
1190
A102_13.9
A102_23.8
A102_28.6
A102_35.1
A102_23.8
S1 + M1SD6
S05 + M05C4
S05 + M05C4
S05 + M05C4
S1 + M1SD6
P71 + BN71B6
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71B6
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
37
33
31.1
26.4
25.3
531
600
628
739
772
2.5
2.2
3.5
2.9
1.7
45.4:1
51.3:1
53.7:1
63.1:1
65.9:1
1240
1240
1390
1390
1240
A102_45.4
A102_51.3
A202_53.7
A202_63.1
A102_65.9
S05 + M05C4
S05 + M05C4
S05 + M05C4
S05 + M05C4
S05 + M05C4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
80...83
80...83
76...79
22.2
21.9
20.9
18.1
17.4
880
894
935
1081
1121
3.5
1.5
2.0
1.6
2.4
76.5:1
76.4:1
79.9:1
92.3:1
97.5:1
2160
1240
1390
1390
2160
A302_76.5
A102_76.4
A202_79.9
A202_92.3
A302_97.5
S05 + M05C4
S05 + M05C4
S05 + M05C4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
84...87
76...79
80...83
80...83
84...87
13.9
13.9
11.4
11.4
11.3
1365
1366
1656
1665
1733
1.9
1.4
1.2
4.5
1.5
120.5:1
120.5:1
146.1:1
146.9:1
97.5:1
2160
1390
1390
3370
2160
A303_120.5
A203_120.5
A203_146.1
A413_146.9
A302_97.5
S05 + M05C4
S05 + M05C4
S05 + M05C4
S05 + M05C4
S05 + M1SD6
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71B6
N56C
N56C
N56C
N56C
N56C
84...87
80...83
80...83
88...91
84...87
11.1
9.4
9.1
7.7
7.7
1707
2023
2089
2454
2464
1.7
1.5
3.6
1.3
3.1
150.7:1
178.5:1
184.4:1
216.6:1
217.4:1
2160
2160
3370
2160
3370
A303_150.7
A303_178.5
A413_184.4
A303_216.6
A413_217.4
S05 + M05C4
S05 + M05C4
S05 + M05C4
S05 + M05C4
S05 + M05C4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
84...87
84...87
88...91
84...87
88...91
6.4
5.9
5.2
5.1
4.6
2974
3123
3674
3622
3981
2.5
4.3
2.0
3.7
3.3
262.5:1
286.8:1
324.2:1
332.6:1
365.6:1
3370
4500
3370
4500
4500
A413_262.5
A504_286.8
A413_324.2
A504_332.6
A504_365.6
S05 + M05C4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
88...91
92...95
88...91
92...95
92...95
4.4
4.2
4.2
4271
4516
4425
1.8
1.7
3.0
376.8:1
262.5:1
406.4:1
3370
3370
4500
A413_376.8
A413_262.5
A504_406.4
P71 + BN71A4
P71 + BN71B6
P71 + BN71A4
N56C
N56C
N56C
88...91
88...91
92...95
S
S05 + M05C4
S05 + M05C4
S1 + M1SD6
0.33 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
3.8
3.6
3.2
3.1
2.7
4865
5175
5765
5902
6765
2.7
2.6
2.3
4.2
2.0
446.8:1
481.6:1
529.5:1
542.0:1
621.3:1
4500
4500
4500
4500
4500
A504_446.8
A504_481.6
A504_529.5
A604_542.0
A504_621.3
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
92...95
92...95
92...95
96...99
92...95
2.7
2.4
2.4
2.2
2.2
6910
7593
7708
8419
8473
3.6
3.3
1.7
2.9
1.6
634.6:1
697.3:1
707.9:1
500.3:1
778.2:1
6740
6740
4500
6740
4500
A604_634.6
A604_697.3
A504_707.9
A604_500.3
A504_778.2
P71 + BN71A4
P71 + BN71A4
P71 + BN71A4
P71 + BN71B6
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
96...99
96...99
92...95
96...99
92...95
1.9
1.8
1.5
1.5
1.3
9858
10088
12652
12712
14656
2.5
4.4
3.5
1.9
3.0
585.8:1
926.5:1
1162:1
755.4:1
1346:1
6740
11200
11200
6740
11200
A604_585.8
A704_926.5
A704_1162
A604_755.4
A704_1346
P71 + BN71B6
P71 + BN71A4
P71 + BN71A4
P71 + BN71B6
P71 + BN71A4
N56C
N56C
N56C
N56C
N56C
96...99
100...103
100...103
96...99
100...103
0.99
0.82
0.64
18674
22650
28859
2.4
2.0
1.5
1715:1
1346:1
1715:1
11200
11200
11200
A704_1715
A704_1346
A704_1715
S1 + M1SD6
S1 + M1SD6
P71 + BN71A4
P71 + BN71B6
P71 + BN71B6
N56C
N56C
N56C
100...103
100...103
100...103
S
S1 + M1SD6
S1 + M1SD6
S1 + M1SD6
0.5 hp
n2
[rpm]
T2
S
Safety
[lb·in] factor
i
Rn2
(ratio)
[lb]
311
236
201
177
161
95
126
147
168
184
13.0
9.9
8.4
7.4
7.2
5.5:1
7.2:1
5.5:1
9.6:1
10.6:1
670
730
760
790
820
A102_5.5
A102_7.2
A102_5.5
A102_9.6
A102_10.6
S1 + M1SD4
S1 + M1SD4
S1 + M1LA6
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P80 + BN80A6
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
138
122
114
104
92
214
243
259
284
324
5.8
5.5
4.8
4.7
4.1
12.3:1
13.9:1
9.6:1
10.6:1
18.6:1
850
890
890
920
960
A102_12.3
A102_13.9
A102_9.6
A102_10.6
A102_18.6
S1 + M1SD4
S1 + M1SD4
S1 + M1LA6
S1 + M1LA6
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P80 + BN80A6
P80 + BN80A6
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
76...79
76...79
79
72
59
58
48
375
414
498
509
612
3.5
3.2
2.7
4.3
2.2
13.9:1
23.8:1
28.6:1
29.2:1
35.1:1
990
1030
1080
1170
1130
A102_13.9
A102_23.8
A102_28.6
A202_29.2
A102_35.1
S1 + M1LA6
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
P80 + BN80A6
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
76...79
80...83
76...79
48
39
617
753
3.6
2.9
35.4:1
43.2:1
1230
1300
A202_35.4
A202_43.2
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
80...83
80...83
29
0.5 hp
n2
T2
[rpm]
30
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
37
33
32
32
26.9
791
893
918
935
1100
1.7
1.5
4.0
2.4
2.0
45.4:1
51.3:1
52.7:1
53.7:1
63.1:1
1200
1230
1980
1370
1390
A102_45.4
A102_51.3
A302_52.7
A202_53.7
A202_63.1
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
76...79
76...79
84...87
80...83
80...83
25.8
25.7
22.2
21.3
18.3
1149
1151
1333
1391
1565
1.2
3.0
2.3
1.3
4.5
65.9:1
66.0:1
76.5:1
79.9:1
92.8:1
1240
2100
2160
1390
3370
A102_65.9
A302_66.0
A302_76.5
A202_79.9
A413_92.8
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
76...79
84...87
84...87
80...83
88...91
17.4
14.7
14.1
13.9
11.9
1699
1954
2032
2134
2418
1.6
3.8
1.3
3.3
2.9
97.5:1
115.9:1
120.5:1
79.2:1
92.8:1
2160
3370
2160
3370
3370
A302_97.5
A413_115.9
A303_120.5
A412_79.2
A413_92.8
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1LA6
S1 + M1LA6
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P80 + BN80A6
P80 + BN80A6
N56C
N56C
N56C
N56C
N56C
84...87
88...91
84...87
88...91
88...91
11.6
11.3
9.2
8.1
7.8
2478
2541
3110
3481
3667
3.0
1.1
2.4
3.8
2.1
146.9:1
150.7:1
184.4:1
211.0:1
217.4:1
3370
2160
3370
4500
3370
A413_146.9
A303_150.7
A413_184.4
A504_211.0
A413_217.4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
88...91
84...87
88...91
92...95
88...91
7.5
6.5
6.0
5.9
5.2
3829
4427
4806
4732
5468
2.0
1.7
1.6
2.8
1.4
146.9:1
262.5:1
184.4:1
286.8:1
324.2:1
3370
3370
3370
4500
3370
A413_146.9
A413_262.5
A413_184.4
A504_286.8
A413_324.2
S1 + M1LA6
S1 + M1SD4
S1 + M1LA6
S1 + M1SD4
S1 + M1SD4
P80 + BN80A6
P71 + BN71B4
P80 + BN80A6
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
88...91
88...91
88...91
92...95
88...91
5.1
4.6
4.5
4.2
4.2
5487
6032
6357
6677
6705
2.4
2.2
1.2
3.7
2.0
332.6:1
365.6:1
376.8:1
404.7:1
406.4:1
4500
4500
3370
6740
4500
A504_332.6
A504_365.6
A413_376.8
A604_404.7
A504_406.4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
92...95
92...95
88...91
96...99
92...95
3.8
3.5
3.2
3.1
2.7
7371
7945
8736
8942
10413
1.8
1.7
1.5
2.8
1.3
446.8:1
481.6:1
529.5:1
542.0:1
631.2:1
4500
4500
4500
6740
4500
A504_446.8
A504_481.6
A504_529.5
A604_542.0
A504_631.2
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
92...95
92...95
92...95
96...99
92...95
2.7
2.6
2.4
2.3
2.2
10469
10634
11679
12462
12603
2.4
4.2
1.1
2.0
3.5
634.6:1
644.6:1
707.9:1
755.4:1
763.9:1
6740
11200
4500
6740
11200
A604_634.6
A704_644.6
A504_707.9
A604_755.4
A704_763.9
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
96...99
100...103
92...95
96...99
100...103
1.8
1.7
1.6
15285
16180
17900
2.9
1.5
4.0
926.5:1
634.6:1
1085:1
11200
6740
14600
A704_926.5
A604_634.6
A804_1085
S1 + M1SD4
S1 + M1LA6
S1 + M1SD4
P71 + BN71B4
P80 + BN80A6
P71 + BN71B4
N56C
N56C
N56C
100...103
96...99
104...107
S
0.5 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
1.5
1.3
1.3
1.0
0.99
19170
22107
22206
27664
28294
2.3
3.2
2.0
2.6
1.6
1162:1
1340:1
1346:1
1085:1
1715:1
11200
14600
11200
14600
11200
A704_1162
A804_1340
A704_1346
A804_1085
A704_1715
S1 + M1SD4
S1 + M1SD4
S1 + M1SD4
S1 + M1LA6
S1 + M1SD4
P71 + BN71B4
P71 + BN71B4
P71 + BN71B4
P80 + BN80A6
P71 + BN71B4
N56C
N56C
N56C
N56C
N56C
100...103
104...107
100...103
104...107
100...103
0.70
0.69
40150
40361
3.1
1.1
1632:1
1583:1
16900
11200
A904_1632
A704_1583
S1 + M1LA6
P80 + BN80A6
P80 + BN80A6
N56C
N56C
108...111
100...103
S
0.75 hp
n2
[rpm]
T2
S
Safety
[lb·in] factor
i
Rn2
(ratio)
[lb]
313
237
209
178
162
142
187
213
250
274
8.7
6.6
5.8
5.0
4.8
5.5:1
7.2:1
5.5:1
9.6:1
10.6:1
660
710
740
770
790
A102_5.5
A102_7.2
A102_5.5
A102_9.6
A102_10.6
S1 + M1LA4
S1 + M1LA4
S2 + M2SA6
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80B6
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N140TC
N56C
N56C
76...79
76...79
76...79
76...79
76...79
158
139
123
119
108
281
320
362
375
411
4.4
3.9
3.7
3.3
3.2
7.2:1
12.3:1
13.9:1
9.6:1
10.6:1
800
830
850
860
880
A102_7.2
A102_12.3
A102_13.9
A102_9.6
A102_10.6
S2 + M2SA6
S1 + M1LA4
S1 + M1LA4
S2 + M2SA6
S2 + M2SA6
P80 + BN80B6
P80 + BN80A4
P80 + BN80A4
P80 + BN80B6
P80 + BN80B6
N140TC
N56C
N56C
N140TC
N140TC
76...79
76...79
76...79
76...79
76...79
92
82
74
72
60
483
543
601
618
742
2.8
2.4
3.7
2.1
1.8
18.6:1
13.9:1
23.1:1
23.8:1
28.6:1
920
940
1050
970
1010
A102_18.6
A102_13.9
A202_23.1
A102_23.8
A102_28.6
S1 + M1LA4
S2 + M2SA6
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80B6
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N140TC
N56C
N56C
N56C
76...79
76...79
80...83
76...79
76...79
59
49
48
47
40
759
912
921
952
1123
2.9
1.5
2.4
3.8
2.0
29.2:1
35.1:1
35.4:1
36.6:1
43.2:1
1120
1060
1170
1720
1220
A202_29.2
A102_35.1
A202_35.4
A302_36.6
A202_43.2
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
80...83
76...79
80...83
84...87
80...83
39
38
32
32
27.1
1128
1180
1369
1394
1641
3.2
1.1
2.7
1.6
1.3
43.4:1
45.4:1
52.7:1
53.7:1
63.1:1
1800
1100
1890
1270
1310
A302_43.4
A102_45.4
A302_52.7
A202_53.7
A202_63.1
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
84...87
76...79
84...87
80...83
80...83
26.7
25.9
25.3
1667
1716
1757
4.5
2.0
4.3
64.2:1
66.0:1
45.1:1
3370
2000
3370
A412_64.2
A302_66.0
A412_45.1
S1 + M1LA4
S1 + M1LA4
S2 + M2SA6
P80 + BN80A4
P80 + BN80A4
P80 + BN80B6
N56C
N56C
N140TC
88...91
84...87
88...91
31
0.75 hp
n2
T2
[rpm]
32
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
22.3
21.6
21.5
18.4
14.8
1988
2059
2071
2334
2914
1.6
3.7
3.6
3.0
2.6
76.5:1
79.2:1
53.1:1
92.8:1
115.9:1
2060
3370
3370
3370
3370
A302_76.5
A412_79.2
A412_53.1
A413_92.8
A413_115.9
S1 + M1LA4
S1 + M1LA4
S2 + M2SA6
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80B6
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N140TC
N56C
N56C
84...87
88...91
88...91
88...91
88...91
14.4
12.3
11.6
9.9
9.8
3088
3500
3695
4361
4372
2.3
2.0
2.0
3.0
1.7
79.2:1
92.8:1
146.9:1
173.4:1
115.9:1
3370
3370
3370
4500
3370
A412_79.2
A413_92.8
A413_146.9
A503_173.4
A413_115.9
S2 + M2SA6
S2 + M2SA6
S1 + M1LA4
S1 + M1LA4
S2 + M2SA6
P80 + BN80B6
P80 + BN80B6
P80 + BN80A4
P80 + BN80A4
P80 + BN80B6
N140TC
N140TC
N56C
N56C
N140TC
88...91
88...91
88...91
92...95
88...91
9.3
9.0
8.1
7.9
7.4
4638
4794
5191
5469
5708
1.6
2.8
2.6
1.4
2.3
184.4:1
190.6:1
211.0:1
217.4:1
232.0:1
3370
4500
4500
3370
4500
A413_184.4
A503_190.6
A504_211.0
A413_217.4
A504_232.0
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
88...91
92...95
92...95
88...91
92...95
6.6
6.5
6.5
6.0
6.0
6419
6602
6502
7044
7056
2.1
1.1
3.8
3.5
1.9
260.9:1
262.5:1
264.3:1
286.3:1
286.8:1
4500
3370
6740
6740
4500
A504_260.9
A413_262.5
A604_264.3
A604_286.3
A504_286.8
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
92...95
88...91
96...99
96...99
92...95
5.3
5.1
4.9
4.7
4.2
7976
8183
8640
8994
9956
3.1
1.6
2.9
1.5
2.5
324.2:1
332.6:1
351.2:1
365.6:1
404.7:1
6740
4500
6740
4500
6740
A604_324.2
A504_332.6
A604_351.2
A504_365.6
A604_404.7
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
96...99
92...95
96...99
92...95
96...99
4.2
3.9
3.8
3.6
3.4
9998
10785
10992
11848
12308
1.3
2.3
1.2
1.1
2.0
406.4:1
438.4:1
446.8:1
481.6:1
500.3:1
4500
6740
4500
4500
6740
A504_406.4
A604_438.4
A504_446.8
A504_481.6
A604_500.3
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
92...95
96...99
92...95
92...95
96...99
3.3
2.9
2.9
2.5
2.4
12680
14412
14638
17155
17307
3.5
1.7
3.0
1.4
4.1
515.4:1
585.8:1
595.0:1
697.3:1
703.5:1
11200
6740
11200
6740
14600
A704_515.4
A604_585.8
A704_595.0
A604_697.3
A804_703.5
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
100...103
96...99
100...103
96...99
104...107
2.4
2.1
2.0
1.7
1.6
17347
20407
21042
24626
26373
2.6
3.5
2.1
2.9
1.7
705.1:1
829.5:1
855.3:1
1001:1
1072:1
11200
14600
11200
14600
11200
A704_705.1
A804_829.5
A704_855.3
A804_1001
A704_1072
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
N56C
N56C
100...103
104...107
100...103
104...107
100...103
1.4
1.4
1.1
30433
30556
38330
2.3
1.4
1.8
1237:1
1242:1
1558:1
14600
11200
14600
A804_1237
A704_1242
A804_1558
S1 + M1LA4
S1 + M1LA4
S1 + M1LA4
P80 + BN80A4
P80 + BN80A4
P80 + BN80A4
N56C
N56C
N56C
104...107
100...103
104...107
S
0.75 hp
n2
T2
[rpm]
1.1
1.0
0.73
0.70
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
38945
40150
57495
60225
1.1
3.1
1.2
2.1
1583:1
1632:1
1558:1
1632:1
S
11200
16900
14600
16900
A704_1583
A904_1632
A804_1558
A904_1632
S1 + M1LA4
S1 + M1LA4
S2 + M2SA6
S2 + M2SA6
P80 + BN80A4
P80 + BN80A4
P80 + BN80B6
P80 + BN80B6
N56C
N56C
N140TC
N140TC
100...103
108...111
104...107
108...111
1 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
315
239
209
179
163
188
248
284
331
364
6.6
5.0
4.4
3.7
3.7
5.5:1
7.2:1
5.5:1
9.6:1
10.6:1
640
690
720
750
760
A102_5.5
A102_7.2
A102_5.5
A102_9.6
A102_10.6
S2 + M2SA4
S2 + M2SA4
S2 + M2SB6
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P90 + BN90S6
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N140TC
N56C
N56C
76...79
76...79
76...79
76...79
76...79
158
140
123
122
119
375
424
480
487
500
3.3
2.9
2.8
3.8
2.5
7.2:1
12.3:1
13.9:1
9.4:1
9.6:1
770
790
820
890
830
A102_7.2
A102_12.3
A102_13.9
A202_9.4
A102_9.6
S2 + M2SB6
S2 + M2SA4
S2 + M2SA4
S2 + M2SB6
S2 + M2SB6
P90 + BN90S6
P80 + BN80B4
P80 + BN80B4
P90 + BN90S6
P90 + BN90S6
N140TC
N56C
N56C
N140TC
N140TC
76...79
76...79
76...79
80...83
76...79
110
108
95
93
82
537
549
624
640
724
4.1
2.4
3.5
2.1
1.8
10.3:1
10.6:1
18.1:1
18.6:1
13.9:1
920
850
950
870
890
A202_10.3
A102_10.6
A202_18.1
A102_18.6
A102_13.9
S2 + M2SB6
S2 + M2SB6
S2 + M2SA4
S2 + M2SA4
S2 + M2SB6
P90 + BN90S6
P90 + BN90S6
P80 + BN80B4
P80 + BN80B4
P90 + BN90S6
N140TC
N140TC
N56C
N56C
N140TC
80...83
76...79
80...83
76...79
76...79
74
72
60
59
59
796
819
984
1006
1009
2.8
1.6
1.3
2.2
3.6
23.1:1
23.8:1
28.6:1
29.2:1
29.3:1
1010
910
940
1060
1560
A202_23.1
A102_23.8
A102_28.6
A202_29.2
A302_29.3
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
N56C
80...83
76...79
76...79
80...83
84...87
49
40
40
38
32
1220
1489
1496
1552
1841
1.8
1.5
2.4
4.7
1.2
35.4:1
43.2:1
43.4:1
45.1:1
35.4:1
1100
1140
1720
3370
1170
A202_35.4
A202_43.2
A302_43.4
A412_45.1
A202_35.4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SB6
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P90 + BN90S6
N56C
N56C
N56C
N56C
N140TC
80...83
80...83
84...87
88...91
80...83
32
31
26.8
26.0
25.3
1866
1905
2210
2274
2342
4.0
1.9
3.4
1.5
3.2
35.9:1
36.6:1
64.2:1
66.0:1
45.1:1
3370
1820
3370
1880
3370
A412_35.9
A302_36.6
A412_64.2
A302_66.0
A412_45.1
S2 + M2SB6
S2 + M2SB6
S2 + M2SA4
S2 + M2SA4
S2 + M2SB6
P90 + BN90S6
P90 + BN90S6
P80 + BN80B4
P80 + BN80B4
P90 + BN90S6
N140TC
N140TC
N56C
N56C
N140TC
88...91
84...87
88...91
84...87
88...91
22.5
2635
1.2
76.5:1
1930
A302_76.5
S2 + M2SA4
P80 + BN80B4
N56C
84...87
S
33
1 hp
n2
T2
[rpm]
34
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
21.7
18.5
17.8
17.3
15.7
2729
3093
3334
3319
3649
2.8
2.3
2.3
4.0
3.6
79.2:1
92.8:1
64.2:1
99.5:1
109.4:1
3370
3370
3370
4500
4500
A412_79.2
A413_92.8
A412_64.2
A503_99.5
A503_109.4
S2 + M2SA4
S2 + M2SA4
S2 + M2SB6
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P90 + BN90S6
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N140TC
N56C
N56C
88...91
88...91
88...91
92...95
92...95
14.8
14.6
14.4
12.2
11.7
3863
3933
4118
4689
4898
1.9
3.4
1.7
2.8
1.5
115.9:1
118.0:1
79.2:1
140.6:1
146.9:1
3370
4500
3370
4500
3370
A413_115.9
A503_118.0
A412_79.2
A503_140.6
A413_146.9
S2 + M2SA4
S2 + M2SA4
S2 + M2SB6
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P90 + BN90S6
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N140TC
N56C
N56C
88...91
92...95
88...91
92...95
88...91
11.1
10.0
9.9
9.3
8.2
5155
5717
5781
6148
6806
2.6
4.3
2.3
1.2
3.6
154.6:1
171.5:1
173.4:1
184.4:1
208.7:1
4500
6740
4500
3370
6740
A503_154.6
A603_171.5
A503_173.4
A413_184.4
A604_208.7
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
92...95
96...99
92...95
88...91
96...99
8.2
7.4
6.6
6.5
6.0
6881
7566
8508
8619
9337
1.9
1.8
1.6
2.9
2.7
211.0:1
232.0:1
260.9:1
264.3:1
286.3:1
4500
4500
4500
6740
6740
A504_211.0
A504_232.0
A504_260.9
A604_264.3
A604_286.3
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
N56C
92...95
92...95
92...95
96...99
96...99
6.0
5.4
5.3
5.2
4.9
9353
10318
10576
10847
11453
1.4
4.3
2.3
1.2
2.2
286.8:1
316.4:1
324.2:1
332.6:1
351.2:1
4500
11200
6740
4500
6740
A504_286.8
A704_316.4
A604_324.2
A504_332.6
A604_351.2
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
N56C
92...95
100...103
96...99
92...95
96...99
4.7
4.3
4.3
3.9
3.6
11923
13051
13198
14297
15517
1.1
3.4
1.9
1.7
2.9
365.6:1
400.2:1
404.7:1
438.4:1
475.8:1
4500
11200
6740
6740
11200
A504_365.6
A704_400.2
A604_404.7
A604_438.4
A704_475.8
S2 + M2SA4
S2 + M3SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
N56C
92...95
100...103
96...99
96...99
100...103
3.3
3.2
3.0
2.9
2.7
16808
17676
18426
19104
20676
2.6
1.4
2.4
1.3
1.2
515.4:1
542.0:1
565.0:1
585.8:1
634.6:1
11200
6740
11200
6740
6740
A704_515.4
A604_542.0
A704_565.0
A604_585.8
A604_634.6
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
N56C
100...103
96...99
100...103
96...99
96...99
2.7
2.4
2.4
2.1
2.0
21022
22942
22995
27051
27893
2.1
3.1
1.9
2.6
1.6
644.6:1
703.5:1
705.1:1
829.5:1
855.3:1
11200
14600
11200
14600
11200
A704_644.6
A804_703.5
A704_705.1
A804_829.5
A704_855.3
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M3SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
N56C
100...103
104...107
100...103
104...107
100...103
1.7
1.7
1.6
32644
33427
34960
2.2
3.7
1.3
1001:1
1025:1
1072:1
14600
16900
11200
A804_1001
A904_1025
A704_1072
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
104...107
108...111
100...103
S
1 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
1.5
1.4
1.4
1.1
1.1
37895
39852
40341
49146
50809
1.2
3.1
1.8
2.5
1.4
1162:1
1222:1
1237:1
1507:1
1558:1
11200
16900
14600
16900
14600
A704_1162
A904_1222
A804_1237
A904_1507
A804_1558
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
S2 + M2SA4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
P80 + BN80B4
N56C
N56C
N56C
N56C
N56C
100...103
108...111
104...107
108...111
104...107
0.92
0.70
60865
80300
1.2
1.5
1237:1
1632:1
14600
16900
A804_1237
A904_1632
S2 + M2SB6
S2 + M2SB6
P90 + BN90S6
P90 + BN90S6
N140TC
N140TC
104...107
108...111
S
1.5 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
315
239
209
183
179
282
373
426
484
497
4.4
3.3
2.9
3.8
2.5
5.5:1
7.2:1
5.5:1
9.4:1
9.6:1
620
660
680
770
710
A102_5.5
A102_7.2
A102_5.5
A202_9.4
A102_9.6
S2 + M2SB4
S2 + M2SB4
S3 + M3SA6
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90L6
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N180TC
N140TC
N140TC
76...79
76...79
76...79
80...83
76...79
166
163
140
123
122
534
545
636
720
727
3.7
2.4
1.9
1.8
3.0
10.3:1
10.6:1
12.3:1
13.9:1
14.1:1
790
720
740
760
850
A202_10.3
A102_10.6
A102_12.3
A102_13.9
A202_14.1
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
80...83
76...79
76...79
76...79
80...83
110
108
96
95
93
806
823
929
936
960
2.7
1.6
3.8
2.4
1.4
10.3:1
10.6:1
18.0:1
18.1:1
18.6:1
870
780
1320
890
800
A202_10.3
A102_10.6
A302_18.0
A202_18.1
A102_18.6
S3 + M3SA6
S3 + M3SA6
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90L6
P90 + BN90L6
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N180TC
N180TC
N140TC
N140TC
N140TC
80...83
76...79
84...87
80...83
76...79
82
81
76
74
61
1086
1097
1175
1194
1463
1.2
2.0
3.1
1.9
4.4
13.9:1
14.1:1
22.8:1
23.1:1
28.3:1
810
920
1400
930
3010
A102_13.9
A202_14.1
A302_22.8
A202_23.1
A412_28.3
S3 + M3SA6
S3 + M3SA6
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90L6
P90 + BN90L6
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N180TC
N180TC
N140TC
N140TC
N140TC
76...79
80...83
84...87
80...83
88...91
59
59
49
48
47
1510
1514
1830
1855
1893
1.5
2.4
1.2
3.7
1.9
29.2:1
29.3:1
35.4:1
35.9:1
36.6:1
960
1480
980
3210
1550
A202_29.2
A302_29.3
A202_35.4
A412_35.9
A302_36.6
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
80...83
84...87
80...83
88...91
84...87
40
38
33
2244
2328
2722
1.6
3.2
1.3
43.4:1
45.1:1
52.7:1
1600
3370
1640
A302_43.4
A412_45.1
A302_52.7
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
84...87
88...91
84...87
S
35
1.5 hp
n2
T2
[rpm]
36
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
32
26.8
25.3
24.5
21.7
2746
3315
3513
3513
4094
2.7
2.3
2.1
3.8
1.8
53.1:1
64.2:1
45.1:1
70.2:1
79.2:1
3370
3370
3370
4500
3370
A412_53.1
A412_64.2
A412_45.1
A503_70.2
A412_79.2
S2 + M2SB4
S2 + M2SB4
S3 + M3SA6
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90L6
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N180TC
N140TC
N140TC
88...91
88...91
88...91
92...95
88...91
21.1
18.5
17.8
17.3
15.7
4074
4640
5001
4978
5473
3.3
1.5
1.5
2.7
2.4
81.5:1
92.8:1
64.2:1
99.5:1
109.4:1
4500
3370
3370
4500
4500
A503_81.5
A413_92.8
A412_64.2
A503_99.5
A503_109.4
S2 + M2SB4
S2 + M2SB4
S3 + M3SA6
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90L6
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N180TC
N140TC
N140TC
92...95
88...91
88...91
92...95
92...95
14.8
14.6
13.3
12.9
12.2
5795
5900
6486
6666
7033
1.3
2.3
2.0
3.7
1.9
115.9:1
118.0:1
129.7:1
133.3:1
140.6:1
3370
4500
4500
6740
4500
A413_115.9
A503_118.0
A503_129.7
A603_133.3
A503_140.6
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
88...91
92...95
92...95
96...99
92...95
11.9
11.1
11.0
10.0
9.9
7205
7732
7805
8576
8671
3.4
1.7
3.2
2.9
1.5
144.0:1
154.6:1
156.0:1
171.5:1
173.4:1
6740
4500
6740
6740
4500
A603_144.0
A503_154.6
A603_156.0
A603_171.5
A503_173.4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
96...99
92...95
96...99
96...99
92...95
9.3
9.0
8.2
7.8
7.6
9291
9533
10322
10777
11060
2.7
1.4
1.3
4.1
2.2
185.8:1
190.6:1
211.0:1
220.3:1
226.1:1
6740
4500
4500
11200
6740
A603_185.8
A503_190.6
A504_211.0
A704_220.3
A604_226.1
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
96...99
92...95
92...95
100...103
96...99
7.4
7.2
6.5
6.0
5.4
11349
11672
12929
14005
15478
1.2
3.8
1.9
1.8
2.9
232.0:1
238.6:1
264.3:1
286.3:1
316.4:1
4500
11200
6740
6740
11200
A504_232.0
A704_238.6
A604_264.3
A604_286.3
A704_316.4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
92...95
100...103
96...99
96...99
100...103
5.3
4.9
4.7
4.3
4.3
15864
17180
18070
19577
19797
1.6
1.4
2.4
2.3
1.3
324.3:1
351.2:1
369.4:1
400.2:1
404.7:1
6740
6740
11200
11200
6740
A604_324.2
A604_351.2
A704_369.4
A704_400.2
A604_404.7
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
96...99
96...99
100...103
100...103
96...99
3.9
3.6
3.6
3.3
3.1
21446
23275
23427
25212
27418
1.2
1.9
3.0
1.8
2.6
438.4:1
475.8:1
478.9:1
515.4:1
560.5:1
6740
11200
14600
11200
14600
A604_438.4
A704_475.8
A804_478.9
A704_515.4
A804_560.5
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
96...99
100...103
104...107
100...103
104...107
2.9
2.8
2.4
29106
29703
34414
1.5
2.4
2.1
595.0:1
607.2:1
703.5:1
11200
14600
14600
A704_595.0
A804_607.2
A804_703.5
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
100...103
104...107
104...107
S
1.5 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
2.4
2.4
2.3
2.1
2.0
34492
34629
37368
40577
42319
1.3
3.6
1.2
1.7
2.9
705.1:1
707.9:1
763.9:1
829.5:1
865.1:1
11200
16900
11200
14600
16900
A704_705.1
A904_707.9
A704_763.9
A804_829.5
A904_865.1
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
100...103
108...111
100...103
104...107
108...111
1.7
1.7
1.4
1.4
1.1
48967
50141
59777
60511
79834
1.4
2.5
2.1
1.2
1.6
1001:1
1025:1
1222:1
1237:1
1632:1
14600
16900
16900
14600
16900
A804_1001
A904_1025
A904_1222
A804_1237
A904_1632
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
S2 + M2SB4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
P90 + BN90S4
N140TC
N140TC
N140TC
N140TC
N140TC
104...107
108...111
108...111
104...107
108...111
0.76 111225
1.1
1507:1
16900
A904_1507
S3 + M3SA6
P90 + BN90L6
N180TC
108...111
S
2 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
315
239
236
213
209
377
497
502
556
568
3.3
2.5
3.7
3.3
2.2
5.5:1
7.2:1
7.3:1
5.4:1
5.5:1
590
630
690
710
640
A102_5.5
A102_7.2
A202_7.3
A202_5.4
A102_5.5
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3LA6
S3 + M3LA6
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P100 + BN100LA6
P100 + BN100LA6
N140TC
N140TC
N140TC
N180TC
N180TC
76...79
76...79
80...83
80...83
76...79
183
179
166
163
144
646
662
712
727
824
2.9
1.9
2.8
1.8
2.3
9.4:1
9.6:1
10.3:1
10.6:1
12.0:1
730
660
750
670
770
A202_9.4
A102_9.6
A202_10.3
A102_10.6
A202_12.0
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
80...83
76...79
80...83
76...79
80...83
140
127
123
122
110
848
934
960
970
1074
1.5
3.5
1.4
2.2
2.1
12.3:1
13.6:1
13.9:1
14.1:1
10.3:1
680
1180
690
790
800
A102_12.3
A302_13.6
A102_13.9
A202_14.1
A202_10.3
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3LA6
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P100 + BN100LA6
N140TC
N140TC
N140TC
N140TC
N180TC
76...79
84...87
76...79
80...83
80...83
109
96
95
84
81
1087
1239
1247
1410
1463
3.2
2.9
1.8
2.6
1.5
10.5:1
18.0:1
18.1:1
13.6:1
14.1:1
1220
1260
820
1290
840
A302_10.5
A302_18.0
A202_18.1
A302_13.6
A202_14.1
S3 + M3LA6
S3 + M3SA4
S3 + M3SA4
S3 + M3LA6
S3 + M3LA6
P100 + BN100LA6
P90 + BN90LA4
P90 + BN90LA4
P100 + BN100LA6
P100 + BN100LA6
N180TC
N140TC
N140TC
N180TC
N180TC
84...87
84...87
80...83
84...87
80...83
76
76
74
61
1562
1567
1592
1951
3.9
2.3
1.4
3.3
22.7:1
22.8:1
23.1:1
28.3:1
2740
1320
850
2920
A412_22.7
A302_22.8
A202_23.1
A412_28.3
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
88...91
84...87
80...83
88...91
S
37
2 hp
n2
T2
[rpm]
38
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
59
48
47
40
38
2019
2473
2525
2992
3105
1.8
2.8
1.4
1.2
2.4
29.3:1
35.9:1
36.6:1
43.4:1
45.1:1
1380
3100
1420
1450
3300
A302_29.3
A412_35.9
A302_36.6
A302_43.4
A412_45.1
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
84...87
88...91
84...87
84...87
88...91
33
32
26.9
26.8
25.3
3446
3661
4261
4420
4684
3.9
2.1
3.1
1.7
1.6
51.7:1
53.1:1
63.9:1
64.2:1
45.1:1
4430
3370
4500
3370
3370
A503_51.7
A412_53.1
A503_63.9
A412_64.2
A412_45.1
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3LA6
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P100 + BN100LA6
N140TC
N140TC
N140TC
N140TC
N180TC
92...95
88...91
92...95
88...91
88...91
24.5
21.7
21.1
19.9
19.2
4684
5459
5432
5759
5972
2.8
1.4
2.4
4.3
2.2
70.2:1
79.2:1
81.5:1
86.4:1
89.5:1
4500
3370
4500
6740
4500
A503_70.2
A412_79.2
A503_81.5
A603_86.4
A503_89.5
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
92...95
88...91
92...95
96...99
92...95
18.5
17.3
17.3
15.7
14.0
6187
6636
6638
7297
8205
1.1
3.7
2.0
1.8
3.0
92.8:1
99.5:1
99.5:1
109.4:1
123.0:1
3370
6740
4500
4500
6740
A413_92.8
A603_99.5
A503_99.5
A503_109.4
A603_123.0
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
88...91
96...99
92...95
92...95
96...99
13.3
12.9
12.2
11.9
11.2
8648
8888
9378
9606
10249
1.5
2.8
1.4
2.6
4.3
129.7:1
133.3:1
140.6:1
144.0:1
153.7:1
4500
6740
4500
6740
11200
A503_129.7
A603_133.3
A503_140.6
A603_144.0
A703_153.7
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
92...95
96...99
92...95
96...99
100...103
11.1
11.0
10.1
10.0
9.9
10310
10407
11075
11435
11561
1.3
2.4
4.0
2.2
1.1
154.6:1
156.0:1
169.8:1
171.5:1
173.4:1
4500
6740
11200
6740
4500
A503_154.6
A603_156.0
A704_169.8
A603_171.5
A503_173.4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
92...95
96...99
100...103
96...99
92...95
9.4
9.3
8.2
7.8
7.6
11995
12388
13612
14369
14747
3.7
2.0
1.8
3.1
1.7
183.9:1
185.8:1
208.7:1
220.3:1
226.1:1
11200
6740
6740
11200
6740
A704_183.9
A603_185.8
A604_208.7
A704_220.3
A604_226.1
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
100...103
96...99
96...99
100...103
96...99
7.2
6.5
6.0
5.9
5.4
15562
17239
18674
19045
20637
2.8
1.4
1.3
2.3
2.1
238.6:1
264.3:1
286.3:1
292.0:1
316.4:1
11200
6740
6740
11200
11200
A704_238.6
A604_264.3
A604_286.3
A704_292.0
A704_316.4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
100...103
96...99
96...99
100...103
100...103
5.3
4.7
4.5
21152
24094
25013
1.2
1.8
2.8
324.2:1
369.4:1
383.5:1
6740
11200
14600
A604_324.2
A704_369.4
A804_383.5
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
96...99
100...103
104...107
S
2 hp
n2
T2
[rpm]
[lb·in]
Safety
factor
4.3
3.9
3.6
3.6
3.5
26102
28835
31033
31236
31738
1.7
2.5
1.4
2.3
3.9
400.2:1
442.1:1
475.8:1
478.9:1
486.6:1
11200
14600
11200
14600
16900
A704_400.2
A804_442.1
A704_475.8
A804_478.9
A904_486.6
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
100...103
104...107
100...103
104...107
108...111
3.1
3.1
2.9
2.8
2.4
36219
36558
39238
39604
45885
3.4
1.9
3.2
1.8
1.5
555.3:1
560.5:1
601.6:1
607.2:1
703.5:1
16900
14600
16900
14600
14600
A904_555.3
A804_560.5
A904_601.6
A804_607.2
A804_703.5
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
108...111
104...107
108...111
104...107
104...107
2.4
2.0
1.9
1.5
1.3
46172
56425
58616
72463
86356
2.7
2.2
1.2
1.7
1.4
707.9:1
865.1:1
898.7:1
1111:1
1324:1
16900
16900
14600
16900
16900
A904_707.9
A904_865.1
A804_898.7
A904_1111
A904_1324
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
S3 + M3SA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
P90 + BN90LA4
N140TC
N140TC
N140TC
N140TC
N140TC
108...111
108...111
104...107
108...111
108...111
1.1
106445
1.2
1632:1
16900
A904_1632
S3 + M3SA4
P90 + BN90LA4
N140TC
108...111
N180TC
N180TC
N180TC
N180TC
N180TC
80...83
76...79
84...87
76...79
80...83
S
i
Rn2
(ratio)
[lb]
3 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
321
315
245
239
236
553
565
726
745
753
3.4
2.2
3.7
1.7
2.5
5.4:1
5.5:1
7.0:1
7.2:1
7.3:1
610
550
950
570
640
A202_5.4
A102_5.5
A302_7.0
A102_7.2
A202_7.3
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
213
211
209
185
183
834
844
852
962
969
2.2
3.1
1.5
2.8
1.9
5.4:1
5.4:1
5.5:1
9.3:1
9.4:1
660
990
580
1020
670
A202_5.4
A302_5.4
A102_5.5
A302_9.3
A202_9.4
S3 + M3LC6
S3 + M3LC6
S3 + M3LC6
S3 + M3LA4
S3 + M3LA4
P112 + BN112M6
P112 + BN112M6
P112 + BN112M6
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
80...83
84...87
76...79
84...87
80...83
179
170
166
165
163
994
1047
1068
1080
1091
1.2
4.5
1.9
2.8
1.2
9.6:1
10.1:1
10.3:1
10.5:1
10.6:1
580
2130
680
1050
580
A102_9.6
A412_10.1
A202_10.3
A302_10.5
A102_10.6
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
76...79
88...91
80...83
84...87
76...79
146
146
144
127
1213
1217
1236
1402
4.0
2.2
1.5
2.3
11.7:1
11.8:1
12.0:1
13.6:1
2220
1070
690
1100
A412_11.7
A302_11.8
A202_12.0
A302_13.6
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
88...91
84...87
80...83
84...87
S
39
3 hp
n2
T2
[rpm]
[lb·in]
Safety
factor
125
122
113
110
109
1421
1454
1579
1611
1630
3.6
1.5
3.4
1.4
2.1
13.8:1
14.1:1
10.1:1
10.3:1
10.5:1
2320
700
2380
700
1130
A412_13.8
A202_14.1
A412_10.1
A202_10.3
A302_10.5
S3 + M3LA4
S3 + M3LA4
S3 + M3LC6
S3 + M3LC6
S3 + M3LC6
P100 + BN100LA4
P100 + BN100LA4
P112 + BN112M6
P112 + BN112M6
P112 + BN112M6
N180TC
N180TC
N210TC
88...91
80...83
88...91
80...83
84...87
97
96
95
84
83
1836
1858
1871
2115
2145
3.0
1.9
1.2
1.7
2.8
17.8:1
18.0:1
18.1:1
13.6:1
13.8:1
2500
1160
710
1180
2590
A412_17.8
A302_18.0
A202_18.1
A302_13.6
A412_13.8
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LC6
S3 + M3LC6
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P112 + BN112M6
P112 + BN112M6
N180TC
N180TC
N180TC
N210TC
88...91
84...87
80...83
84...87
88...91
76
76
61
59
48
2343
2351
2927
3028
3710
2.6
1.5
2.2
1.2
1.9
22.7:1
22.8:1
28.3:1
29.3:1
35.9:1
2650
1190
2790
1210
2940
A412_22.7
A302_22.8
A412_28.3
A302_29.3
A412_35.9
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
88...91
84...87
88...91
84...87
88...91
47
38
38
32
30
3630
4502
4657
5491
5683
3.7
2.9
1.6
1.4
2.3
24.0:1
45.0:1
45.1:1
53.1:1
56.8:1
3840
4020
3080
3170
4200
A503_24.0
A503_45.0
A412_45.1
A412_53.1
A503_56.8
S3 + M3LC6
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P112 + BN112M6
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N210TC
N180TC
N180TC
N180TC
N180TC
92...95
92...95
88...91
88...91
92...95
24.5
24.4
19.2
16.0
15.7
7026
7043
8957
10784
10946
1.9
3.5
1.5
2.3
1.2
70.2:1
70.4:1
89.5:1
107.8:1
109.4:1
4340
6740
4450
6740
4500
A503_70.2
A603_70.4
A503_89.5
A603_107.8
A503_109.4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
92...95
96...99
92...95
96...99
92...95
13.2
12.9
12.1
11.9
11.2
13071
13333
14191
14409
15373
3.4
1.9
3.1
1.7
2.9
130.7:1
133.3:1
141.9:1
144.0:1
153.7:1
11200
6740
11200
6740
11200
A703_130.7
A603_133.3
A703_141.9
A603_144.0
A703_153.7
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
100...103
96...99
100...103
96...99
100...103
11.0
10.1
10.0
9.3
9.3
15610
16612
17152
18002
18582
1.6
2.7
1.4
2.5
1.3
156.0:1
169.8:1
171.5:1
184.0:1
185.8:1
6740
11200
6740
11200
6740
A603_156.0
A704_169.8
A603_171.5
A704_183.9
A603_185.8
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
96...99
100...103
96...99
100...103
96...99
8.2
7.8
7.4
7.2
6.2
20418
21553
22756
23344
27130
1.2
2.1
3.1
1.9
2.6
208.7:1
220.3:1
232.6:1
238.6:1
277.3:1
6740
11200
14600
11200
14600
A604_208.7
A704_220.3
A804_232.6
A704_238.6
A804_277.3
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
96...99
100...103
104...107
100...103
104...107
5.9
5.7
5.4
28568
29390
30955
1.5
2.4
1.4
292.0:1
300.4:1
316.4:1
11200
14600
11200
A704_292.0
A804_300.4
A704_316.4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
100...103
104...107
100...103
40
S
i
Rn2
(ratio)
[lb]
3 hp
n2
T2
[rpm]
[lb·in]
Safety
factor
4.9
4.5
4.5
4.3
3.9
34634
37520
37706
39154
43253
2.0
1.9
3.3
1.1
1.6
354.0:1
383.5:1
385.4:1
400.2:1
442.1:1
14600
14600
16900
11200
14600
A804_345.0
A804_383.5
A904_385.4
A704_400.2
A804_442.1
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
104...107
104...107
108...111
100...103
104...107
3.6
3.5
3.1
3.1
2.8
46853
47607
54328
54837
59406
1.5
2.6
2.3
1.3
1.2
478.9:1
486.6:1
555.3:1
560.5:1
607.2:1
14600
16900
16900
14600
14600
A804_478.9
A904_486.6
A904_555.3
A804_560.5
A804_607.2
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
N180TC
N180TC
104...107
108...111
108...111
104...107
104...107
2.4
2.0
1.5
69258
84637
108695
1.8
1.5
1.1
707.9:1
865.1:1
1111:1
16900
16900
16900
A904_707.9
A904_865.1
A904_1111
S3 + M3LA4
S3 + M3LA4
S3 + M3LA4
P100 + BN100LA4
P100 + BN100LA4
P100 + BN100LA4
N180TC
N180TC
N180TC
108...111
108...111
108...111
S
i
Rn2
(ratio)
[lb]
5 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
323
916
2.0
5.4:1
520
A202_5.4
S3 + M3LC4
P100 + BN100LC4
N180TC
80...83
320
927
2.9
5.4:1
810
A302_5.4
S3 + M3LC4
P100 + BN100LC4
N180TC
84...87
317
936
1.3
5.5:1
430
A102_5.5
S3 + M3LC4
P100 + BN100LC4
N180TC
76...79
246
1203
2.2
7.0:1
850
A302_7.0
S3 + M3LC4
P100 + BN100LC4
N180TC
84...87
243
1220
4.0
7.1:1
1840
A412_7.1
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
237
1248
1.5
7.3:1
520
A202_7.3
S3 + M3LC4
P100 + BN100LC4
N180TC
80...83
188
1575
3.1
9.2:1
1960
A412_9.2
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
186
1594
1.7
9.3:1
880
A302_9.3
S3 + M3LC4
P100 + BN100LC4
N180TC
84...87
171
1734
2.7
10.1:1
2010
A412_10.1
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
165
1790
1.7
10.5:1
890
A302_10.5
S3 + M3LC4
P100 + BN100LC4
N180TC
84...87
147
2010
2.4
11.7:1
2080
A412_11.7
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
147
2017
1.3
11.8:1
890
A302_11.8
S3 + M3LC4
P100 + BN100LC4
N180TC
84...87
128
2323
1.4
13.6:1
900
A302_13.6
S3 + M3LC4
P100 + BN100LC4
N180TC
84...87
126
2355
2.2
13.8:1
2160
A412_13.8
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
114
2609
2.1
10.1:1
2200
A412_10.1
S4 + M4LA6
P132 + BN132M6
N210TC
88...91
104
2837
3.7
16.6:1
3210
A502_16.6
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
97
3042
1.8
17.8:1
2270
A412_17.8
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
84
3543
1.7
13.8:1
2340
A412_13.8
S4 + M4LA6
P132 + BN132M6
N210TC
88...91
83
3582
3.0
20.9:1
3420
A502_20.9
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
76
3883
1.6
22.7:1
2380
A412_22.7
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
S
41
5 hp
n2
T2
[rpm]
42
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
72
3986
3.3
24.0:1
3150
A503_24.0
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
65
4382
3.0
26.4:1
3190
A503_26.4
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
61
4849
1.3
28.3:1
2450
A412_28.3
S3 + M3LC4
P100 + BN100LC4
N180TC
88...91
50
5686
4.4
34.3:1
6740
A603_34.3
S3 + M3LC4
P100 + BN100LC4
N180TC
96...99
49
5901
2.2
35.6:1
3300
A503_35.6
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
38
7460
1.8
45.0:1
3350
A503_45.0
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
38
7490
3.3
45.2:1
6740
A603_45.2
S3 + M3LC4
P100 + BN100LC4
N180TC
96...99
31
9217
2.7
55.6:1
6740
A603_55.6
S3 + M3LC4
P100 + BN100LC4
N180TC
96...99
30
9417
1.4
56.8:1
3350
A503_56.8
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
27.1
10590
1.3
63.9:1
3330
A503_63.9
S3 + M3LC4
P100 + BN100LC4
N180TC
92...95
25.8
11096
4.0
66.9:1
11200
A703_66.9
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
24.6
11670
2.1
70.4:1
6740
A603_70.4
S3 + M3LC4
P100 + BN100LC4
N180TC
96...99
20.1
14245
3.1
85.9:1
11200
A703_85.9
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
20.0
14315
1.7
86.4:1
6740
A603_86.4
S3 + M3LC4
P100 + BN100LC4
N180TC
96...99
16.6
17278
2.6
104.2:1
11200
A703_104.2
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
16.0
17869
1.4
107.8:1
6740
A603_107.8
S3 + M3LC4
P100 + BN100LC4
N180TC
96...99
14.3
19993
2.2
120.6:1
11200
A703_120.6
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
14.1
20393
1.2
123.0:1
6740
A603_123.0
S3 + M3LC4
P100 + BN100LC4
N180TC
96...99
12.2
23515
1.9
141.9:1
11200
A703_141.9
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
12.0
23992
3.0
144.7:1
14600
A803_144.7
S3 + M3LC4
P100 + BN100LC4
N180TC
104...107
11.3
25474
1.7
153.7:1
11200
A703_153.7
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
11.0
25991
2.7
156.8:1
14600
A803_156.8
S3 + M3LC4
P100 + BN100LC4
N180TC
104...107
10.2
27527
1.6
169.8:1
11200
A704_169.8
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
10.1
27771
2.5
171.3:1
14600
A804_171.3
S3 + M3LC4
P100 + BN100LC4
N180TC
104...107
9.6
29181
4.2
180.0:1
16900
A904_180.0
S3 + M3LC4
P100 + BN100LC4
N180TC
108...111
9.4
29813
1.5
183.9:1
11200
A704_183.9
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
7.9
35714
1.2
220.3:1
11200
A704_220.3
S3 + M3LC4
P100 + BN100LC4
N180TC
100...103
7.6
36703
3.4
226.4:1
16900
A904_226.4
S3 + M3LC4
P100 + BN100LC4
N180TC
108...111
7.4
37708
1.9
232.6:1
14600
A804_232.6
S3 + M3LC4
P100 + BN100LC4
N180TC
104...107
6.2
44955
1.6
277.3:1
14600
A804_277.3
S3 + M3LC4
P100 + BN100LC4
N180TC
104...107
5.7
49429
2.5
304.9:1
16900
A904_304.9
S3 + M3LC4
P100 + BN100LC4
N180TC
108...111
4.9
57389
1.2
354.0:1
14600
A804_354.0
S3 + M3LC4
P100 + BN100LC4
N180TC
104...107
4.5
62480
2.0
385.4:1
16900
A904_385.4
S3 + M3LC4
P100 + BN100LC4
N180TC
108...111
3.6
78886
1.6
486.6:1
17100
A904_486.6
S3 + M3LC4
P100 + BN100LC4
N180TC
108...111
3.1
90023
1.4
555.3:1
17100
A904_555.3
S3 + M3LC4
P100 + BN100LC4
N180TC
108...111
2.9
97529
1.3
601.6:1
16900
A904_601.6
S3 + M3LC4
P100 + BN100LC4
N180TC
108...111
S
7.5 hp
n2
T2
[rpm]
[lb·in]
Safety
factor
330
243
217
188
171
1347
1829
2044
2362
2602
3.6
2.7
2.4
2.1
1.8
5.2:1
7.1:1
5.2:1
9.2:1
10.1:1
1630
1750
1800
1850
1900
A412_5.2
A412_7.1
A412_5.2
A412_9.2
A412_10.1
S4 + M4SA4
S4 + M4SA4
S4 + M4LB6
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132MB6
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
88...91
88...91
88...91
88...91
88...91
160
147
132
126
113
2776
3015
3366
3533
3948
1.8
1.6
2.9
1.5
1.4
7.1:1
11.7:1
13.1:1
13.8:1
10.1:1
1920
1950
2900
2010
2050
A412_7.1
A412_11.7
A502_13.1
A412_13.8
A412_10.1
S4 + M4LB6
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4LB6
P132 + BN132MB6
P132 + BN132S4
N210TC
P132 + BN132S4
N210TC
P132 + BN132S4
N210TC
P132 + BN132MB6
88...91
88...91
92...95
88...91
88...91
104
97
84
83
72
4256
4562
5289
5373
5979
2.5
1.2
3.3
2.0
2.2
16.6:1
17.8:1
20.6:1
20.9:1
24.0:1
3080
2090
6740
3260
2830
A502_16.6
A412_17.8
A602_20.6
A502_20.9
A503_24.0
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
N210TC
N210TC
N210TC
92...95
88...91
96...99
92...95
92...95
67
62
55
53
50
6393
6925
8027
8051
8528
3.9
3.6
2.2
1.6
2.9
25.7:1
27.9:1
20.6:1
32.4:1
34.3:1
6740
6740
6740
2850
6740
A603_25.7
A603_27.9
A602_20.6
A503_32.4
A603_34.3
S4 + M4SA4
S4 + M4SA4
S4 + M4LB6
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132MB6
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
N210TC
N210TC
96...99
96...99
96...99
92...95
96...99
49
41
38
35
34
8851
10371
11190
12183
12762
1.5
2.4
1.2
3.6
1.9
35.6:1
41.7:1
45.0:1
49.0:1
51.3:1
2850
6740
2810
11200
6740
A503_35.6
A603_41.7
A503_45.0
A703_49.0
A603_51.3
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
N210TC
N210TC
N210TC
92...95
96...99
92...95
100...103
96...99
31
30
25.8
24.6
21.8
13825
14339
16644
17505
19724
1.8
3.1
2.7
1.4
2.2
55.6:1
57.7:1
66.9:1
70.4:1
79.3:1
6740
11200
11200
6740
11200
A603_55.6
A703_57.7
A703_66.9
A603_70.4
A703_79.3
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
N210TC
N210TC
N210TC
96...99
100...103
100...103
96...99
100...103
21.7
21.0
18.0
18.0
14.9
19821
20468
23876
23924
28831
1.3
3.5
3.0
1.8
2.5
79.7:1
82.3:1
96.0:1
96.2:1
116.0:1
6740
14600
14600
11200
14600
A603_79.7
A803_82.3
A803_96.0
A703_96.2
A803_116.0
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
N210TC
N210TC
N210TC
96...99
104...107
104...107
100...103
104...107
14.3
12.4
12.2
12.0
10.2
29990
34659
35272
35988
41291
1.5
3.3
1.3
2.0
1.1
120.6:1
139.4:1
141.9:1
144.7:1
169.8:1
11200
16900
11200
14600
11200
A703_120.6
A903_139.4
A703_141.9
A803_144.7
A704_169.8
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
N210TC
N210TC
N210TC
100...103
108...111
100...103
104...107
100...103
10.1
7.6
7.4
41656
55055
56562
1.7
2.3
1.3
171.3:1
226.4:1
232.6:1
14600
16900
14600
A804_171.3
A904_226.4
A804_232.6
S4 + M4SA4
S4 + M4SA4
S4 + M4SA4
P132 + BN132S4
P132 + BN132S4
P132 + BN132S4
N210TC
N210TC
N210TC
104...107
108...111
104...107
S
i
Rn2
(ratio)
[lb]
N210TC
N210TC
43
7.5 hp
n2
T2
[rpm]
[lb·in]
Safety
factor
5.7
4.5
3.7
74144
93719
112517
1.7
1.3
1.1
S
i
Rn2
(ratio)
[lb]
304.9:1
385.4:1
304.9:1
16900
16900
16900
A904_304.9
A904_385.4
A904_304.9
S4 + M4SA4
S4 + M4SA4
S4 + M4LB6
P132 + BN132S4
N210TC
P132 + BN132S4
N210TC
P132 + BN132MB6
108...111
108...111
108...111
10 hp
n2
[rpm]
44
T2
S
Safety
[lb·in] factor
i
Rn2
(ratio)
[lb]
332
244
189
172
148
1786
2425
3132
3449
3998
2.7
2.0
1.6
1.4
1.2
5.2:1
7.1:1
9.2:1
10.1:1
11.7:1
1560
1660
1730
1760
1790
A412_5.2
A412_7.1
A412_9.2
A412_10.1
A412_11.7
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
N210TC
N210TC
N210TC
N210TC
N210TC
88...91
88...91
88...91
88...91
88...91
133
105
104
84
83
4463
5642
5698
7012
7122
2.2
1.9
3.1
2.5
1.5
13.1:1
16.6:1
16.7:1
20.6:1
20.9:1
2790
2940
6740
6740
3080
A502_13.1
A502_16.6
A602_16.7
A602_20.6
A502_20.9
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
N210TC
N210TC
N210TC
N210TC
N210TC
92...95
92...95
96...99
96...99
92...95
72
66
62
51
49
7927
8714
9181
11306
11734
1.7
1.5
2.7
2.2
1.1
24.0:1
26.4:1
27.9:1
34.3:1
35.6:1
2430
2430
6740
6740
2270
A503_24.0
A503_26.4
A603_27.9
A603_34.3
A503_35.6
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
N210TC
N210TC
N210TC
N210TC
N210TC
92...95
92...95
96...99
96...99
92...95
39
38
32
31
30
14895
14909
18189
18328
19009
1.7
2.8
3.9
1.4
2.3
45.2:1
45.2:1
55.2:1
55.6:1
57.7:1
6740
11200
14100
6740
11200
A603_45.2
A703_45.2
A803_55.2
A603_55.6
A703_57.7
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
N210TC
N210TC
N210TC
N210TC
N210TC
96...99
100...103
104...107
96...99
100...103
26.8
26.0
26.0
21.9
21.1
21421
22019
22065
26148
27134
1.2
3.2
2.0
1.7
2.6
65.0:1
66.8:1
66.9:1
79.3:1
82.3:1
6740
14600
11200
11200
14600
A603_65.0
A803_66.8
A703_66.9
A703_79.3
A803_82.3
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
N210TC
N210TC
N210TC
N210TC
N210TC
96...99
104...107
100...103
100...103
104...107
20.2
19.5
18.1
16.7
16.7
28326
29395
31715
34290
34358
1.6
2.4
1.4
2.1
1.3
85.9:1
89.2:1
96.2:1
104.0:1
104.2:1
11200
14600
11200
14600
11200
A703_85.9
A803_89.2
A703_96.2
A803_104.0
A703_104.2
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
N210TC
N210TC
N210TC
N210TC
N210TC
100...103
104...107
100...103
104...107
100...103
16.3
13.9
35209
41405
3.5
1.7
106.8:1
125.6:1
16900
14600
A903_106.8
A803_125.6
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4 N210TC
P132 + BN132MA4 N210TC
108...111
104...107
10 hp
n2
T2
[rpm]
[lb·in]
Safety
factor
13.7
10.5
10.2
7.7
5.7
41744
53546
55222
72984
98290
2.8
2.3
1.3
1.7
1.3
S
i
Rn2
(ratio)
[lb]
126.6:1
166.1:1
171.3:1
226.4:1
304.9:1
16900
16900
14600
16900
16900
A903_126.6
A904_166.1
A804_171.3
A904_226.4
A904_304.9
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
S4 + M4LA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
P132 + BN132MA4
N210TC
N210TC
N210TC
N210TC
N210TC
108...111
108...111
104...107
108...111
108...111
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160L6
P160 + BN160MR4
N250TC
N250TC
N250TC
92...95
92...95
96...99
92...95
96...99
P160 + BN160MR4
P160 + BN160L6
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
N250TC
N250TC
N250TC
N250TC
92...95
92...95
92...95
96...99
100...103
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
N250TC
N250TC
N250TC
N250TC
N250TC
96...99
100...103
92...95
96...99
100...103
N250TC
N250TC
N250TC
N250TC
N250TC
96...99
96...99
100...103
104...107
96...99
15 hp
n2
[rpm]
T2
S
Safety
[lb·in] factor
i
Rn2
(ratio)
[lb]
225
179
169
150
137
3951
4971
5268
5927
6488
2.1
1.8
3.4
1.4
2.7
7.7:1
9.7:1
10.3:1
7.7:1
12.7:1
2320
2450
6740
2540
6740
A502_7.7
A502_9.7
A602_10.3
A502_7.7
A602_12.7
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
133
119
105
104
88
6694
7457
8463
8548
9723
1.5
1.2
1.3
2.1
3.4
13.1:1
9.7:1
16.6:1
16.7:1
19.7:1
2590
2650
2700
6740
10000
A502_13.1
A502_9.7
A502_16.6
A602_16.7
A703_19.7
S4 + M4LC4
84
74
72
68
63
10518
11629
11890
12712
13737
1.7
3.3
1.1
1.9
2.7
20.6:1
23.5:1
24.0:1
25.7:1
27.8:1
6740
10500
1750
6740
10900
A602_20.6
A703_23.5
A503_24.0
A603_25.7
A703_27.8
S4 + M4LC4
62
51
45
45
39
13771
16959
18977
19035
22342
1.8
1.5
2.3
3.5
1.1
27.9:1
34.3:1
38.4:1
38.5:1
45.2:1
6740
6740
11200
12500
6740
A603_27.9
A603_34.3
A703_38.4
A803_38.5
A603_45.2
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
38
36
32
30
24.0
22363
23823
27283
28513
35781
1.9
3.0
2.6
1.6
2.0
45.2:1
48.2:1
55.2:1
57.7:1
72.4:1
11200
13100
13500
11200
14200
A703_45.2
A803_48.2
A803_55.2
A703_57.7
A803_72.4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
N250TC
N250TC
N250TC
N250TC
N250TC
100...103
104...107
104...107
100...103
104...107
24.0
20.0
19.5
15.0
14.9
35855
43049
44092
57331
57800
1.2
2.9
1.6
1.2
2.1
72.5:1
87.1:1
89.2:1
116.0:1
116.9:1
11200
16900
14600
14600
16900
A703_72.5
A903_87.1
A803_89.2
A803_116.0
A903_116.9
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
P160 + BN160MR4
N250TC
N250TC
N250TC
N250TC
N250TC
100...103
108...111
104...107
104...107
108...111
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
S4 + M4LC4
N250TC
45
15 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
8.3
7.7
101063
111993
1.2
1.1
209.0:1
151.0:1
S
16900
16900
A904_209.0
A903_151.0
S4 + M4LC4
S5 + M5SB6
P160 + BN160MR4 N250TC
P160 + BN160L6
108...111
108...111
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
N250TC
N250TC
N250TC
N250TC
N250TC
96...99
92...95
96...99
96...99
100...103
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
N250TC
N250TC
N250TC
N250TC
N250TC
92...95
100...103
100...103
96...99
96...99
20 hp
n2
T2
[rpm]
[lb·in]
Safety
factor
223
180
170
138
134
5325
6591
6984
8601
8578
3.3
1.3
2.5
2.1
4.0
7.9:1
9.7:1
10.3:1
12.7:1
13.1:1
6380
2270
6740
6740
8830
A602_7.9
A502_9.7
A602_10.3
A602_12.7
A703_13.1
134
114
105
105
85
8874
10097
10939
11332
13944
1.1
3.2
3.2
1.6
1.3
13.1:1
15.4:1
16.7:1
16.7:1
20.6:1
2380
9190
9370
6740
6740
A502_13.1
A703_15.4
A703_16.7
A602_16.7
A602_20.6
84
82
68
63
62
13731
13964
16852
18212
18500
4.2
2.5
1.5
2.0
3.2
20.9:1
21.3:1
25.7:1
27.8:1
28.2:1
10500
9910
6740
10500
11200
A803_20.9
A703_21.3
A603_25.7
A703_27.8
A803_28.2
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
N250TC
N250TC
N250TC
N250TC
N250TC
104...107
100...103
96...99
100...103
104...107
51
46
45
36
36
22482
25159
25235
31582
31659
1.1
1.7
2.7
2.2
3.9
34.3:1
38.4:1
38.5:1
48.2:1
48.3:1
6740
11200
12000
12500
16900
A603_34.3
A703_38.4
A803_38.5
A803_48.2
A903_48.3
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
N250TC
N250TC
N250TC
N250TC
N250TC
96...99
100...103
104...107
104...107
108...111
36
32
30
25.5
24.2
32118
36169
37800
45063
47435
1.4
2.0
1.2
2.7
1.5
49.0:1
55.2:1
57.7:1
68.8:1
72.4:1
11200
12800
11200
16900
13300
A703_49.0
A803_55.2
A703_57.7
A903_68.8
A803_72.4
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
N250TC
N250TC
N250TC
N250TC
N250TC
100...103
104...107
100...103
108...111
104...107
20.1
19.6
15.0
12.6
10.5
57070
58454
76626
91367
106479
2.2
1.2
1.6
1.2
1.2
87.1:1
89.2:1
116.9:1
139.4:1
166.1:1
16900
13600
16900
16900
16900
A903_87.1
A803_89.2
A903_116.9
A903_139.4
A904_166.1
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
S5 + M5SB4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
P160 + BN160L4
N250TC
N250TC
N250TC
N250TC
N250TC
108...111
104...107
108...111
108...111
108...111
46
S
i
Rn2
(ratio)
[lb]
25 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
226
223
185
180
171
6548
6656
7734
8238
8378
1.3
2.7
3.4
1.1
3.4
7.7:1
7.9:1
9.4:1
9.7:1
10.2:1
2080
6290
8000
2140
8180
A502_7.7
A602_7.9
A703_9.4
A502_9.7
A703_10.2
170
145
138
134
114
8731
9898
10752
10722
12621
2.0
3.2
1.6
3.2
2.6
10.3:1
12.1:1
12.7:1
13.1:1
15.4:1
6720
8520
6740
8680
9010
105
105
90
89
77
13673
14165
15844
16112
18529
2.6
1.2
3.4
2.0
3.0
16.7:1
16.7:1
19.3:1
19.7:1
22.6:1
74
63
63
62
49
19271
22765
22820
23125
29029
2.0
1.6
1.1
2.5
1.4
49
39
39
39
32
29118
36441
36529
37059
45088
45212
56329
59294
80788
103764
32
25.5
24.2
17.7
13.8
S
S5 + M5LA4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
N280TC
N280TC
N280TC
N280TC
N280TC
92...95
96...99
100...103
92...95
100...103
A602_10.3
A703_12.1
A602_12.7
A703_13.1
A703_15.4
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
N280TC
N280TC
N280TC
N280TC
N280TC
96...99
100...103
96...99
100...103
100...103
9190
6740
10100
9510
10400
A703_16.7
A602_16.7
A803_19.3
A703_19.7
A803_22.6
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
N280TC
N280TC
N280TC
N280TC
N280TC
100...103
96...99
104...107
100...103
104...107
23.5:1
27.8:1
27.9:1
28.2:1
35.4:1
9890
10200
6740
10900
10600
A703_23.5
A703_27.8
A603_27.9
A803_28.2
A703_35.4
S5 + M5LA4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
N280TC
N280TC
N280TC
N280TC
N280TC
100...103
100...103
96...99
104...107
100...103
2.1
1.8
3.4
1.1
2.7
35.5:1
44.5:1
44.6:1
45.2:1
55.0:1
11400
11800
16100
11000
16900
A803_35.5
A803_44.5
A903_44.6
A703_45.2
A903_55.0
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
N280TC
N280TC
N280TC
N280TC
N280TC
104...107
104...107
108...111
100...103
108...111
1.6
2.2
1.2
1.5
1.1
55.2:1
68.8:1
72.4:1
98.6:1
126.6:1
12200
16900
12500
16900
16900
A803_55.2
A903_68.8
A803_72.4
A903_98.6
A903_126.6
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
P180 + BN180M4
N280TC
N280TC
N280TC
N280TC
N280TC
104...107
108...111
104...107
108...111
108...111
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
N280TC
N280TC
N280TC
N280TC
N280TC
92...95
96...99
100...103
100...103
96...99
S5 + M5LA4
S5 + M5LA4
S5 + M5LA4
30 hp
n2
T2
[rpm]
226
223
185
171
170
i
Rn2
[lb·in]
Safety
factor
(ratio)
[lb]
7858
7987
9281
10054
10477
1.1
2.2
2.9
2.9
1.7
7.7:1
7.9:1
9.4:1
10.2:1
10.3:1
S
1970
6210
7890
8050
6590
A502_7.7
A602_7.9
A703_9.4
A703_10.2
A602_10.3
47
30 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
138
134
114
113
105
12902
12867
15146
15192
16408
1.4
2.6
2.2
3.5
2.2
12.7:1
13.1:1
15.4:1
15.5:1
16.7:1
6750
8520
8840
9400
8990
A602_12.7
A703_13.0
A703_15.4
A803_15.5
A703_16.7
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
N280TC
N280TC
N280TC
N280TC
N280TC
96...99
100...103
100...103
104...107
100...103
105
89
84
77
74
16458
19335
20597
22235
23125
3.5
1.7
2.8
2.5
1.6
16.7:1
19.6:1
20.9:1
22.6:1
23.5:1
9550
9290
10000
10200
9620
A803_16.7
A703_19.7
A803_20.9
A803_22.6
A703_23.5
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
N280TC
N280TC
N280TC
N280TC
N280TC
104...107
100...103
104...107
104...107
100...103
63
62
60
49
49
27318
27750
28588
34835
34941
1.4
2.1
4.0
1.1
1.8
27.8:1
28.2:1
29.1:1
35.4:1
35.5:1
9870
10600
14400
10200
11000
A703_27.8
A803_28.2
A903_29.0
A703_35.4
A803_35.5
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
N280TC
N280TC
N280TC
N280TC
N280TC
100...103
104...107
108...111
100...103
104...107
49
39
39
32
32
35221
43729
43835
54106
54254
3.5
1.5
2.8
2.3
1.3
35.8:1
44.5:1
44.6:1
55.0:1
55.2:1
15100
11300
15700
16300
11600
A903_35.8
A803_44.5
A903_44.6
A903_55.0
A803_55.2
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
N280TC
N280TC
N280TC
N280TC
N280TC
108...111
104...107
108...111
108...111
104...107
65679
67595
85606
114939
1.1
1.8
1.4
1.1
66.8:1
68.8:1
87.1:1
116.9:1
11700
16900
16900
16900
A803_66.8
A903_68.8
A903_87.0
A903_116.9
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
P180 + BN180L4
N280TC
N280TC
N280TC
N280TC
104...107
108...111
108...111
108...111
26.2
25.5
20.1
15.0
S
40 hp
n2
[rpm]
48
T2
S
Safety
[lb·in] factor
i
Rn2
(ratio)
[lb]
185
178
171
145
143
12374
12890
13406
15836
16087
2.0
2.7
2.1
1.8
2.4
9.4:1
9.8:1
10.2:1
12.1:1
12.3:1
7640
8210
7800
8050
8610
A703_9.4
A803_9.8
A703_10.2
A703_12.1
A803_12.3
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
134
132
114
113
105
17156
17427
20194
20256
21877
1.7
2.2
1.5
1.8
1.5
13.1:1
13.3:1
15.4:1
15.5:1
16.7:1
8180
8770
8430
9020
8570
A703_13.1
A803_13.3
A703_15.4
A803_15.5
A703_16.7
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
105
21944
1.8
16.7:1
9150
A803_16.7
P200 + BN200L4
N320TC
N320TC
N320TC
N320TC
N320TC
100...103
104...107
100...103
100...103
104...107
100...103
104...107
100...103
104...107
100...103
104...107
40 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
83
73
71
62
60
27529
31604
32118
36999
38118
4.0
3.7
1.9
1.6
3.0
21.0:1
24.1:1
24.5:1
28.2:1
29.1:1
13000
13300
9730
9910
13800
A903_21.0
A903_24.1
A803_24.5
A803_28.2
A903_29.1
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
N320TC
N320TC
N320TC
N320TC
N320TC
108...111
108...111
104...107
104...107
108...111
49
49
36
36
32
46588
46961
63164
63317
72141
1.3
2.6
1.1
2.0
1.7
35.5:1
35.8:1
48.2:1
48.3:1
55.0:1
10100
14300
10300
15000
15300
A803_35.5
A903_35.8
A803_48.2
A903_48.3
A903_55.0
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
N320TC
N320TC
N320TC
N320TC
N320TC
104...107
108...111
104...107
108...111
108...111
78153
97637
114141
1.6
1.3
1.1
59.6:1
74.5:1
87.1:1
15400
15700
15800
A903_59.6
A903_74.5
A903_87.1
P200 + BN200L4
P200 + BN200L4
P200 + BN200L4
N320TC
N320TC
N320TC
108...111
108...111
108...111
29.4
23.5
20.1
S
50 hp
n2
T2
i
Rn2
[lb·in]
Safety
factor
[rpm]
(ratio)
[lb]
178
164
142
132
113
16112
17455
20155
21784
25320
3.3
3.3
2.7
2.7
2.1
9.8:1
10.6:1
12.3:1
13.2:1
15.4:1
7980
8120
8340
8480
8680
A803_9.8
A803_10.7
A803_12.3
A803_13.3
A803_15.5
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
N320TC
N320TC
N320TC
N320TC
N320TC
104...107
104...107
104...107
104...107
104...107
112
90
90
84
83
25522
31688
31765
34329
34412
3.8
1.7
3.2
1.7
3.2
15.5:1
19.3:1
19.3:1
20.9:1
21.0:1
11800
8950
12400
9060
12600
A903_15.6
A803_19.3
A903_19.4
A803_20.9
A903_21.0
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
N320TC
N320TC
N320TC
N320TC
N320TC
108...111
104...107
108...111
104...107
108...111
73
71
57
56
45
39505
40147
50103
51617
63088
2.9
1.5
1.1
2.4
1.1
24.1:1
24.5:1
30.5:1
31.5:1
38.5:1
12900
9220
9350
13500
9380
A903_24.1
A803_24.5
A803_30.6
A903_31.5
A803_38.5
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
N320TC
N320TC
N320TC
N320TC
N320TC
108...111
104...107
104...107
108...111
104...107
63593
79147
90176
112658
1.9
1.6
1.4
1.1
38.8:1
48.3:1
55.0:1
68.7:1
13900
14200
14300
14400
A903_38.8
A903_48.3
A903_55.0
A903_68.8
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
P225 + BN225S4
N320TC
N320TC
N320TC
N320TC
108...111
108...111
108...111
108...111
45
36
32
25.5
S
49
2.13 SPEED REDUCER RATING CHARTS
1,330 Ib·in
A 10
i
(ratio)
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
5.5
7.2
9.6
10.6
12.3
13.9
18.6
23.8
28.6
35.1
45.4
51.3
65.9
76.4
91.6
n1 = 3500 rpm
n2
[rpm]
636
486
365
330
285
252
188
147
122
100
77
68
53
46
38
n1 = 1750 rpm
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
650
810
900
1110
970
1190
1300
1330
1330
1330
1330
1330
1330
1330
1150
6.9
6.6
5.5
6.1
4.6
5.0
4.1
3.3
2.7
2.2
1.7
1.5
1.2
1.0
0.73
—
—
—
120
—
140
150
170
190
200
200
200
210
210
230
410
430
470
450
510
500
550
620
670
740
830
880
980
1040
1160
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
318
243
182
165
142
126
94
74
61
50
39
34
26.6
22.9
19.1
650
820
1130
1330
1220
1330
1330
1330
1330
1330
1330
1330
1330
1330
1150
3.5
3.3
3.4
3.7
2.9
2.8
2.1
1.6
1.4
1.1
0.86
0.76
0.59
0.51
0.37
220
140
—
180
—
240
270
270
280
290
290
290
290
290
290
550
580
600
580
650
670
760
850
920
1000
1120
1180
1240
1240
1240
A 10
i
(ratio)
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
A 102_
5.5
7.2
9.6
10.6
12.3
13.9
18.6
23.8
28.6
35.1
45.4
51.3
65.9
76.4
91.6
n1 = 1100 rpm
n1 = 600 rpm
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
200
153
115
104
89
79
59
46
38
31
24.2
21.4
16.7
14.4
12.0
650
820
1130
1330
1330
1330
1330
1330
1330
1330
1330
1330
1330
1330
1150
2.2
2.1
2.2
2.3
2.0
1.8
1.3
1.0
0.85
0.70
0.54
0.48
0.37
0.32
0.23
290
260
110
290
40
290
290
290
290
290
290
290
290
290
290
660
700
730
720
770
820
930
1030
1110
1210
1240
1240
1240
1240
1240
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
109
83
63
57
49
43
32
25.2
21.0
17.1
13.2
11.7
9.1
7.9
6.6
650
820
1130
1330
1330
1330
1330
1330
1330
1330
1330
1330
1330
1330
1150
1.2
1.1
1.2
1.3
1.1
1.0
0.72
0.56
0.47
0.38
0.29
0.26
0.20
0.17
0.13
290
290
290
290
230
290
290
290
290
290
290
290
290
290
290
840
890
940
940
1000
1050
1180
1120
1120
1120
1120
1120
1120
1120
1120
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
50
2,210 Ib·in
A 20
i
(ratio)
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 202_
A 203_
A 203_
A 203_
A 203_
A 203_
A 203_
A 203_
5.4
7.3
9.4
10.3
12.0
14.1
18.1
23.1
29.2
35.4
43.2
53.7
63.1
79.9
92.3
120.5
146.1
178.3
221.3
260.5
329.4
380.9
n1 = 3500 rpm
n1 = 1750 rpm
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
648
479
372
340
292
248
193
152
120
99
81
65
55
44
38
29.0
24.0
19.6
15.8
13.4
10.6
9.2
800
920
1020
1620
1130
1760
1910
2050
2200
2210
2210
2210
2170
1860
1770
1490
1620
1730
1800
1890
1960
2000
8.7
7.4
6.3
9.2
5.5
7.3
6.2
5.2
4.4
3.6
3.0
2.4
2.0
1.4
1.1
0.74
0.66
0.58
0.49
0.43
0.36
0.31
—
—
—
—
—
—
—
—
—
—
—
—
—
—
140
250
260
270
280
290
290
290
440
480
520
440
560
500
540
590
640
710
780
860
940
1100
1180
1370
1390
1390
1390
1390
1390
1390
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
324
240
186
170
146
124
97
76
60
49
41
33
27.7
21.9
19.0
14.5
12.0
9.8
7.9
6.7
5.3
4.6
1010
1160
1280
1990
1420
2170
2210
2210
2210
2210
2210
2210
2170
1860
1770
1860
2040
2170
2210
2210
2210
2210
5.5
4.6
4.0
5.6
3.5
4.5
3.6
2.8
2.2
1.8
1.5
1.2
1.0
0.68
0.56
0.46
0.42
0.36
0.30
0.25
0.20
0.17
—
—
—
—
—
—
20
50
90
120
140
150
170
250
280
290
290
290
290
290
290
290
550
600
650
570
700
630
710
800
900
980
1080
1180
1280
1390
1390
1390
1390
1390
1390
1390
1390
1390
A 20
i
n1 = 1100 rpm
n2
[rpm]
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
204
1170
4.0
—
640
111
A 202_ 5.4
151
1350
3.4
—
700
82
A 202_ 7.3
117
1490
2.9
—
760
64
A 202_ 9.4
107
1650
2.9
—
670
58
A 202_ 10.3
92
2210
3.4
—
810
50
A 202_ 12.0
78
2210
2.9
70
780
43
A 202_ 14.1
61
2210
2.2
130
880
33
A 202_ 18.1
48
2210
1.8
160
990
26.0
A 202_ 23.1
38
2210
1.4
200
1100
20.5
A 202_ 29.2
31
2210
1.1
230
1200
16.9
A 202_ 35.4
25.5
2210
0.94
250
1300
13.9
A 202_ 43.2
20.5
2210
0.76
250
1390
11.2
A 202_ 53.7
17.4
2170
0.63
280
1390
9.5
A 202_ 63.1
13.8
1860
0.43
360
1390
7.5
A 202_ 79.9
11.9
1770
0.35
360
1390
6.5
A 202_ 92.3
9.1
2170
0.34
290
1390
5.0
A 203_ 120.5
7.5
2210
0.28
290
1390
4.1
A 203_ 146.1
6.2
2210
0.23
290
1390
3.4
A 203_ 178.3
5.0
2210
0.19
290
1390
2.7
A 203_ 221.3
4.2
2210
0.16
290
1390
2.3
A 203_ 260.5
3.3
2210
0.13
290
1390
1.8
A 203_ 329.4
2.9
2210
0.11
290
1390
1.6
A 203_ 380.9
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
1420
1640
1810
2210
1860
2210
2210
2210
2210
2210
2210
2210
2170
1860
1770
2210
2210
2210
2210
2210
2210
2210
2.6
2.2
1.9
2.1
1.6
1.6
1.2
0.96
0.76
0.62
0.51
0.41
0.34
0.23
0.19
0.19
0.16
0.13
0.10
0.09
0.07
0.06
—
—
—
140
—
240
300
330
370
400
420
420
440
460
470
290
290
290
290
290
290
290
780
850
920
890
1010
1030
1160
1280
1390
1390
1390
1390
1390
1390
1390
1390
1390
1390
1390
1390
1390
1390
(ratio)
Tn2
[Ib·in]
Pn1
[hp]
n1 = 600 rpm
Rn1
[Ib]
Rn2
[Ib]
51
3,630 Ib·in
A 30
i
(ratio)
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 302_
A 303_
A 303_
A 303_
A 303_
A 303_
A 303_
A 303_
5.4
7.0
9.3
10.5
11.8
13.6
18.0
22.8
29.3
36.6
43.4
52.7
66.0
76.5
97.5
120.5
150.7
178.5
216.6
271.5
314.5
400.8
n1 = 3500 rpm
n1 = 1750 rpm
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
648
500
376
333
297
257
194
154
119
96
81
66
53
46
36
29.0
23.2
19.6
16.2
12.9
11.1
8.7
1550
1720
1890
2460
2040
2660
2890
3110
3350
3580
3630
3630
3450
3100
2660
2150
2310
2420
2540
2660
2730
2830
16.8
14.3
11.9
13.7
10.1
11.4
9.4
8.0
6.7
5.7
4.9
4.0
3.1
2.4
1.6
1.1
0.92
0.81
0.70
0.59
0.52
0.42
—
—
—
150
—
170
180
180
180
160
170
190
250
330
360
250
260
270
280
290
290
290
560
600
660
620
720
680
750
820
890
970
1050
1150
1310
1460
1680
1920
2070
2160
2160
2160
2160
2160
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
324
250
188
167
148
129
97
77
60
48
40
33
26.5
22.9
17.9
14.5
11.6
9.8
8.1
6.4
5.6
4.4
1950
2170
2390
3010
2570
3270
3540
3630
3630
3630
3630
3630
3450
3100
2660
2660
2920
3050
3190
3360
3450
3190
10.5
9.1
7.5
8.4
6.4
7.0
5.7
4.6
3.6
2.9
2.4
2.0
1.5
1.2
0.80
0.66
0.58
0.51
0.44
0.37
0.33
0.24
—
—
—
220
—
240
260
300
360
400
420
430
450
470
490
290
290
290
290
290
290
290
700
760
830
800
910
870
960
1070
1210
1350
1460
1590
1780
1950
2160
2160
2160
2160
2160
2160
2160
2160
A 30
i
n1 = 1100 rpm
n2
[rpm]
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
204
2260
7.7
—
820
111
A 302_ 5.4
157
2510
6.6
—
880
86
A 302_ 7.0
118
2660
5.2
—
980
65
A 302_ 9.3
105
3460
6.0
270
930
57
A 302_ 10.5
93
2660
4.1
120
1100
51
A 302_ 11.8
81
3630
4.9
330
1030
44
A 302_ 13.6
61
3630
3.7
430
1190
33
A 302_ 18.0
48
3630
2.9
490
1330
26.3
A 302_ 22.8
38
3630
2.3
490
1490
20.5
A 302_ 29.3
30
3630
1.8
490
1650
16.4
A 302_ 36.6
25.3
3630
1.5
490
1780
13.8
A 302_ 43.4
20.9
3630
1.3
490
1930
11.4
A 302_ 52.7
16.7
3450
0.96
490
2150
9.1
A 302_ 66.0
14.4
3100
0.74
490
2160
7.8
A 302_ 76.5
11.3
2660
0.50
490
2160
6.2
A 302_ 97.5
9.1
3130
0.49
290
2160
5.0
A 303_ 120.5
7.3
3370
0.42
290
2160
4.0
A 303_ 150.7
6.2
3540
0.37
290
2160
3.4
A 303_ 178.5
5.1
3630
0.32
290
2160
2.8
A 303_ 216.6
4.1
3630
0.25
290
2160
2.2
A 303_ 271.5
3.5
3630
0.22
290
2160
1.9
A 303_ 314.5
2.7
3190
0.15
290
2160
1.5
A 303_ 400.8
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
2660
2660
2660
3630
2660
3630
3630
3630
3630
3630
3630
3630
3450
3100
2660
3630
3630
3630
3630
3630
3630
3190
4.9
3.8
2.9
3.5
2.3
2.7
2.0
1.6
1.2
0.99
0.84
0.69
0.52
0.41
0.27
0.31
0.25
0.21
0.17
0.14
0.12
0.08
—
190
330
490
420
490
490
490
490
490
490
490
490
490
490
290
290
290
290
290
290
290
1000
1130
1280
1210
1420
1370
1560
1730
1930
2120
2160
2160
2160
2160
2160
2160
2160
2160
2160
2160
2160
2160
(ratio)
52
Tn2
[Ib·in]
Pn1
[hp]
n1 = 600 rpm
Rn1
[Ib]
Rn2
[Ib]
7,520 Ib·in
A 41
i
(ratio)
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 412_
A 413_
A 413_
A 413_
A 413_
A 413_
A 413_
A 413_
A 413_
5.2
7.1
9.2
10.1
11.7
13.8
17.8
22.7
28.3
35.9
45.1
53.1
64.2
79.2
92.8
115.9
146.9
184.4
217.4
262.5
324.2
376.8
n1 = 3500 rpm
n2
[rpm]
Tn2
[Ib·in]
673
493
380
347
299
254
197
154
124
97
78
66
55
44
38
30
23.8
19.0
16.1
13.3
10.8
9.3
3980
4340
4690
3850
4870
4250
4560
4870
5270
5620
6020
6200
6550
7080
5750
7080
7520
7520
7520
7520
7520
7520
Pn1
[hp]
45
36
30
22
24
18.0
15.0
12.5
10.9
9.1
7.8
6.8
6.0
5.2
3.7
3.7
3.1
2.4
2.1
1.7
1.4
1.2
n1 = 1750 rpm
Rn1
[Ib]
Rn2
[Ib]
—
—
—
340
—
360
390
380
350
330
310
310
270
200
—
—
—
—
160
220
260
270
980
1090
1190
1360
1320
1500
1640
1790
1930
2100
2270
2410
2590
2770
3150
3280
3370
3370
3370
3370
3370
3370
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
337
246
190
173
150
127
98
77
62
49
39
33
27.3
22.1
18.9
15.1
11.9
9.5
8.0
6.7
5.4
4.6
4870
4870
4870
4730
4870
5180
5580
6020
6460
6900
7350
7520
7520
7080
7080
7520
7520
7520
7520
7520
7520
7520
27
20
15.5
13.7
12.2
11.0
9.2
7.7
6.7
5.6
4.8
4.1
3.4
2.6
2.3
1.9
1.5
1.2
1.0
0.86
0.69
0.60
—
—
—
460
—
490
520
500
480
460
440
440
470
560
—
—
120
230
300
320
340
350
1250
1450
1630
1720
1810
1910
2090
2270
2450
2650
2880
3080
3330
3370
3370
3370
3370
3370
3370
3370
3370
3370
A 41
i
n1 = 1100 rpm
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
212
4870
17.2
—
1540
115
A 412_ 5.2
155
4870
12.6
—
1770
85
A 412_ 7.1
120
4870
9.7
—
1980
65
A 412_ 9.2
109
5400
9.8
560
2010
59
A 412_ 10.1
94
4870
7.6
—
2190
51
A 412_ 11.7
80
5930
7.9
580
2230
43
A 412_ 13.8
62
6370
6.6
630
2430
34
A 412_ 17.8
48
6900
5.6
590
2630
26.4
A 412_ 22.7
39
7350
4.8
580
2860
21.2
A 412_ 28.3
31
7520
3.8
620
3150
16.7
A 412_ 35.9
24.4
7520
3.1
680
3370
13.3
A 412_ 45.1
20.7
7520
2.6
710
3370
11.3
A 412_ 53.1
17.1
7520
2.1
740
3370
9.3
A 412_ 64.2
13.9
7080
1.6
790
3370
7.6
A 412_ 79.2
11.9
7080
1.4
—
3370
6.5
A 413_ 92.8
9.5
7520
1.2
—
3370
5.2
A 413_ 115.9
7.5
7520
0.96
230
3370
4.1
A 413_ 146.9
6.0
7520
0.77
340
3370
3.3
A 413_ 184.4
5.1
7520
0.65
370
3370
2.8
A 413_ 217.4
4.2
7520
0.54
390
3370
2.3
A 413_ 262.5
3.4
7520
0.44
400
3370
1.9
A 413_ 324.2
2.9
7520
0.38
410
3370
1.6
A 413_ 376.8
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
4870
4870
4870
6460
4870
7080
7520
7520
7520
7520
7520
7520
7520
7080
7080
7520
7520
7520
7520
7520
7520
7520
9.4
6.9
5.3
6.4
4.2
5.1
4.2
3.3
2.7
2.1
1.7
1.4
1.2
0.89
0.78
0.67
0.53
0.42
0.36
0.29
0.24
0.20
—
180
400
710
520
740
790
790
790
790
790
790
790
790
120
250
400
450
470
490
490
490
2000
2270
2540
2450
2790
2720
2990
3330
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
(ratio)
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
n1 = 600 rpm
Rn1
[Ib]
Rn2
[Ib]
53
A 50
i
(ratio)
A 502_
A 502_
A 502_
A 502_
A 502_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
7.7
9.7
13.1
16.6
20.9
24.0
26.4
32.4
35.6
40.9
45.0
51.7
56.8
63.9
70.2
81.5
89.5
99.5
109.4
118.0
129.7
140.6
154.6
173.4
190.6
211.0
232.0
260.9
286.8
332.6
365.6
406.4
446.8
481.6
529.5
574.2
631.2
707.9
778.2
13,300 Ib·in
n1 = 3500 rpm
n2
[rpm]
Tn2
[Ib·in]
455
361
267
211
167
146
133
108
98
86
78
68
62
55
50
43
39
35
32
29.7
27.0
24.9
22.6
20.2
18.4
16.6
15.1
13.4
12.2
10.5
9.6
8.6
7.8
7.3
6.6
6.1
5.5
4.9
4.5
4870
5310
5310
5660
5660
10200
10600
11400
11900
12500
13000
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
Pn1
[hp]
37
32
24
19.9
15.8
25
24
21
20
18.3
17.3
15.4
14.0
12.5
11.3
9.8
8.9
8.0
7.3
6.8
6.1
5.7
5.2
4.6
4.2
3.9
3.5
3.1
2.8
2.5
2.2
2.0
1.8
1.7
1.5
1.4
1.3
1.2
1.0
n1 = 1750 rpm
Rn1
[Ib]
Rn2
[Ib]
—
—
—
—
120
180
240
170
240
160
220
140
250
200
300
260
360
280
380
310
410
320
420
330
430
300
340
360
370
390
400
410
410
420
420
430
440
440
450
1780
1920
2160
2340
2560
1580
1610
1040
1760
1830
1870
2020
2140
2320
2450
2680
2830
3010
3170
3300
3460
3620
3800
4020
4230
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
227
180
134
105
84
73
66
54
49
43
39
34
31
27.4
24.9
21.5
19.6
17.6
16.0
14.8
13.5
12.4
11.3
10.1
9.2
8.3
7.5
6.7
6.1
5.3
4.8
4.3
3.9
3.6
3.3
3.0
2.8
2.5
2.2
6200
6640
6640
7080
7080
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
24
20
14.8
12.5
9.9
16.6
15.1
12.3
11.2
9.7
8.9
7.7
7.0
6.2
5.7
4.9
4.5
4.0
3.6
3.4
3.1
2.8
2.6
2.3
2.1
1.9
1.8
1.6
1.4
1.2
1.1
1.0
0.91
0.85
0.77
0.71
0.65
0.58
0.52
—
—
—
—
160
180
320
330
460
440
560
500
610
550
660
620
690
640
690
670
700
680
710
690
710
460
470
490
490
490
490
490
490
490
490
490
490
490
490
2240
2430
2720
2940
3240
1920
2050
2340
2470
2680
2830
3060
3240
3440
3620
3890
4090
4320
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
54
13,300 Ib·in
A 50
i
(ratio)
A 502_
A 502_
A 502_
A 502_
A 502_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 503_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
A 504_
7.7
9.7
13.1
16.6
20.9
24.0
26.4
32.4
35.6
40.9
45.0
51.7
56.8
63.9
70.2
81.5
89.5
99.5
109.4
118.0
129.7
140.6
154.6
173.4
190.6
211.0
232.0
260.9
286.8
332.6
365.6
406.4
446.8
481.6
529.5
574.2
631.2
707.9
778.2
n1 = 1100 rpm
n1 = 600 rpm
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
143
113
84
66
53
46
42
34
31
26.9
24.4
21.3
19.4
17.2
15.7
13.5
12.3
11.1
10.1
9.3
8.5
7.8
7.1
6.3
5.8
5.2
4.7
4.2
3.8
3.3
3.0
2.7
2.5
2.3
2.1
1.9
1.7
1.6
1.4
6810
7350
7350
7790
7790
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
16.2
13.9
10.3
8.6
6.8
10.4
9.5
7.7
7.0
6.1
5.6
4.8
4.4
3.9
3.6
3.1
2.8
2.5
2.3
2.1
1.9
1.8
1.6
1.4
1.3
1.2
1.1
0.98
0.90
0.77
0.70
0.63
0.57
0.53
0.48
0.45
0.41
0.36
0.33
—
—
160
200
280
450
590
610
740
720
790
780
790
790
790
790
790
790
790
790
790
790
790
790
790
490
490
490
490
490
490
490
490
490
490
490
490
490
490
2630
2830
3190
3460
3780
2540
2700
3010
3190
3440
3600
3870
4070
4320
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
n2
[rpm]
78
62
46
36
28.7
25.0
22.7
18.5
16.9
14.7
13.3
11.6
10.6
9.4
8.5
7.4
6.7
6.0
5.5
5.1
4.6
4.3
3.9
3.5
3.1
2.8
2.6
2.3
2.1
1.8
1.6
1.5
1.3
1.2
1.1
1.0
0.95
0.85
0.77
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
7970
8850
8850
8850
8850
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
13300
10.4
9.1
6.8
5.3
4.2
5.7
5.2
4.2
3.8
3.3
3.0
2.6
2.4
2.1
1.9
1.7
1.5
1.4
1.2
1.2
1.1
0.97
0.88
0.79
0.72
0.66
0.60
0.54
0.49
0.42
0.38
0.34
0.31
0.29
0.26
0.24
0.22
0.20
0.18
—
—
210
390
480
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
490
490
490
490
490
490
490
490
490
490
490
490
490
490
3210
3440
3890
4250
4500
3530
3710
4110
4320
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
4500
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
55
24,800 Ib·in
A 60
i
(ratio)
A 602_
A 602_
A 602_
A 602_
A 602_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
7.9
10.3
12.7
16.7
20.6
25.7
27.9
31.7
34.3
41.7
45.2
51.3
55.6
65.0
70.4
79.7
86.4
99.5
107.8
123.0
133.3
144.0
156.0
171.5
185.8
208.7
226.1
264.3
286.3
324.2
351.2
404.7
438.4
500.3
542.0
585.8
634.6
697.3
755.4
n1 = 3500 rpm
n2
[rpm]
Tn2
[Ib·in]
443
340
276
210
170
136
125
110
102
84
77
68
63
54
50
44
41
35
32
28.5
26.3
24.3
22.4
20.4
18.8
16.8
15.5
13.2
12.2
10.8
10.0
8.6
8.0
7.0
6.5
6.0
5.5
5.0
4.6
8410
8410
8850
9740
24400
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
Pn1
[hp]
62
48
41
34
69
58
53
47
43
36
33
29
27
23
21
18.6
17.2
14.9
13.8
12.1
11.1
10.3
9.5
8.7
8.0
7.3
6.7
5.8
5.3
4.7
4.3
3.8
3.5
3.0
2.8
2.6
2.4
2.2
2.0
n1 = 1750 rpm
Rn1
[Ib]
Rn2
[Ib]
—
—
—
150
160
—
—
—
—
—
110
—
210
160
300
220
360
280
420
340
470
360
500
380
510
400
470
560
570
590
600
620
620
640
640
650
660
660
670
5060
5530
5890
6430
6740
6050
6230
6520
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
n2
[rpm]
Tn2
[Ib·in]
222
170
138
105
85
68
63
55
51
42
39
34
31
26.9
24.9
22.0
20.3
17.6
16.2
14.2
13.1
12.2
11.2
10.2
9.4
8.4
7.7
6.6
6.1
5.4
5.0
4.3
4.0
3.5
3.2
3.0
2.8
2.5
2.3
10600
10600
11100
11500
12400
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
56
Pn1
[hp]
39
30
26
20
17.6
29
27
23
22
17.8
16.4
14.5
13.4
11.4
10.6
9.3
8.6
7.5
6.9
6.0
5.6
5.2
4.8
4.3
4.0
3.6
3.4
2.9
2.7
2.3
2.2
1.9
1.7
1.5
1.4
1.3
1.2
1.1
1.0
Rn1
[Ib]
Rn2
[Ib]
—
—
130
230
180
130
320
310
490
490
650
600
750
690
840
760
900
820
910
880
920
900
930
910
930
700
720
750
760
780
790
790
790
790
790
790
790
790
790
6230
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
24,800 Ib·in
A 60
i
(ratio)
A 602_
A 602_
A 602_
A 602_
A 602_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 603_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
A 604_
7.9
10.3
12.7
16.7
20.6
25.7
27.9
31.7
34.3
41.7
45.2
51.3
55.6
65.0
70.4
79.7
86.4
99.5
107.8
123.0
133.3
144.0
156.0
171.5
185.8
208.7
226.1
264.3
286.3
324.2
351.2
404.7
438.4
500.3
542.0
585.8
634.6
697.3
755.4
n1 = 1100 rpm
n1 = 600 rpm
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
139
107
87
66
53
43
39
35
32
26.4
24.3
21.4
19.8
16.9
15.6
13.8
12.7
11.1
10.2
8.9
8.3
7.6
7.1
6.4
5.9
5.3
4.9
4.2
3.8
3.4
3.1
2.7
2.5
2.2
2.0
1.9
1.7
1.6
1.5
11500
11500
12400
12800
13700
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
27
20
17.9
14.1
12.2
18.2
16.7
14.7
13.6
11.2
10.3
9.1
8.4
7.2
6.6
5.9
5.4
4.7
4.3
3.8
3.5
3.2
3.0
2.7
2.5
2.3
2.1
1.8
1.7
1.5
1.4
1.2
1.1
0.96
0.88
0.82
0.75
0.69
0.63
—
250
250
380
330
550
740
720
900
910
1040
1010
1060
1050
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
790
790
790
790
790
790
790
790
790
790
790
790
790
790
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
n2
[rpm]
76
58
47
36
29.1
23.3
21.5
18.9
17.5
14.4
13.3
11.7
10.8
9.2
8.5
7.5
6.9
6.0
5.6
4.9
4.5
4.2
3.8
3.5
3.2
2.9
2.7
2.3
2.1
1.9
1.7
1.5
1.4
1.2
1.1
1.0
0.95
0.86
0.79
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
13700
13700
15000
15000
15900
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
24800
17.4
13.3
11.8
9.0
7.7
9.9
9.1
8.0
7.4
6.1
5.6
5.0
4.6
3.9
3.6
3.2
2.9
2.6
2.4
2.1
1.9
1.8
1.6
1.5
1.4
1.3
1.2
0.99
0.91
0.81
0.74
0.65
0.60
0.52
0.48
0.45
0.41
0.37
0.35
—
370
310
570
560
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
1060
790
790
790
790
790
790
790
790
790
790
790
790
790
790
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
6740
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
57
44,300 Ib·in
A 70
i
(ratio)
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
58
9.4
10.2
12.1
13.1
15.4
16.7
19.7
21.3
23.5
27.8
30.1
35.4
38.4
45.2
49.0
53.2
57.7
66.9
72.5
79.3
85.9
96.2
104.2
120.6
130.7
141.9
153.7
169.8
183.9
220.3
238.6
292.0
316.4
369.4
400.2
475.8
515.4
595.0
644.6
705.1
763.9
855.3
926.5
1072
1161
1242
1346
1583
1715
n1 = 3500 rpm
n2
[rpm]
Tn2
[Ib·in]
372
343
289
267
227
210
178
164
149
126
116
99
91
77
71
66
61
52
48
44
41
36
34
29.0
26.8
24.7
22.8
20.6
19.0
15.9
14.7
12.0
11.1
9.5
8.7
7.4
6.8
5.9
5.4
5.0
4.6
4.1
3.8
3.3
3.0
2.8
2.6
2.2
2.0
20400
21200
21200
23000
23900
25200
25700
26600
31000
30500
32700
32300
35000
34500
37600
36300
39400
38500
42000
40700
43800
42900
44300
44300
44300
44300
29200
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
Pn1
[hp]
130
125
105
105
93
90
78
75
79
66
65
55
55
46
46
41
41
34
35
31
31
27
25
22
20
18.7
11.4
16.0
14.8
12.4
11.4
9.3
8.6
7.4
6.8
5.7
5.3
4.6
4.2
3.9
3.6
3.2
2.9
2.5
2.3
2.2
2.0
1.7
1.6
n1 = 1750 rpm
Rn1
[Ib]
Rn2
[Ib]
430
560
540
540
470
560
460
620
1110
1120
1120
1130
1130
1140
1140
1130
1130
1140
1130
1130
1130
1120
1140
1130
1150
1130
1220
250
330
350
420
430
470
470
490
480
490
490
500
490
510
500
510
500
510
510
510
510
520
5820
5930
6290
6380
6720
6830
7220
7400
7400
7890
8000
8520
8630
9170
9280
9640
9760
10300
10500
10900
11000
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
n2
[rpm]
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
186
172
145
134
114
105
89
82
74
63
58
49
46
39
36
33
30
26.2
24.1
22.1
20.4
18.2
16.8
14.5
13.4
12.3
11.4
10.3
9.5
7.9
7.3
6.0
5.5
4.7
4.4
3.7
3.4
2.9
2.7
2.5
2.3
2.0
1.9
1.6
1.5
1.4
1.3
1.1
1.0
24800
28300
28300
29600
29600
31900
32700
35400
38100
37200
40300
39800
42900
42500
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
35800
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
79
83
70
68
58
57
50
50
49
40
40
34
33
28
27
25
23
19.8
18.3
16.7
15.4
13.8
12.7
11.0
10.2
9.4
7.0
8.0
7.4
6.2
5.7
4.7
4.3
3.7
3.4
2.9
2.6
2.3
2.1
1.9
1.8
1.6
1.5
1.3
1.2
1.1
1.0
0.86
0.79
570
330
310
470
550
580
400
410
1410
1420
1420
1430
1430
1440
1450
1430
1460
1460
1480
1470
1490
1480
1500
1490
1500
1490
1560
570
600
610
620
630
640
640
650
650
660
660
670
660
670
670
670
670
680
670
680
670
680
7170
7170
7620
7780
8250
8360
8830
8950
9100
9730
9870
10500
10600
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
44,300 Ib·in
A 70
i
(ratio)
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 703_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
A 704_
9.4
10.2
12.1
13.1
15.4
16.7
19.7
21.3
23.5
27.8
30.1
35.4
38.4
45.2
49.0
53.2
57.7
66.9
72.5
79.3
85.9
96.2
104.2
120.6
130.7
141.9
153.7
169.8
183.9
220.3
238.6
292.0
316.4
369.4
400.2
475.8
515.4
595.0
644.6
705.1
763.9
855.3
926.5
1072
1161
1242
1346
1583
1715
n1 = 1100 rpm
n2
[rpm]
117
108
91
84
71
66
56
52
47
40
37
31
28.6
24.3
22.4
20.7
19.1
16.4
15.2
13.9
12.8
11.4
10.6
9.1
8.4
7.8
7.2
6.5
6.0
5.0
4.6
3.8
3.5
3.0
2.7
2.3
2.1
1.8
1.7
1.6
1.4
1.3
1.2
1.0
0.95
0.89
0.82
0.69
0.64
n1 = 600 rpm
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
26600
28800
32300
35000
32700
35400
32700
35400
43400
42500
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
40700
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
53
53
50
50
40
40
31
31
35
29
28
24
22
18.5
17.0
15.7
14.5
12.5
11.5
10.5
9.7
8.7
8.0
6.9
6.4
5.9
5.0
5.0
4.7
3.9
3.6
2.9
2.7
2.3
2.1
1.8
1.7
1.4
1.3
1.2
1.1
1.0
0.92
0.80
0.74
0.69
0.64
0.54
0.50
960
960
360
370
790
800
1100
1110
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
710
730
740
750
750
770
770
780
780
790
780
790
790
790
790
790
790
790
790
790
790
790
8300
8410
8700
8810
9490
9620
10400
10500
10400
11100
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
n2
[rpm]
64
59
50
46
39
36
30
28.2
25.5
21.6
19.9
16.9
15.6
13.3
12.2
11.3
10.4
9.0
8.3
7.6
7.0
6.2
5.8
5.0
4.6
4.2
3.9
3.5
3.3
2.7
2.5
2.1
1.9
1.6
1.5
1.3
1.2
1.0
0.93
0.85
0.79
0.70
0.65
0.56
0.52
0.48
0.45
0.38
0.35
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
26600
28800
32300
35000
32700
35400
32700
35400
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
44300
29
29
27
27
22
22
17.0
17.1
19.4
16.4
15.1
12.9
11.8
10.1
9.3
8.6
7.9
6.8
6.3
5.7
5.3
4.7
4.4
3.8
3.5
3.2
3.0
2.7
2.5
2.1
2.0
1.6
1.5
1.3
1.2
0.98
0.91
0.78
0.72
0.66
0.61
0.55
0.50
0.44
0.40
0.38
0.35
0.29
0.27
1570
1570
1450
1460
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
10200
10400
10800
10900
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
11200
59
70,800 Ib·in
A 80
i
(ratio)
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
9.8
10.7
12.3
13.3
15.5
16.7
19.3
20.9
22.6
24.5
28.2
30.6
35.5
38.5
44.5
48.2
55.2
59.8
66.8
72.4
82.3
89.2
96.0
104.0
116.0
125.6
144.7
156.8
171.3
214.7
232.6
277.3
300.4
354.0
383.5
442.1
478.9
560.5
607.2
703.5
762.1
829.5
898.7
1001
1085
1237
1340
1438
1558
n1 = 3500 rpm
n2
[rpm]
Tn2
[Ib·in]
357
327
285
263
226
210
181
167
155
143
124
114
99
91
79
73
63
59
52
48
43
39
36
34
30
27.9
24.2
22.3
20.4
16.3
15.0
12.6
11.7
9.9
9.1
7.9
7.3
6.2
5.8
5.0
4.6
4.2
3.9
3.5
3.2
2.8
2.6
2.4
2.2
27400
30500
30500
30500
29200
31900
31000
34000
44700
48700
47300
46500
50400
54400
53500
58000
56600
61500
60200
65000
63700
69000
66400
70800
70400
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
Pn1
[hp]
167
171
149
137
113
114
96
97
118
119
100
91
85
85
72
72
61
62
54
54
46
46
41
41
36
34
29
27
25
20
18.7
15.7
14.5
12.3
11.3
9.8
9.1
7.8
7.2
6.2
5.7
5.2
4.8
4.3
4.0
3.5
3.2
3.0
2.8
n1 = 1750 rpm
Rn1
[Ib]
Rn2
[Ib]
—
—
—
260
350
320
420
380
1010
1000
1060
1090
1060
1060
1080
1080
1060
1050
1050
1050
1030
1030
990
1010
950
1040
970
1070
—
—
—
120
200
180
260
230
310
280
350
320
390
340
410
360
430
370
440
390
450
5910
5910
6230
6450
6880
6950
7370
7440
7010
7040
7530
7850
8090
8140
8680
8720
9280
9330
9820
9890
10500
10500
11000
11100
11600
12000
12700
13100
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
n2
[rpm]
Tn2
[Ib·in]
179
164
142
132
113
105
91
84
77
71
62
57
49
45
39
36
32
29.3
26.2
24.2
21.3
19.6
18.2
16.8
15.1
13.9
12.1
11.2
10.2
8.2
7.5
6.3
5.8
4.9
4.6
4.0
3.7
3.1
2.9
2.5
2.3
2.1
1.9
1.7
1.6
1.4
1.3
1.2
1.1
34500
38100
38100
38100
36300
39800
38900
42500
55300
59700
58400
57100
62000
67300
65900
70800
69900
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
60
Pn1
[hp]
105
107
93
86
70
71
60
61
73
73
62
56
52
52
44
44
38
35
32
29
26
24
22
20
18.3
16.9
14.7
13.5
12.7
10.1
9.3
7.8
7.2
6.1
5.7
4.9
4.5
3.9
3.6
3.1
2.9
2.6
2.4
2.2
2.0
1.8
1.6
1.5
1.4
Rn1
[Ib]
Rn2
[Ib]
—
—
—
260
390
330
420
390
1310
1310
1340
1380
1350
1350
1360
1370
1360
1390
1380
1410
1400
1430
1410
1430
1420
1440
1430
1450
280
310
410
430
510
490
570
550
600
590
610
600
620
610
620
620
630
620
630
620
640
7220
7260
7640
7910
8450
8520
9040
9130
8630
8680
9260
9670
9960
10000
10700
10800
11400
11800
12300
12700
13300
13800
14200
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
70,800 Ib·in
A 80
i
(ratio)
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 803_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
A 804_
9.8
10.7
12.3
13.3
15.5
16.7
19.3
20.9
22.6
24.5
28.2
30.6
35.5
38.5
44.5
48.2
55.2
59.8
66.8
72.4
82.3
89.2
96.0
104.0
116.0
125.6
144.7
156.8
171.3
214.7
232.6
277.3
300.4
354.0
383.5
442.1
478.9
560.5
607.2
703.5
762.1
829.5
898.7
1001
1085
1237
1340
1438
1558
n1 = 1100 rpm
n2
[rpm]
112
103
89
83
71
66
57
53
49
45
39
36
31
28.6
24.7
22.8
19.9
18.4
16.5
15.2
13.4
12.3
11.5
10.6
9.5
8.8
7.6
7.0
6.4
5.1
4.7
4.0
3.7
3.1
2.9
2.5
2.3
2.0
1.8
1.6
1.4
1.3
1.2
1.1
1.0
0.89
0.82
0.76
0.71
n1 = 600 rpm
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
39400
43400
43400
43400
41200
45100
44300
48400
62800
68100
66800
65500
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
76
76
66
61
50
51
43
44
52
52
45
40
38
35
30
28
24
22
20
18.4
16.2
14.9
13.9
12.8
11.5
10.6
9.2
8.5
8.0
6.4
5.9
4.9
4.5
3.9
3.6
3.1
2.9
2.4
2.3
1.9
1.8
1.6
1.5
1.4
1.3
1.1
1.0
0.95
0.88
—
—
—
310
480
410
510
460
1530
1530
1560
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
520
560
650
670
700
700
710
710
730
720
740
730
750
740
750
740
760
740
760
750
760
8250
8300
8750
9040
9670
9760
10300
10400
9870
9910
10600
11000
11400
11800
12500
12900
13600
14000
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
n2
[rpm]
61
56
49
45
39
36
31
28.7
26.5
24.5
21.3
19.6
16.9
15.6
13.5
12.4
10.9
10.0
9.0
8.3
7.3
6.7
6.3
5.8
5.2
4.8
4.1
3.8
3.5
2.8
2.6
2.2
2.0
1.7
1.6
1.4
1.3
1.1
0.99
0.85
0.79
0.72
0.67
0.60
0.55
0.49
0.45
0.42
0.39
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
46900
51800
51800
51800
49100
54000
53100
57500
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
70800
49
50
43
40
33
33
28
28
32
30
26
24
20
18.9
16.3
15.1
13.2
12.2
10.9
10.0
8.8
8.2
7.6
7.0
6.3
5.8
5.0
4.6
4.4
3.5
3.2
2.7
2.5
2.1
1.9
1.7
1.6
1.3
1.2
1.1
0.98
0.90
0.83
0.74
0.69
0.60
0.56
0.52
0.48
—
—
—
360
570
480
570
570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
1570
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
790
9800
9900
10400
10800
11500
11600
12300
12500
12000
12400
13100
13600
14400
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
14600
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
61
123,900 Ib·in
A 90
i
(ratio)
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
9.7
10.5
12.6
13.7
15.6
16.9
19.4
21.0
22.3
24.1
29.1
31.5
35.8
38.8
44.6
48.3
55.0
59.6
68.8
74.5
80.4
87.1
98.6
106.8
116.9
126.6
139.4
151.0
166.1
180.0
209.0
226.4
281.4
304.9
355.8
385.4
449.2
486.6
555.3
601.6
707.9
766.9
865.1
937
1025
1111
1222
1324
1507
1632
n1 = 3500 rpm
n2
[rpm]
Tn2
[Ib·in]
361
333
278
255
224
207
180
167
157
145
120
111
98
90
78
72
64
59
51
47
44
40
35
33
29.9
27.6
25.1
23.2
21.1
19.4
16.7
15.5
12.4
11.5
9.8
9.1
7.8
7.2
6.3
5.8
4.9
4.6
4.0
3.7
3.4
3.2
2.9
2.6
2.3
2.1
69000
73900
75200
71200
78800
85400
83200
89800
87200
94700
93400
101300
98700
107100
104400
113300
111100
119900
118100
123900
123000
123900
123900
123900
123900
94300
91600
99100
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
Pn1
[hp]
426
422
358
311
303
303
257
256
234
235
192
193
165
165
140
141
121
121
103
100
92
85
75
69
63
45
39
39
46
42
36
34
27
25
21
19.7
16.9
15.6
13.7
12.7
10.8
9.9
8.8
8.1
7.4
6.9
6.2
5.7
5.1
4.7
n1 = 1750 rpm
Rn1
[Ib]
Rn2
[Ib]
550
590
610
1050
730
730
710
720
2170
2170
2200
2200
2230
2230
2230
2230
2240
2240
2240
2250
2230
2270
2250
2270
2270
2380
2380
2380
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
6200
6230
6700
7150
7190
7170
7710
7710
8030
7980
8750
8720
9350
9330
10000
10000
10700
10700
11400
11600
12000
12500
13200
13600
14200
16100
16700
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
n2
[rpm]
Tn2
[Ib·in]
180
167
139
128
112
104
90
83
78
73
60
56
49
45
39
36
32
29.4
25.4
23.5
21.8
20.1
17.7
16.4
15.0
13.8
12.6
11.6
10.5
9.7
8.4
7.7
6.2
5.7
4.9
4.5
3.9
3.6
3.2
2.9
2.5
2.3
2.0
1.9
1.7
1.6
1.4
1.3
1.2
1.1
80100
86700
92500
98700
96900
104900
102200
109700
107500
116400
115100
123900
121700
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
116400
112800
122100
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
62
Pn1
[hp]
247
247
220
216
186
186
158
156
144
145
118
118
102
96
83
77
67
62
54
50
46
43
38
35
32
28
24
24
23
21
18.2
16.8
13.5
12.5
10.7
9.9
8.5
7.8
6.9
6.3
5.4
5.0
4.4
4.1
3.7
3.4
3.1
2.9
2.5
2.3
Rn1
[Ib]
Rn2
[Ib]
1240
1240
1080
1140
1220
1220
1200
1240
2740
2740
2790
2790
2810
2860
2860
2880
2880
2920
2920
2940
2920
2970
2940
2990
2970
3010
3010
3010
—
—
—
—
—
—
—
150
—
210
170
270
240
330
260
360
300
390
310
400
320
410
7870
7850
8250
8300
8860
8830
9510
9530
9870
9850
10800
10800
11500
11800
12600
13000
13800
14300
15200
15700
16200
16700
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
123,900 Ib·in
A 90
i
(ratio)
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 903_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
A 904_
9.7
10.5
12.6
13.7
15.6
16.9
19.4
21.0
22.3
24.1
29.1
31.5
35.8
38.8
44.6
48.3
55.0
59.6
68.8
74.5
80.4
87.1
98.6
106.8
116.9
126.6
139.4
151.0
166.1
180.0
209.0
226.4
281.4
304.9
355.8
385.4
449.2
486.6
555.3
601.6
707.9
766.9
865.1
937
1025
1111
1222
1324
1507
1632
n1 = 1100 rpm
n2
[rpm]
113
105
87
80
71
65
57
52
49
46
38
35
31
28.4
24.7
22.8
20.0
18.5
16.0
14.8
13.7
12.6
11.2
10.3
9.4
8.7
7.9
7.3
6.6
6.1
5.3
4.9
3.9
3.6
3.1
2.9
2.4
2.3
2.0
1.8
1.6
1.4
1.3
1.2
1.1
0.99
0.90
0.83
0.73
0.67
Tn2
[Ib·in]
80100
86700
104400
112800
102200
110600
102200
109700
122600
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
Pn1
[hp]
155
155
156
155
123
123
99
98
104
97
80
74
65
60
52
48
42
39
34
31
29
27
24
22
20
18.4
16.7
15.4
14.4
13.3
11.4
10.6
8.5
7.8
6.7
6.2
5.3
4.9
4.3
4.0
3.4
3.1
2.8
2.6
2.3
2.2
2.0
1.8
1.6
1.5
n1 = 600 rpm
Rn1
[Ib]
Rn2
[Ib]
2200
200
1510
1520
1960
1970
2160
2200
3190
3240
3280
3330
3350
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
—
—
—
110
160
280
280
390
350
450
410
510
480
580
500
600
540
630
550
640
540
650
9510
9550
9460
9460
10500
10500
11600
11600
11300
11700
12600
13100
13900
14400
15200
15700
16600
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
n2
[rpm]
62
57
48
44
38
36
31
28.6
26.9
24.9
20.6
19.0
16.8
15.5
13.5
12.4
10.9
10.1
8.7
8.1
7.5
6.9
6.1
5.6
5.1
4.7
4.3
4.0
3.6
3.3
2.9
2.7
2.1
2.0
1.7
1.6
1.3
1.2
1.1
1.0
0.85
0.78
0.69
0.64
0.59
0.54
0.49
0.45
0.40
0.37
Tn2
[Ib·in]
Pn1
[hp]
Rn1
[Ib]
Rn2
[Ib]
80100
86700
104400
113300
102200
110600
102200
109700
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
123900
85
85
85
85
67
67
54
54
57
53
44
40
36
33
29
26
23
21
18.5
17.1
15.8
14.6
12.9
11.9
10.9
10.0
9.1
8.4
7.9
7.2
6.2
5.8
4.6
4.3
3.7
3.4
2.9
2.7
2.3
2.2
1.8
1.7
1.5
1.4
1.3
1.2
1.1
0.99
0.87
0.80
3370
3370
3030
3030
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
3370
160
310
340
470
520
650
650
760
720
790
790
790
790
790
790
790
790
790
790
790
790
790
12100
12200
12300
12300
13500
13600
14700
14900
14500
15000
16200
16800
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
16900
(–) Contact our Technical Service advising radial load data (rotation direction, angle, offset)
63
2.14 MOTOR AVAILABILITY
Matches of motors and gearboxes listed in tables (B12),
(B13) and (B14) here after are purely based on geometrical compatibility. When selecting a gearmotor refer to
procedure described at chapter 1.8, based on torque/hp
rating. Combinations featuring the gear ratios within
brackets are not possible.
(B12)
(IM B5)
63
71
80
90
100
112
A 10 2
i=
5.5_91.6
5.5_91.6
5.5_65.9
5.5_65.9
5.5_65.9
5.5_65.9
A 20 2
i=
7.3_92.3
(10.3)
7.3_92.3
(10.3)
5.4_79.9
5.4_79.9
5.4_79.9
5.4_79.9
A 20 3
i=
A 30 2
i=
A 30 3
i=
120.5_400.8 120.5_400.8 120.5_400.8 120.5_400.8 120.5_400.8 120.5_400.8
A 41 2
i=
11.7_79.2
11.7_79.2
(13.8_17.8) (13.8_17.8)
A 41 3
i=
92.8_376.8
A 50 2
i=
A 50 3
132
160
180
200
225
120.5_380.9 120.5_380.9 120.5_380.9 120.5_380.9 120.5_380.9 120.5_380.9
9.3_97.5
(10.5;13.6)
9.3_97.5
(10.5;13.6)
5.4_97.5
5.4_97.5
5.4_97.5
5.4_97.5
5.2_79.2
5.2_79.2
5.2_79.2
5.2_79.2
92.8_376.8
92.8_376.8
92.8_376.8
92.8_376.8
92.8_376.8
20.9
20.9
7.7_20.9
7.7_20.9
7.7_20.9
7.7_20.9
7.7_20.9
7.7_20.9
7.7_20.9
i=
51.7_190.6
51.7_190.6
24_190.6
24_190.6
24_190.6
24_190.6
24_109.4
24_109.4
24_109.4
A 50 4
i=
211_778.2
211_778.2
211_778.2
211_778.2
211_778.2
211_778.2
A 60 2
i=
10.3_20.6
10.3_20.6
10.3_20.6
10.3_20.6
7.9_20.6
7.9_20.6
7.9_20.6
A 60 3
i=
65.0_185.8
25.7_185.8
25.7_185.8
25.7_185.8
25.7_185.8
25.7_133.3
25.7_133.3
25.7_133.3
A 60 4
i=
208.7_755.4 208.7_755.4 208.7_755.4 208.7_755.4 208.7_755.4 208.7_755.4
A 70 3
i=
15.4;153.7
(23.5_30.1)
9.4_153.7
9.4_153.7
9.4_38.4
(19.7_21.3)
A 70 4
i=
A 80 3
i=
9.8_156.8
9.8_104
9.8_104
A 80 4
i=
A 90 3
i=
9.7_151
9.7_126.6
9.7_126.6
A 90 4
i=
64
250
65.0_185.8
66.9_153.7
292_1715
292_1715
354_1558
66.9_153.7
66.9_153.7
169.8_1715 169.8_1715 169.8_1715 169.8_1715 169.8_644.6
82.3_156.8
354_1558
66.9_153.7
5.2_45.1
82.3_156.8
82.3_156.8
82.3_156.8
19.3_156.8 12.3_156.8
(22.6_38.5) (22.6_24.5)
171.3_1558 171.3_1558 171.3_1558 171.3_1558 171.3_762.1
98.6_151
98.6_151
98.6_151
98.6_151
55_151
15.6_151
(22.3_31.5)
449.2_1632 449.2_1632 166.1_1632 166.1_1632 166.1_1632 166.1_1632 166.1_937.2 166.1_937.2 166.1_937.2
9.7_126.6
(B13)
NEMA Motor frame
A 10 2
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
0.16…1
1.5…2
3…5
7.5…10
15…20
25…30
40…50
5.5_91.6
5.5_65.9
5.5_65.9
5.4_79.9
5.4_79.9
120.5_380.9
120.5_380.9
5.4_97.5
5.4_97.5
120.5_400.8
120.5_400.8
5.2_79.2
5.2_79.2
7.3_92.3
A 20 2
(10.3)
A 20 3
120.5_380.9
9.3_97.5
A 30 2
(10.5_13.6)
A 30 3
120.5_400.8
11.7_79.2
A 41 2
(13.8_17.8)
5.2_45.1
A 41 3
92.8_376.8
92.8_376.8
92.8_376.8
A 50 2
20.9
7.7_20.9
7.7_20.9
7.7_20.9
7.7_20.9
7.7_20.9
A 50 3
51.7_190.6
24.0_190.6
24.0_190.6
24.0_109.4
24.0_109.4
24.0_109.4
211.0_778.2
211.0_778.2
211.0_778.2
10.3_20.6
10.3_20.6
7.9_20.6
7.9_20.6
7.9_20.6
25.7_133.3
25.7_133.3
9.4_153.7
9.4_153.7
A 50 4
i=
A 60 2
A 60 3
65.5_185.8
25.7_185.8
25.7_185.8
25.7_133.3
A 60 4
208.7_755.4
208.7_755.4
208.7_755.4
208.7_755.4
66.9_153.7
66.9_153.7
169.8_1715
169.8_1715
A 70 3
A 70 4
292_1715
A 80 3
A 80 4
82.3_156.8
354.0_1558
171.3_1558
A 90 3
A 90 4
449.2_1632
166.1_1632
15.4_153.7
(23.5_30.1)
169.8_644.6
19.3_156.8
(22.6_38.5)
171.3_1558
171.3_762.1
98.6_151.0
55.0_151.0
166.1_1632
166.1_937.2
12.3_156.8
(22.6_24.5)
15.6_151.0
(22.3_31.5)
166.1_937.2
9.8_156.8
9.8_104.0
9.7_151.0
9.7_126.6
166.1_937.2
65
(B14)
Integral gearmotors
M05
M1
M2
M3
5.5_91.6
5.5_91.6
5.5_65.9
5.5_65.9
7.3_92.3
7.3_92.3
(10.3)
(10.3)
5.4_79.9
5.4_79.9
120.5_380.9
120.5_380.9
5.4_97.5
5.4_97.5
120.5_400.8
120.5_400.8
5.2_79.2
5.2_79.2
92.8_376.8
92.8_376.8
92.8_376.8
A 50 2
20.9
7.7_20.9
7.7_20.9
7.7_20.9
A 50 3
51.7_190.6
24.0_190.6
24.0_190.6
24.0_109.4
211.0_778.2
211.0_778.2
211.0_778.2
A 60 2
10.3_20.6
10.3_20.6
7.9_20.6
7.9_20.6
A 60 3
25.7_185.8
25.7_185.8
25.7_133.3
25.7_133.3
208.7_755.4
208.7_755.4
66.9_153.7
66.9_153.7
15.4_153.7
15.4_153.7
169.8_1715
169.8_1715
A 10 2
A 20 2
A 20 3
120.5_380.9
9.3_97.5
A 30 2
(10.5_13.6)
A 30 3
120.5_400.8
(13.8_17.8)
A 41 3
A 60 4
120.5_400.8
11.7_79.2
A 41 2
A 50 4
120.5_380.9
92.8_376.8
i=
208.7_755.4
A 70 3
A 70 4
292.0_1715
A 80 3
A 80 4
82.3_156.8
354.0_1558
171.3_1558
A 90 3
A 90 4
66
449.2_1632
166.1_1632
M4
M5
5.2_45.1
(23.5_30.1)
(23.5_30.1)
169.8_644.6
19.3_156.8
(22.6_38.5)
171.3_1558
171.3_762.1
98.6_151.0
55.0_151.0
166.1_1632
166.1_937.2
19.3_156.8
(22.6_38.5)
55.0_151.0
2.15 MASS MOMENT OF INERTIA
A 10
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 102_5.5
24
59
90
121
—
—
—
—
43
A 102_7.2
14
50
81
112
—
—
—
—
36
A 102_9.6
7.1
43
74
105
—
—
—
—
31
A 102_10.6
12
48
78
109
—
—
—
—
33
A 102_12.3
4.8
40
71
102
—
—
—
—
26
A 102_13.9
7.1
43
74
109
—
—
—
—
29
A 102_18.6
4.8
40
71
102
—
—
—
—
24
A 102_23.8
2.4
38
69
100
—
—
—
—
24
A 102_28.6
2.4
38
69
100
—
—
—
—
21
A 102_35.1
1.7
38
69
100
—
—
—
—
21
A 102_45.4
1.2
38
69
100
—
—
—
—
21
A 102_51.3
0.71
36
67
97
—
—
—
—
21
A 102_65.9
0.48
36
67
97
—
—
—
—
21
A 102_76.4
0.48
36
67
97
—
—
—
—
21
A 102_91.6
0.24
36
67
97
—
—
—
—
21
67
A 20
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 202_5.5
57
—
124
154
—
—
—
—
102
A 202_7.2
33
50
100
131
—
—
—
—
78
A 202_9.6
21
43
88
119
—
—
—
—
67
A 202_10.6
29
48
95
126
—
—
—
—
71
A 202_12.3
12
40
78
109
—
—
—
—
57
A 202_13.9
17
43
83
114
—
—
—
—
62
A 202_18.6
9.5
40
76
107
—
—
—
—
57
A 202_23.8
7.1
38
74
105
—
—
—
—
52
A 202_28.6
4.8
38
71
102
—
—
—
—
50
A 202_35.1
4.8
38
71
102
—
—
—
—
50
A 202_45.4
2.4
38
69
100
—
—
—
—
48
A 202_51.3
2.4
36
69
100
—
—
—
—
48
A 202_65.9
2.4
36
69
100
—
—
—
—
48
A 202_76.4
0.71
36
67
97
—
—
—
—
48
A 202_91.6
0.48
36
—
—
—
—
—
—
48
A 203_120.5
0.48
36
—
—
—
—
—
—
21
A 203_146.1
0.48
36
—
—
—
—
—
—
21
A 203_178.3
0.24
36
—
—
—
—
—
—
21
A 203_221.3
0.24
36
—
—
—
—
—
—
21
A 203_260.5
0.24
36
—
—
—
—
—
—
21
A 203_329.4
0.24
36
—
—
—
—
—
—
21
A 203_380.9
0.24
36
—
—
—
—
—
—
21
68
A 30
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 302_5.4
107
—
—
204
—
—
—
—
164
A 302_7.0
69
—
138
166
—
—
—
—
124
A 302_9.3
38
74
105
135
—
—
—
—
95
A 302_10.5
55
—
121
152
—
—
—
—
109
A 302_11.8
26
62
93
124
—
—
—
—
81
A 302_13.6
36
—
—
133
—
—
—
—
93
A 302_18.0
21
57
88
119
—
—
—
—
76
A 302_22.8
14
50
81
112
—
—
—
—
71
A 302_29.3
9.5
45
76
107
—
—
—
—
67
A 302_36.6
7.1
43
74
105
—
—
—
—
64
A 302_43.4
4.8
40
71
102
—
—
—
—
62
A 302_52.7
4.8
40
71
102
—
—
—
—
59
A 302_66.0
2.4
38
69
100
—
—
—
—
59
A 302_76.5
2.4
38
69
100
—
—
—
—
59
A 302_97.5
2.4
38
—
—
—
—
—
—
57
A 303_120.5
2.4
38
—
—
—
—
—
—
21
A 303_150.7
2.4
38
—
—
—
—
—
—
21
A 303_178.6
2.4
38
—
—
—
—
—
—
21
A 303_216.6
2.4
38
—
—
—
—
—
—
21
A 303_271.5
2.4
38
—
—
—
—
—
—
21
A 303_314.6
2.4
38
—
—
—
—
—
—
21
A 303_400.8
0.95
38
—
—
—
—
—
—
21
69
A 41
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 412_5.2
304
—
—
401
753
—
—
—
553
A 412_7.1
173
—
—
271
622
—
—
—
423
A 412_9.2
107
—
—
204
556
—
—
—
356
A 412_10.1
140
—
—
238
589
—
—
—
390
A 412_11.7
69
105
135
166
518
—
—
—
318
A 412_13.8
86
—
—
183
534
—
—
—
335
A 412_17.8
52
—
119
150
501
—
—
—
271
A 412_22.7
36
71
102
133
485
—
—
—
254
A 412_28.3
26
62
93
124
—
—
—
—
242
A 412_35.9
40
76
107
138
—
—
—
—
233
A 412_45.1
36
71
102
133
—
—
—
—
228
A 412_53.1
33
69
100
131
—
—
—
—
226
A 412_64.2
31
67
97
128
—
—
—
—
223
A 412_79.2
29
64
95
126
—
—
—
—
221
A 413_92.8
26
62
93
124
—
—
—
—
219
A 413_115.9
4.8
40
71
102
—
—
—
—
50
A 413_146.9
2.4
38
69
100
—
—
—
—
50
A 413_184.4
2.4
38
69
100
—
—
—
—
50
A 413_217.4
2.4
38
69
100
—
—
—
—
48
A 413_262.5
2.4
38
69
100
—
—
—
—
48
A 413_324.2
2.4
38
69
100
—
—
—
—
48
A 413_376.8
2.4
38
69
100
—
—
—
—
48
70
A 50
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 502_7.7
356
—
—
454
808
2209
2162
—
572
A 502_9.7
242
—
—
340
691
2114
2043
—
458
A 502_13.1
150
—
—
245
599
2019
1948
—
363
A 502_16.6
100
—
—
195
549
1948
1900
—
314
A 502_20.9
67
100
133
164
515
1924
1876
—
283
A 503_24.0
143
—
209
240
591
1995
1948
—
356
A 503_26.4
138
—
204
235
587
1995
1948
—
352
A 503_32.4
95
—
162
192
544
1948
1900
—
309
A 503_35.6
93
—
159
190
542
1948
1900
—
306
A 503_40.9
64
—
131
162
513
1924
1876
—
280
A 503_45.0
62
—
128
159
511
1924
1876
—
278
A 503_51.7
45
81
112
143
494
1900
1853
—
261
A 503_56.8
45
78
109
140
494
1900
1853
—
259
A 503_63.9
33
67
100
131
482
1900
1829
—
249
A 503_70.2
33
67
97
128
482
1900
1829
—
247
A 503_81.5
21
57
88
119
470
1876
1829
—
238
A 503_89.5
21
57
88
119
470
1876
1829
—
238
A 503_99.5
14
50
81
112
463
1876
1829
—
230
A 503_109.4
14
50
81
112
463
1876
1829
—
230
A 503_118.0
12
48
78
109
—
—
—
—
228
A 503_129.7
12
48
78
109
—
—
—
—
228
A 503_140.6
9.5
43
76
105
—
—
—
—
223
A 503_154.6
9.5
43
76
105
—
—
—
—
223
A 503_173.4
7.1
40
71
102
—
—
—
—
221
A 503_190.6
4.8
40
71
102
—
—
—
—
221
For the values of the moment of inertia of 4-stage gearboxes, please contact our Technical Service department.
71
A 60
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 602_7.9
855
—
—
—
1283
2708
2660
—
1354
A 602_10.3
537
—
603
634
974
2399
2352
—
1045
A 602_12.7
382
—
447
477
831
2233
2185
—
879
A 602_16.7
223
—
290
321
672
2090
2019
—
713
A 602_20.6
159
—
226
257
608
2019
1971
—
658
A 603_25.7
335
—
401
430
784
2185
2138
—
831
A 603_27.9
328
—
394
425
784
2185
2138
—
831
A 603_31.7
247
—
314
344
696
2114
2043
—
736
A 603_34.3
245
—
311
342
694
2114
2043
—
736
A 603_41.7
145
—
211
242
596
1995
1948
—
644
A 603_45.2
145
—
211
240
594
1995
1948
—
641
A 603_51.3
119
—
176
207
558
1971
1924
—
608
A 603_55.6
107
—
173
204
556
1971
1924
—
606
A 603_65.0
76
—
143
173
525
1948
1876
—
575
A 603_70.4
76
—
143
173
525
1924
1876
—
575
A 603_79.7
50
—
116
147
499
1900
1853
—
549
A 603_86.4
50
—
116
147
499
1900
1853
—
549
A 603_99.5
48
—
102
133
485
1900
1853
—
534
A 603_107.8
36
—
102
133
485
1900
1853
—
532
A 603_123.0
26
—
93
124
475
1876
1829
—
525
A 603_133.3
26
—
93
124
475
1876
1829
—
523
A 603_144.0
19
—
86
119
—
—
—
—
518
A 603_156.0
19
—
86
119
—
—
—
—
518
A 603_171.5
14
—
81
112
—
—
—
—
513
A 603_185.8
14
—
81
112
—
—
—
—
513
For the values of the moment of inertia of 4-stage gearboxes, please contact our Technical Service department.
72
A 70
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 703_9.4
—
—
—
—
—
4442
4394
—
3563
A 703_10.2
—
—
—
—
—
4347
4276
—
3468
A 703_12.1
—
—
—
—
—
3563
3515
—
2684
A 703_13.1
—
—
—
—
—
3492
3444
—
2637
A 703_15.4
1069
—
—
—
1520
2945
2874
—
2067
A 703_16.7
1045
—
—
—
1496
2898
2850
—
2019
A 703_19.7
713
—
—
—
1164
2589
2542
—
1710
A 703_21.3
689
—
—
—
1140
2565
2518
—
1686
A 703_23.5
—
—
—
—
1354
2755
2708
—
1876
A 703_27.8
—
—
—
—
1164
2803
2755
—
1924
A 703_30.1
—
—
—
—
1164
2779
2732
—
1924
A 703_35.4
610
—
—
—
1069
2470
2423
—
1591
A 703_38.4
603
—
—
—
1045
2470
2399
—
1591
A 703_45.2
435
—
—
—
879
2304
2233
—
1401
A 703_49.0
432
—
—
—
879
2280
2233
—
1401
A 703_53.2
356
—
—
—
808
2209
2162
—
1330
A 703_57.7
356
—
—
—
808
2209
2162
—
1330
A 703_66.9
230
—
—
316
679
2090
2043
—
1211
A 703_72.5
228
—
—
314
675
2090
2043
—
1211
A 703_79.3
162
—
—
252
610
2019
1971
—
1140
A 703_85.9
159
—
—
249
608
2019
1971
—
1140
A 703_96.2
128
—
—
223
580
1995
1948
—
1116
A 703_104.2
128
—
—
223
577
1995
1924
—
1116
A 703_120.6
81
—
—
178
530
1948
1876
—
1069
A 703_130.7
81
—
—
176
530
1948
1876
—
1069
A 703_141.9
57
—
—
154
506
1924
1853
—
1045
A 703_153.7
57
—
—
154
506
1924
1853
—
1045
For the values of the moment of inertia of 4-stage gearboxes, please contact our Technical Service department.
73
A 80
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 803_9.8
—
—
—
—
—
—
7601
14513
6793
A 803_10.7
—
—
—
—
—
—
7340
14276
6556
A 803_12.3
—
—
—
—
—
5677
5677
12613
4869
A 803_13.3
—
—
—
—
—
5511
5534
12447
4727
A 803_15.5
—
—
—
—
—
4442
4394
11354
3563
A 803_16.7
—
—
—
—
—
4347
4276
11259
3563
A 803_19.3
1639
—
—
—
2090
3492
3444
10451
2637
A 803_20.9
1568
—
—
—
2019
3444
3373
10380
2565
A 803_22.6
—
—
—
—
—
—
4869
11781
4062
A 803_24.5
—
—
—
—
—
—
4822
11734
4014
A 803_28.2
—
—
—
—
—
3919
3943
10855
3135
A 803_30.6
—
—
—
—
—
3895
3895
10831
3088
A 803_35.5
—
—
—
—
—
3325
3278
10261
2470
A 803_38.5
—
—
—
—
—
3325
3254
10238
2447
A 803_44.5
926
—
—
—
1378
2803
2732
9739
1924
A 803_48.2
926
—
—
—
1378
2779
2732
9739
2138
A 803_55.2
696
—
—
—
1140
2565
2494
9477
1663
A 803_59.8
689
—
—
—
1140
2542
2494
9477
1663
A 803_66.8
527
—
—
—
974
2399
2328
9287
1496
A 803_72.4
523
—
—
—
974
2375
2328
9287
1496
A 803_82.3
356
—
406.2
437
808
2233
2162
9121
1330
A 803_89.2
356
—
403.8
435
808
2209
2162
9169
1330
A 803_96.0
333
—
382.4
411
760
2185
2138
9074
1306
A 803_104.0
318
—
380.0
409
760
2185
2114
9074
1306
A 803_116.0
216
—
280.3
311
665
2067
2019
8979
1188
A 803_125.6
216
—
280.3
311
665
2067
2019
—
1188
A 803_144.7
128
—
194.8
238
580
1995
1948
—
1116
A 803_156.8
—
—
68.9
100
454
1853
1805
—
974
For the values of the moment of inertia of 4-stage gearboxes, please contact our Technical Service department.
74
A 90
J (·10-4) [lb·ft2]
Type
i
(ratio)
NEMA Motor frame
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
N320TC
A 903_9.7
—
—
—
—
—
—
14181
21116
21330
A 903_10.5
—
—
—
—
—
—
13658
20594
20808
A 903_12.6
—
—
—
—
—
—
9549
16461
16698
A 903_13.7
—
—
—
—
—
—
9240
16176
16390
A 903_15.6
—
—
—
—
—
—
7268
14181
14418
A 903_16.9
—
—
—
—
—
—
7055
13990
14204
A 903_19.4
3539
—
—
—
—
5606
5558
12518
12589
A 903_21.0
3397
—
—
—
—
5487
5416
12399
12447
A 903_22.3
—
—
—
—
—
—
7743
14679
14893
A 903_24.1
—
—
—
—
—
—
7648
14584
14798
A 903_29.1
—
—
—
—
—
—
5772
12708
12922
A 903_31.5
—
—
—
—
—
—
5724
12637
12874
A 903_35.8
—
—
—
—
—
—
4774
11710
11924
A 903_38.8
—
—
—
—
—
—
4751
11663
11876
A 903_44.6
1924
—
—
—
—
4014
3943
10926
10974
A 903_48.3
1900
—
—
—
—
3990
3919
10903
10950
A 903_55.0
1568
—
—
—
2019
3420
3373
10380
10404
A 903_59.6
1568
—
—
—
1995
3420
3349
10356
10380
A 903_68.8
1140
—
—
—
1591
2993
2945
9929
9881
A 903_74.5
1116
—
—
—
1568
2993
2922
9905
9881
A 903_80.4
1021
—
—
—
1473
2874
2827
9786
9786
A 903_87.1
1021
—
—
—
1473
2874
2827
9786
9786
A 903_98.6
665
—
712.6
760.1
1116
2518
2470
9430
9477
A 903_106.8
665
—
712.6
736.3
1116
2518
2470
9430
9477
A 903_116.9
546
—
596.2
627.1
974
2399
2352
9287
9359
A 903_126.7
532
—
593.8
622.3
974
2399
2328
9287
9359
A 903_139.4
356
—
408.6
451.3
784
2209
2162
—
9169
A 903_151.0
—
—
71.3
102.1
456
1876
1805
—
8836
For the values of the moment of inertia of 4-stage gearboxes, please contact our Technical Service department.
75
Shaft mount, integral motor A 10 2
2.16 DIMENSIONS
CB
AB
VA
OA
C
QB
VB
VB
D
P
J
U
H
G
FA
E
FB
AC
A
UZ
UY
Output Shaft
B BA BB
BC Mounting face
Outline dimensions
A
A 10 2
Output shaft
AC
B
BA
BB
BC
4.61
3.74
4.72
3.94 3.150
-0.0012
-0.0024
117
95
120
100
-0.030
-0.060
80
M8x12 [mm]
D
E
FA
FB
G
H
J
OA
QB
2.76
2.95
1.97
1.97
0.35
0.37
3.94
5.51
2.76
70
75
50
50
9
9.5
100
140
70
(Inch series)
U
A 10 2
NUH
1.000
+ 0.0011
+ 0.0003
UY
UZ
VA
VB
1.114
0.250
2.36
0.71
Motor
A 10 2_S05 M05
A 10 2_S1 M1S
A 10 2_S1 M1L
A 10 2_S2 M2S
A 10 2_S3 M3S
A 10 2_S3 M3L
Dimensions are
76
inch
mm
AB
C
CB
P
3.74
16.08
18.68
4.76
95
408.5
474.5
121
4.25
16.28
18.76
5.43
108
413.5
476.5
138
4.25
17.22
19.63
5.43
108
437.5
498.5
138
4.69
18.37
21.12
6.14
119
466.5
536.5
156
5.59
20.06
23.84
7.68
142
509.5
605.5
195
5.59
21.32
24.90
7.68
142
541.5
632.5
195
Weight
[lbs / kg]
31 / 14
35 / 16
37 / 17
49 / 22
66 / 30
82 / 37
A 10 2 Shaft mount - NEMA C - face adapter
C
VA
VB
VB
OA
QB
J
U
D
NC
DIA
N
X
H
G
E
FA
FB
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
4.61
A 10 2
Output shaft
AC
B
3.74
117
4.72
95
120
BA
BB
3.94 3.150
100
-0.030
-0.060
80
M8x12 [mm]
D
E
FA
FB
G
H
J
OA
QB
2.76
2.95
1.97
1.97
0.35
0.37
3.94
5.51
2.76
70
75
50
50
9
9.5
100
140
70
(Inch series)
U
A 10 2
BC
-0.0012
-0.0024
NUH
1.000
+ 0.0011
+ 0.0003
UY
UZ
VA
VB
1.114
0.250
2.36
0.71
Hollow input shaft
NEMA flange
N
NA
NB
NC
X
Weight
[lbs / kg]
N56C
6.496
5.875
4.500
0.394
0.196
18 / 8
N140TC
6.496
5.875
4.500
0.394
0.196
N180TC
8.996
7.250
8.500
0.551
0.216
MA
MB
MC
N56C
0.188
0.625
0.710
20 / 9
N140TC
0.188
0.875
0.964
29 / 13
N180TC
0.250
1.125
1.241
C
A 10 2
Dimensions are
N56C
N140TC
N180TC
11.91
11.91
12.66
302.5
302.5
321.5
inch
mm
77
Solid input / hollow output shaft A 10 2
C
VA
VB
QB
VB
FV
KEY
OA
U
D
FU
J
FM
TAP
H
DA
G
E
FA
FB
AC
A
UZ
UY
FZ
B BA BB
Output Shaft
BC Mounting face
Input Shaft
Outline dimensions
A
A 10 2
Output shaft
AC
B
Input shaft
BC
4.61
3.74
4.72
3.94 3.150
117
95
120
100
-0.030
-0.060
80
M8x12 [mm]
D
E
FA
FB
G
H
J
OA
QB
2.76
2.95
1.97
1.97
0.35
0.37
3.94
5.51
2.76
70
75
50
50
9
9.5
100
140
70
(Inch series)
NUH
+ 0.0011
+ 0.0003
1.000
UY
UZ
VA
VB
1.114
0.250
2.36
0.71
FZ
FV
Key
FM
0.710
1.570
3/16 x 3/16 x 1 3/8
M6x16 [mm]
(Inch series)
FU
A 10 2
NHS
+0
- 0.0004
0.625
C
11.40
A 10 2
Dimensions are
78
BB
-0.0012
-0.0024
U
A 10 2
BA
289.5
inch
mm
Weight
[lbs / kg]
18 / 8
A 10 2 Shaft mount - IEC B5 motor adapter
C
VA
VB
VB
OA
(P63)
QB
NC
DIA
N
X
J
U
D
6.063
154
H
G
E
FA
FB
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
AC
4.61
A 10 2
117
Output shaft
B
3.74
4.72
95
BA
BB
BC
3.94 3.150
-0.0012
-0.0024
100
-0.030
-0.060
120
80
IEC flange
E
FA
FB
G
H
J
OA
QB
2.76
2.95
1.97
1.97
0.35
0.37
3.94
5.51
2.76
70
75
50
50
9
9.5
100
140
70
(Inch series)
U
A 10 2
M8x12 [mm]
D
NUH
+ 0.0011
+ 0.0003
1.000
UY
UZ
VA
VB
1.114
0.250
2.36
0.71
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
P63
140
115
95
M8x19
4
18 / 8
P71
160
130
110
M8x16
4.5
18 / 8
P80, P90
200
165
130
M10x12
4
20 / 9
P100, P112
250
215
180
M12x16
4.5
29 / 13
MA
MB
MC
P63
4
11
12.8
P71
5
14
16.3
P80
6
19
21.8
P90
8
24
27.3
P100, P112
8
28
31.3
C
A 10 2
Dimensions are
P63
P71
P80
P90
P100
P112
11.12
11.89
12.28
282.5
302
312
inch
mm
79
Shaft mount, integral motor A 20 2
CB
AB
VA
OA
C
QB
VB
VB
P
J
U
D
A 20 3
H
G
FA
E
FB
AC
A
UZ
UY
Output Shaft
B BA BB
BC Mounting face
Outline dimensions
A
A 20 2, A 20 3
Output shaft
AC
B
BA
BB
BC
5.35
4.33
5.51
4.53 3.740
-0.0014
-0.0028
136
110
140
115
-0.036
-0.071
95
M8x15 [mm]
D
E
FA
FB
G
H
J
OA
QB
3.15
3.54
2.36
2.36
0.35
0.37
4.72
6.30
3.15
80
90
60
60
9
9.5
120
160
80
(Inch series)
U
A 20 2, A 20 3
NUH
1.250
+ 0.0013
+ 0.0004
UY
UZ
VA
VB
1.367
0.250
2.76
0.87
Motor
A 20 2_S05 M05
A 20 2_S1 M1S
A 20 2_S1 M1L
A 20 2_S2 M2S
A 20 2_S3 M3S
A 20 2_S3 M3L
A 20 3_S05 M05
A 20 3_S1 M1S
A 20 3_S1 M1L
A 20 3_S2 M2S
A 20 3_S1 M3S
A 20 3_S1 M3L
80
AB
C
CB
P
3.74
95
4.25
17.01
432
17.20
19.61
498
19.69
4.76
121
5.43
108
4.25
108
437
18.15
461
500
20.55
522
138
5.43
138
4.69
119
5.59
19.29
490
20.98
22.05
560
24.76
6.14
156
7.68
142
5.59
142
533
22.24
565
629
25.83
656
195
7.68
195
3.74
95
4.25
18.01
457.5
18.21
21.79
553.5
21.87
4.76
121
5.43
108
4.25
108
462.5
19.15
486.5
555.5
22.74
577.5
138
5.43
138
4.69
119
5.59
21.48
545.5
23.17
24.23
615.5
26.95
6.14
156
7.68
142
5.59
142
588.5
24.43
620.5
684.5
28.01
711.5
195
7.68
195
Weight
[lbs / kg]
40 / 18
42 / 19
46 / 21
57 / 26
75 / 34
90 / 41
40 / 18
44 / 20
46 / 21
57 / 26
75 / 34
90 / 41
Dimensions are
inch
mm
A 20 2 A 20 3 Shaft mount - NEMA C - face adapter
C
VA
VB
VB
OA
QB
J
U
D
NC
DIA
N
X
H
G
E
FA
FB
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
A 20 2, A 20 3
Output shaft
AC
B
BA
BB
5.35
4.33
5.51
4.53 3.740
136
110
140
115
-0.036
-0.071
95
M8x15 [mm]
D
E
FA
FB
G
H
J
OA
QB
3.15
3.54
2.36
2.36
0.35
0.37
4.72
6.30
3.15
80
90
60
60
9
9.5
120
160
80
(Inch series)
U
A 20 2, A 20 3
BC
-0.0014
-0.0028
NUH
+ 0.0013
+ 0.0004
1.250
UY
UZ
VA
VB
1.367
0.250
2.76
0.87
Hollow input shaft
NEMA flange
N56C
N
NA
NB
NC
X
Weight
[lbs / kg]
6.496
5.875
4.500
0.394
0.196
26 / 12
MA
MB
MC
N56C
0.188
0.625
0.710
N140TC
6.496
5.875
4.500
0.394
0.196
29 / 13
N140TC
0.188
0.875
0.964
N180TC
8.996
7.250
8.500
0.551
0.216
37 / 17
N180TC
0.250
1.125
1.241
C
A 20 2
A 20 3
Dimensions are
N56C
N140TC
N180TC
12.83
12.83
13.58
326
326
345
15.00
15.00
15.77
381
381
400.5
inch
mm
81
Solid input / hollow output shaft A 20 2
C
VA
VB
A 20 3
QB
VB
FV
KEY
OA
U
D
FU
J
FM
TAP
H
DA
G
E
FA
FB
AC
A
UZ
UY
FZ
B BA BB
Output Shaft
BC Mounting face
Input Shaft
Outline dimensions
A
A 20 2, A 20 3
Output shaft
AC
B
Input shaft
BC
5.35
4.33
5.51
4.53 3.740
136
110
140
115
-0.036
-0.071
95
M8x15 [mm]
D
E
FA
FB
G
H
J
OA
QB
3.15
3.54
2.36
2.36
0.35
0.37
4.72
6.30
3.15
80
90
60
60
9
9.5
120
160
80
(Inch series)
NUH
+ 0.0013
+ 0.0004
1.250
UY
UZ
VA
VB
1.367
0.250
2.76
0.87
(Inch series)
FU
A 20 2
A 20 3
NHS
NHS
FZ
FV
Key
FM
0.750
+0
-0.0005
0.830
1.570
3/16 x 3/16 x 1 3/8
M6x16 [mm]
0.625
+0
-0.0004
0.710
1.570
3/16 x 3/16 x 1 3/8
M6x16 [mm]
C
14.02
A 20 2
356
14.51
A 20 3
Dimensions are
82
BB
-0.0014
-0.0028
U
A 20 2, A 20 3
BA
368.5
inch
mm
Weight
[lbs / kg]
27 / 12
27 / 12
A 20 2 A 20 3 Shaft mount - IEC B5 motor adapter
C
VA
VB
VB
OA
(P63)
QB
NC
DIA
N
X
J
U
D
6.063
154
H
G
E
FA
FB
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
5.35
A 20 2, A 20 3
Output shaft
AC
136
B
4.33
5.51
110
140
BA
BB
BC
4.53 3.740
-0.0014
-0.0028
115
-0.036
-0.071
95
IEC flange
E
FA
FB
G
H
J
OA
QB
3.15
3.54
2.36
2.36
0.35
0.37
4.72
6.30
3.15
80
90
60
60
9
9.5
120
160
80
(Inch series)
U
A 20 2, A 20 3
M8x15 [mm]
D
NUH
+ 0.0013
+ 0.0004
1.250
UY
UZ
VA
VB
1.367
0.250
2.76
0.87
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
P63
140
115
95
M8x19
4
29 / 13
P71
160
130
110
M8x16
4.5
29 / 13
P80, P90
200
165
130
M10x12
4
31 / 14
P100, P112
250
215
180
M12x16
4.5
40 / 18
MA
MB
MC
P63
4
11
12.8
P71
5
14
16.3
P80
6
19
21.8
P90
8
24
27.3
P100, P112
8
28
31.3
C
A 20 2
A 20 3
Dimensions are
P63
P71
P80
P90
P100
P112
12.05
12.81
13.21
306
325.5
335.5
14.23
15.00
15.39
361.5
381
391
inch
mm
83
A 30 2 A 30 3
Shaft mount, integral motor
CB
AB
VA
OA
C
QB
VB
VB
D
P
J
U
H
G
FA
E
FB
FC
AC
A
UZ
UY
B BA BB
Output Shaft
BC Mounting face
Outline dimensions
A
6.14
A 30 2, A 30 3
Output shaft
AC
156
5.12
130
B
BA
5.51
140
BB
BC
4.53 3.740
-0.0014
-0.0028
115
-0.036
-0.071
95
M8x15 [mm]
D
E
FA
FB
FC
G
H
J
OA
QB
3.54
3.74
2.48
2.48
0.87
0.43
0.47
4.96
7.09
3.54
90
95
63
63
22
11
12
126
180
90
(Inch series)
U
A 30 2, A 30 3
NUH
1.375
+ 0.0013
+ 0.0004
UY
UZ
VA
VB
1.518
0.312
3.15
0.98
Motor
A 30 2_S1 M1S
A 30 2_S1 M1L
A 30 2_S2 M2S
A 30 2_S3 M3S
A 30 2_S3 M3L
A 30 3_S05 M05
A 30 3_S1 M1S
A 30 3_S1 M1L
A 30 3_S2 M2S
A 30 3_S3 M3S
A 30 3_S3 M3L
84
AB
C
CB
P
Weight
[lbs / kg]
4.25
108
18.27
464
20.75
527
5.43
138
51 / 23
4.25
19.21
21.61
5.43
108
4.69
119
488
20.35
517
549
23.11
587
138
6.14
156
5.59
142
5.59
22.05
560
23.31
25.83
656
26.89
7.68
195
7.68
142
3.74
95
592
20.33
516.5
683
22.93
582.5
195
4.76
121
4.25
108
4.25
20.53
521.5
21.48
23.01
584.5
23.88
5.43
138
5.43
108
4.69
119
545.5
22.62
574.5
606.5
25.37
644.5
138
6.14
156
5.59
142
5.59
24.31
617.5
25.57
28.09
713.5
29.15
7.68
195
7.68
142
649.5
740.5
195
53 / 24
64 / 29
84 / 38
99 / 45
49 / 22
53 / 24
57 / 26
64 / 29
84 / 38
99 / 45
Dimensions are
inch
mm
A 30 2 A 30 3 Shaft mount - NEMA C - face adapter
C
VA
VB
VB
OA
QB
J
U
D
NC
DIA
N
X
H
G
E
FA
FB
FC
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
6.14
A 30 2, A 30 3
Output shaft
AC
156
B
5.12
5.51
130
140
BA
BB
BC
4.53 3.740
-0.0014
-0.0028
115
-0.036
-0.071
95
E
FA
FB
FC
G
H
J
OA
QB
3.54
3.74
2.48
2.48
0.87
0.43
0.47
4.96
7.09
3.54
90
95
63
63
22
11
12
126
180
90
(Inch series)
U
A 30 2, A 30 3
M8x15 [mm]
D
NUH
+ 0.0013
+ 0.0004
1.375
UY
UZ
VA
VB
1.518
0.312
3.15
0.98
NEMA flange
Hollow input shaft
N
NA
NB
NC
X
Weight
[lbs / kg]
N56C
6.496
5.875
4.500
0.394
0.196
35 / 16
N140TC
6.496
5.875
4.500
0.394
0.196
N180TC
8.996
7.250
8.500
0.551
0.216
MA
MB
MC
N56C
0.188
0.625
0.710
37 / 17
N140TC
0.188
0.875
0.964
44 / 20
N180TC
0.250
1.125
1.241
C
A 30 2
A 30 3
Dimensions are
N56C
N140TC
N180TC
13.90
13.90
14.65
353
353
372
16.16
16.16
16.91
410.5
410.5
429.5
inch
mm
85
Solid input / hollow output shaft A 30 2
C
VA
VB
A 30 3
QB
VB
FV
KEY
OA
U
D
FU
J
FM
TAP
H
DA
G
E
FA
FB
FC
AC
A
UZ
UY
FZ
B BA BB
Output Shaft
BC Mounting face
Input Shaft
Outline dimensions
A
6.14
A 30 2, A 30 3
Output shaft
AC
156
5.12
130
B
BA
5.51
140
Input shaft
4.53 3.740
115
-0.036
-0.071
95
M8x15 [mm]
D
E
FA
FB
FC
G
H
J
OA
QB
3.54
3.74
2.48
2.48
0.87
0.43
0.47
4.96
7.09
3.54
90
95
63
63
22
11
12
126
180
90
(Inch series)
NUH
+ 0.0013
+ 0.0004
1.375
UY
UZ
VA
VB
1.518
0.312
3.15
0.98
(Inch series)
FU
A 30 2
NHS
0.750
+0
-0.0005
A 30 3
NHS
0.625
+0
-0.0004
C
15.08
A 30 2
383
15.65
A 30 3
Dimensions are
86
BC
-0.0014
-0.0028
U
A 30 2, A 30 3
BB
397.5
inch
mm
FZ
FV
Key
FM
0.830
1.570
3/16 x 3/16 x 1 3/8
M6x16 [mm]
0.710
1.570
3/16 x 3/16 x 1 3/8
M6x16 [mm]
Weight
[lbs / kg]
38 / 17
38 / 17
A 30 2 A 30 3 Shaft mount - IEC B5 motor adapter
6.063
154
VB
VB
OA
QB
NC
DIA
N
X
J
U
D
(P63)
C
VA
H
G
E
FA
FB
FC
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
A 30 2, A 30 3
Output shaft
AC
B
BA
BB
BC
6.14
5.12
5.51
4.53 3.740
-0.0014
-0.0028
156
130
140
115
-0.036
-0.071
95
IEC flange
E
FA
FB
FC
G
H
J
OA
QB
3.54
3.74
2.48
2.48
0.87
0.43
0.47
4.96
7.09
3.54
90
95
63
63
22
11
12
126
180
90
(Inch series)
U
A 30 2, A 30 3
M8x15 [mm]
D
NUH
+ 0.0013
+ 0.0004
1.375
UY
UZ
VA
VB
1.518
0.312
3.15
0.98
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
P63
140
115
95
M8x19
4
38 / 17
P71
160
130
110
M8x16
4.5
38 / 17
P80, P90
200
165
130
M10x12
4
40 / 18
P100, P112
250
215
180
M12x16
4
49 / 22
MA
MB
MC
P63
4
11
12.8
P71
5
14
16.3
P80
6
19
21.8
P90
8
24
27.3
P100, P112
8
28
31.3
C
A 30 2
A 30 3
Dimensions are
P63
P71
P80
P90
P100
P112
13.11
13.88
14.27
333
352.5
362.5
15.37
16.14
16.54
390.5
410
420
inch
mm
87
Shaft mount, integral motor A 41 2
CB
AB
VA
OA
C
QB
VB
VB
P
J
U
D
A 41 3
H
G
FA
E
FB
FC
AC
A
UZ
UY
B BA BB
Output Shaft
BC Mounting face
Outline dimensions
A
A 41 2, A 41 3
Output shaft
AC
B
BA
BB
BC
7.17
6.10
7.87
6.50 5.118
-0.0017
-0.0033
182
155
200
165
-0.043
-0.083
130
M12x19 [mm]
D
E
FA
FB
FC
G
H
J
OA
QB
4.41
4.72
3.15
3.15
0.79
0.51
0.55
6.30
8.82
4.41
112
120
80
80
20
13
14
160
224
112
(Inch series)
U
A 41 2, A 41 3
NUH
1.625
+ 0.0013
+ 0.0004
UY
UZ
VA
VB
1.796
0.375
3.66
1.18
Motor
A 41 2_S1 M1S
A 41 2_S1 M1L
A 41 2_S2 M2S
A 41 2_S3 M3S
A 41 2_S3 M3L
A 41 2_S4 M4S
A 41 2_S4 M4L
A 41 3_S05 M05
A 41 3_S1 M1S
A 41 3_S1 M1L
A 41 3_S2 M2S
A 41 3_S3 M3S
A 41 3_S3 M3L
88
AB
C
CB
P
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
7.60
193
7.60
193
3.74
95
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
19.92
506
20.87
530
22.01
559
23.70
602
24.96
634
29.21
742
29.21
742
22.15
562.5
22.34
567.5
23.29
591.5
24.43
620.5
26.12
663.5
27.38
695.5
22.40
569
23.27
591
24.76
629
27.48
698
28.54
725
33.50
851
33.50
851
24.74
628.5
24.82
630.5
25.69
652.5
27.19
690.5
29.90
759.5
30.96
786.5
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
10.16
258
10.16
258
4.76
121
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
Weight
[lbs / kg]
95 / 43
97 / 44
108 / 49
128 / 58
143 / 65
201 / 91
243 / 110
101 / 46
106 / 48
108 / 49
128 / 58
137 / 62
150 / 68
Dimensions are
inch
mm
A 41 2 A 41 3 Shaft mount - NEMA C - face adapter
C
VA
VB
VB
OA
QB
J
U
D
NC
DIA
N
X
H
G
E
FA
FB
FC
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
A 41 2, A 41 3
Output shaft
AC
B
BA
BB
BC
7.17
6.10
7.87
6.50 5.118
-0.0017
-0.0033
182
155
200
165
-0.043
-0.083
130
E
FA
FB
FC
G
H
J
OA
QB
4.41
4.72
3.15
3.15
0.79
0.51
0.55
6.30
8.82
4.41
112
120
80
80
20
13
14
160
224
112
(Inch series)
U
A 41 2, A 41 3
M12x19 [mm]
D
NUH
1.625
+ 0.0013
+ 0.0004
UY
UZ
VA
VB
1.796
0.375
3.66
1.18
NEMA flange
Hollow input shaft
N56C
N
NA
NB
NC
X
Weight
[lbs / kg]
6.496
5.875
4.500
0.394
0.196
84 / 38
MA
MB
MC
N56C
0.188
0.625
0.710
N140TC
6.496
5.875
4.500
0.394
0.196
86 / 39
N140TC
0.188
0.875
0.964
N180TC
8.996
7.250
8.500
0.551
0.216
95 / 43
N180TC
0.250
1.125
1.241
N210TC
8.996
7.250
8.500
0.551
0.216
101 / 46
N210TC
0.312
1.375
1.518
C
A 41 2
A 41 3
Dimensions are
N56C
N140TC
N180TC
N210TC
15.55
15.55
16.30
17.54
395
395
414
445.5
17.97
17.97
18.72
456.5
456.5
475.5
—
inch
mm
89
Solid input / hollow output shaft A 41 2
C
VA
VB
A 41 3
QB
VB
FV
KEY
OA
U
D
FU
J
FM
TAP
H
DA
G
E
FA
FB
FC
AC
A
UZ
UY
FZ
B BA BB
Output Shaft
BC Mounting face
Input Shaft
Outline dimensions
A
A 41 2, A 41 3
Output shaft
AC
B
BA
Input shaft
7.17
6.10
7.87
6.50 5.118
182
155
200
165
-0.043
-0.083
130
M12x19 [mm]
D
E
FA
FB
FC
G
H
J
OA
QB
4.41
4.72
3.15
3.15
0.79
0.51
0.55
6.30
8.82
4.41
112
120
80
80
20
13
14
160
224
112
(Inch series)
NUH
+ 0.0013
+ 0.0004
1.625
UY
UZ
VA
VB
1.796
0.375
3.66
1.18
Key
FM
(Inch series)
FU
A 41 2
NHS
1.000
+0
-0.0005
A 41 3
NHS
0.750
+0
-0.0004
C
18.27
A 41 2
464
19.15
A 41 3
Dimensions are
90
BC
-0.0017
-0.0033
U
A 41 2, A 41 3
BB
486.5
inch
mm
FZ
FV
1.110
1.970
1/4 x 1/4 x 1 3/4
M8x19 [mm]
0.830
1.570
3/16 x 3/16 x 1 3/8
M6x16 [mm]
Weight
[lbs / kg]
91 / 41
88 / 40
A 41 2 A 41 3 Shaft mount - IEC B5 motor adapter
6.063
154
VB
VB
OA
QB
NC
DIA
N
X
J
U
D
(P63)
C
VA
H
G
E
FA
FB
FC
NB
AC
NA
A
UZ
UY
MA
B BA BB
Output Shaft
MC
BC Mounting face
Input Shaft
MB
Outline dimensions
A
7.17
A 41 2, A 41 3
Output shaft
AC
6.10
182
155
B
7.87
200
BA
BB
BC
6.50 5.118
-0.0017
-0.0033
165
-0.043
-0.083
130
IEC flange
E
FA
FB
FC
G
H
J
OA
QB
4.41
4.72
3.15
3.15
0.79
0.51
0.55
6.30
8.82
4.41
112
120
80
80
20
13
14
160
224
112
(Inch series)
U
A 41 2, A 41 3
M12x19 [mm]
D
NUH
1.625
+ 0.0013
+ 0.0004
UY
UZ
VA
VB
1.796
0.375
3.66
1.18
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
MA
MB
MC
P63
140
115
95
M8x19
4
86 / 39
P63
4
11
12.8
P71
160
130
110
M8x16
4.5
86 / 39
P71
5
14
16.3
P80, P90
200
165
130
M10x12
4
88 / 44
P80
6
19
21.8
P100, P112
250
215
180
M12x16
4.5
97 / 44
P90
8
24
27.3
P132
300
265
230
14
5
101 / 46
P100, P112
8
28
31.3
C
A 41 2
A 41 3
Dimensions are
P63
P71
P80
P90
P100
P112
P132
14.76
15.53
15.93
17.36
441
375
394.5
404.5
17.19
17.95
18.35
436.5
456
466
—
inch
mm
91
Shaft mount, integral motor A 50 2
A 50 3 A 50 4
CB
AB
VA
VB
VB
OA
C
QB
D
P
J
U
H
G
E
FA
AC
FB
UZ
B BA BB
BC
Output Shaft
22°3
0'
UY
0'
22°3
A
Mounting face
Outline dimensions
A
A 50 2, A 50 3, A 50 4
Output shaft
AC
B
BA
BB
BC
8.62 7.28 9.84 8.46 7.087
-0.0017
-0.0033
219
-0.043
-0.083
185
250
215
180
D
M12x19 [mm]
E
FA
FB
G
H
J
OA
QB
5.51 5.91 4.04 4.04 0.55 0.63 8.07 11.02 5.51
140
150
103
103
14
16
205
280
140
(Inch series)
U
A 50 2, A 50 3, A 50 4
NUH
2.000
+ 0.0016
+ 0.0004
UY
UZ
VA
VB
2.223
0.500
4.50
1.58
Motor
A 50 2_S1 M1S
A 50 3_S1 M1S
A 50 2_S1 M1L
A 50 3_S1 M1L
A 50 2_S2 M2S
A 50 3_S2 M2S
A 50 2_S3 M3S
A 50 3_S3 M3S
A 50 2_S3 M3L
A 50 3_S3 M3L
A 50 2_S4 M4S
A 50 3_S4 M4S
A 50 2_S4 M4L
A 50 3_S4 M4L
A 50 2_S4 M4LC
A 50 3_S4 M4LC
A 50 4_S1 M1S
A 50 4_S1 M1L
A 50 4_S2 M2S
A 50 4_S3 M3S
A 50 4_S3 M3L
92
AB
C
CB
P
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
7.60
193
7.60
193
7.60
193
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
23.05
585.5
24.00
609.5
25.14
638.5
26.83
681.5
28.09
713.5
32.34
821.5
32.34
821.5
33.72
856.5
25.87
657
26.81
681
27.95
710
29.65
753
30.91
785
25.53
648.5
26.40
670.5
27.89
708.5
30.61
777.5
31.67
804.5
36.63
930.5
36.63
930.5
37.62
955.5
28.35
720
29.21
742
30.71
780
33.43
849
34.49
876
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
10.16
258
10.16
258
10.16
258
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
Weight
[lbs / kg]
148 / 67
152 / 69
172 / 78
179 / 81
194 / 88
251 / 114
293 / 133
311 / 141
150 / 68
154 / 70
165 / 75
168 / 76
172 / 78
Dimensions are
inch
mm
A 50 2 A 50 3 A 50 4 Shaft mount - NEMA C - face adapter
VA
OA
C
VB
VB
QB
NC
DIA
N
J
U
D
X
H
G
FB
FA
E
AC
A
NB
NA
MA
B BA BB
BC
Output Shaft
MC
Mounting face
22°3
0'
UY
0'
22°3
UZ
Input Shaft
MB
Outline dimensions
A
A 50 2, A 50 3, A 50 4
Output shaft
AC
B
BA
BB
BC
8.62 7.28 9.84 8.46 7.087
-0.0017
-0.0033
219
-0.043
-0.083
185
250
215
180
D
M12x19 [mm]
E
FA
FB
G
H
J
OA
QB
5.51 5.91 4.04 4.04 0.55 0.63 8.07 11.02 5.51
140
150 102.5 103
14
16
205
280
140
(Inch series)
U
A 50 2, A 50 3, A 50 4
NUH
2.000
+ 0.0016
+ 0.0004
UY
UZ
VA
VB
2.223
0.500
4.50
1.58
NEMA flange
Hollow input shaft
N
NA
NB
NC
X
Weight
[lbs / kg]
N56C
6.496
5.875
4.500
0.394
0.196
137 / 62
N140TC
6.496
5.875
4.500
0.394
0.196
N180TC
8.996
7.250
8.500
0.551
0.216
N210TC
8.996
7.250
8.500
0.551
N250TC
13.780
7.250
8.500
0.551
N280TC
13.780
9.000
10.500
MA
MB
MC
N56C
0.188
0.625
0.710
139 / 63
N140TC
0.188
0.875
0.964
148 / 67
N180TC
0.250
1.125
1.241
0.216
150 / 68
N210TC
0.312
1.375
1.518
0.216
159 / 72
N250TC
0.375
1.625
1.796
0.551
0.216
159 / 72
N280TC
0.500
1.875
2.102
C
A 50 2, A 50 3
A 50 4
Dimensions are
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
18.68
18.68
19.43
20.67
23.46
23.66
474.5
474.5
493.5
525
596
601
21.50
21.50
22.24
546
546
565
—
—
—
inch
mm
93
Solid input / hollow output shaft A 50 2
C
VA
VB
OA
QB
VB
FV
H
KEY
FU
J
U
D
A 50 3 A 50 4
FM
TAP
G
E
FA
DA
FB
AC
A
FZ
UY
22°3
'
0' 22°30
UZ
B BA BB
BC
Output Shaft
Input Shaft
Mounting face
Outline dimensions
A
A 50 2, A 50 3, A 50 4
Output shaft
AC
B
BC
8.62 7.28 9.84 8.46 7.087
219
-0.043
-0.083
185
250
215
180
M12x19 [mm]
D
E
FA
FB
G
H
J
OA
QB
5.51 5.91 4.04 4.04 0.55 0.63 8.07 11.02 5.51
140
150
103
103
14
16
205
280
140
(Inch series)
A 50 2, A 50 3, A 50 4
NUH
+ 0.0016
+ 0.0004
2.000
UY
UZ
VA
VB
2.223
0.500
4.50
1.58
(Inch series)
FU
A 50 2, A 50 3
NHS
A 50 4
NHS
FZ
FV
Key
FM
1.000
+0
-0.0005
1.110
1.970
1/4 x 1/4 x 1 3/4
M8x19 [mm]
0.750
+0
-0.0005
0.830
1.570
3/16 x 3/16 x 1 3/8
M6x16 [mm]
C
21.40
A 50 2, A 50 3
543.5
22.68
A 50 4
Dimensions are
94
BB
-0.0017
-0.0033
U
Input shaft
BA
576
inch
mm
Weight
[lbs / kg]
168 / 76
170 / 77
A 50 2 A 50 3 A 50 4 Shaft mount - IEC B5 motor adapter
6.063
154
VA
VB
VB
OA
C
QB
X
NC
DIA
N
J
U
D
(P63)
H
G
FB
FA
E
AC
A
NB
NA
MA
B BA BB
BC
Output Shaft
MC
Mounting face
22°3
0'
UY
0'
22°3
UZ
Input Shaft
MB
Outline dimensions
A
A 50 2, A 50 3, A 50 4
Output shaft
AC
B
BA
BB
8.62 7.28 9.84 8.46 7.087
219
-0.043
-0.083
185
250
215
180
D
M12x19 [mm]
E
FA
FB
G
H
J
OA
QB
5.51 5.91 4.04 4.04 0.55 0.63 8.07 11.02 5.51
140
150 102.5 103
14
16
205
280
140
(Inch series)
U
A 50 2, A 50 3, A 50 4
IEC flange
BC
-0.0017
-0.0033
NUH
2.000
+ 0.0016
+ 0.0004
UY
UZ
VA
VB
2.223
0.500
4.50
1.58
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
MA
MB
MC
P63
140
115
95
M8x19
4
137 / 62
P63
4
11
12.8
P71
160
130
110
M8x16
4.5
137 / 62
P71
5
14
16.3
P80, P90
200
165
130
M10x12
4
139 / 63
P80
6
19
21.8
P90
8
24
27.3
P100, P112
250
215
180
M12x16
4.5
148 / 67
P100, P112
8
28
31.3
P132
300
265
230
14
5
150 / 68
P132
10
38
41.3
P160, P180
350
300
250
18
6
159 / 72
P160
12
42
45.3
P180
14
48
51.8
C
A 50 2, A 50 3
A 50 4
Dimensions are
P63
P71
P80
P90
P100
P112
P132
P160
P180
17.89
18.66
19.06
20.49
22.48
454.5
474
484
520.5
571
20.71
21.48
21.87
526
545.5
555.5
—
—
inch
mm
95
Shaft mount, integral motor A 60 2
CB
AB
VA
OA
C
QB
VB
VB
P
J
U
D
A 60 3 A 60 4
H
G
E
FB
FA
AC
A
22°30' 22°30'
UZ
UY
B BA BB
BC
Output Shaft
Mounting face
Outline dimensions
A
A 60 2, A 60 3, A 60 4
Output shaft
AC
B
BA
BB
BC
9.41 9.25 9.84 8.46 7.087
-0.0017
-0.0033
239
-0.043
-0.083
235
250
215
180
D
M12x19 [mm]
E
FA
FB
G
H
J
OA
QB
6.50 7.68 4.82 4.82 0.63 0.73 9.65 12.99 6.50
165
195
123
123
16
18.5
245
330
165
(Inch series)
U
A 60 2, A 60 3, A 60 4
NUH
2.625
+ 0.0016
+ 0.0004
UY
UZ
VA
VB
2.905
0.625
4.92
1.97
Motor
A 60 2_S2 M2S
A 60 3_S2 M2S
A 60 2_S3 M3S
A 60 3_S3 M3S
A 60 2_S3 M3L
A 60 3_S3 M3L
A 60 2_S4 M4S
A 60 3_S4 M4S
A 60 2_S4 M4L
A 60 3_S4 M4L
A 60 2_S4 M4LC
A 60 3_S4 M4LC
A 60 2_S5 M5S
A 60 3_S5 M5S
A 60 2_S5 M5L
A 60 3_S5 M5L
A 60 4_S1 M1S
A 60 4_S1 M1L
A 60 4_S2 M2S
A 60 4_S3 M3S
A 60 4_S3 M3L
96
AB
C
CB
P
4.69
119
5.59
142
5.59
142
7.60
193
7.60
193
7.60
193
9.65
245
9.65
245
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
27.58
700.5
29.27
743.5
30.53
775.5
33.29
845.5
36.12
917.5
36.12
917.5
38.19
970
39.92
1014
28.27
718
29.21
742
30.35
771
32.05
814
33.31
846
30.33
770.5
33.05
839.5
34.11
866.5
37.58
954.5
40.02
1016.5
40.02
1016.5
43.70
1110
45.43
1154
30.75
781
31.61
803
33.11
841
35.83
910
36.89
937
6.14
156
7.68
195
7.68
195
10.16
258
10.16
258
10.16
258
12.20
310
12.20
310
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
Weight
[lbs / kg]
218 / 99
220 / 100
236 / 107
293 / 133
335 / 152
353 / 160
423 / 192
459 / 208
207 / 94
209 / 95
220 / 100
240 / 109
256 / 116
Dimensions are
inch
mm
A 60 2 A 60 3 A 60 4 Shaft mount - NEMA C - face adapter
VA
VB
VB
OA
C
QB
NC
N
DIA
J
U
D
X
H
G
E
NB
FB
FA
AC
NA
0' 22°30
22°3
'
A
UZ
UY
B BA BB
BC
Output Shaft
MA
MC
Mounting face
Input Shaft
MB
Outline dimensions
A
A 60 2, A 60 3, A 60 4
Output shaft
AC
B
BA
BB
BC
9.41 9.25 9.84 8.46 7.087
-0.0017
-0.0033
239
-0.043
-0.083
235
250
215
180
D
M12x19 [mm]
E
FA
FB
G
H
J
OA
QB
6.50 7.68 4.82 4.82 0.63 0.73 9.65 12.99 6.50
165
195 122.5 123
16
18.5
245
330
165
(Inch series)
U
A 60 2, A 60 3, A 60 4
NUH
2.625
+ 0.0016
+ 0.0004
UY
UZ
VA
VB
2.905
0.625
4.92
1.97
NEMA flange
Hollow input shaft
N
NA
NB
NC
X
Weight
[lbs / kg]
N56C
6.496
5.875
4.500
0.394
0.196
194 / 88
N140TC
6.496
5.875
4.500
0.394
0.196
198 / 90
N180TC
8.996
7.250
8.500
0.551
0.216
N210TC
8.996
7.250
8.500
0.551
0.216
MA
MB
MC
N56C
0.188
0.625
0.710
N140TC
0.188
0.875
0.964
207 / 94
N180TC
0.250
1.125
1.241
201 / 91
N210TC
0.312
1.375
1.518
N250TC
13.780
7.250
8.500
0.551
0.216
212 / 96
N250TC
0.375
1.625
1.796
N280TC
13.780
9.000
10.500
0.551
0.216
212 / 96
N280TC
0.500
1.875
2.102
C
A 60 2, A 60 3
A 60 4
Dimensions are
N56C
N140TC
N180TC
N210TC
N250TC
N280TC
21.12
21.12
24.87
23.11
25.91
26.10
536.5
536.5
555.5
587
658
663
23.90
23.90
24.65
25.89
607
607
626
657.5
—
—
inch
mm
97
Solid input / hollow output shaft A 60 2
C
VA
VB
A 60 3 A 60 4
VB
QB
FV
KEY
U
OA
D
FU
J
H
FM
TAP
G
E
AC
FA
A
UY
FB
22°30' 22°30'
UZ
B
Output Shaft
BA BB
FZ
Mounting face
BC
DA
Input Shaft
Outline dimensions
A
A 60 2, A 60 3, A 60 4
Output shaft
AC
B
9.41 9.25 9.84 8.46 7.087
239
-0.043
-0.083
235
250
215
180
BC
M12x19 [mm]
D
E
FA
FB
G
H
J
OA
QB
6.50 7.68 4.82 4.82 0.63 0.73 9.65 12.99 6.50
165
195
123
123
16
18.5
245
330
165
(Inch series)
A 60 2, A 60 3, A 60 4
NUH
+ 0.0016
+ 0.0004
2.625
UY
UZ
VA
VB
2.905
0.625
4.92
1.97
(Inch series)
FU
A 60 2, A 60 3
NHS
A 60 4
NHS
FZ
FV
Key
FM
1.125
+0
-0.0005
1.230
2.360
1/4 x 1/4 x 2 5/32
M10x22 [mm]
1.000
+0
-0.0005
1.110
1.970
1/4 x 1/4 x 1 3/4
M8x19 [mm]
C
24.92
A 60 2, A 60 3
633
26.61
A 60 4
Dimensions are
98
BB
-0.0017
-0.0033
U
Input shaft
BA
676
inch
mm
Weight
[lbs / kg]
292 / 119
231 / 105
A 60 2 A 60 3 A 60 4 Shaft mount - IEC B5 motor adapter
VA
VB
VB
OA
(P63)
QB
X
NC
N
DIA
J
U
D
6.063
154
C
H
G
E
NB
FB
FA
AC
NA
0' 22°30
22°3
'
A
UZ
UY
B BA BB
BC
Output Shaft
MA
MC
Mounting face
Input Shaft
MB
Outline dimensions
A
A 60 2, A 60 3, A 60 4
Output shaft
AC
B
BA
BB
9.41 9.25 9.84 8.46 7.087
239
-0.043
-0.083
235
250
215
180
D
M12x19 [mm]
E
FA
FB
G
H
J
OA
QB
6.50 7.68 4.82 4.82 0.63 0.73 9.65 12.99 6.50
165
195 122.5 123
16
18.5
245
330
165
(Inch series)
U
A 60 2, A 60 3, A 60 4
IEC flange
BC
-0.0017
-0.0033
NUH
2.625
+ 0.0016
+ 0.0004
UY
UZ
VA
VB
2.905
0.625
4.92
1.97
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
P63
140
115
95
M8x19
4
194 / 88
P71
160
130
110
M8x16
4.5
194 / 88
MA
MB
MC
P63
4
11
12.8
P71
5
14
16.3
P80
6
19
21.8
P80, P90
200
165
130
M10x12
4
198 / 90
P90
8
24
27.3
P100, P112
250
215
180
M12x16
4.5
207 / 94
P100, P112
8
28
31.3
P132
300
265
230
14
5
201 / 91
P132
10
38
41.3
P160
12
42
45.3
P180
14
48
51.8
P160, P180
350
300
250
18
6
212 / 96
C
P63
P71
A 60 2, A 60 3
—
A 60 4
Dimensions are
P80
P90
P100
P112
P132
P160
P180
21.10
21.50
22.89
24.92
581.5
633
—
—
536
546
23.11
23.88
24.27
587
606.5
616.5
inch
mm
99
Shaft mount, integral motor A 70 3
A 70 4
CB
C
AB
B
VA
BB
VB
VB
OA
BA
U
D
J
P
BC
H
G
E
FA
QB
UZ
AC
FB
A
UY
Output Shaft
Outline dimensions
A
AC
B
BA
BB
11.22 11.02 10.63 9.25 8.071
285 280 270 235 205
A 70 3, A 70 4
-0.0020
-0.0038
-0.050
-0.096
BC
D
E
FA
FB
G
M14x22 [mm]
9.02
229
9.06
230
4.33
110
7.24
184
0.71
18
H
J
OA
QB
0.87 11.57 15.12 6.10
22
294 384 155
Output shaft
U
A 70 3, A 70 4
UH
2.756
70
+ 0.0016
+ 0.00039
+ 0.04
+ 0.01
UY
UZ
VA
VB
2.949
74.9
0.787
20
6.02
153
2.36
60
Motor
A 70 3_S2 M2S
A 70 3_S3 M3S
A 70 3_S3 M3L
A 70 3_S4 M4S
A 70 3_S4 M4L
A 70 3_S4 M4LC
A 70 3_S5 M5S
A 70 3_S5 M5L
A 70 4_S1 M1S
A 70 4_S1 M1L
A 70 4_S2 M2S
A 70 4_S3 M3S
A 70 4_S3 M3L
A 70 4_S4 M4L
A 70 4_S4 M4S
100
AB
C
CB
P
4.69
119
5.59
142
5.59
142
7.60
193
7.60
193
7.60
193
9.65
245
9.65
245
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
7.60
193
7.60
193
27.11
688.5
28.80
731.5
30.06
763.5
34.35
872.5
34.35
872.5
35.73
907.5
37.72
958
39.45
1002
27.03
686.5
27.97
710.5
29.11
739.5
30.81
782.5
32.07
814.5
36.32
922.5
36.32
922.5
29.86
758.5
32.58
827.5
33.64
854.5
38.64
981.5
38.64
981.5
39.63
1006.5
43.23
1098
44.96
1142
29.51
749.5
30.37
771.5
31.87
809.5
34.59
878.5
35.65
905.5
40.61
1031.5
40.61
1031.5
6.14
156
7.68
195
7.68
195
10.16
258
10.16
258
10.16
258
12.20
310
12.20
310
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
10.16
258
10.16
258
Weight
[lbs / kg]
343 / 156
362 / 164
377 / 171
434 / 197
476 / 216
494 / 224
565 / 256
600 / 272
339 / 154
342 / 155
352 / 160
371 / 168
387 / 175
444 / 201
486 / 220
Dimensions are
inch
mm
A 70 3 A 70 4 Shaft mount - NEMA C - face adapter
C
B
VA
BA
VB
VB
U
OA
X
BB
J
NC
N
DIA
BC
D
H
G
FA
E
AC
FB
NB
QB
NA
MA
UZ
A
UY
MC
Output shaft
Input shaft
MB
Outline dimensions
A
AC
B
BA
BB
11.22 11.02 10.63 9.25 8.071
A 70 3, A 70 4
285
280
270
235
BC
-0.0020
-0.0038
-0.050
-0.096
205
M14x22 [mm]
D
E
FA
FB
G
9.02
9.06
4.33
7.24
0.71
229
230
110
184
18
H
J
OA
QB
0.87 11.57 15.12 6.10
22
294
384
155
Output shaft
U
A 70 3, A 70 4
UH
2.756
70
+ 0.0016
+ 0.00039
+ 0.04
+ 0.01
UY
UZ
VA
VB
2.949
0.787
6.02
2.36
74.9
20
153
60
NEMA flange
Hollow input shaft
N56C
N
NA
NB
NC
X
Weight
[lbs / kg]
6.496
5.875
4.500
0.394
0.196
322 / 146
MA
MB
MC
N56C
0.188
0.625
0.710
N140TC
6.496
5.875
4.500
0.394
0.196
324 / 147
N140TC
0.188
0.875
0.964
N180TC
8.996
7.250
8.500
0.551
0.216
326 / 148
N180TC
0.250
1.125
1.241
N210TC
8.996
7.250
8.500
0.551
0.216
346 / 157
N210TC
0.312
1.375
1.518
N250TC
13.780
7.250
8.500
0.551
0.216
373 / 169
N250TC
0.375
1.625
1.796
N280TC
13.780
9.000
10.500
0.551
0.216
373 / 169
N280TC
0.500
1.875
2.102
C
N56C
A 70 3
—
A 70 4
Dimensions are
N140TC
N180TC
N210TC
N250TC
N280TC
20.65
21.40
22.64
25.63
25.83
651
656
—
—
524.5
543.5
575
22.66
22.66
23.41
24.65
575.5
575.5
594.5
626
inch
mm
101
Solid input / hollow output shaft A 70 3
A 70 4
C
VA
VB
B
BA
VB
BB
E
FV
BC
KEY
FM
TAP
U
OA
FU
J
DA
D
H
G
QB
FA
AC
A
FB
UZ
UY
FZ
Output Shaft
Input Shaft
Outline dimensions
A
AC
B
BA
BB
11.22 11.02 10.63 9.25 8.071
A 70 3, A 70 4
285
280
270
235
205
BC
-0.0020
-0.0038
-0.050
-0.096
M14x22 [mm]
D
E
FA
FB
G
9.02
9.06
4.33
7.24
0.71
229
230
110
184
18
H
J
OA
0.87 11.57 15.12 6.10
22
294
384
Output shaft
U
A 70 3, A 70 4
UH
+ 0.0016
+ 0.00039
2.756
+ 0.04
+ 0.01
70
UY
UZ
VA
VB
2.949
0.787
6.02
2.36
74.9
20
153
60
Key
FM
12 x 8 x 90
M12x28 [mm]
3/4 x 3/4 x 1 3/4
M8x19 [mm]
Input shaft
FU
A 70 3
HS
A 70 4
NHS
FZ
FV
1.654
+0
- 0.0006
1.772
4.331
42
+0
- 0.016
45
110
1.000
+0
- 0.0005
1.110
1.970
C
27.89
A 70 3
708.5
25.37
A 70 4
Dimensions are
102
644.5
inch
mm
Weight
[lbs / kg]
364 / 165
328 / 149
QB
155
A 70 3 A 70 4 Shaft mount - IEC B5 motor adapter
C
B
VA
VB
VB
(P63)
X
BB
U
OA
6.063
154
BA
J
NC
N
DIA
BC
D
H
G
FA
E
AC
FB
NB
QB
NA
MA
UZ
A
UY
Output shaft
MC
Input shaft
MB
Outline dimensions
A
AC
B
BA
BB
11.22 11.02 10.63 9.25 8.071
A 70 3, A 70 4
285
280
270
235
BC
-0.0020
-0.0038
-0.050
-0.096
205
M14x22 [mm]
D
E
FA
FB
G
9.02
9.06
4.33
7.24
0.71
229
230
110
184
18
H
J
OA
QB
0.87 11.57 15.12 6.10
22
294
384
155
Output shaft
U
A 70 3, A 70 4
IEC flange
UH
2.756
70
+ 0.0016
+ 0.00039
+ 0.04
+ 0.01
UY
UZ
VA
VB
2.949
0.787
6.02
2.36
74.9
20
153
60
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
P63
140
115
95
M8x19
4
322 / 146
P71
160
130
110
M8x16
4.5
322 / 146
MA
MB
MC
P63
4
11
12.8
P71
5
14
16.3
P80
6
19
21.8
P80, P90
200
165
130
M10x12
4
324 / 147
P90
8
24
27.3
P100, P112
250
215
180
M12x16
4.5
326 / 148
P100, P112
8
28
31.3
P132
300
265
230
14
5
346 / 157
P132
10
38
41.3
P160
12
42
45.3
P180
14
48
51.8
P200
16
55
59.3
P160, P180
350
300
250
18
6
373 / 169
P200
400
350
300
M16x25
7
395 / 179
P63
P71
P80
P90
P100
P112
P132
P160
P180
P200
20.63
21.02
22.46
24.65
25.63
626
651
—
—
C
A 70 3
—
A 70 4
Dimensions are
524
534
570.5
21.87
22.64
23.03
24.35
555.5
575
585
618.5
inch
mm
103
Shaft mount, integral motor A 80 3
A 80 4
CB
C
AB
B
VA
BB
VB
VB
OA
BA
U
D
J
P
BC
H
G
E
FA
QB
UZ
AC
FB
A
UY
Output Shaft
Outline dimensions
A
AC
B
BA
BB
13.39 12.99 11.81 10.43 9.055
A 80 3, A 80 4
340
330
300
265
BC
-0.0020
-0.0038
-0.050
-0.096
230
M16x28 [mm]
D
E
FA
10.71 10.83 4.80
272
275
122
FB
G
8.23
0.91
209
23
H
J
OA
QB
1.02 13.03 17.99 7.28
26
331
457
185
Output shaft
U
A 80 3, A 80 4
UH
3.150
80
+ 0.0016
+ 0.00039
+ 0.04
+ 0.01
UY
UZ
VA
VB
3.362
85.4
0.866
22
7.09
180
3.15
80
Motor
A 80 3_S3 M3S
A 80 3_S3 M3L
A 80 3_S4 M4S
A 80 3_S4 M4L
A 80 3_S4 M4LC
A 80 3_S5 M5S
A 80 3_S5 M5L
A 80 4_S1 M1S
A 80 4_S1 M1L
A 80 4_S2 M2S
A 80 4_S3 M3S
A 80 4_S3 M3L
A 80 4_S4 M4L
A 80 4_S4 M4S
104
AB
C
CB
P
5.59
142
5.59
142
7.60
193
7.60
193
7.60
193
9.65
245
9.65
245
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
7.60
193
7.60
193
31.87
809.5
33.13
841.5
37.38
949.5
37.38
949.5
38.76
984.5
40.79
1036
42.52
1080
30.57
776.5
31.52
800.5
32.66
829.5
34.35
872.5
35.61
904.5
39.86
1012.5
39.86
1012.5
35.65
905.5
36.71
932.5
41.67
1058.5
41.67
1058.5
42.66
1083.5
46.30
1176
48.03
1220
33.05
839.5
33.92
861.5
35.41
899.5
38.13
968.5
39.19
995.5
44.15
1121.5
44.15
1121.5
7.68
195
7.68
195
10.16
258
10.16
258
10.16
258
12.20
310
12.20
310
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
10.16
258
10.16
258
Weight
[lbs / kg]
582 / 264
597 / 271
655 / 297
697 / 316
714 / 324
785 / 356
820 / 372
545 / 247
549 / 249
560 / 254
578 / 262
593 / 269
650 / 295
692 / 314
Dimensions are
inch
mm
A 80 3 A 80 4 Shaft mount - NEMA C - face adapter
C
B
VA
BA
VB
VB
U
OA
X
BB
J
NC
N
DIA
BC
D
H
G
FA
E
AC
FB
NB
QB
NA
MA
UZ
A
UY
MC
Output shaft
Input shaft
MB
Outline dimensions
A
AC
B
BA
BB
13.39 12.99 11.81 10.43 9.055
A 80 3, A 80 4
340
330
300
265
BC
-0.0020
-0.0038
M16x28 [mm]
-0.050
-0.096
230
D
E
FA
10.71 10.83 4.80
272
275
122
FB
G
8.23
0.91
209
23
H
J
OA
QB
1.02 13.03 17.99 7.28
26
331
457
185
Output shaft
U
A 80 3, A 80 4
UH
+ 0.0016
+ 0.00039
+ 0.04
+ 0.01
3.150
80
UY
UZ
VA
VB
3.362
85.4
0.866
22
7.09
180
3.15
80
NEMA flange
Hollow input shaft
N56C
N
NA
NB
NC
X
Weight
[lbs / kg]
6.496
5.875
4.500
0.394
0.196
547 / 248
MA
MB
MC
N56C
0.188
0.625
0.710
N140TC
6.496
5.875
4.500
0.394
0.196
549 / 249
N140TC
0.188
0.875
0.964
N180TC
8.996
7.250
8.500
0.551
0.216
551 / 250
N180TC
0.250
1.125
1.241
N210TC
8.996
7.250
8.500
0.551
0.216
571 / 259
N210TC
0.312
1.375
1.518
N250TC
13.780
7.250
8.500
0.551
0.216
591 / 268
N250TC
0.375
1.625
1.796
N280TC
13.780
9.000
10.500
0.551
0.216
592 / 268
N280TC
0.500
1.875
2.102
N320TC
17.717
11.000
12.500
0.669
0.216
657 / 298
N320TC
0.500
2.125
2.350
C
N56C
A 80 3
A 80 4
Dimensions are
N140TC N180TC N210TC N250TC N280TC N320TC
—
—
26.20
26.20
665.5
665.5
24.47
25.71
28.70
28.90
31.75
621.5
653
729
734
806.5
26.95
28.19
684.5
716
—
—
—
inch
mm
105
Solid input / hollow output shaft A 80 3
A 80 4
C
VA
VB
B
BA
VB
BB
E
FV
BC
KEY
FM
TAP
U
OA
FU
J
DA
D
H
G
QB
FA
AC
A
FB
UZ
UY
FZ
Output Shaft
Input Shaft
Outline dimensions
A
AC
B
BA
BB
13.39 12.99 11.81 10.43 9.055
A 80 3, A 80 4
340
330
300
265
230
BC
-0.0020
-0.0038
-0.050
-0.096
M16x28 [mm]
D
E
FA
10.71 10.83 4.80
272
275
122
FB
G
8.23
0.91
209
23
H
J
OA
1.02 13.03 17.99 7.28
26
331
457
Output shaft
U
A 80 3, A 80 4
UH
+ 0.0016
+ 0.00039
3.150
+ 0.04
+ 0.01
80
UY
UZ
VA
VB
3.362
0.866
7.09
3.15
85.4
22
180
80
Key
FM
12 x 8 x 90
M12x28 [mm]
3/4 x 3/4 x 1 3/4
M8x19 [mm]
Input shaft
FU
A 80 3
HS
A 80 4
NHS
FZ
FV
1.654
+0
- 0.0006
1.772
4.331
42
+0
- 0.016
45
110
1.000
+0
- 0.0005
1.110
1.970
C
30.96
A 80 3
786.5
28.94
A 80 4
Dimensions are
106
735
inch
mm
Weight
[lbs / kg]
584 / 265
551 / 250
QB
185
A 80 3 A 80 4 Shaft mount - IEC B5 motor adapter
C
B
VA
BA
VB
(P63)
X
BB
N
NC
N
DIA
45°
VB
A803_P225
6.063
154
U
OA
J
BC
NC
DIA
D
H
G
FA
E
AC
FB
QB
NA
UY
NA
MA
UZ
A
NB
NB
MC
Output shaft
Input shaft
MB
Outline dimensions
A
AC
B
BA
BB
13.39 12.99 11.81 10.43 9.055
A 80 3, A 80 4
340
330
300
265
BC
-0.0020
-0.0038
M16x28 [mm]
-0.050
-0.096
230
D
E
FA
10.71 10.83 4.80
272
275
122
FB
G
8.23
0.91
209
23
H
J
OA
QB
1.02 13.03 17.99 7.28
26
331
457
185
Output shaft
U
A 80 3, A 80 4
IEC flange
UH
3.150
80
+ 0.0016
+ 0.00039
+ 0.04
+ 0.01
UY
UZ
VA
VB
3.362
85.4
0.866
22
7.09
180
3.15
80
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
MA
MB
MC
P63
140
115
95
M8x19
4
547 / 248
P63
4
11
12.8
P71
160
130
110
M8x16
4.5
547 / 248
P71
5
14
16.3
P80
6
19
21.8
P80, P90
200
165
130
M10x12
4
549 / 249
P90
8
24
27.3
P100, P112
250
215
180
M12x16
4.5
551 / 250
P100, P112
8
28
31.3
P132
300
265
230
14
5
571 / 259
P132
10
38
41.3
P160
12
42
45.3
P160, P180
350
300
250
18
6
591 / 268
P180
14
48
51.8
P200
400
350
300
M16x25
7
615 / 279
P200
16
55
59.3
657 / 298
P225
18
60
64.4
P225
450
400
350
18
6
C
P63
P71
A 80 3
—
A 80 4
Dimensions are
P80
P90
P100
P112
P132
P160
P180
P200
P225
23.70
24.09
25.53
27.72
28.70
30.49
704
729
774.5
—
—
—
602
612
648.5
25.41
26.18
26.57
28.01
645.5
665
675
711.5
inch
mm
107
Shaft mount, integral motor A 90 3
A 90 4
CB
C
AB
B
VA
BB
VB
VB
OA
BA
U
D
J
P
BC
H
G
E
FA
QB
UZ
AC
FB
A
UY
Output Shaft
Outline dimensions
A
AC
B
BA
BB
15.35 14.76 13.78 11.81 9.843
A 90 3, A 90 4
390
375
350
300
BC
-0.0020
-0.0038
-0.050
-0.096
250
M20x33 [mm]
D
E
FA
FB
G
12.80 12.40 6.10 10.04 1.18
325
315
155
255
30
H
J
OA
QB
1.02 16.14 21.65 8.86
26
410
550
225
Output shaft
U
A 90 3, A 90 4
UH
3.543
90
+ 0.0018
+ 0.00047
+ 0.047
+ 0.012
UY
UZ
VA
VB
3.756
95.4
0.984
25
8.07
205
3.15
80
Motor
A 90 3_S3 M3S
A 90 3_S3 M3L
A 90 3_S4 M4S
A 90 3_S4 M4L
A 90 3_S4 M4LC
A 90 3_S5 M5S
A 90 3_S5 M5L
A 90 4_S1 M1S
A 90 4_S1 M1L
A 90 4_S2 M2S
A 90 4_S3 M3S
A 90 4_S3 M3L
A 90 4_S4 M4L
A 90 4_S4 M4S
108
AB
C
CB
P
5.59
142
5.59
142
7.60
193
7.60
193
7.60
193
9.65
245
9.65
245
4.25
108
4.25
108
4.69
119
5.59
142
5.59
142
7.60
193
7.60
193
36.63
930.5
37.89
962.5
42.15
1070.5
42.15
1070.5
43.52
1105.5
45.55
1157
47.28
1201
36.12
917.5
37.07
941.5
38.21
970.5
39.90
1013.5
41.16
1045.5
45.41
1153.5
45.41
1153.5
40.41
1026.5
41.48
1053.5
46.44
11795
46.44
1179.5
47.42
1204.5
51.06
1297
52.80
1341
38.60
980.5
39.47
1002.5
40.96
1040.5
43.68
1109.5
44.74
1136.5
49.70
1262.5
49.70
1262.5
7.68
195
7.68
195
10.16
258
10.16
258
10.16
258
12.20
310
12.20
310
5.43
138
5.43
138
6.14
156
7.68
195
7.68
195
10.16
258
10.16
258
Weight
[lbs / kg]
926 / 420
941 / 427
999 / 453
1041 / 472
1058 / 480
1129 / 512
1164 / 528
906 / 411
908 / 412
939 / 426
957 / 434
972 / 441
1030 / 467
1071 / 486
Dimensions are
inch
mm
A 90 3 A 90 4 Shaft mount - NEMA C - face adapter
C
B
VA
BA
VB
VB
U
OA
X
BB
J
NC
N
DIA
BC
D
H
G
FA
E
AC
FB
NB
QB
NA
MA
UZ
A
UY
MC
Output shaft
Input shaft
MB
Outline dimensions
A
AC
B
BA
BB
15.35 14.76 13.78 11.81 9.843
A 90 3, A 90 4
390
375
350
300
BC
-0.0020
-0.0038
M20x33 [mm]
-0.050
-0.096
250
D
E
FA
FB
G
12.80 12.40 6.10 10.04 1.18
325
315
155
255
30
H
J
OA
QB
1.02 16.14 21.65 8.86
26
410
550
225
Output shaft
U
A 90 3, A 90 4
UH
+ 0.0018
+ 0.00047
+ 0.047
+ 0.012
3.543
90
UY
UZ
VA
VB
3.756
95.4
0.984
25
8.07
205
3.15
80
NEMA flange
Hollow input shaft
N
NA
NB
NC
X
Weight
[lbs / kg]
MA
MB
MC
N56C
6.496
5.875
4.500
0.394
0.196
908 / 412
N56C
0.188
0.625
0.710
N140TC
6.496
5.875
4.500
0.394
0.196
910 / 413
N140TC
0.188
0.875
0.964
N180TC
8.996
7.250
8.500
0.551
0.216
915 / 415
N180TC
0.250
1.125
1.241
N210TC
8.996
7.250
8.500
0.551
0.216
933 / 423
N210TC
0.312
1.375
1.518
N250TC
13.780
7.250
8.500
0.551
0.216
957 / 434
N250TC
0.375
1.625
1.796
N280TC
13.780
9.000
10.500
0.551
0.216
957 / 434
N280TC
0.500
1.875
2.102
N320TC
17.717
11.000
12.500
0.669
0.216
1041 / 472
N320TC
0.500
2.125
2.350
C
N56C
A 90 3
A 90 4
Dimensions are
N140TC N180TC N210TC N250TC N280TC N320TC
—
—
31.75
31.75
806.5
806.5
29.23
30.47
33.46
33.66
36.52
742.5
774
850
855
927.5
32.50
33.74
825.5
857
—
—
—
inch
mm
109
Solid input / hollow output shaft A 90 3
A 90 4
C
VA
VB
B
BA
VB
BB
E
FV
BC
KEY
FM
TAP
U
OA
FU
J
DA
D
H
G
QB
FA
AC
A
FB
UZ
UY
FZ
Output Shaft
Input Shaft
Outline dimensions
A
AC
B
BA
BB
15.35 14.76 13.78 11.81 9.843
A 90 3, A 90 4
390
375
350
300
250
BC
-0.0020
-0.0038
-0.050
-0.096
M20x33 [mm]
D
E
FA
FB
G
12.80 12.40 6.10 10.04 1.18
325
315
155
255
30
H
J
OA
1.02 16.14 21.65 8.86
26
410
550
Output shaft
U
A 90 3, A 90 4
UH
+ 0.0018
+ 0.00047
3.543
+ 0.047
+ 0.012
90
UY
UZ
VA
VB
3.756
0.984
8.07
3.15
95.4
25
205
80
Key
FM
18 x 11 x 120
M16x36 [mm]
1/4 x 1/4 x 1 3/4
M8x19 [mm]
Input shaft
FU
A 90 3
HS
A 90 4
NHS
FZ
FV
2.362
+0
- 0.0007
2.520
5.512
60
+0
- 0.019
64
140
1.000
+0
- 0.0005
1.110
1.970
C
39.72
A 90 3
1009
34.47
A 90 4
Dimensions are
110
875.5
inch
mm
Weight
[lbs / kg]
1025 / 465
915 / 415
QB
225
A 90 3 A 90 4 Shaft mount - IEC B5 motor adapter
C
B
VA
BA
VB
(P63)
X
BB
N
NC
N
DIA
45°
VB
A903_P225
A903_P250
6.063
154
U
OA
J
BC
NC
DIA
D
H
G
E
FA
AC
QB
FB
NA
UY
NA
MA
UZ
A
NB
NB
MC
Output shaft
Input shaft
MB
Outline dimensions
A
AC
B
BA
BB
15.35 14.76 13.78 11.81 9.843
A 90 3, A 90 4
390
375
350
300
BC
-0.0020
-0.0038
-0.050
-0.096
250
D
M20x33 [mm]
E
FA
FB
G
12.80 12.40 6.10 10.04 1.18
325
315
155
255
30
H
J
OA
QB
1.02 16.14 21.65 8.86
26
410
550
225
Output shaft
U
A 90 3, A 90 4
IEC flange
UH
+ 0.0018
+ 0.00047
+ 0.047
+ 0.012
3.543
90
UY
UZ
VA
VB
3.756
95.4
0.984
25
8.07
205
3.15
80
Hollow input shaft
(mm)
N
NA
NB
NC
X
Weight
[lbs / kg]
P63
140
115
95
M8x19
4
906 / 411
P71
160
130
110
M8x16
4.5
908 / 412
MA
MB
MC
P63
4
11
12.8
P71
5
14
16.3
P80
6
19
21.8
P80, P90
200
165
130
M10x12
4
910 / 413
P90
8
24
27.3
P100, P112
250
215
180
M12x16
4.5
915 / 415
P100, P112
8
28
31.3
P132
300
265
230
14
5
933 / 423
P132
10
38
41.3
P160
12
42
45.3
P160, P180
350
300
250
18
6
957 / 434
P180
14
48
51.8
P200
400
350
300
M16x25
7
961 / 436
P200
16
55
59.3
P225
450
400
350
18
6
1041 / 472
P225
18
60
64.4
P250
550
500
450
18
6
1047 / 475
P250
18
65
69.4
C
P63
P71
A 90 3
P100
P112
P132
P160
P180
P200
P225
P250
28.46
28.86
30.30
32.48
33.46
35.26
36.44
723
733
769.5
825
850
895.5
925.5
30.96
31.73
32.13
33.56
35.55
786.5
806
816
852.5
903
—
—
—
—
A 90 4
Dimensions are
P80
P90
inch
mm
111
Foot mount A 10...A 90 (single shaft extension)
(V)
VA
VA
KEY
V
UY
KEY
U
U
M
TAP
M
TAP
Output shaft
Output Shaft
(NUL, NUR inch series / UL, UR metric series)
Model
U
UY
V
VA
2.480
A 10
NUL
NUR
1.000
+0
-0.0005
1.110
2.000
A 20
NUL
NUR
1.250
+0
-0.0006
1.360
2.500
A 30
NUL
NUR
1.375
+0
-0.0006
1.510
2.750
A 41
NUL
NUR
1.625
+0
-0.0006
1.790
3.250
A 50
NUL
NUR
2.000
+0
-0.0007
2.220
4.000
A 60
NUL
NUR
2.625
+0
-0.0007
2.900
5.250
A 70
UL
UR
3.150
+0
-0.0009
3.346
5.118
6.024
80
+0
-0.022
85
130
153
A 80
UL
UR
3.543
+0
-0.0009
3.740
6.692
7.087
90
+0
-0.022
95
170
180
A 90
UL
UR
3.937
+0
-0.0009
4.173
8.267
8.070
100
+0
-0.022
106
210
205
Dimension are
112
inch
mm
63
2.874
73
3.268
83
3.661
93
4.646
118
4.921
125
Key
M
1/4 x 1/4 x 1 3/4
M8x19 [mm]
1/4 x 1/4 x 2 5/32
M10x22 [mm]
5/16 x 5/16 x 2 3/8
M10x22 [mm]
3/8 x 3/8 x 2 7/8
M12x228 [mm]
1/2 x 1/2 x 3 3/4
M16x36 [mm]
5/8 x 5/8 x 5
M20x42 [mm]
22x14x110
M20x42 [mm]
25x14x160
M24x50 [mm]
28x16x190
M24x50 [mm]
Foot mount A 10...A 90 (double shaft extension)
V1
(V)
VA
VA
V
(V1)
UY
KEY
KEY
U
U
M
TAP
M
TAP
Output shaft
Output Shaft
(NUD inch series / UD metric series)
Model
U
UY
V
V1
VA
2.480
A 10
NUD
1.000
+0
-0.0005
1.110
2.080
2.000
A 20
NUD
1.250
+0
-0.0006
1.360
2.550
2.500
A 30
NUD
1.375
+0
-0.0006
1.510
2.800
2.750
A 41
NUD
1.625
+0
-0.0006
1.790
3.330
3.250
A 50
NUD
2.000
+0
-0.0007
2.220
4.060
4.000
A 60
NUD
2.625
+0
-0.0007
2.900
5.290
5.250
3.150
+0
-0.0009
3.346
5.118
5.118
6.024
80
+0
-0.022
85
130
130
153
3.543
+0
-0.0009
3.740
6.692
6.692
7.087
90
+0
-0.022
95
170
170
180
3.937
+0
-0.0009
4.173
8.267
8.267
8.070
100
+0
-0.022
106
210
210
205
A 70
UD
A 80
UD
A 90
Dimension are
UD
63
2.874
73
3.268
83
3.661
93
4.646
118
4.921
125
Key
M
1/4 x 1/4 x 1 3/4
M8x19 [mm]
1/4 x 1/4 x 2 5/32
M10x22 [mm]
5/16 x 5/16 x 2 3/8
M10x22 [mm]
3/8 x 3/8 x 2 7/8
M12x228 [mm]
1/2 x 1/2 x 3 3/4
M16x36 [mm]
5/8 x 5/8 x 5
M20x42 [mm]
22x14x110
M20x42 [mm]
25x14x160
M24x50 [mm]
28x16x190
M24x50 [mm]
inch
mm
113
Shaft mount with shrink disc A 10...A 90
VA
VB
UB
N
UD
UC
UA
U
T
Output shaft
(Inch series / Optional metric series)
T
Model
A 10
A 20
A 30
A 41
A 50
A 60
A 70
A 80
A 90
Dimension are
114
inch
mm
é Ib × inù
ëê Nm ûú
U
UA
UB
UC
UD
VA
VB
N
128
1.260
1.181
1.417
3.051
1.417
2.362
4.055
3.346
14.5
32
30
36
77.5
36
60
103
85
128
1.457
1.378
1.654
3.524
1.614
2.756
4.547
3.937
14.5
37
35
42
89.5
41
70
115.5
100
128
1.654
1.575
1.969
3.760
1.890
3.150
4.941
3.937
14.5
42
40
50
95.5
48
80
125.5
100
128
1.850
1.772
2.047
4.862
1.909
3.661
5.819
5.315
14.5
47
45
52
123.5
48.5
93
147.8
195
310
2.244
2.165
1.890
6.142
2.441
4.488
7.051
7.283
35
57
55
48
156
62
114
179.1
185
310
2.835
2.756
1.969
7.008
2.638
4.921
7.461
7.283
35
72
70
50
178
67
125
189.5
185
310
3.228
3.150
3.622
6.811
3.543
6.024
8.366
8.268
35
82
80
92
173
90
153
212.5
210
611
3.622
3.543
4.016
8.504
3.937
7.087
9.764
9.055
69
92
90
102
216
100
180
248
230
611
4.016
3.937
3.150
12.638
2.756
8.071
11.063
9.843
69
102
100
80
321
70
205
281
250
Flange options for A 10...A 60
C
AJ
A
B
BE
GA
BE
AJ
GA
BF
DIA
GA
2
1
BD AK
BD AK
BD AK
BE
AJ
BF
DIA
BF
DIA
VD
VD
VD
Flange
A 10
A 20
A
A 30
A 41
A 50
A 60
A 10
A 20
B
A 30
A 41
A 50
A 60
A 10
A 20
C
A 30
A 41
A 50
A 60
Dimensions are
AJ
5.118
4.331
AK
130
5.118
130
5.118
130
8.465
215
10.433
265
10.433
265
6.496
165
6.496
165
6.496
165
10.433
265
11.811
300
11.811
110
4.331
110
4.331
110
7.087
180
9.055
230
9.055
230
5.118
130
5.118
130
5.118
130
9.055
230
9.843
250
9.843
300
8.465
215
250
7.087
180
8.465
215
8.465
215
11.811
300
13.780
350
13.780
350
7.087
180
7.087
180
9.843
250
11.811
300
11.811
300
-0.0014
-0.0028
-0.036
-0.071
-0.0014
-0.0028
-0.036
-0.071
-0.0014
-0.0028
-0.036
-0.071
-0.0017
-0.0033
-0.043
-0.083
-0.0020
-0.0038
-0.050
-0.096
-0.0020
-0.0038
-0.050
-0.096
-0.0017
-0.0033
-0.043
-0.083
-0.0017
-0.0033
-0.043
-0.083
-0.0017
-0.0033
-0.043
-0.083
-0.0020
-0.0038
-0.050
-0.096
-0.0020
-0.0039
-0.050
-0.098
-0.0020
-0.0039
-0.050
-0.098
-0.0017
-0.0033
-0.043
-0.083
-0.0017
-0.0033
-0.043
-0.083
-0.0017
-0.0033
-0.043
-0.083
-0.0020
-0.0038
-0.050
-0.096
-0.0022
-0.0043
-0.056
-0.108
-0.0022
-0.0043
-0.056
-0.108
BD
6.299
160
6.299
160
6.299
160
9.843
250
11.811
300
11.811
300
7.874
200
7.874
200
7.874
200
BE
0.118
3
0.118
3
0.118
3
0.157
4
0.157
4
0.157
4
0.138
3.5
0.138
3.5
0.138
3.5
BF
0.354
9
0.354
9
0.354
9
0.433
14
0.433
14
0.433
14
0.433
11
0.433
11
0.433
11
GA
0.394
10
0.394
10
0.394
10
0.512
13
0.630
16
0.630
16
0.433
11
0.433
11
0.433
11
VD
3.602
91.5
3.602
106
4.567
116
5.020
127.5
6.299
160
6.692
170
3.602
91.5
4.173
106
4.567
116
11.811
300
13.780
350
13.780
350
9.843
250
9.843
250
9.843
250
0.157
4
0.197
5
0.197
5
0.157
4
0.157
4
0.157
4
0.551
14
0.709
18
0.709
18
0.551
14
0.551
14
0.551
14
0.630
16
0.709
18
0.709
18
0.512
13
0.512
13
0.512
13
5.020
127.5
6.299
160
6.692
170
3.602
91.5
4.173
106
4.567
116
13.780
350
15.748
400
15.748
400
0.197
5
0.197
5
0.197
5
0.709
18
0.709
18
0.709
18
0.709
18
0.787
20
0.787
20
5.020
127.5
6.299
160
6.692
170
inch
mm
115
Flange options for A 70...A 90
A
B
GA
BE
AJ
AJ
BE
GA
2
1
BD AK
BD AK
BF
DIA
BF
DIA
VD
VD
Flange
AJ
A 70
A
A 80
A 90
B
Dimensions are
116
A 70
A 80
inch
mm
BD
BE
BF
GA
VD
15.748
13.780
AK
-0.0024
-0.0047
17.717
0.197
0.709
0.866
8.661
400
350
-0.062
-0.119
450
5
18
22
220
15.748
13.780
-0.0024
-0.0047
17.717
0.197
0.709
0.866
9.843
400
350
-0.062
-0.119
450
5
18
22
250
19.685
17.717
-0.0027
-0.0052
21.654
0.197
0.709
0.945
11.024
500
450
-0.068
-0.131
550
5
18
24
280
19.685
17.717
-0.0027
-0.0052
21.654
0.197
0.709
0.945
8.661
500
450
-0.068
-0.131
550
5
18
24
220
19.685
17.717
-0.0027
-0.0052
21.654
0.197
0.709
0.945
9.843
500
450
-0.068
-0.131
550
5
18
24
250
2.17 TORQUE ARM
A 10
A 20
A 30
A 40
A 50
A 60
A 70
A 80
A 90
DD
DE
L
LA
LB
Y
YA
YB
5.433
4.252
5.827
4.646
2.362
0.787
0.394
1.181
138
108
148
118
60
20
10
30
5.827
4.646
6.575
5.394
2.362
0.787
0.394
1.181
148
118
167
137
60
20
10
30
6.693
5.315
7.283
5.906
2.756
0.984
0.787
1.575
170
135
185
150
70
25
20
40
7.559
6.181
9.252
7.874
2.756
0.984
0.787
1.575
192
157
235
200
70
25
20
40
9.646
7.874
11.614
9.843
3.543
1.575
1.260
2.205
245
200
295
250
90
40
32
56
10.630
8.858
13.583
11.811
3.543
1.575
1.260
2.205
270
225
345
300
90
40
32
56
13.150
11.380
11.614
9.843
3.543
1.575
1.260
2.205
334
289
295
250
90
40
32
56
16.614
14.055
14.370
11.811
5.118
2.362
1.654
3.071
422
357
365
300
130
60
42
78
18.700
16.142
16.338
13.780
5.118
2.362
1.654
3.071
475
410
415
350
130
60
42
78
Torque arm comes complete with fasteners
Dimensions are
inch
mm
117
118
3.0 BONFIGLIOLI ELECTRIC MOTORS
119
3.1 GENERAL INFORMATION
BONFIGLIOLI RIDUTTORI three-phase AC induction
motors and brake motors are designed for continuous
operation, IEC dimensional standard and comply electrically with all relevant standards including NEMA MG1.
They are supplied either integral (M type) to a
BONFIGLIOLI gear unit or flanged design (BN type).
The motors also comply with national standards
adapted to IEC 60034-1 as charted along side.
(C1)
Canada
Great Britain
Germany
Australia
Belgium
Norway
France
Austria
Switzerland
Netherlands
Sweden
CSA C22.2 N° 100
BS5000 / BS 4999
DIN VDE 0530
AS 1359
NBNC 51 - 101
NEK – IEC 34
NF C 51
OEVE M 10
SEV 3009
NEN 3173
SS 426 01 01
Abbreviations and units
Conversion table for commonly
used metric – imperial units
Symb. U.m.
Description
cos j
h
fm
ft
I
ln
ls
Jc
Jm
n
Kc
Kd
Kj
Tb
Tn
Ta
Tk
TL
Ts
Pb
Pn
t1
t1s
t2
t2c
ta
tf
tr
W
–
–
–
–
–
[A]
[A]
[Ib·ft2]
[Ib·ft2]
[rpm]
–
–
–
[lb·in]
[lb·in]
[lb·in]
[lb·in]
[lb·in]
[lb·in]
[W]
[W]
[ms]
[ms]
[ms]
[ms]
[°C/ °F]
[min]
[min]
[Ib•ft]
Power factor
Efficiency
Intermittence adjustment factor
Ambient temperature factor
Cyclic duration factor
Rated current
Locked rotor current
Load inertia
Motor inertia
Speed
Torque factor
Load factor
Inertia factor
Brake torque
Motor rated torque
Mean starting torque
Length
1 in
=
1 ft
=
1 yd
=
25.40 mm
304.8 mm
914.4 mm
= 0.0254 m
= 0.3048 m
= 0.9144 m
Area
1 in2
1 ft2
1 yd2
=
=
=
645.16 mm2
92.9´103 mm2
836´103 mm2
= 0.645´10-3 m2
= 92.9´ 103 m2
= 0.8361 m2
Volume
1 in3
=
1 ft3
=
16.4´10-3 dm3
28.32 dm3
= 16.4´10-6 m3
= 28.3´10-3 m3
Force – Weight
1 lbm =
1 lbf
=
2.2046 Kg
4.4482 N
Torque
1 lb in =
1 lb ft =
0.1129 Nm
1.3558 Nm
Power
1 hp
=
0.7457 kW
Wmax
Z
Z0
[Ib•ft]
[1/h]
[1/h]
120
Breakdown torque
Load torque
Locked rotor torque
Power absorbed by brake coil
Rated power output
Brake release time
Shorter brake release time
Brake reaction time
Faster reaction time
Ambient temperature
Operating time at constant load
Rest time
Brake work between two successive
adjustments
Max permissible brake work
Permissible starts per hour
Permissible starts per hour (unloaded, I=50%)
Moment of inertia
1 lb ft2 =
4.214´10-2
2
1 lb in s =
1.12985´10-1
2
1 lb ft s =
1.35582
Kg m2
Kg m2
Kg m2
Pressure – stress
1 lb/in2 =
6.89´10-3
2
1 lb/ft =
47.88
N/mm2
N/m2
Temperature
t [°F]
=
T [°C]
=
5
x [ t - 32]
9
æ 9 x T + 32 ö
ç
÷
è 5
ø
[°C]
[°F]
3.2 MOTOR ORDERING NUMBERS
MOTOR
BRAKE
M 2SA 4 230/460-60 IP54 CLF ..... W FD 15 R SB 220 SA ....
OPTIONS
BRAKE SUPPLY
AC/DC RECTIFIER
NB, NBR, SB, SBR
BRAKE HAND RELEASE (optional)
R, RM
BRAKE TORQUE [specify Nm!]
[1 ft • Ib = 1.356 Nm]
BRAKE TYPE
FD (DC brake)
FA (AC brake)
TERMINAL BOX
W (default), N, S, E
MOUNTING
blank for compact motor
B5 for IEC motor
INSULATION CLASS
CL F default
DEGREE OF PROTECTION
IP 55 standard (IP 54 standard for brake motors)
VOLTAGE - FREQUENCY
NUMBER OF POLES
MOTOR FRAME SIZE
TYPE OF MOTOR
121
US power mains voltages and the corresponding rated
voltages to be specified for the motor are indicated in
the following table:
CUS
Motors for USA and Canada
(C2)
Frequency
Mains voltage
Vmot
208 V
200 V
240 V
230 V
480 V
460 V
600 V
575 V
60 Hz
Motors with YY/Y connection (e.g. 230/460-60;
220/440-60) feature, as standard, a 9-stud terminal
board.
For DC brake motors type BN_FD, the rectifier is fed
with 1-phase 230V a.c., factory pre-wired in the motor
terminal box as standard.
Brake power supply for brake motors is as follows:
(C3)
BN_FD
M_FD
Wired to terminal box 1~230V a.c.
BN_FA
M_FA
Specify
Separate power supply
230V D - 60Hz
230SA
Separate power supply
460V Y - 60Hz
460SA
As per the IEC standards applicable the tolerances here
after apply to the following quantities.
-(1 - cosj)/6
±20% *
+20%
-15% +25%
-10%
min 0.02 max 0.07
* ± 30% for motors with Pn < 0.75 hp
122
3.3 MECHANICAL
CHARACTERISTICS
IP..
Enclosures
Motors are provided as totally enclosed fan-cooled
(TEFC) according to NEMA MG1 1-26-2 1998 and they
are designed for IP 55 (IP 54 for brake motors) degree
of protection in accordance with NEMA MG1- 5 / IEC
60034-5 Standards.
Higher degree of protection (IP 56, or IP 55 for brake
motors) is available on request.
The following table provides an overview of the available degree of protection.
Regardless of the protection class specified on order,
motors to be installed outdoors require protection
against direct sunlight and in addition – when they are to
be installed with the shaft downwards – a drip cover to
keep out water and solid matter (option RC).
(C5)
Tolerances
(C4)
-0.15 (1 - h) P £ 75 hp
BN and M motors are available in NEMA Design C configuration (concerning electrical characteristics), certified
to CSA (Canadian standard) C22.2 No. 100 and UL
(Underwriters Laboratory) UL 1004. Name plate includes the cCSAus mark (voltage £ 600V), in this case,
please specify option CUS.
Efficiency
Power factor
Slip
Locked rotor current
Locked rotor torque
Max. torque
BN_FD
BN_FA
M_FD
M_FD
IP 54
IP 55
IP 56
n.a.
standard
at request
standard
at request
n.a.
Cooling
The motors are self ventilated (IEC 411 / NEMA MG1-6)
and are equipped with a plastic fan working in both directions.
The motors must be installed allowing sufficient space
between fan cowl and the nearest wall to ensure free air
intake and allow access for maintenance purposes on
motor and brake, if supplied.
Independent, forced air ventilation (IEC 416 / NEMA
MG1-6) can be supplied on request (option U1).
This solution enables to increase the motor duty factor
when driven by an inverter and operating at reduced
speed.
Rotation is possible in both directions. If terminals U1,
V1, and W1 are connected to line phases L1, L2 and L3,
clockwise rotation (looking from drive end) is obtained.
For counterclockwise rotation, switch two phases.
Noise
Vibrations and balancing
Rotor shafts are balanced with half key fitted and fall
within the vibration class N, as per Standard CEI EN
60034-14.
If a further reduced noise level is required improved balancing can be optionally requested (class N).
Table below shows the value for the vibration velocity
for standard (N) and improved (R) balancing.
(C6)
Angular
velocity
n [rpm]
(C7)
Cable entry
Max cable diam.
(metric thread)
[mm]
BN 63
M 05
2 x M20
13
BN 71
M1
2 x M25
17
BN 80 - BN 90
M2
2 x M25
17
BN 100
M3
2 x M32
21
2 x M25
17
BN 112
-
BN 132...BN 160MR
M4
4 x M32
21
BN 160M...BN 200L
M5
2 x M40
29
2 x M32
2 x M25
17
Limits of the vibration velocity
[mm/s]
R
For DC brake motors, the AC/DC rectifier is supplied in
the terminal box and it is provided with adequately connected terminals.
All connections must be carried out according to the diagrams inside the terminal box or in the instruction
manual.
Cable entry
Noise levels, measured using the method prescribed by
ISO 1680 Standards, are within the maximum levels
specified by Standards CEI EN 60034-9.
N
Winding connection and motor
terminal box
Standard terminal board has 9 studs for YY-Y dual-voltage winding and 6 studs for star/delta winding configuration (single-speed motors).
An earth terminal located in the terminal box is provided
as standard on all motors.
Direction of rotation
Vibration
class
Values refer to measures with freely suspended motor
in unloaded conditions.
Bearings
BN 56…BN 132 BN 160MR…BN 200
M05…M4
M5
600 £ n £ 3600
1.8
2.8
600 £ n £ 1800
0.71
1.12
1800 < n £ 3600
1.12
1.8
Life lubricated preloaded radial ball bearings are used,
types are shown in the chart here under.
Calculated endurance lifetime L10, as per ISO 281, in
unloaded condition, exceeds 40000 hrs.
DE = drive end
NDE = non drive end
123
(C8)
(C10)
DE
NDE
M, M_FD, M_FA
M
M_FD, M_FA
M05
6004 2Z C3
6201 2Z C3
6201 2RS C3
M1
6004 2Z C3
6202 2Z C3
6202 2RS C3
M2
6007 2Z C3
6204 2Z C3
6204 2RS C3
M3
6207 2Z C3
6206 2Z C3
6206 2RS C3
M4
6309 2Z C3
6208 2Z C3
6208 2RS C3
M5
6309 2Z C3
6209 2Z C3
6209 2RS C3
Low Voltage
High Voltage
230V - 60Hz
460V - 60Hz
200V - 50Hz
400V - 50Hz
Single-Speed / Dual-Voltage
Low Voltage YY
High Voltage Y
U2
T4
T5
U2
(C9)
U5
T7
DE
NDE
U1
T1
BN, BN_FD,
BN_FA
BN
BN_FD, BN_FA
BN 56
6201 2Z C3
6201 2Z C3
-
BN 63
6201 2Z C3
6201 2Z C3
6201 2Z C3
BN 71
6202 2Z C3
6202 2Z C3
6202 2Z C3
BN 80
6204 2Z C3
6204 2Z C3
6204 2Z C3
BN 90
6205 2Z C3
6205 2Z C3
6205 2Z C3
BN 100
6206 2Z C3
6206 2Z C3
6206 2Z C3
BN 112
6306 2Z C3
6306 2Z C3
6306 2Z C3
BN 132
6308 2Z C3
6308 2Z C3
6308 2Z C3
BN 160MR
6309 2Z C3
6308 2Z C3
6308 2Z C3
BN 160M/L
6309 2Z C3
6309 2Z C3
BN 180M
6210 2Z C3
BN 180L
BN 200L
V5
T4
T6
V2
W5
T8
U5
T9
V1
T7
W1
T2
V2
W2
T5
T6
W2
U1
T3
T1
V5
W5
T8
T9
V1
W1
T2
T3
L1 L2 L3
L1 L2 L3
Low Voltage
High Voltage
200V - 50Hz
346V - 50Hz
208V - 60Hz
360V - 60Hz
6309 2Z C3
220V - 50Hz
380V - 50Hz
6309 2Z C3
6309 2Z C3
230V - 50Hz
400V - 50Hz
6310 2Z C3
6310 2Z C3
6310 2Z C3
240V - 50Hz
415V - 50Hz
6312 2Z C3
6310 2Z C3
6310 2Z C3
330V - 60Hz
575V - 60Hz
(C11)
Single-Speed / Dual-Voltage
3.4 ELECTRICAL
CHARACTERISTICS
Voltage
Low Voltage D
W2
T6
U2
T4
High Voltage Y
V2
T5
T6
T4
W2
Motors can operate on any voltage within the range of
200 – 690 Volts. Voltage to be <600 V for CSA/UL motors.
Voltage values available as standard are 230/460V-60
Hz and 575V-60Hz.
Other voltage values may be available on request.
124
U1
T1
L1
V1
T2
L2
W1
U1
T3
T1
L3
L1
T5
U2
V1
T2
L2
V2
W1
T3
L3
(C13)
Rated horsepower
Motor outputs shown in this catalogue are based on
continuous operation at 40 °C [100 °F] ambient temperature and maximum elevation not exceeding 3300 feet
(1000 m) above the sea level.
Motors can operate at higher ambient temperatures
with output adjusted in accordance with the chart (C12)
here below.
(C12)
Ambient
temperature [°F]
CL H
360°F
CL F
310°F
360°F - Hot spot
allowance
330°F
310°F
293°F
Temperature
rise allowed
105°F
100
Power output as a
100%
% of rated power
115
120
130
140
95%
90%
85%
80%
Should a derating factor higher than 15% apply, contact
our Technical Service.
Insulation class
CL F
Bonfiglioli motors use class F insulating materials
(enamelled wire, insulators, impregnation resins) as
compared to the standard motor.
105°F
Max. ambient
temperature
Standard
Option
Types of duty
Unless otherwise indicated, the power rating of motors
specified in the catalogue refers to continuous duty S1.
For motors used under conditions other than S1, the
type of duty required is definied with reference to CEI
EN 60034-1 Standards.
In particular, for intermittent duties type S2 and S3,
power can be adjusted with respect to continuous duty
through multipliers listed in table (C14) applicable to single speed motors.
fm =
P (S2...S8)
P (S1)
(C14)
Duty
CL H
Motors manufactured in higher insulation class H are
available at request.
In standard motors, the stator windings temperature rise
normally stays below the 80 K limit corresponding to
class B over temperature.
A careful selection of insulating components makes the
motors compatible with tropical climates and normal vibration.
For applications involving the presence of aggressive
chemicals or high humidity, contact Bonfiglioli Engineering for assistance with product selection.
fm
S2
S3 *
S4 - S8
Cycle duration
(min)
Cyclic duration
factor (I)
10
30
60
25%
40%
60%
1.35
1.15
1.05
1.25
1.15
1.1
Consult
factory
* Cycle duration must, in any event, be equal to or less than 10 minutes; if this time is exceeded, please contact our Technical Service.
125
Cycle duration factor:
I=
(C15)
tf
x 100
tf + tr
1.2
tf = operating time at constant load
tr = rest time
M / MN
1
Limited duration duty S2
0.8
0.6
0.4
0.2
This type of duty is characterized by operation at constant load for a limited time, which is shorter than the
time required to reach thermal equilibrium, followed by a
rest period of sufficient duration to restore ambient temperature in the motor.
0
0
10
20
30
40
50
60
70
80
90
100
[Hz]
Separate cooling
Self cooling
Periodical intermittent duty S3
Table (C16) reports the mechanical limit speed for motor operation above rated frequency:
This type of duty is characterized by a sequence of
identical operation cycles, each including a constant
load operation period and a rest period.
For this type of duty, the starting current does not significantly influence overtemperature.
(C16)
Inverter-driven motors
The electric motors of series BN and M may be used in
combination with PWM inverters with rated voltage at
transformer input up to 500 V.Standard motors use a
phase insulating system with separators, class 2 enamelled wire and class H impregnation resins (1600V
peak-to-peak voltage pulse capacity and rise edge ts >
0.1µs at motor terminals). Table (C14) shows the typical
torque/speed curves referred to S1 duty for motors with
base frequency fb = 60 Hz.
Because ventilation is somewhat impaired in operation
at lower frequencies (approx. 30 Hz), standard motors
with incorporated fan (IC411) require adequate torque
derating or - alternately - the addition of a separate
supply fan cooling.
Above base frequency, upon reaching the maximum
output voltage of the inverter, the motor enters a
steady-power field of operation, and shaft torque drops
with ratio (f/fb).
As motor maximum torque decreases with (f/fb)2, the allowed overloading must be reduced progressively.
126
n [rpm]
2p
4p
6p
£ BN 112
M05…M3
5200
4000
3000
BN 132...BN 200L
M4, M5
4500
4000
3000
Above rated speed, motors generate increased mechanical vibration and fan noise. Class R rotor balancing
is highly recommended in these applications. Installing a
separate supply fan cooling may also be advisable.
Indipendent fan cooling and brake (if fitted) must always
be connected direct to mains power supply.
Permissible starts per hour
Z
The rating charts of brakemotors lend the permitted
number of starts Z0, based on 50% intermittence and for
unloaded operation.
The catalogue value represents the maximum number
of starts per hour for the motor without exceeding the
rated temperature for the insulation class F.
To give a practical example for an application characterized by inertia Jc, drawing power Pr and requiring mean
torque at start-up TL the actual number of starts per hour
for the motor can be calculated approximately through
the following equation:
Z x Kc x Kd
Z= 0
KJ
meaning that they are applied by spring-action in the
event of a power failure.
(C18)
where:
KJ =
Jm + Jc
=inertia factor
Jm
Kc =
Ta - TL
= torque factor
Ta
Kd = load factor (see table C17)
(C17)
Key:
 brake disc
‚ disc carrier
ƒ pressure plate
„ brake coil
… motor rear shield
† brake springs
If actual starts per hour is within permitted value (Z) it
may be worth checking that braking work is compatible
with brake (thermal) capacity Wmax also given in table
(C22) and dependent on the number of switches (s/h).
When power is disconnected, the springs push the armature plate against the brake disc. The disc becomes
trapped between the armature plate and motor shield
and stops the shaft from rotating.
When the coil is energized, a magnetic field attracts the
armature plate, so that the brake disc – which is integral
with the motor shaft – is released.
Most significant features
•
3.5 BRAKE MOTORS
Operation
Versions with incorporated brake use spring-applied DC
(FD option) or AC (FA option) brakes.
All brakes are designed to provide fail-safe operation,
•
•
•
•
•
High braking torques (normally T2 Tn), braking
torque adjustment.
Steel brake disc with double friction lining (low-wear,
asbestos-free lining).
Hexagonal socket head on motor shaft end (N.D.E.)
for manual rotation (not compatible with options PS,
RC, TC, U1, U2, EN1, EN2, EN3).
Manual release lever.
Corrosion-proof treatment on all brake surfaces.
Class F insulation
127
3.6 DC BRAKE MOTORS TYPE BN_FD
Frame sizes: BN 63 … BN 200L
(C19)
IP 54 (DEFAULT FOR BRAKE MOTORS)
Direct current electromagnetic brake bolted onto motor
shield. Preloading springs provide axial positioning of
magnet body.
Brake disc slides axially on steel hub fitted onto motor
shaft with anti-vibration spring.
Brake torque factory setting is indicated in the corresponding motor rating charts.
Braking torque may be modified by changing the type
and/or number of springs.
At request, motors may be equipped with manual release lever with automatic return (R) or system for holding brake in the released position (RM).
See table (C33) for available release lever locations.
FD brakes ensure excellent dynamic performance with
low noise. DC brake operating characteristics may be
optimized to meet application requirements by choosing
from the various rectifier/power supply and wiring connection options available.
IP 55 (OPTIONAL ON BRAKE MOTORS)
Protection class
Standard protection class is IP54.
Brake motor FD is also available in protection class IP
55, which incorporates the following variants:
 V-ring at N.D.E. of motor shaft
‚ dust and water-proof rubber boot
ƒ stainless steel shim placed between motor shield
and brake disc
„ stainless steel hub
… stainless steel brake disc
FD brake power supply
A rectifier housed into the terminal box feeds the DC
brake coil. Wiring connection across rectifier and brake
coil is performed at the factory.
On single-speed motors, rectifier is pre-wired to the motor terminal board.
Rectifier standard power supply voltage VB is as indicated in the following table (C20), regardless of mains
frequency:
128
(C20)
2, 4, 6 P
1 speed
BN_FD / M_FD
Vmot ± 10%
VB ± 10%
brake connected to terminal
board power supply
230/460 V – 60 Hz
230 V
standard
3~
BN 63…BN 200
M05...M5
Rectifiers NBR or SBR are available for applications requiring quick brake release response.
These rectifiers complement the NB and SB types as
their electronic circuit incorporates a static switch that
de-energizes the brake quickly in the event voltage is
missing.
This arrangement ensures short brake release response
time with no need for additional external wiring and contacts.
Optimum performance of rectifiers NBR and SBR is
achieved with separate brake power supply.
Available voltages: 230V ± 10%.
Use of the SB rectifier is mandatory in the event of:
high number of operations per hour
-
reduced brake release response time
-
brake is exposed to extreme thermal stress
specify VB SA or VB SD
1~
The diode half-wave rectifier (Vdc » 0,45 x Vac) is available in versions NB, SB, NBR e SBR, as detailed in the
table (C21). Rectifier SB with electronic energizing control over-energizes the electromagnet upon power-up to
cut brake release response time and then switches to
normal half-wave operation once the brake has been released.
-
separate power
supply
(C21)
Brake
Standard
BN 63
M05
BN 71
M1
BN 80
M2
FD 04
BN 90S
—
FD 14
BN 90L
—
FD 05
BN 100
—
At request
FD 02
SB,
FD 03
t1
t2
FD 53
SBR,
NB
t1
t2
t1s
t2r *
NBR
t1
FD 15
t2r *
M3
FD 55
BN 112
—
FD 06S
BN 132...160MR
M4
FD 56
BN 160L - BN 180M
M5
FD 06
BN 180L - NM 200L
—
FD 07
SB
SBR
t1s
t2
t1s
t2r *
(*) t2c < t2r < t2
129
FD brake technical specifications
The table (C22) shows the technical specifications of DC brakes type FD.
(C22)
Brake torque
Tb [lb·in]
Brake
Release
Springs
Wmax per each brake
operation
Braking
t1
t1s
t2
t2c
W
P
[lb·ft]
1000 c/h [lb·ftx106]
[W]
6
4
2
[ms]
[ms]
[ms]
[ms]
10 c/h
100 c/h
FD02
—
31
15
30
15
80
9
3300
1050
130
11
17
FD03
44
31
15
50
20
100
12
5200
1400
170
18
24
FD53
66
44
22
60
30
100
12
133
88
44
80
35
140
15
7400
2300
260
27
33
FD05
354
230
115
130
65
170
20
FD15
354
230
115
130
65
170
20
13300
3300
370
37
45
FD55
487
327
159
—
65
170
20
FD06S
831
354
177
—
80
220
25
15000
3500
400
52
55
664
327
90
150
20
21500
5500
600
59
65
100
150
20
FD04
FD14
FD56
—
FD06
—
885
443
FD07
1328
885
443
—
120
200
25
29500
6900
750
96
65
FD08*
2200
1770
1500
—
140
350
30
44500
10300
1100
170
100
FD09**
3540
2650
1770
—
200
450
40
51500
7600
1250
170
120
* brake torque values obtained with 9, 7 and 6 springs,
respectively
** brake torque values obtained with 12, 9 and 6
springs, respectively
Key:
t1
= brake release time with half-wave rectifier
Wmax = max energy per each brake operation
t1s
= brake release time with over-energizing rectifier
W
t2
= brake engagement time with AC line disconnect
and separate power supply
= braking energy between two successive
air gap adjustments
Pb
t2c
= brake engagement time with AC and DC line
disconnect.
Values for t1, t1s, t2, t2c indicated in the tab. (C22)
are referred to brake set at maximum torque,
medium air gap and rated voltage
= brake power absorption at normal ambient
temperature
Tb
= static braking torque (±15%)
[s/h]
= starts per hour
130
FD brake connections
On standard single-speed motors, the rectifier is connected to the motor terminal board at the factory.
(C23)
(C24)
Coil
Brake supply from motor
terminals and A.C. line disconnect. Longer stop time
t2, dependent on motor
time constants. Use when
no particular braking performance is required.
Because the load is of the inductive type, brake control and DC line switch must use contacts from the
usage class AC-3 to IEC 60947-4-1.
(C25)
Coil
Separate power supply to
brake coil and A.C. line
disconnect.
Stopping time is independent on motor. See table
C22
(C26)
Coil
Brake coil energized from
motor terminals, both A.C.
and D.C. line switch off.
Rapid stopping time, t2c.
See table C22
Coil
Separate power supply to
brake coil. Both A.C. and
D.C. line disconnect.
Rapid stopping time to t2c
value, see table C22
131
3.7 AC BRAKE MOTORS TYPE BN_FA
Frame sizes: BN 63 … BN 180M
(C27)
IP 54
Electromagnetic brake operates from three-phase alternated current power supply and is bolted onto motor
rear shield. Preloaded springs provide axial positioning
of the magnet body.
Steel brake disc slides axially on steel hub fitted onto
motor shaft with anti-vibration spring.
Brake torque factory setting is indicated in the corresponding motor rating charts.
Spring preloading screws provide stepless braking
torque adjustment.
Torque adjustment range is 30% TbMAX < Tb < TbMAX
(where TbMAX is maximum braking torque as shown in
tab. (C29).
Thanks to their high dynamic characteristics, FA brakes
are ideal for heavy-duty applications as well as applications requiring frequent stop/starts and fast response
time.
Motors may be equipped with manual release lever with
automatic return (R) at request. See table (C33) for
available lever locations.
132
IP 55
Degree of protection
Standard degree of protection is IP54.
Brake motor BN_FA is also available with degree of protection IP 55, which incorporates the following variants:
-
V-ring at N.D.E. of motor shaft
-
water-proof rubber grommet
-
O-ring
FA brake power supply
Depending on motor voltage the brake may require the
supply voltage to be specified, or not, as detailed in the
diagram below. Special voltages in the 24...690 V range
may be available on request.
(C28)
Motor voltage - Vmot Brake voltage - VB Specify
Brake wiring scherme
Motor terminal board
230 D - 60 Hz
230SA
230/460 V YY/Y
60 Hz
T4
T5
U2
T7
460SA
U1
T1
T6
V2
V5
T8
V1
T2
W2
T6
W2
U2
T4
330/575 V D/Y
60 Hz
not
required
W2
T6
U1
T1
U2
U1
W1
T2
L1
V2
T5
V1
T1
T5
V2
T4
T3
L2
L3
W5
T9
T6
U1
T1
W1
V1
T2
W1
T3
T3
U2
T4
V1
T2
T4
W2
Y Connected
U1
T1
L1
Motor terminal board
330/575 V D/Y
60 Hz
W2
T6
D Connected
U5
460 Y - 60 Hz
Auxiliary terminal board
T5
U2
V2
V1
W1
T2
T3
L2
L3
Brake
V2
T5
W1
T3
Technical specifications of FA brakes
(C29)
Brake
Brake torque
Release
Braking
Wmax
Tb
t1
t2
[lb·ft]
[lb·in]
[ms]
[ms]
10 s/h
100 s/h
1000 s/h
[lb·ftx10 ]
[VA]
FA 02
31
4
20
4500
1400
180
15
60
FA 03
66
4
40
7000
1900
230
25
80
133
6
60
10000
3100
350
30
110
354
8
90
18000
4500
500
50
250
FA 06S
530
16
120
20000
4800
550
70
470
FA 06
663
16
140
29000
7400
800
80
550
FA 07
1328
16
180
40000
9300
1000
130
600
FA 08
2200
20
200
60000
14000
1500
230
1200
FA 04
FA 14
FA 05
FA 15
Key:
Tb
t1
t2
Wmax
W
=
=
=
=
max static braking torque (±15%)
brake release time
brake engagement time
max energy per brake operation (brake thermal
capacity)
= braking energy between two successive air gap
adjustments
W
Pb
6
Pb = power drawn by brake at 20° (50 Hz)
[s/h] = starts per hour
NOTE
Values t1 and t2 in the table refer to a brake set at rated
torque, medium air gap and rated voltage.
133
3.8 - BRAKE RELEASE SYSTEMS
Spring-applied brakes type FD and FA may be
equipped with optional manual release devices. These
are typically used for manually releasing the brake before servicing any machine or plant parts operated by
the motor.
The availability for the two lever options is charted here
below:
(C32)
R
(C30)
R
RM
BN_FD
BN 63...BN 200
BN 63...BN 160MR
M_FD
M 05...M 5
M 05...M 4LC
BN_FA
BN 63...BN 180M
M_FA
M 05...M 5
n.a.
Release lever arrangement
A return spring brings the release lever back in the original position.
RM
Unless otherwise specified, the release lever is located
90° away from the terminal box – identified by letters
[AB] in the diagram below – in a clockwise direction on
both options R and RM.
Alternative lever positions [AA], [AC] and [AD] are also
possible when the corresponding option is specified:
(C33)
(C31)
AA
AC
AD
Fly-wheel data (F1)
On motors type BN_FD, it the option RM is specified,
the release lever may be locked in the ”release” position
by tightening the lever until lever end becomes engaged
with a brake housing projection.
134
The table below shows values of weight and inertia of
flywheel (option F1). Overall dimensions of motors remain unchanged. The option is available for DC
brake-motors only.
(C34)
Main data for flywheel
Fly-wheel
weight
Fly-wheel
inertia
[lbs]
[lb • ft2] x 10-5
BN 63
M05
0.31
2.7
BN 71
M1
0.51
5.7
BN 80
M2
0.76
11.4
BN 90
BN 90 L
–
1.14
22.3
BN 100
M3
1.58
35.4
BN 112
–
2.19
62.4
BN 132 S
BN 132 M
M4
2.81
108.6
tervene on currents of energizing coils, and must therefore be connected to a special control unit (triggering
apparatus) to be interfaced with the external connections.
Thus protected, three PTCs connected in series are installed in the winding, the terminals of which are located
on the auxiliary terminal-board.
Bimetallic thermostates
These types of protective devices house a bimetal disk.
When the rated switch off temperature is reached, the
disk switches the contacts from their initial rest position.
As temperature falls, the disk and the contacts automatically return to rest position.
Three bimetallic thermostates connected in series are
usually employed, with normally closed contacts. The terminals are located in an auxiliary terminal-board.
3.9 - SPECIAL EXECUTIONS
Thermal protective devices
In addition to the standard protection provided by the
magneto-thermal device, motors can be supplied with
built-in thermal probes to protect the winding against
overheating caused, by insufficient ventilation or by an
intermittent duty.
This additional protection should always be specified for
servoventilated motors (IC416).
E3
H1
Anti-condensation heaters
Where an application involves high humidity or extreme
temperature fluctuation, motors may be equipped with
an anti-condensate heater.
A single-phase power supply is available in the auxiliary
terminal board inside the main terminal box. Values for
the absorbed power are listed here below:
(C35)
Thermistors
H1
1~ 230V ± 10%
These are semi-conductors having rapid resistance variation when they are close to the rated switch off temperature.
Variations of the R = f(T) characteristic are specified
under DIN 44081, IEC 34-11 Standards.
These elements feature several advantages: compact dimensions, rapid response time and, being contact-free,
absolutely no wear.
Positive temperature coefficient thermistors are normally
used (also known as PTC “cold conductor resistors”).
Unlike bimetallic thermostates, they cannot directly in-
P [W]
BN 56...BN 80
M0...M2
10
BN 90...BN 160MR
M3 - M4
25
BN 160M...BN 180M
M5
50
BN 180L...BN 200L
–
65
Warning!
Always disconnect power supply to the anticondensante heater before operating the motor.
135
AL
AR
Ventilation
Backstop device
For applications where backdriving must be avoided, motors equipped with an anti run-back device can be used
(available for the M series only).
While allowing rotation in the direction required, this device operates instantaneously in case of a power failure,
preventing the shaft from running back.
The anti run-back device is life lubricated with special
grease for this specific application.
When ordering, customers should indicate the required
rotation direction, AL or AR.
Never use the anti run-back device to prevent reverse rotation caused by faulty electrical connection.
Table (C36) shows rated and maximum locking torques
for the anti run-back devices.
A diagram of the device can be seen in Table (C37).
Overall dimensions are same as the corresponding
brake motor.
Motors are cooled through outer air blow (IC 411 according to CEI EN 60034-6) and are equipped with a
plastic radial fan, which operates in both directions.
Ensure that fan cover is installed at a suitable distance
from the closest wall so to allow air circulation and servicing of motor and brake, if fitted.
On request, motors can be supplied with independently
power-supplied forced ventilation system starting from
BN 71 or M1 size.
Motor is cooled by an axial fan with independent power
supply and fitted on the fan cover (IC 416 cooling system).
This option comes handy for inverter driven motors so
that constant torque operation is possible even at low
speed or when high starting frequencies are needed.
Motors with rear shaft projection (PS option) are excluded.
(C38)
Power supply
(C36)
Rated locking Max. locking
torque
torque
(C37)
V a.c.
± 10%
Release
speed
BN 71
M1
M2
[lb·in]
[lb·in]
[rpm]
BN 80
M1
53
90
750
BN 90
–
M2
140
240
650
BN 100 (*)
M3
M3
480
815
520
BN 112
–
M4
970
1815
430
BN 132S
M4S
BN 132M...
BN160MR
M4L
BN 160...
BN 180M
M5
Hz
P [W]
I [A]
22
0.14
22
0.14
40
0.25
50
0.25
50
0.26 / 0.15
110
0.38 / 0.22
210
1.25 / 0.72
1~ 230
50 / 60
3~ 230 D /
400Y
3~460
60
This variant features two options, designated U1 and
U2, having the same length overall.
Longer side of fan cover (DL) is specified for both models in the table below. Overall dimension can be reckoned from motor size table.
136
(C39)
(C41)
Extra length for servoventilated motors
[in]
D L1
D L2
add for standard motor add for brakemotor
AQ
DV
[in]
[in]
BN 63
M05
118
24
BN 71
M1
3.66
1.26
BN 71
M1
134
27
BN 80
M2
5.00
2.17
BN 80
M2
134
25
BN 90
–
5.16
1.89
BN 90
–
168
30
BN 100
M3
4.69
1.10
BN 100
M3
168
28
BN 112
–
5.12
1.22
BN 112
–
211
32
BN 132S
M4S
6.34
2.01
BN 132...BN 160MR
M4
211
32
BN 132M
M4L
6.34
2.01
BN 160M...BN 180M
M5
270
36
BN 180L...BN 200L
–
310
36
U1
(C42)
Fan wiring terminals are housed in a separate terminal
box.
In brake motors of size BN 71...BN 160MR, with U1
model, the release lever cannot be positioned to AA.
U2
Fan terminals are wired in the motor terminal box.
The option does not apply to BN160M...BN200L motors.
(C40)
V a.c. ± 10%
(*)
BN 100_U2
M3
Hz
3~ 230 D / 400Y 50 / 60
P [W]
I [A]
40
0.24 / 0.14
RC
Drip cover
The drip cover protects the motor from dripping and
avoids the ingress of solid bodies. It is recommended
when motor is installed in a vertical position with the
shaft downwards.
Relevant dimensions are indicated in the table (C41).
The drip cover is not compatible with variants PS, EN1,
EN2, EN3 and will not fit motors equipped with a BA
brake.
TC
Textile canopy
Option TC is a cover variant for textile industry environments, where lint may obstruct the fan grid and prevent
a regular flow of cooling air.
This option is not compatible with variants EN1, EN2,
EN3. Overall dimensions are the same as drip cover
type RC.
137
Feedback units
Motors may be combined with three different types of
encoders to achieve feedback circuits.
Configurations with double-extended shaft (PS) and rain
canopy (RC, TC) are not compatible with the installation
of the encoder.
EN1
Incremental encoder, VIN= 5 V, line-driver output RS
422.
EN2
Incremental encoder, VIN=10-30 V, line-driver output RS
422.
EN3
Incremental encoder, VIN=12-30 V, push-pull output
12-30 V.
(C43)
EN1
Interface
EN2
EN3
RS 422 RS 422 push-pull
Power supply voltage
[V]
4...6
10...30
12...30
Output voltage
[V]
5
5
12...30
120
100
100
No-load operating current [mA]
No. of pulses per revolution
1024
6 (A, B, C + inverted signals)
No. of signals
Max. output frequency
[kHz]
Max. speed
[rpm]
Temperature range
Protection class
138
[°C]
300
300
200
600 (900 rpm x 10s)
-20...+70
IP 65
3.10 COMPACT MOTOR RATING CHARTS
2 POLE - 3600 rpm - S1
Pn
60 Hz
n
HP
kW
0.25
0.18
0.33
Tn
h
cosj
at 460V
Is
In
Ts
Tn
Tk
Tn
A
%
%
%
In
Weight Brake
type
lbs
Jm
lb×ft2
Tb
Weight Brake
type
lbs
Zo
Weight
1/h
lbs
4)
2)
FA 02
15
3300
10.4
11.7
FA 02
15
3300
11.2
3000
14.3
FA 02
30
3000
13.9
2200
2700
18.7
FA 03
44
2700
18.1
44
1500
2100
21
FA 03
44
2100
21
FD 04
88
1200
1600
28
FA 04
88
1600
28
23
FD 04
133
1000
1300
32
FA 04
133
1300
32
0.0570 0.0665
34
FD 15
230
800
1000
49
FA 15
230
1000
51
320
0.0926 0.102
49
FD 15
354
360
500
62
FA 15
354
500
64
270
300
0.240
0.266
72
FD 06
440
400
101
FA 06
440
400
104
620
280
320
0.318
0.344
88
FD 06
440
350
117
FA 06
440
350
143
18.3
690
270
300
0.499
132
0.90
24.2
600
250
270
0.808
154
88
0.91
29.2
690
280
300
0.998
183
88
0.91
35.1
690
280
310
1.164
209
lb×in
%
lb×in
3)
4)
2)
M 05A 2
3380
4.7
60
0.74
0.53
410
300
320
0.0048 0.0062
7.1
FD 02
15
2700
3300
10.8
0.25
M 05B 2
3400
6.1
65
0.75
0.63
490
320
330
0.0055 0.0071
7.9
FD 02
15
2700
3300
0.5
0.37
M 05C 2
3420
9.2
69
0.76
0.89
550
330
350
0.0062 0.0078
10.6
FD 02
30
2500
0.75
0.55
M 1SD 2
3450
13.7
76
0.75
1.23
620
340
390
0.0097 0.0126
12.8
FD 03
44
1
0.75
M 1LA 2
3440
18.3
77
0.75
1.62
620
380
410
0.0119 0.0145
15.2
FD 03
1.5
1.1
M 2SA 2
3430
27.6
77
0.76
2.40
620
380
390
0.0214 0.0252
19.4
2
1.5
M 2SB 2
3420
36.8
80
0.81
2.89
600
330
350
0.0271 0.0309
3
2.2
M 3SA 2
3430
55
81
0.83
4.2
600
240
250
5
3.7
M 3LB 2
3490
92
84
0.83
6.7
670
290
7.5
5.5
M 4SA 2
3490
135
83
0.86
9.8
640
10
7.5
M 4SB 2
3490
181
82
0.88
13.0
15
11
M 4LC 2
3510
271
87
0.88
20
15
M 5SB 2
3510
359
86
25
18.5
M 5SC 2
3520
449
30
22
M 5LA 2
3520
537
139
1) Inertia without brake
2) Inertia with brake
Zo
lb×in
rpm
1)
2)
1)
1/h
Tb
3) Permissible starts with NB rectifier (AC/DC)
4) Permissible starts with SB rectifier (AC/DC)
140
4 POLE - 1800 rpm - S1
Pn
60 Hz
n
HP
kW
0.12
0.09
M 0B
0.16
Tn
h
cosj
at 460V
Is
In
Ts
Tn
Tk
Tn
A
%
%
%
1)
In
Weight Brake
type
lbs
Jm
lb×ft2
rpm
lb×in
%
1)
4
1670
4.5
59
0.52
0.37
280
290
290
0.0356
6.4
0.12
M 05A 4
1690
6.0
60
0.57
0.44
330
240
250
0.0048 0.0062
7.1
0.25
0.18
M 05B 4
1670
9.4
58
0.60
0.65
320
280
290
0.0055 0.0071
0.33
0.25
M 05C 4
1670
12.4
64
0.64
0.77
330
250
260
0.50
0.37
M 1SD 4
1700
18.5
66
0.73
0.96
450
260
0.75
0.55
M 1LA 4
1710
27.6
72
0.70
1.37
490
1
0.75
M 2SA 4
1720
36.6
78
0.75
1.61
1.5
1.1
M 2SB 4
1720
55
78
0.76
2
1.5
M 3SA 4
1720
73
82
3
2.2
M 3LA 4
1720
110
5
3.7
M 3LC 4
1730
7.5
5.5
M 4SA 4
10
7.5
15
Weight Brake
type
lbs
Zo
1/h
Tb
Zo
Weight
1/h
lbs
lb×in
3)
2
lb×in
3)
4)
2)
FD 02
15
7000
9000
10.8
FA 02
15
9000
10.4
7.9
FD 02
30
7000
9000
11.7
FA 02
30
9000
11.2
0.0078 0.0093
10.6
FD 02
30
6000
8000
14.3
FA 02
30
8000
13.9
280
0.0164 0.0190
12.1
FD 03
44
4800
7500
18.1
FA 03
44
7500
17.4
300
310
0.0216 0.0242
15.2
FD 53
66
3400
7000
21
FA 53
66
7000
21
620
340
350
0.0482 0.0523
20
FD 04
133
3000
6000
29
FA 04
133
6000
29
2.33
630
340
350
0.0594 0.0641
23
FD 04
133
2000
4200
32
FA 04
133
4200
32
0.73
3.15
570
290
330
0.0808 0.0903
34
FD 15
230
1500
3000
49
FA 15
230
3000
51
81
0.73
4.67
550
270
290
0.0960 0.105
37
FD 15
354
1000
2700
53
FA 15
354
2700
53
182
84
0.74
7.5
560
280
310
0.145
0.154
51
FD 55
480
1200
64
FA 55
480
1200
66
1730
273
84
0.84
9.8
630
290
310
0.506
0.530
93
FD 56
664
850
121
FA 06
664
850
124
M 4LA 4
1740
362
85
0.84
13.2
610
290
300
0.641
0.665
112
FD 06
885
700
141
FA 06
885
700
143
11
M 4LC 4
1740
543
88
0.81
19.4
650
310
320
0.855
0.907
143
FD 07
1328
600
179
FA 07
1328
600
183
20
15
M 5SB 4
1750
720
90
0.84
24.9
580
230
270
1.544
1.781
187
FD 08
1770
400
254
FA 08
1770
400
251
25
18.5
M 5LA 4
1760
895
90
0.83
31.1
580
250
310
1.876
2.054
223
FD 08
2210
300
289
FA 08
2210
300
287
1) Inertia without brake
2) Inertia with brake
2)
Tb
3) Permissible starts with NB rectifier (AC/DC)
4) Permissible starts with SB rectifier (AC/DC)
6 POLE - 1200 rpm - S1
Pn
60 Hz
n
HP
kW
0.12
0.09
0.16
Tn
h
cosj
at 460V
Is
In
Ts
Tn
Tk
Tn
A
%
%
%
In
Weight Brake
type
lbs
Jm
lb×ft2
rpm
lb×in
%
2)
1)
M 05A 6
1100
6.9
47
0.46
0.52
240
290
290
0.0081 0.0095
9.5
0.12
M 05B 6
1100
9.2
49
0.54
0.57
230
240
240
0.0088 0.0102
0.25
0.18
M 1SC 6
1100
14.3
61
0.65
0.57
330
260
280
0.33
0.25
M 1SD 6
1100
18.9
64
0.65
0.75
320
260
0.50
0.37
M 1LA 6
1100
28.6
66
0.65
1.08
330
0.75
0.55
M 2SA 6
1140
41.4
76
0.66
1.38
1
0.75
M 2SB 6
1140
55
76
0.61
1.5
1.1
M 3SA 6
1140
83
74
2
1.5
M 3LA 6
1140
111
3
2.2
M 3LC 6
1140
5
3.7
M 4LA 6
7.5
5.5
10
15
Weight Brake
type
lbs
Zo
1/h
Tb
Zo
Weight
1/h
lbs
lb×in
4)
2)
lb×in
3)
4)
1)
FD 02
30
7000
10000
13.2
FA 02
30
10000
12.8
10.1
FD 02
30
7000
10000
13.9
FA 02
30
10000
13.4
0.0200 0.0226
11.2
FD 03
44
6500
10000
17.2
FA 03
44
10000
16.5
270
0.0259 0.0290
13.9
FD 03
44
6200
8000
19.8
FA 03
44
8000
19.2
260
270
0.0306 0.0330
16.1
FD 53
66
4000
7000
22
FA 03
66
7000
21
490
320
340
0.0594 0.0641
23
FD 04
133
3800
5000
32
FA 04
133
5000
32
2.03
440
280
300
0.0665 0.0713
25
FD 04
133
2700
5000
34
FA 04
133
5000
34
0.68
2.74
440
240
280
0.147
0.157
37
FD 15
230
2300
4500
51
FA 15
230
4500
53
76
0.66
3.75
450
240
280
0.195
0.204
46
FD 15
354
1500
3000
60
FA 15
354
3000
62
166
77
0.68
5.3
510
260
290
0.226
0.235
51
FD 55
480
1500
64
FA 15
480
1500
66
1150
274
80
0.79
7.3
610
250
310
0.701
0.724
95
FD 06
885
900
123
FA 06
885
900
126
M 4LB 6
1140
414
82
0.75
11.2
540
270
290
0.910
0.964
119
FD 07
1328
800
154
FA 07
1328
800
159
7.5
M 5SA 6
1160
543
85
0.82
13.5
580
230
280
1.758
1.936
152
FD 08
1500
550
216
FA 08
1500
550
216
11
M 5SB 6
1160
815
84
0.83
19.8
580
250
290
2.304
2.482
196
FD 08
1770
400
262
FA 08
1770
400
260
141
1) Inertia without brake
2) Inertia with brake
1)
Tb
3) Permissible starts with NB rectifier (AC/DC)
4) Permissible starts with SB rectifier (AC/DC)
142
3.11 IEC MOTOR RATING CHARTS
2 POLE - 3600 rpm - S1
Pn
60 Hz
n
HP
kW
0.25
0.18 BN 63A
0.33
0.25
Tn
h
cosj
at 460V
Is
In
Ts
Tn
Tk
Tn
A
%
%
%
In
Weight Brake
type
lbs
Jm
lb×ft2
rpm
lb×in
%
2
3360
4.7
58
0.74
0.55
370
290
300
0.0048 0.0062
7.7
BN 63B
2
3370
6.2
61
0.73
0.69
420
290
300
0.0055 0.0071
0.5
0.37 BN 71A
2
3420
9.2
71
0.77
0.86
580
330
380
0.75
0.55
BN 71B
2
3450
13.7
76
0.75
1.23
620
340
0.75 BN 80A
2
3440
18.3
76
0.76
1.62
590
1.5
1.1
BN 80B
2
3430
27.6
77
0.76
2.40
2
1.5
BN 90SA
2
3480
36.2
79
0.78
3
2.2
BN 90L
2
3490
54
81
5
3.7
BN 100LB
2
3490
90
7.5
5.5
BN 132SA
2
3490
10
7.5
BN 132SB
2
15
11
20
15
1
25
2)
1)
Weight Brake
type
lbs
Zo
1/h
Tb
Zo
Weight
1/h
lbs
lb×in
4)
2)
lb×in
3)
4)
2)
FD 02
15
2700
3300
10.7
FA 02
15
3300
11.0
8.6
FD 02
15
2700
3300
11.5
FA 02
15
3300
11.9
0.0082 0.0109
11.9
FD 03
30
2400
3200
16.6
FA 03
30
3200
17.2
390
0.0097 0.0126
13.7
FD 03
44
2200
2700
18.2
FA 03
44
2700
19.0
310
370
0.0185 0.0223
19.0
FD 04
44
1400
1700
26
FA 04
44
1700
27
620
380
390
0.0214 0.0252
21
FD 04
88
1200
1600
27
FA 04
88
1600
29
3.04
730
360
380
0.0297 0.0335
27
FD 14
133
750
1000
34
FA 14
133
1000
36
0.79
4.4
730
380
390
0.0397 0.0435
31
FD 05
230
750
1000
41
FA 05
230
1000
46
84
0.83
6.7
670
290
320
0.0926 0.102
51
FD 15
354
360
500
59
FA 15
354
500
66
135
83
0.86
9.8
640
270
300
0.240
0.266
77
FD 06
440
400
98
FA 06
440
400
108
3490
181
82
0.88
13.0
620
280
320
0.318
0.344
93
FD 06
440
350
113
FA 06
440
350
123
BN 160MR 2
3510
271
87
0.88
18.3
690
270
300
0.499
143
BN 160MB 2
3510
359
86
0.90
24.2
600
250
270
0.808
185
2
3520
449
88
0.91
29.2
690
280
300
0.998
214
18.5 BN 160L
1)
Tb
30
22
BN 180M
2
3520
537
88
0.91
35.1
690
280
310
1.164
240
40
30
BN 200L
2
3530
716
89
0.91
46.2
690
260
300
1.829
309
1) Inertia without brake
2) Inertia with brake
3) Permissible starts with NB rectifier (AC/DC)
4) Permissible starts with SB rectifier (AC/DC)
4 POLE - 1800 rpm - S1
Pn
60 Hz
n
HP
kW
0.08
0.06 BN 56A
0.12
0.09
0.16
Tn
h
cosj
at 460V
Is
In
Ts
Tn
Tk
Tn
A
%
%
%
1)
In
Weight Brake
type
lbs
Jm
lb×ft2
Tb
Weight Brake
type
lbs
Zo
lbs
4)
2)
FA 02
15
9000
11.0
12.3
FA 02
30
9000
11.9
8500
17.2
FA 03
30
8500
16.5
4800
7500
19.0
FA 03
44
7500
18.3
89
3400
7000
27
FA 04
89
7000
26
FD 04
133
3000
6000
30
FA 04
133
6000
30
27
FD 14
133
3000
7000
36
FA 14
133
7000
36
0.0665 0.0760
30
FD 05
230
2200
4700
43
FA 05
230
4700
45
290
0.0960 0.105
40
FD 15
354
1000
2700
55
FA 15
354
2700
55
280
310
0.145
0.154
55
FD 55
480
1200
66
FA 15
480
1200
64
700
310
340
0.233
0.254
66
FD 06S
530
850
88
FA 06S
530
850
93
10.0
630
290
310
0.506
0.530
97
FD 56
664
850
126
FA 06
664
850
128
0.84
13.1
610
290
300
0.641
0.665
117
FD 06
885
700
146
FA 07
885
700
157
88
0.81
19.4
650
310
320
0.855
0.907
154
FD 07
1328
600
190
FA 07
1328
600
194
720
90
0.84
24.8
580
230
270
1.544
1.722
218
FD 08
1770
400
284
FA 08
1770
400
282
895
90
0.83
31.3
580
250
310
1.876
2.054
254
FD 08
2210
300
320
FA 08
2210
300
317
%
lb×in
3)
4)
2)
4
1670
3.0
53
0.55
0.26
290
310
310
0.0036
6.8
BN 56B
4
1670
4.5
59
0.52
0.37
280
290
290
0.0036
6.8
0.12
BN 63A
4
1650
6.1
55
0.64
0.43
310
240
250
0.0048 0.0062
7.7
FD 02
15
7000
9000
11.5
0.25
0.18
BN 63B
4
1670
9.4
58
0.59
0.68
310
280
290
0.0055 0.0071
8.6
FD 02
30
7000
9000
0.33
0.25
BN 71A
4
1700
12.2
64
0.74
0.65
430
260
270
0.0138 0.0164
11.2
FD 03
30
6000
0.50
0.37
BN 71B
4
1700
18.5
66
0.73
0.97
450
260
280
0.0164 0.0190
13.0
FD 03
44
0.75
0.55
BN 80A
4
1710
27.6
73
0.75
1.28
490
300
300
0.0356 0.0394
18.1
FD 04
1
0.75
BN 80B
4
1720
36.6
78
0.75
1.60
620
340
350
0.0482 0.0523
22
1.5
1.1
BN 90S
4
1720
55
78
0.74
2.43
570
310
340
0.0499 0.0546
2
1.5
BN 90LA
4
1720
73
81
0.74
3.12
660
330
360
3
2.2
BN 100LA
4
1720
110
81
0.73
4.8
550
270
5
3.7
BN 100LC
4
1730
182
84
0.74
7.5
560
5.5
4
BN 112M
4
1730
200
85
0.76
8.0
7.5
5.5
BN 132S
4
1730
273
84
0.84
10
7.5
BN 132MA 4
1740
362
85
15
11
BN 160MR 4
1740
543
20
15
BN 160L
4
1750
18.5 BN 180M
4
1760
143
1) Inertia without brake
2) Inertia with brake
Weight
1/h
lb×in
25
Zo
lb×in
rpm
2)
1)
1/h
Tb
3) Permissible starts with NB rectifier (AC/DC)
4) Permissible starts with SB rectifier (AC/DC)
144
6 POLE - 1200 rpm - S1
Pn
60 Hz
n
HP
kW
0.12
0.09 BN 63A
0.16
0.12
0.25
Tn
h
cosj
at 460V
Is
In
Ts
Tn
Tk
Tn
A
%
%
%
In
Weight Brake
type
lbs
Jm
lb×ft2
rpm
lb×in
%
2)
1)
6
1100
6.9
47
0.50
0.48
280
290
290
0.0081 0.0095
10.1
BN 63B
6
1100
9.2
50
0.55
0.55
240
240
270
0.0088 0.0102
0.18
BN 71A
6
1100
14.3
61
0.65
0.57
330
260
280
0.33
0.25
BN 71B
6
1100
18.9
64
0.65
0.75
320
260
0.50
0.37
BN 80A
6
1130
27.9
67
0.65
1.07
390
0.75
0.55 BN 80B
6
1140
41.4
76
0.66
1.38
1
0.75
BN 90S
6
1140
55.3
73
0.63
1.5
1.1
BN 90L
6
1140
83
75
2
1.5
BN 100LA
6
1140
111
3
2.2
BN 112M
6
1150
5.0
3.7
BN 132MA 6
7.5
5.5
10
15
Weight Brake
type
lbs
Zo
1/h
Tb
Zo
Weight
1/h
lbs
lb×in
4)
2)
lb×in
3)
4)
2)
FD 02
30
7000
10000
13.9
FA 02
30
10000
13.4
10.8
FD 02
30
7000
10000
14.6
FA 02
30
10000
14.1
0.0200 0.0226
12.1
FD 03
44
6500
10000
18.1
FA 03
44
10000
17.4
270
0.0259 0.0285
14.8
FD 03
44
6200
8000
21
FA 03
44
8000
20
260
280
0.0499 0.0546
22
FD 04
88
4100
5500
30
FA 04
88
5500
30
490
320
340
0.0594 0.0641
25
FD 04
133
3800
5000
34
FA 04
133
5000
33
2.05
450
290
310
0.0618 0.0665
29
FD 14
133
2700
4000
37
FA 14
133
4000
37
0.65
2.83
430
280
290
0.0784 0.0879
33
FD 05
230
2000
3500
46
FA 05
230
3500
49
76
0.66
3.75
450
240
280
0.195
0.204
49
FD 15
354
1500
3000
62
FA 15
354
3000
64
164
81
0.69
4.9
550
280
290
0.400
0.420
71
FD 06S
530
1250
93
FA 06S
530
1250
97
1150
274
80
0.79
7.3
610
250
3.1
0.701
0.724
97
FD 06
885
900
128
FA 07
885
900
139
BN 132MB 6
1140
414
82
0.75
11.2
540
270
290
0.910
0.964
123
FD 07
1328
800
159
FA 07
1328
800
163
7.5
BN 160M
6
1160
543
85
0.82
13.5
580
230
280
1.758
1.936
183
FD 08
1500
550
247
FA 08
1500
550
249
11
BN 160L
6
1160
815
84
0.83
19.8
580
250
290
2.304
2.482
227
FD 08
1770
400
293
FA 08
1770
400
293
1) Inertia without brake
2) Inertia with brake
1)
Tb
3) Permissible starts with NB rectifier (AC/DC)
4) Permissible starts with SB rectifier (AC/DC)
M
3.12 DIMENSIONS
J
LA
AF
EA
LL
AC
FA
DA
AD
DB
GC
M0
M 05
M 1S
M 1L
M 2S
M 3S
M 3L
M 4S
M 4L
M 4LC
M 5S
M 5L
AC
AD
AF
LL
J
DA
EA
LA
4.33
3.58
2.91
3.15
3.58
0.35
0.79
0.08
110
91
74
80
91
9
20
2
4.76
3.74
2.91
3.15
4.61
0.43
0.91
0.12
121
95
74
80
117
11
23
3
5.43
4.25
2.91
3.15
4.65
0.55
1.18
0.08
138
108
74
80
118
14
30
2
5.43
4.25
2.91
3.15
5.59
0.55
1.18
0.08
138
108
74
80
142
14
30
2
6.14
4.69
2.91
3.15
5.98
0.75
1.57
0.12
156
119
74
80
152
19
40
3
7.68
5.59
3.86
3.86
6.95
1.10
2.36
0.12
195
142
98
98
176.5
28
60
3
7.68
5.59
3.86
3.86
8.21
1.10
2.36
0.12
195
142
98
98
208.5
28
60
3
10.16
7.60
4.65
4.65
11.67
1.50
3.15
0.12
258
193
118
118
296.5
38
80
3
10.16
7.60
4.65
4.65
11.67
1.50
3.15
0.12
258
193
118
118
296.5
38
80
3
10.16
7.60
4.65
4.65
13.05
1.50
3.15
0.12
258
193
118
118
331.5
38
80
3
12.20
9.65
7.36
7.36
13.44
1.50
3.15
0.16
310
245
187
187
341.5
38
80
4
12.20
9.65
7.36
7.36
15.16
1.50
3.15
0.16
310
245
187
187
385
38
80
4
DB
M3
M4
M5
M5
M6
M10
M10
M12
M12
M12
M12
M12
GC
FA
0.40
0.12
10.2
3
0.49
0.16
12.5
4
0.63
0.20
16
5
0.63
0.20
16
5
0.85
0.24
21.5
6
1.22
0.31
31
8
1.22
0.31
31
8
1.61
0.39
41
10
1.61
0.39
41
10
1.61
0.39
41
10
1.61
0.39
41
10
1.61
0.39
41
10
Dimensions are
inch
mm
145
M_FD
J
LA
AF
EA
LL
DB
AC
AD
FA
DA
R
AD
AA
AB
Default
GC
ES
AC
M 05
M 1S
M 1L
M 2S
M 3S
M 3L
M 4S
M 4L
M 4LC
M 5S
M 5L
AC
AD
AF
LL
J
R
DA
EA
LA
4.76
4.69
3.86
5.24
7.20
3.78
0.43
0.91
0.08
121
119
98
133
183
96
11
23
2
5.43
5.20
3.86
5.24
6.02
4.06
0.55
1.18
0.08
138
132
98
133
153
103
14
30
2
5.43
5.20
3.86
5.24
6.89
4.06
0.55
1.18
0.08
138
132
98
133
175
103
14
30
2
6.14
5.63
3.86
5.24
7.24
5.08
0.75
1.57
0.08
156
143
98
133
184
129
19
40
2
7.68
6.10
4.33
6.50
7.95
6.30
1.10
2.36
0.12
195
155
110
165
202
160
28
60
3
7.68
6.10
4.33
6.50
9.02
6.30
1.10
2.36
0.12
195
155
110
165
229
160
28
60
3
10.16
7.60
4.65
4.65
11.22
8.90
1.50
3.15
0.12
258
193
118
118
285
226
38
80
3
10.16
7.60
4.65
4.65
11.22
8.90
1.50
3.15
0.12
258
193
118
118
285
226
38
80
3
10.16
7.60
4.65
4.65
16.97
8.90
1.50
3.15
0.12
258
193
118
118
431
226
38
80
3
12.20
9.65
7.36
7.36
18.94
10.47
1.50
3.15
0.16
310
245
187
187
481
266
38
80
4
12.20
9.65
7.36
7.36
20.67
10.47
1.50
3.15
0.16
310
245
187
187
525
266
38
80
4
NOTE: The hexagonal socket "ES" is not available with the PS option.
146
DB
M4
M5
M5
M6
M10
M10
M12
M12
M12
M12
M12
GC
FA
ES
0.20
0.49
0.16
12.5
4
5
0.63
0.20
0.20
16
5
5
0.63
0.20
0.20
16
5
5
0.85
0.24
0.20
21.5
6
5
1.22
0.31
0.24
31
8
6
1.22
0.31
0.24
31
8
6
1.61
0.39
0.24
41
10
6
1.61
0.39
0.24
41
10
6
1.61
0.39
0.24
6
41
10
1.61
0.39
41
10
1.61
0.39
41
10
—
—
Dimensions are
inch
mm
M_FA
J
LA
AF
EA
LL
DB
AC
AD
FA
DA
AD
R
AA
AB
Default
GC
ES
AC
M 05
M 1S
M 1L
M 2S
M 3S
M 3L
M 4S
M 4L
M 4LC
M 5S
M 5L
AC
AD
AF
LL
J
R
DA
EA
LA
4.76
3.74
2.91
3.15
7.20
4.57
0.43
0.91
0.08
121
95
74
80
183
116
11
23
2
5.43
4.25
2.91
3.15
6.02
4.88
0.55
1.18
0.08
138
108
74
80
153
124
14
30
2
5.43
4.25
2.91
3.15
6.89
4.88
0.55
1.18
0.08
138
108
74
80
175
124
14
30
2
6.14
4.69
2.91
3.15
7.24
5.28
0.75
1.57
0.08
156
119
74
80
184
134
19
40
2
7.68
5.59
3.86
3.86
7.95
6.30
1.10
2.36
0.12
195
142
98
98
202
160
28
60
3
7.68
5.59
3.86
3.86
9.02
6.30
1.10
2.36
0.12
195
142
98
98
229
160
28
60
3
10.16
7.60
4.65
4.65
10.16
8.54
1.50
3.15
0.12
258
193
118
118
258
217
38
80
3
10.16
7.60
4.65
4.65
11.22
8.54
1.50
3.15
0.12
258
193
118
118
285
217
38
80
3
10.16
7.60
4.65
4.65
16.97
8.54
1.50
3.15
0.12
258
193
118
118
431
217
38
80
3
12.20
9.21
6.73
7.36
18.94
9.72
1.50
3.15
0.16
310
234
171
187
481
247
38
80
4
12.20
9.21
6.73
7.36
20.67
9.72
1.50
3.15
0.16
310
234
171
187
525
247
38
80
4
NOTE: The hexagonal socket "ES" is not available with the PS option.
DB
M4
M5
M5
M6
M10
M10
M14
M14
M14
M12
M12
GC
FA
ES
0.20
0.49
0.16
12.5
4
5
0.63
0.20
0.20
16
5
5
0.63
0.20
0.20
16
5
5
0.85
0.24
0.20
21.5
6
5
1.22
0.31
0.24
31
8
6
1.22
0.31
0.24
31
8
6
1.61
0.39
0.24
41
10
6
1.61
0.39
0.24
41
10
6
1.61
0.39
0.24
6
41
10
1.61
0.39
41
10
1.61
0.39
41
10
—
—
Dimensions are
inch
mm
147
IM B14
LC
L
LB
LL
E
V
BN
EA
AF
P
N
D
FA
AC
F
DA
DB
45
°
DB
AD
T
GA
GC
S
M
Shaft
BN 56
BN 63
BN 71
BN 80
BN 90 S
BN 90 L
BN 100
BN 112
BN 132 S
BN 132 M
D
DA
E
EA
0.35
0.79
9
20
0.43
0.91
11
23
0.55
1.18
14
30
0.75
1.57
19
40
0.94
1.97
24
50
0.94
1.97
24
50
1.10
2.36
28
60
1.10
2.36
28
60
1.50
3.15
38
80
1.50
3.15
38
80
DB
M3
M4
M5
M6
M8
M8
M10
M10
M12
M12
Flange
GA
GC
F
FA
M
N
P
0.40
0.12
2.56
1.97
3.15
10.2
3
65
50
80
0.49
0.16
2.95
2.36
3.54
12.5
4
75
60
90
0.63
0.20
3.35
2.76
4.13
16
5
85
70
105
0.85
0.24
3.94
3.15
4.72
21.5
6
100
80
120
1.06
0.31
4.53
3.74
5.51
27
8
115
95
140
1.06
0.31
4.53
3.74
5.51
27
8
115
95
140
1.22
0.31
5.12
4.33
6.30
31
8
130
110
160
1.22
0.31
5.12
4.33
6.30
31
8
130
110
160
1.61
0.39
6.50
5.12
7.87
41
10
165
130
200
1.61
0.39
6.50
5.12
7.87
41
10
165
130
200
1) These values refer to the rear shaft end.
148
Motor
S
M5
M5
M6
M6
M8
M8
M8
M8
M10
M10
T
AC
L
LB
LC
AD
AF
LL
V
0.10
4.33
7.28
6.50
8.15
3.58
2.91
3.15
1.34
2.5
110
185
165
207
91
74
80
34
0.10
4.76
8.15
7.24
9.13
3.74
2.91
3.15
1.02
2.5
121
207
184
232
95
74
80
26
0.10
5.43
9.80
8.62
11.06
4.25
2.91
3.15
1.46
2.5
138
249
219
281
108
74
80
37
0.12
6.14
10.79
9.21
12.40
4.69
2.91
3.15
1.50
3
156
274
234
315
119
74
80
38
0.12
6.93
12.83
10.87
14.88
5.24
3.86
3.86
1.73
3
176
326
276
378
133
98
98
44
0.12
6.93
12.83
10.87
14.88
5.24
3.86
3.86
1.73
3
176
326
276
378
133
98
98
44
0.14
7.68
14.41
12.05
16.89
5.59
3.86
3.86
1.97
3.5
195
366
306
429
142
98
98
50
0.14
8.62
15.16
12.80
17.64
6.18
3.86
3.86
2.05
3.5
219
385
325
448
157
98
98
52
0.16
10.16
17.91
14.76
21.18
7.60
4.65
4.65
2.28
4
258
455
375
538
193
118
118
58
0.16
10.16
19.41
16.26
22.68
7.60
4.65
4.65
2.28
4
258
493
413
576
193
118
118
58
Dimensions are
inch
mm
BN
IM B5
Shaft
D
DA
0.43
BN 63
11
0.55
BN 71
14
0.75
BN 80
19
0.94
BN 90 S
BN 90 L
24
1.10
BN 100
28
1.10
BN 112
28
1.49
BN 132 S
38
1.49
BN 132 M
38
1.65
42
BN 160 MR
1.49
38 (1)
1.65
42
BN 160 M
BN 160 L
1.49
38(1)
1.88
48
BN 180 M
1.49
38 (1)
1.88
48
BN 180 L
1.65
42 (1)
2.16
55
BN 200 L
1.65
42 (1)
E
GA
F
DB
EA
GC
FA
0.91
0.49
0.16
M4
12.5
23
4
1.18
0.63
0.20
M5
30
16
5
1.57
0.85
0.24
M6
40
21.5
6
1.97
1.06
0.31
M8
50
27
8
2.36
1.22
0.31
M10
60
31
8
2.36
1.22
0.31
M10
60
31
8
3.14
1.61
0.39
M12
80
41
10
3.14
1.61
0.39
M12
80
41
10
4.33
1.77
0.47
M16
110
45
12
3.14
1.61
0.39
M12 (1)
80 (1)
41 (1) 10 (1)
4.33
1.77
0.47
M16
110
45
12
3.14
1.61
0.39
M12 (1)
80 (1)
41 (1) 10 (1)
4.33
2.02
0.55
M16
110
51.5
14
4.33
1.61
0.39
M12 (1)
110 (1)
41 (1) 10 (1)
4.33
2.02
0.55
M16
110
51.5
14
4.33
1.77
0.47
M16 (1)
110 (1)
45 (1) 12 (1)
4.33
2.32
0.62
M20
110
59
16
4.33
1.77
0.47
M16 (1)
110 (1)
45 (1) 12 (1)
1) These values refer to the rear shaft end.
Flange
Motor
M
N
P
S
T
LA
AC
L
LB
LC
AD
AF
LL
V
4.53
115
5.12
130
6.50
165
6.50
165
8.46
215
8.46
215
10.43
265
10.43
265
3.74
95
4.33
110
5.12
130
5.12
130
7.09
180
7.09
180
9.05
230
9.05
230
5.51
140
6.30
160
7.87
200
7.87
200
9.84
250
9.84
250
11.81
300
11.81
300
0.37
9.5
0.37
9.5
0.45
11.5
0.45
11.5
0.55
14
0.55
14
0.55
14
0.55
14
0.12
3
0.12
3
0.14
3.5
0.14
3.5
0.16
4
0.16
4
0.15
4
0.15
4
0.39
10
0.39
10
0.45
11.5
0.45
11.5
0.55
14
0.59
15
0.62
16
0.62
16
4.76
121
5.43
138
6.14
156
6.93
176
7.68
195
8.62
219
10.15
258
10.15
258
8.15
207
9.80
249
10.79
274
12.83
326
14.45
367
15.16
385
17.91
455
19.40
493
7.24
184
8.62
219
9.21
234
10.87
276
12.09
307
12.80
325
14.76
375
16.25
413
9.13
232
11.06
281
12.40
315
14.88
378
16.89
429
17.64
448
21.18
538
22.67
576
3.74
95
4.25
108
4.69
119
5.24
133
5.59
142
6.18
157
7.59
193
7.59
193
2.91
74
2.91
74
2.91
74
3.86
98
3.86
98
3.86
98
4.64
118
4.64
118
3.15
80
3.15
80
3.15
80
3.86
98
3.86
98
3.86
98
4.64
118
4.64
118
1.02
26
1.46
37
1.50
38
1.73
44
1.97
50
2.05
52
2.28
58
2.28
58
11.81
300
9.84
250
13.77
350
0.72
18.5
0.19
5
0.59
15
10.15 22.12 17.79 25.39
258
562
452
645
7.59
193
4.64
118
4.64
118
8.58
218
11.81
300
9.84
250
13.77
350
0.72
18.5
0.19
5
0.59
15
1.22
310
23.46 19.13 26.77
596
486
680
9.64
245
7.36
187
7.36
187
2.00
51
11.81
300
9.84
250
13.77
350
0.72
18.5
0.19
5
0.59
15
1.22
310
25.19 20.86 28.50
640
530
724
9.64
245
7.36
187
7.36
187
2.00
51
11.81
300
9.84
250
13.77
350
0.72
18.5
0.19
5
0.70
18
13.70 27.87 23.54 32.40 10.27
348
708
598
823
261
7.36
187
7.36
187
2.04
52
13.77 11.81 15.74
350
300
400
0.72
18.5
0.19
5
0.70
18
13.70 28.42 24.09 32.95 10.27
348
722
612
837
261
7.36
187
7.36
187
2.59
66
Dimensions are
inch
mm
149
BN_FD
IM B14
LC
AF
L
EA
LB
E
LL
V
AA
P
N
D
45
FA
AB
AC
F
DA
"
DB
R
DB
AD
T
AD
standard
GC
GA
ES
S
AC
M
Shaft
BN 63
BN 71
BN 80
BN 90 S
BN 90 L
BN 100
BN 112
BN 132 S
BN 132 M
D
DA
E
EA
0.43
0.91
11
23
0.55
1.18
14
30
0.75
1.57
19
40
0.94
1.97
24
50
0.94
1.97
24
50
1.10
2.36
28
60
1.10
2.36
28
60
1.50
3.15
38
80
1.50
3.15
38
80
DB
M4
M5
M6
M8
M8
M10
M10
M12
M12
Flange
GA
GC
F
FA
M
N
P
0.49
0.16
2.95
2.36
3.54
12.5
4
75
60
90
0.63
0.20
3.35
2.76
4.13
16
5
85
70
105
0.85
0.24
3.94
3.15
4.72
21.5
6
100
80
120
1.06
0.31
4.53
3.74
5.51
27
8
115
95
140
1.06
0.31
4.53
3.74
5.51
27
8
115
95
140
1.22
0.31
5.12
4.33
6.30
31
8
130
110
160
1.22
0.31
5.12
4.33
6.30
31
8
130
110
160
1.61
0.39
6.50
5.12
7.87
41
10
165
130
200
1.61
0.39
6.50
5.12
7.87
41
10
165
130
200
1) These values refer to the rear shaft end.
2) For FD07 brake value R=226
150
Motor
S
M5
M6
M6
M8
M8
M8
M8
M10
M10
T
0.10
AC
L
AD
AF
LL
V
R
ES
4.76 10.71 9.80 11.69 4.69
3.86
5.24
0.55
3.78
0.20
2.5
121
5.43 12.20 11.02 13.46 5.20
2.5
138
0.12
6.14 13.62 12.05 15.28 5.63
0.12
3
0.12
3
0.14
98
133
14
96
5
3.86
5.24
1.18
4.06
0.20
98
133
30
103
5
3.86
5.24
1.61
5.08
0.20
98
133
41
129
5
6.93 16.10 14.13 18.15 5.75
4.33
6.50
1.54
5.08
0.24
176
146
110
165
39
129
6
6.93 16.10 14.13 18.15 5.75
4.33
6.50
1.54
6.30
0.24
176
146
110
165
39
160
6
7.68 18.03 15.67 20.51 6.10
4.33
6.50
2.44
6.30
0.24
156
310
346
409
409
458
249
LC
0.10
3
272
LB
280
306
359
359
342
388
461
461
132
143
3.5
195
155
110
165
62
160
6
8.62 19.06 16.69 21.54 6.69
4.33
6.50
2.87
7.83
0.24
3.5
219
170
110
165
73
199
6
0.16 10.16 22.24 19.09 25.51 7.60
8.03
0.24
424
521
119
0.14
484
398
297
547
4.65
4.65
5.59
193
118
118
142 204 (2)
0.16 10.16 23.74 20.59 27.01 7.60
4.65
4.65
7.09
118
118
180 204 (2)
4
4
258
258
565
603
485
523
648
686
ES hexagon is not supplied with PS option
193
8.03
Dimensions are
6
0.24
6
inch
mm
BN_FD
D
DA
0.43
BN 63
11
0.55
BN 71
14
0.75
BN 80
19
0.94
BN 90 S
24
0.94
BN 90 L
24
1.10
BN 100
28
1.10
BN 112
28
1.49
BN 132 S
38
1.49
BN 132 M
38
1.65
42
BN 160 MR
1.49
38 (1)
1.65
42
BN 160 M
BN 160 L
1.49
38 (1)
1.88
48
BN 180 M
1.49
38 (1)
1.88
48
BN 180 L
1.65
42 (1)
2.16
55
BN 200 L
1.65
42 (1)
IM B5
Shaft
E
DB
EA
0.91
M4
23
1.18
M5
30
1.57
M6
40
1.97
M8
50
1.97
M8
50
2.36
M10
60
2.36
M10
60
3.14
M12
80
3.14
M12
80
4.33
M16
110
3.14
M12 (1)
80 (1)
4.33
M16
110
3.14
M12 (1)
80 (1)
4.33
M16
110
4.33
M12 (1)
110 (1)
4.33
M16
110
4.33
M16 (1)
110 (1)
4.33
M20
110
4.33
M16 (1)
110 (1)
Flange
GA
GC
0.49
12.5
0.63
16
0.85
21.5
1.06
27
1.06
27
1.22
31
1.22
31
1.61
41
1.61
41
1.77
45
1.61
41 (1)
1.77
45
1.61
41 (1)
2.02
51.5
1.61
41 (1)
2.02
51.5
1.77
45 (1)
2.32
59
1.77
45 (1)
F
FA
0.16
4
0.20
5
0.24
6
0.31
8
0.31
8
0.31
8
0.31
8
0.39
10
0.39
10
0.47
12
0.39
10 (1)
0.47
12
0.39
10 (1)
0.55
14
0.39
10 (1)
0.55
14
0.47
12 (1)
0.62
16
0.47
12 (1)
M
4.53
115
5.12
130
6.50
165
6.50
165
6.50
165
8.46
215
8.46
215
10.43
265
10.43
265
N
P
S
Motor
T
LA
AC
L
LB
LC
AD
AF
LL
9.80
249
11.02
280
12.05
306
14.13
359
14.13
359
15.67
398
16.69
424
19.09
485
20.59
523
11.69
297
13.46
342
15.28
388
18.15
461
18.15
461
20.51
521
21.54
547
25.51
648
27.00
686
V
R
ES
3.74 5.51 0.37
95
140
9.5
4.33 6.30 0.37
110 160
9.5
5.12 7.87 0.45
130 200 11.5
5.12 7.87 0.45
130 200 11.5
5.12 7.87 0.45
130 200 11.5
7.09 9.84 0.55
180 250
14
7.09 9.84 0.55
180 250
14
9.05 11.81 0.55
230 300
14
9.05 11.81 0.55
230 300
14
0.12
3
0.14
3.5
0.14
3.5
0.14
3.5
0.14
3.5
0.16
4
0.16
4
0.15
4
0.15
4
0.39 4.76 10.71
10
121 272
0.39 5.43 12.20
10
138 310
0.45 6.14 13.62
11.5 156 346
0.45 6.93 16.10
11.5 176 409
0.45 6.93 16.10
11.5 176 409
0.55 7.68 18.03
14
195 458
0.59 8.62 19.06
15
219 484
0.62 10.15 22.24
16
258 565
0.62 10.15 23.74
16
258 603
4.69
119
5.20
132
5.63
143
5.75
146
5.75
146
6.10
155
6.69
170
7.59
193
7.59
193
3.86
98
3.86
98
3.86
98
4.33
110
4.33
110
4.33
110
4.33
110
4.64
118
4.64
118
5.24
133
5.24
133
5.24
133
6.50
165
6.50
165
6.50
165
6.50
165
4.64
118
4.64
118
0.55 3.78
14
96
1.18 4.06
30
103
1.61 5.08
41
129
1.54 5.08
39
129
1.54 6.30
39
160
2.44 6.30
62
160
2.87 7.83
73
199
5.59 8.03
142 204 (2)
7.08 8.03
180 204 (1)
0.20
5
0.20
5
0.20
5
0.24
6
0.24
6
0.24
6
0.24
6
0.23
6
0.23
6
11.81 9.84 13.77 0.72
300 250 350 18.5
0.19
5
0.59 10.15 26.45 22.12 29.72 7.59
15
258 672 562 755 193
4.64
118
4.64
118
8.58
218
8.89
226
0.23
6
11.81 9.84 13.77 0.72
300 250 350 18.5
0.19
5
0.59
15
1.22 28.97 24.64 32.28 9.64
310 736 626 820 245
7.36
187
7.36
187
2.00
51
8.89
226
11.81 9.84 13.77 0.72
300 250 350 18.5
0.19
5
0.59
15
1.22 30.70 26.37 34.01 9.64
310 780 670 864 245
7.36
187
7.36
187
2.00
51
8.89
226
11.81 9.84 13.77 0.72
300 250 350 18.5
0.19
5
0.70 13.70 34.09 29.76 38.62 10.27 7.36
18
348 866 756 981 261 187
7.36
187
2.04 12.00
52
305
13.77 11.81 15.74 0.72
350 300 400 18.5
0.19
5
0.70 13.70 34.56 30.23 39.09 10.27 7.36
18
348 878 768 993 261 187
7.36
187
2.51 12.00
64
305
1) These values refer to the rear shaft end.
2) For FD07 brake value R=226
ES hexagon is not supplied with PS option
Dimensions are
inch
mm
151
BN_FA
IM B14
LC
L
E
AF
EA
LB
V
LL
AA
P
N
D
45
FA
AC
F
DA
°
DB
R
DB
AD
T
AB
AD
standard
GC
GA
ES
S
AC
M
Shaft
BN 63
BN 71
BN 80
BN 90 S
BN 90 L
BN 100
BN 112
BN 132 S
BN 132 M
D
DA
E
EA
0.43
0.91
11
23
0.55
1.18
14
30
0.75
1.57
19
40
0.94
1.97
24
50
0.94
1.97
24
50
1.10
2.36
28
60
1.10
2.36
28
60
1.50
3.15
38
80
1.50
3.15
38
80
DB
M4
M5
M6
M8
M8
M10
M10
M12
M12
Flange
GA
GC
F
FA
M
N
P
0.49
0.16
2.95
2.36
3.54
12.5
4
75
60
90
0.63
0.20
3.35
2.76
4.13
16
5
85
70
105
0.85
0.24
3.94
3.15
4.72
21.5
6
100
80
120
1.06
0.31
4.53
3.74
5.51
27
8
115
95
140
1.06
0.31
4.53
3.74
5.51
27
8
115
95
140
1.22
0.31
5.12
4.33
6.30
31
8
130
110
160
1.22
0.31
5.12
4.33
6.30
31
8
130
110
160
1.61
0.39
6.50
5.12
7.87
41
10
165
130
200
1.61
0.39
6.50
5.12
7.87
41
10
165
130
200
1) These values refer to the rear shaft end.
2) For FD07 brake value R=226
152
Motor
S
M5
M6
M6
M8
M8
M8
M8
M10
M10
T
LB
LC
AD
AF
LL
V
R
ES
4.76 10.71 9.80
4.69
3.74
2.91
3.15
1.02
4.57
0.20
2.5
121
119
95
0.10
5.43 12.20 11.02 13.46 4.25
0.10
AC
L
272
2.5
138
0.12
6.14 13.62 12.05 15.28 4.69
3
0.12
3
0.12
3
156
310
249
346
280
306
342
388
409
359
461
409
359
461
3.5
195
0.14
8.62 19.06 16.69 21.54 6.18
3.5
219
484
424
521
547
5
0.20
74
80
83
134
5
3.86
3.86
3.74
5.28
0.24
98
98
95
134
6
3.86
3.86
3.74
6.30
0.24
98
98
95
160
6
3.86
3.86
4.69
6.30
0.24
98
98
119
160
6
3.86
3.86
5.04
7.80
0.24
98
98
128
198
6
4.65
4.65
5.59
7.87
0.24
157
118
118
142
200 (2)
6
4.65
7.09
7.87
0.24
118
118
180
200 (2)
6
523
648
124
5.28
4.65
603
485
68
3.27
193
258
565
80
3.15
0.16 10.16 23.74 20.59 27.01 7.60
4
258
74
2.91
142
0.16 10.16 22.24 19.09 25.51 7.60
4
5
0.20
133
7.68 18.03 15.67 20.51 5.59
398
116
4.88
133
0.14
458
26
2.68
119
6.93 16.10 14.13 18.15 5.24
176
80
3.15
108
6.93 16.10 14.13 18.15 5.24
176
74
2.91
686
193
ES hexagon is not supplied with PS option.
For motors type BN..FA, the terminal box sizes AD, AF, LL,
V are the same as for BN..FD.
Dimensions are
inch
mm
BN_FA
IM B5
Shaft
D
DA
0.43
BN 63
11
0.55
BN 71
14
0.75
BN 80
19
0.94
BN 90 S
24
0.94
BN 90 L
24
1.10
BN 100
28
1.10
BN 112
28
1.49
BN 132 S
38
1.49
BN 132 M
38
1.65
42
BN 160 MR
1.49
38 (1)
1.65
42
BN 160 M
BN 160 L
1.49
38 (1)
1.88
48
BN 180 M
1.49
38 (1)
E
GA
DB
EA
GC
0.91
0.49
M4
23
12.5
1.18
0.63
M5
30
16
1.57
0.85
M6
40
21.5
1.97
1.06
M8
50
27
1.97
1.06
M8
50
27
2.36
1.22
M10
60
31
2.36
1.22
M10
60
31
3.14
1.61
M12
80
41
3.14
1.61
M12
80
41
4.33
1.77
M16
110
45
3.14
1.61
M12 (1)
80 (1)
41 (1)
4.33
1.77
M16
110
45
3.14
1.61
M12 (1)
80 (1)
41 (1)
4.33
2.02
M16
110
51.5
3.14
1.61
M12 (1)
80 (1)
41 (1)
Flange
F
FA
0.16
4
0.20
5
0.24
6
0.31
8
0.31
8
0.31
8
0.31
8
0.39
10
0.39
10
0.47
12
0.39
10 (1)
0.47
12
0.39
10 (1)
0.55
14
0.39
10 (1)
M
4.53
115
5.12
130
6.50
165
6.50
165
6.50
165
8.46
215
8.46
215
10.43
265
10.43
265
N
P
S
Motor
T
LA
AC
L
LB
LC
AD
AF
LL
9.80
249
11.02
280
12.05
306
14.13
359
14.13
359
15.67
398
16.69
424
19.09
485
20.59
523
11.69
297
13.46
342
15.28
388
18.15
461
18.15
461
20.51
521
21.54
547
25.51
648
27.00
686
V
R
ES
3.74 5.51 0.37
95
140
9.5
4.33 6.30 0.37
110 160
9.5
5.12 7.87 0.45
130 200 11.5
5.12 7.87 0.45
130 200 11.5
5.12 7.87 0.45
130 200 11.5
7.09 9.84 0.55
180 250
14
7.09 9.84 0.55
180 250
14
9.05 11.81 0.55
230 300
14
9.05 11.81 0.55
230 300
14
0.12
3
0.14
3.5
0.14
3.5
0.14
3.5
0.14
3.5
0.16
4
0.16
4
0.15
4
0.15
4
0.39 4.76 10.71
10
121 272
0.39 5.43 12.20
10
138 310
0.45 6.14 13.62
11.5 156 346
0.45 6.93 16.10
11.5 176 409
0.45 6.93 16.10
11.5 176 409
0.55 7.68 18.03
14
195 458
0.59 8.62 19.06
15
219 484
0.62 10.15 22.24
16
258 565
0.62 10.15 23.74
16
258 603
3.74
95
4.25
108
4.69
119
5.24
133
5.24
133
5.59
142
6.18
157
7.59
193
7.59
193
2.91
74
2.91
74
2.91
74
3.86
98
3.86
98
3.86
98
3.86
98
4.64
118
4.64
118
3.15
80
3.15
80
3.15
80
3.86
98
3.86
98
3.86
98
3.86
98
4.64
118
4.64
118
1.02 4.57
26
116
2.68 4.88
68
124
3.27 5.28
83
134
3.74 5.28
95
134
3.74 6.30
95
160
4.69 6.30
119
160
5.04 7.80
128
198
5.59 7.87
142 200 (2)
7.08 7.87
180 200 (1)
0.20
5
0.20
5
0.20
5
0.24
6
0.24
6
0.24
6
0.24
6
0.23
6
0.23
6
11.81 9.84 13.77 0.72
300 250 350 18.5
0.19
5
0.59 10.15 26.45 22.12 29.72 7.59
15
258 672 562 755 193
4.64
118
4.64
118
8.58
218
8.54
217
0.23
6
11.81 9.84 13.77 0.72
300 250 350 18.5
0.19
5
0.59
15
1.22 28.97 24.64 32.28 9.64
310 736 626 820 245
7.36
187
7.36
187
2.00
51
9.72
247
11.81 9.84 13.77 0.72
300 250 350 18.5
0.19
5
0.59
15
1.22 30.70 26.37 34.01 9.64
310 780 670 864 245
7.36
187
7.36
187
2.00
51
9.72
247
1) These values refer to the rear shaft end.
2) For FD07 brake value R=226
ES hexagon is not supplied with PS option.
For motors type BN..FA, the terminal box sizes AD, AF, LL,
V are the same as for BN..FD.
Dimensions are
inch
mm
153
R3
This publication supersedes any previous edition and revision. We reserve the right to implement modifications without notice.
This catalogue cannot be reproduced, even partially, without prior consent.
154
COD. 1822
A
High efficiency (η 0.95÷0.97) thanks
to the high performance offered
by the patented hypoid bevel gear pair
at output
Low-noise gearing
High load capacity
A
MANAGEMENT SERVICE
ISO 9001
A
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