INDEX [] · 6 Application S.F. FOOD INDUSTRY Cereal Cooker 1.25 Dough Mixer 1.50 Meat Grinder 1.50...
Transcript of INDEX [] · 6 Application S.F. FOOD INDUSTRY Cereal Cooker 1.25 Dough Mixer 1.50 Meat Grinder 1.50...
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INDEX
1.0 GENERAL INFORMATION
1.1 SYMBOLS AND UNITS ................................. 2
1.2 TORQUE ....................................................... 3
1.3 POWER ......................................................... 3
1.4 THERMAL CAPACITY ................................... 3
1.5 EFFICIENCY ................................................. 4
1.6 MASS MOMENT OF INERTIA ...................... 4
1.7 SERVICE FACTOR ....................................... 4
1.8 SELECTION .................................................. 5
1.9 VERIFICATIONS ........................................... 9
1.10 INSTALLATION ............................................. 9
1.11 INSTRUCTIONS FOR FITTING
OF SHRINK DISC ......................................... 9
1.12 MOUNTING INSTRUCTIONS
FOR ADAPTER BUSHINGS - NQF/QF .......... 10
1.13 STORAGE ..................................................... 11
1.14 MAINTENANCE ............................................ 11
2.0 SHAFT MOUNTED GEARMOTORS
2.1 ORDERING NUMBERS ................................. 12
2.2 DESIGN ADVANTAGES ................................. 14
2.3 VERSIONS ..................................................... 14
2.4 SPEED REDUCERS OPTION ....................... 15
2.5 SYMBOLS ...................................................... 15
2.6 LUBRICATION ................................................ 15
2.7 MOUNTING POSITION AND
TERMINAL BOX SPECIFICATION ................. 17
2.8 OVERHUNG LOADS ...................................... 23
2.9 ANTI-RUN BACK DEVICE ............................. 24
2.10 SIDE FLATS (FL Option) ............................... 24
2.11 GEARMOTOR RATING CHARTS 25
2.12 SPEED REDUCERS RATING CHARTS ....... 64
2.13 MOTOR AVAILABILITY ................................. 84
2.14 MASS MOMENT OF INERTIA ...................... 88
2.15 EXACT RATIOS ............................................ 98
2.16 DIMENSIONS ................................................ 99
3.0 ELECTRIC MOTORS
3.1 GENERAL INFORMATION ............................. 201
3.2 MOTOR ORDERING NUMBERS ................... 202
3.3 MECHANICAL CHARACTERISTICS ............. 203
3.4 ELECTRICAL CHARACTERISTICS .............. 205
3.5 BRAKE MOTORS ........................................... 208
3.6 DC BRAKE MOTORS TYPE BN_FD ............. 209
3.7 DC BRAKE MOTORS TYPE BN_FA .............. 213
3.8 BRAKE RELEASE SYSTEM .......................... 215
3.9 OPTIONS ....................................................... 216
3.10 COMPACT MOTOR RATING CHARTS ......... 221
3.11 IEC MOTOR RATING CHARS ....................... 227
3.12 DIMENSIONS ................................................. 233
Revisions
Refer to page 242 for the catalogue revision index.
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index.
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1.0 GENERAL INFORMATION
1.1 SYMBOLS AND UNITS
Symb. U.m. Description
Ac [lbs] Calculated thrust load
An [lbs] Rated thrust load
fm — Adjusting duty factor
ft — ������������� �����
i — Gear ratio
I — � �������� �
Jc [lb.ft2] ������� ����� �����
Jm [lb.ft2] �������� ����� ������������
Jr [lb.ft2] �������� ����� ���������������
K — �������� ��������������
Kr — ��� ������ ������ ������
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 ����� Speed
P [hp] Power
Pc [hp] Calculated power
Pn [hp] Motor rated power
Pn [hp] Rated horsepower
Symb. U.m. Description
Pt [hp] ��������������
Pr [hp] Power required
Rc [lbs] Calculated radial load
Rn [lbs] Rated OHL
Rx [lbs]Radial OHL for load off the shaft
����� �
S — Safety factor
S.F. — Service factor
ta [°C / °F] ����� �������������
tf ��� � ������� �������� ���� ��� �����
tr ��� � ���������
W [ft.lb] Brake dissipated energy between
��������� �����!������"����� ��
Wmax [ft.lb] ��������� ���������������#� �
operation
x [in] ������������ ������ ������������
shoulder
Z [1/h] $�������������������������� ������
conditions
Zr [1/h] $��������������
hd — %� ������&�� �
Footnotes:
1 Applies to input shaft
2 Applies to output shaft
3
1.4 THERMAL CAPACITY
���� ������ ��������������������������������������� ��
����� ��� �� ��������� ��� ������ � ������� � ����
�� ������������� ������ ����������������'()*��+(),��
���������� ������������ ������� ��������-�,�������
������ �����������������&�� ���� � ��������� �������
����� ������.����������������� ��������������� ��
and it does not need to be taken into consideration.
,������� ��������������������� ������'()*��+(),��� ��
� �������� ������.�/t value can be adjusted according to
��������������t listed in table (A2), provided the following
���� ���������&��-
Pr1�0�/t x ft
1���� � ���� ������� �� ���� ��� � '� ������ �� � �2�� ��
��������������������� ���3�45��� �� ���������6���������
���������������������#������� ������������������������
���� ������������������������� �������� �-
NOMENCLATURE
1.2 TORQUE
Nominal output torque
��6��� ��� �������� ��� ������ ������ � ���� � ����� ���.�
referred to input speed n1 and corresponding output
speed n2.
It is calculated according to service factor S.F. = 1.
Application torque
��6��� ����� �� �� �� �������� � ��6������ ��-
������������6���������������� ���������������6����n2
����������������������-
Calculated torque
Torque value to be used when selecting the gearbox,
considering required torque Tr2 and service factor S.F.,
and is obtained by:
Tc2= Tr2 x S.F.
1.3 POWER
Rated input horsepower
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
Value represents rated HP as referred to speed reducer
output shaft.
Pn2 = Pn1 x hd
Tn2
Tr2
Pt
Tc2
Pn1
Pn2
Pn2 in [hp]; Mn2 in [ib·in]Pn2 =Tn2 x n2
63025
Pt [hp] [20 °C / 70 °F]
Pt�7�8+5(���� Pt�7�95((����
F 10 2 5.1 3.6
F 20 2 12.2 8.7
F 25 2 13.7 9.9
F 31 2 15.7 11.4
F 41 2 19.2 13.9
F 51 2 29 20
F 60 2 35 25
F 70 3 49 35
F 80 3 70 48
F 90 3 101 71
(A1)
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1.7 SERVICE FACTOR
���� ��� ��� ����� ��� ���� �������� ���������� �����
describes the severity of the application. Its value results
���� ������� ��� ��� ��������������� ����������� ���
����������.����� ������������������������ ������������
operating hours.
����������:�9;������������������ ������
calculating the actual value for the service factor:
1. Enter the chart with the starts per hour [Zr]
2. Intersect the K_ curve that applies for the
application
3. Read the service factor S.F-������������ ����#���
with the applicable hours per day [h/d]
� ����������� ������� �������� ������� �������� -
ft
ta max.
°C [°F]
Continuous
duty
Intermittence % (I)
80 60 40 20
40 [105] 0.8 1.1 1.3 1.5 1.6
30 [85] 0.85 1.3 1.5 1.6 1.8
20 [70] 1.0 1.5 1.6 1.8 2.0
10 [50] 1.15 1.6 1.8 2.0 2.3
(A2)
� �������� �� :�;<� ��� ���� ��� �� ��� �� ������ �� �����
under load [tf��������������.�������������������� ����=
l = x 100tf
tf + tr
1.5 EFFICIENCY
����� ��� ���� ���� ������ ����� �� ������ ����� /2 to
input power P1, according to the following equation:
h =P2
P1
Torque value Mn2�����&���� ����������������#������
�� ������&�� ��hd into account.
1.6 MASS MOMENT OF INERTIA
>���������������� ����� ����������&���� �������������
refer to gear unit input shaft.
�������������������������������������.�� �����������
������������ �� �-
h
Jr
S.F.
(A3)
hrs/day
Acceleration factor of masses
Used for establishing the service factor and obtained
������������� ���6���� =
K =Jc
J�
Where:
Jc [Ib·ft2]
��� ���� � �������� ������� � �������� ��?����� ��
���������
J� [Ib·ft2]
������� ����� �����
K1�� ��������
@�0�(-'5
K2�����������#����
(-'5�A�@�0�9
K3 heavy shock load
9�A�@�0�8(
For values of K > 10, please contact our Technical Service.
K
5
1.8 SELECTION
AGMA Service Factor charting
24hr service (continuous duty)
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 ScrewB ���������������,�� 1.25
C�� ��%����!�$��B �������,�� 1.50
Severe Duty - Reciprocating or Shaker 2.00
CRANES
Dry Dock
Main Hoist 2.50
Auxiliary Hoist 3.00
D��C��� 3.00
Slewing Hoist 3.00
Traction Drive 3.00
(A4)
Application S.F.
Container
Main Hoist 3.00
D��C��� 2.00
Trolley Drive
Gantry Drive 3.00
Traction Drive 2.00
Mill Duty
Main Hoist 3.50
Auxiliary 3.50
Bridge Travel 3.00
Trolley Travel 3.00
Industrial Duty
Main 3.00
Auxiliary 3.00
Bridge Travel 3.00
Trolley Travel 3.00
CRUSHERS
Stone or Ore 2.00
DREDGES
Cable Reels 1.50
Conveyors 1.50
Cutter Head Drives 2.00
/���� 2.00
Screen Drives 2.00
Stackers 1.50
Winches 1.50
ELEVATORS
Bucket 1.50
Centrifugal Discharge 1.25
Escalators 1.25
Freight 1.50
Gravity Discharge 1.25
EXTRUDERS
General 1.50
Plastics
Variable Speed Drive 1.50
Fixed Speed Drive 1.75
Rubber
Continuous Screw Operation 1.75
� �������� ��E����������� 1.75
FANS
Centrifugal 1.25
Cooling Towers 2.00
Forced Draft 1.25
Induced Draft 1.50
Industrial & Mine 1.50
FEEDERS
Apron 1.50
Belt 1.50
Disc 1.25
Reciprocating 2.00
Screw 1.50
6
Application S.F.
FOOD INDUSTRY
Cereal Cooker 1.25
Dough Mixer 1.50
Meat Grinder 1.50
Slicers 1.50
GENERATORS AND EXITORS 1.25
HAMMER MILLS 2.00
HOISTS
Heavy Duty 2.00
�������%��� 1.50
Skip Hoist 1.50
LUMBER INDUSTRY
Barkers
Spindle Feed 1.50
Main Drive 1.75
Conveyors
Burner 1.50
Main or Heavy Duty 1.50
Main Log 2.00
Re-saw, Merry-Go-Round 1.50
Slab 2.00
Transfer 1.50
Chains
Floor 1.50
Green 1.75
Cut-Off Saws
Chain 1.75
Drag 1.75
%����#� ��%���� 2.00
Feeds
Edger 1.50
Gang 1.75
������� 1.50
Log Deck 1.75
Log Hauls - Incline - Well Type 1.75
Log Turning Devices 1.75
Planer Feed 1.50
Planer Tilting Hoists 1.50
Rolls - Live-off brg. - Roll Cases 1.75
Sorting Table 1.50
Tipple Hoist 1.50
Transfer
Chain 1.75
Craneway 1.75
Tray Drives 1.50
Veneer Lathe Drives 1.50
METAL MILLS
Draw Bench Carriage and Main Drive 1.50
Runout Table
Non-reversing 1.50
Group Drives 1.50
Individual Drives 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
F������������ 1.50
Flatteners 1.50
������:���������; 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
*��� ��@�� ��� 1.50
Dryers & Coolers 1.50
MIXERS, CEMENT 1.50
PAPER MILLS
Agitator (Mixer) 1.50
Agitator for Pure Liquors 1.25
D��#� ��%���� 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
*���.�D��#.�*������ 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
F������ 1.25
Extruder 1.50
Fourdrinier Rolls 1.25
:� ���������������#��.��� ������.������
turning, and return rolls)
Jordan 1.50
Kiln Drive 1.50
Mt. Hope Roll 1.25
Paper Rolls 1.25
Platter 1.50
7
Application S.F.
Presses - Felt & Suction 1.25
Pulper 2.00
/�����!�>���� 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
D����%��������!�'���������� 1.25
Continuous Feed, Holding & Blend Mill 1.25
Calender 1.50
PLASTICS INDUSTRY - SECONDARY PROCESSING
Blow Molder 1.50
Coating 1.25
,��� 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
E� ������� �.�9���������� ���� 1.50
%�������� �.�'���������� ���� 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
'���������� 1.50
1 or 2 corrugated rolls
D����%��������!�'���������� 1.50
Application S.F.
Cracker - 2 corrugated rolls 2.00
Holding, Feed & Blend Mill - 2 rolls 1.25
��& ���!�'����� 1.50
Calender 1.50
SAND MULLER SEWAGE DISPOSAL
EQUIPMENT1.50
Bar Screens 1.25
*�������,������ 1.25
Dewatering Screens 1.50
E���D���#��� 1.50
Slow or Rapid Mixers 1.50
Sludge Collectors 1.25
Thickener 1.50
>�����,������ 1.50
SCREENS
Air Washing 1.25
Rotary - Stone or Gravel 1.50
Traveling Water Intake 1.25
SUGAR INDUSTRY
Beet Slicer 2.00
Cane Knives 1.50
Crushers 1.50
Mills (low speed end) 1.75
TEXTILE INDUSTRY
Batchers 1.50
Calenders 1.50
Cards 1.50
Dry Cans 1.50
Dyeing Machinery 1.50
��� 1.50
Mangles 1.50
Nappers 1.50
Pads 1.50
Slashers 1.50
Soapers 1.50
Spinners 1.50
�� ����,����� 1.50
Washers 1.50
Winders 1.50
8
����� ���� �������� ��� ����� ������ � �
drive unit:
Selecting a gearmotor
�;�%������ ����� ��������E-,-����� ����������������
:�����@;.� �����������������������Gr and hours of
operation.
B) Once torque Tr2, speed n2�� ���� ������&�� ��hd
are known, input power can be calculated as follows:
Pr1(hp) =Tr2(lb·in) x n2:���;
63,025 x hd
Values for hd for the different sizes of speed reducer
are indicated in table (A5) below:
(A5)
*;�* ����������������������� �������� �����������
table corresponding to power
Pn�H�/r1
B ������������������&��.������/n��������� ����-
ed in the catalogue refers to continuous duty S1.
,������������� � ���� ���������� �E8.����������
of duty required by reference to CEI 2-3/IEC 60034-1
E�� ���������������� �� ��-
,�������������E'���EI�� ����������.�� ������F*��-
���������89'����������.������������� �������� ���
with respect to continuous duty, consequently the fol-
��� �� ���� ��������������&��=
Pr1
f�Pn�H
The adjusting duty factor f�� � � ��� ���� ��� ����
chart (A6).
Reductions
hd
2 3 4
0.95 0.93 0.90
(A6)
Duty
S2 S3* S4 - S8
Cycle duration
��� �
� �������� �
(I) Please
consult
factory10 30 60 25% 40% 60%
fm 1.35 1.15 1.05 1.25 1.15 1.1
J�*���������� .�� �� ��� � �.���������8(��� �����������-�������
���� ���.�������� ���������� ����E�� ���%������� �-
� �������� �=
l = x 100tf
tf + tr
tf�3������� ���������� ��� �����
tr�3����������
Next, according to output speed n2, select a
gearmotor featuring a safety factor S greater than or
equal to service factor S.F.
E�H�E-,-
���� �������� ������ � ������ ��������� ��� ��� ��
�����4���������-
E������������������������� ���������������.���������
the selection procedure for speed reducers and choose
����������������������� ��-
For applications such as hoisting and travelling, contact
������ ����E�� ���%������� �-
Selecting a speed reducer
with a motor adapter
�;�%������ �� ��� ��� �����E-,-� ������ ��������� -�
See pages 5 - 7.
D;������� ��������6��������������6������������������ �
Tr2 is known, the calculated torque is:
Tc2 = Tr2 x S.F.
C) The gear ratio is calculated according to requested
output speed n2 and drive input speed n1
n1
n2i =
9
Once 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
������� �����6���Tc2:
Tn2�H��c2
���� �����������.���������������$F��������F*�?� ��.�
��� �� �� �� ��� &����� �� ���� ����� � ��.� ��#� �����
����� ������������������������K����� ����������L-
1.9 VERIFICATIONS
������ ���������� ��� ���������� ������.����������.�
���������=
�;���������������
��#�� ����� ����� ���� �������� ������� �� ���� ������
reducer is equal to or higher than power required by
������������ -��������� ���� ���� �� ���&��.�������
�� ������� ������ ������� �� ������ �� �������� �����
�� ��������-
D;�����������6��
��������������6���:� �� ���������� ��������#�
���;� ���������� �� ���� ������ ������� ����� �.� � �
�� ����.�������'((<�����������6����n2. Therefore,
��#� ����� ����� ������ ��� ���������.���� �����������
��6��������� ���� ���.���� �������-
,�� �����!������ ��� ������ ����.� ��� ��� ������ ��
���������� �� ��������� ����6����� �������:����
���������������;.��������������������� �&� ����
���������� �����������6��-
C) Radial loads
Check that forces applying on input and/or output
���������������� ������������������� �����-� ��� �����
are higher, select a larger speed reducer or change
����� ������ ���� �-
��������� ����� ���� ������ ������� � � ���� ��������
������ �� ����� ��� �� ��� ���!�� �� �� ���� �����-� ����
����������������������� ����������������"�������������
�������������� ����� ����������� ���������-
See para 2.8.
D) Thrust loads
�����������.�������������.����������������������
�������������� ������� �������� ������������-
� � ���� � � �� �� ���������� ����� ������� ����.� �� ��
��� ��� � �� ������� � �� ������� ����.� ���� ���
Technical Service for advise.
F;�F����������
,�� ������� ����� ���������� ������ �� ������� ����
���.� �����G��������� �������� :���� ����������
���� ���� ���� ���� �� ����;-� ,���� G� ��& ��� ����
�������� ������������������������������ �� ����
consideration.
1.10 INSTALLATION
��������� ��� �������� �� ������ ����������������=
A) Make sure that the speed reducer is adequately
secured to avoid vibrations. If shocks, prolonged
overloading, or the possibility of locking are expected,
� ������ ��������� ���� ��.� ������.� ��6��� ��������.�
etc.).
B) Prior to painting the gear unit, the outer face of the oil
��������������������������� � �������� � ������ ��
out the rubber, thus jeopardizing the sealing function.
*;�* ���� ������������������� ���� �� �������������
��������������� ����������������� �� ����� ���
oxidation and, as a result, seizure of parts.
%;�D����� ������ �� ��� �������� �.���#�� ����� ����� ���
�� ��� ��� ����� ��� ���� ������ �� �� �� ����� .�
� �� ����� ������� ��� ��������� ��� ���� ����&� ����-
See table (B1).
1.11 INSTRUCTIONS
FOR FITTING OF SHRINK DISC
Gearboxes of the F series are available upon request
����� ����� ������ ������ ������� ����� ���� #� ���
:E� ���� ;-���&�� ����������� �� �����������������
���������������������������������������������-
8;�B ����������#� ��������������� ����� ����� ��
the shrink disc.
';�*������������ �� ��������������� ����������������
������������ ��������������-
3) Fit the gearbox onto the driven shaft.
4) Fit the shrink disc onto the gearbox shaft.
5) Tighten all locking bolts of the shrink disc gradually and
10
1.12 MOUNTING INSTRUCTIONS FOR
ADAPTER BUSHINGS - NQF/QF
Fitting sequence
a) Thoroughly clean and degrease the contact surfaces
���������� ��������� ���������������������������-
���:8;.�������������������:';�� �������������� ���
�;�,� �����&�������������������:M;�� ����������������������:+;
Removal sequence
�;���� ���������������� ����� ����������������� #�
disc progressively and in circular sequence. Do not
��� �����������������������������N
b) Once the locking pressure is relieved the gearbox will
������������� ������ ��������� ������ ������� ��-
WARNING! Shrink discs that have collected dirt or have
��� �� �������� ������� ����������������������� ��
thoroughly cleaned with a thinner prior to be put back
���� �� �����-�,���� ��������������������� ���� ����
������6�� ������������� ��������Molykote G-Rapid Plus
���������������� ����������������� ��������������
the coupling and the threads of each of the tightening
screws.
1 7
Mt
263
5 4
F10 ... F25 F31 F41 F51 F60
Mt62
lb·in
71
lb·in
89
lb·in
106
lb·in
265
lb·in
(A8)
progressively in circular sequence using a torque wrench.
Several sequences are necessary until the speci-
���������������� �������������������������������
reference.
Warning! Do not use molybdenum disulphide
or any grease whatsoever because of consequent
��� ��������������������������
F10 F20 ... F51 F60 ; F70 F80 ; F90
Mt75
lb·in
128
lb·in
310
lb·in
611
lb·in
(A7)
:9;� � �� ���� #� ���� :4;� ������ ����� ���� ��� � ��� ���
������������������&����� �-
�;�� ����� ���������������� ��:9;� � ���������� ��� � �
the hub of the gearbox.
;�,���������������������������������� �� ����-
chine’ driven shaft and slide it to its desired position.
�;�E��������������� �� ������ �O����������� ��������
until it sits into site bored into gearbox’s hub.
e) Tighten the screw (5) of support bushing with a torque
Mt = 53 lb·in.�� ��������#��&����� ������ �������-
�;� ��� ������������� #������ ��&�� ��� ���������-
�������������������.� ��� � ������ ���#����� � ����
������������������������������������� #���������
in onto gearbox hub.
g) Through a torque wrench tighten all screws of the
shrink disc progressively and in circular sequence to
������6�������&�������������-������������ ���������
����& �����6�������� ������������������������������ -
ing sequences.
�>����� ��� �������-� ������ � �� ��6��� ��� � ��� ���
onto outer surface of the shrink disc.
11
>����������� �� � �������������������� ���� ������-
sion.
���� ����� ����� �� ���one-time use only and, should
��������� ����������� ������� .��������������������
with a genuine spare part.
�������������� �� ������������������ ������������
fresh new Molykote paste on the tapered surfaces of the
shrink disc and to replace the screws with new ones of
�������������.������������������������#��������-
1.13 STORAGE
Observe the following instructions to ensure correct
storage of products:
A) Do not store outdoors, in areas exposed to weather or
����������� ����������-
D;������������������.���.����������������������� �
���� ������� � �� ���� ?�-� ���� ������� ������ ��
�� �������� �������������?�-
*;�,�� � �� ����� ������� : ��� M(� ����;.� �������� ���
���������������?� ���.��������� ������ ��������
be protected with a suitable rust inhibiting product
:���������'4I����6�� ��� �;-
%;����� ����� ���������������� ��� ��#� � ��� � ���-
���� ���� ������ ��� �� ������ ������ �� M� � ���=
,�� ����� ���������� ������.� ���� ���� ��� ��-
���� ����� ��� �������� �� ��� � �� ������ -
In addition to above, products originally sup-
������ �2� ��� ����� ��� ����� ��� ����� ���� ������-
��� ����� ��� ���� �������� �� �.� � �� &����� ����� ��-
Before operating the speed reducer, restore the cor-
rect quantity of oil.
1.14 MAINTENANCE
Life lubricated gearboxes do not require any periodical
oil changes.
,������� ����������������.� ����&��������� ��������
take place after about 300 hours of operation, carefully
?���� ������������ ������ ������������������ ��-
%� �������� ���������������� ���������-
Check oil periodically and restore the level, if necessary.
12
2.1 ORDERING NUMBERS
Gear designation
F
SERIES
F�3�������������!�� ���
10
,���F�E�GF
10, 20, 25, 31, 41, 51, 60, 70, 80, 90
2
REDUCTIONS
2 (F10...F51), 3 (F20...F90), 4 (F31...F90)
NH30
VERSION
� ������- NH NR NQF����������- H R QF S
Hollow shaft
(F10...F90)
Solid shaft
(F10...F90)
Adapter bushing
(F10...F60)
Shrink disc
(F10...F90)
FA 48.7 H1 .....S1
GEAR RATIO
MOUNTING POSITION
H1 (Default), H2, H3, H4, H5, H6
OPTIONS
INPUT CONFIGURATION
S05 ... S5
N56C ... N320TC
P63 ... P250
SK_
SC_
NHS
HS
MOUNTING FLANGE
blank�3�$�?� �����6�����
F_ (A, B, C) = Flange required
15
2.0 SHAFT MOUNTED GEARMOTORS
14
13
�����������
MOTOR BRAKE
M
TYPE OF MOTOR
M = AC, 3-ph, integral style
BN�3��*.�9!��.��F*��������
1LA 4 230/460-60 IP54 CLF ..... W FD 15 R SB 220 SA .....
������,���F�E�GF
05...5�!�� ����������
63...250�!��F*����������
NUMBER OF POLES
VOLTAGE - FREQUENCY
60 Hz
50 Hz
PROTECTION CLASS
IP55 standard (IP54���� �����������#������;
INSULATION CLASS
CL F standard
CL H option
MOTOR MOUNTING
blank �����������
B5�����F*����
TERMINAL BOX
W (default), N, S, E
BRAKE TYPE
FD (DC brake)
FA (AC brake)
D��@F����PBF���������$�N�
[1 ft�lb = 1.356 Nm]
BRAKE HAND RELEASE (optional)
R, RM
AC/DC RECTIFIER
NB, NBR, SB, SBR
BRAKE SUPPLY
OPTIONS
204
14
Inch dimensions Metric dimensions
Keyed hollow
output shaft
NH
(F10...F90)
H
(F10...F90)
Solid output shaftNR
(F10...F90)
R
(F10...F90)
��������
Hollow shaft with
adapter bushings
and shrink disc
NQF
(F10...F60)
QF
(F10...F60)
Hollow output shaft
and shrink disc
S
(F10...F90)
2.3 VERSIONS
F10 F20 F25 F31 F41 F51 F60 F70 F80 F90
Inch
NH 1.000 1.250 1.375 1.375 1.500 2.000 2.375 2.750 3.188 3.625
NR 1.000 1.250 1.375 1.375 1.625 2.000 2.375 2.875 3.500 4.375
NQF1.000 1.000 1.1875 1.375 1.625 1.9375 2.375
– – –1.1875 1.1875 1.250 1.4375 1.750 2.000 2.4375
Metr
ic
H25 30 35 35 40 50 60 80 90 100
30 35 40 40 45 55 70 70 80 90
R 25 30 35 35 40 50 60 80 90 100
S 25 30 31 36 42 52 65 80 90 100
QF
25 25 30 35 42 50 55
– – –30 30 32 40 45 55 60
65
70
2.2 DESIGN ADVANTAGES
������� �������������������=
Q����������
Q������������ � ���
Q�� � �������� �� �
Q��������&�� �
Q�6�����������
Q�������� ������ ���� �����!����� ��������
Q� ����� ����� ���� ���� �� ��� ��R��� 8(.� '(� � �� '5.� �����
���� ������� �������!�� ����� ���������������������R��-
Output shaft availability
15
2.4 SPEED REDUCER OPTIONS
AL, AR
Anti-run back device.
���������� ���������� ���� ��������&������� �����
direction of free rotation are described at chapter 2.9
SO
1����� ����,�8(��������,�48���������������&����������
oil, to be supplied unlubricated.
LO
Gearboxes F 51 through F 90, usually supplied without
oil, to be supplied with synthetic oil currently used by
D�$,�1������ ��%B������ � �� &����� ���� �� �� ����
�� �� ������� �����&��-
DV
Dual oil seals on input shaft.
:� ���� ������������ ���������������;-
VV
Oil seal in Viton®���� �� �� ���������-
PV
Both input and output shafts feature oil seal in Viton®
��� �-
FL
���� ���� ����������?�������������� �� ��!,�8(��������
F 41- (Default for F 51 through F 90).
Terminal box location
���� � �� ���� ����� ��� ��� � � ��� ����&��� ���
���� �� �������� �������� �� �����S�������������� � ���
highlighted in bold (W).
Angular position of the brake
release lever
B ����� ��������� ����&��.� ���#�� ����� �� �� ����
�� ������ �������������.�T()���������������� �����-�
%������ �� � ����� � � ��� ����&��� ������� ���� ���� � ��
options available.
1�����������
��������-
Gearbox with NEMA
�����������-
Speed reducer
with free input shaft.
Gearbox with
�F*!�����������-
SERVO1����� ����������� ���
input adapter.
������������������
���������� ������ ��
������������-
2 Reduction 3 Reduction 4 Reduction
2.5 SYMBOLS
2.6 LUBRICATION
����� �����������D &������������ ����������!������ ��
splash lubricated.
,�������R���,�8(��������,�48�����������������������-
���.����������������R����������.���������&������������-
,�������� ���� &����������������F*! �����R����-
����� �� ��?� ����������������������������������-
U���� ���� ������ � �� ���� C5� �� �� �� ����� .� ����
�������������������������������������������������� �-
portation purposes, prior to putting the gear unit into op-
eration.
B ����� ��������� ����&��.� � ���� ��R��,� 58� � �� �������
are usually supplied unlubricated at it will be the cus-
16
Oil quantity
Mounting positions
H1 H2 H3 H4 H5 H6
F 10 20.29 0.32 0.17 0.17 0.21 0.24
1.1 1.2 0.65 0.65 0.80 0.90
F 20 20.50 0.42 0.22 0.29 0.32 0.40
1.9 1.6 0.85 1.1 1.2 1.5
F 20 30.53 0.50 0.34 0.34 0.48 0.48
2.0 1.9 1.3 1.3 1.8 1.8
F 25 20.55 0.53 0.53 0.40 0.63 0.53
2.1 2.0 2.0 1.5 2.4 2.0
F 25 30.53 0.50 0.50 0.40 0.61 0.53
2.0 1.9 1.9 1.5 2.3 2.0
F 25 40.58 0.58 0.61 0.42 0.77 0.61
2.2 2.2 2.3 1.6 2.9 2.3
F 31 20.71 0.71 0.42 0.42 0.69 0.69
2.7 2.7 1.6 1.6 2.6 2.6
F 31 30.69 0.69 0.40 0.42 0.66 0.69
2.6 2.6 1.5 1.6 2.5 2.6
F 31 40.74 0.77 0.50 0.45 0.82 0.77
2.8 2.9 1.9 1.7 3.1 2.9
F 41 21.3 0.98 0.79 0.87 1.3 1.2
5.1 3.7 3.0 3.3 5.0 4.7
F 41 31.3 0.95 1.2 0.82 1.3 1.2
5.0 3.6 4.6 3.1 4.8 4.6
F 41 41.5 1.1 1.3 1.0 1.5 1.3
5.6 4.2 4.8 3.8 5.7 5.1
F 51 22.6 2.0 2.2 1.5 2.4 2.2
10 7.4 8.4 5.5 9.2 8.2
F 51 32.5 1.8 2.1 1.3 2.4 2.1
9.5 7.0 8.0 5.0 8.9 8.0
F 51 42.5 2.0 2.0 1.2 2.6 1.8
9.5 7.4 7.5 4.5 9.9 7.0
F 60 33.7 2.6 1.8 2.6 3.7 2.9
14 10 7.0 10 14 11
F 60 44.0 2.9 2.1 2.9 4.0 3.4
15 11 8.0 11 15 13
F 70 35.5 4.8 2.6 4.2 5.3 4.2
21 18 10 16 20 16
F 70 45.8 5.3 2.9 4.5 6.6 4.5
22 20 11 17 25 17
F 80 310.0 8.5 4.0 7.1 10.8 8.2
38 32 15 27 41 31
F 80 410.0 9.0 4.2 7.7 12.7 8.7
38 34 16 29 48 33
F 90 317.2 14.5 7.4 13.2 19.8 14.5
65 55 28 50 75 55
F 90 417.4 15.1 7.7 13.2 22.5 15.3
66 57 29 50 85 58
(B3)
Life lubricated Quantities aregallons
litres
Oil temperature
°C [°F]
Oil change interval [hours]
Mineral oil Synthetic oil
< 65 °C
[< 150 °F]8000 25000
65 ... 80 °C
[150 °F ... 175 °F]4000 15000
80 ... 95 °C
[175 °F ... 200 °F]2000 12500
(B2)
Oil viscosity ISO VG
°C [°F] Mineral EP PAO EP PAG
ta�0�!'(�)*
[ta�0�!5�),�(*) (*) (*)
-20 °C < ta�0�8(�)*
[-5 °F < ta�0�5(�),�150 150 150
(�)*�0�ta�0�9(�)*
�9'�),�0�ta�0�I5�),�320 220 220
'(�)*�0�ta�0�4(�)*
�+(�),�0�ta�0�8(5�),�460 320 320
ta > 40 °C
[ta > 105 °F]460 (*) 460 (*) 460 (*)
(B1)
PAO /���������& ��� ���������
PAG Polyglycol-based synthetic oils
(*) � �����D &��������� ����E�� ��-
�����������&���������������������������� �������� ��
������ -��������������������������������������������
��������� �� ������� ������� �� ����������� �� ��
oil plugs, if applicable, and related lubricant quantity.
Values for the oil quantity are indicative with the proper
&��� ���������������� ������������ ����������������������
or the dipstick, when this is supplied.
� � ���� ����.� ������� ���.� ��� ����� ���� ���-
��� ���.� �������������6�� ��������������� ��������������
be noticed.
����K� ������L��������!������������ ������������������
�����.�� ��������� ���� ���� ��� .����� ����6�����
periodical oil changes throughout the life of the gear unit.
������� ��������� ������������������������� ���������-
tures between -20°C [-5°F] and +40°C [105°F].
C�� ��.� ��� ������������� ������ � !'()*� �!5),�� � ��
!8()*��84),��� ������� ���������������������������� ���-
gressively and evenly pre-heated, or otherwise initially
��������� �����-������������ ���� �����������
������ ��������� � ���� ����� � ��� ���� ������� ���� ���-
perature of -10°C [14°F], or higher.
17
2.7 MOUNTING POSITION AND TERMINAL BOX SPECIFICATION
Fill / breather plug Level plug Drain plug
�������������
F 10...F 31
Input:
18
�������������
F 10...F 31
Input:
19
�������������
F 41...F 60
Input:
20
�������������
F 41...F 60
Input:
21
�������������
F 70...F 90
Input:
22
F 70...F 90
Input:
23
2.8 OVERHUNG LOADS
Input and output shaft of speed reducer can be subject
�� ���� ���� ����������������� ������ �#����� �����
shaft itself.
Overhung load can be calculated with the following
���������������������������������� ������������� ����
study.
[N.B. (1) = input shaft; (2) = output shaft]
Rc =2 x T x Kr
d
Rc = overhung load in [lbs]
T = torque in [lb·in]
��� 3�� ��������������� �� ���������#��.��� � .�
sheave or pulley
Kr �3� ��� ������ ������ ������
� � E��#���:�� ������������������� �;�-----------�8-((
Spur or helical pinion ................................. 1.25
V-belt sheave ............................................. 1.50
Flat belt pulley ............................................ 2.00
a) load Rc1 or Rc2����������������� �������������� �������
in table (B4).
����� ������ �������������������������������C��
capacity by observing the condition:
Rc1�0��n1 ; Rc2�0��n2
(B4)
L
Rn1-2
L/2 L/2
b)� ���� �������� ��� ����� �� V�V� ���� ������ �������� ���
shown in table (B5).
* ���� ������� ������������� ���� ������ ������
Rx1 and Rx2 ������� ���������������� ���6���� =
Rn1,Rn2�3������������C�� ����������!�� �������
(radial load table)
a = load location factor
b = load location factor
c = load location factor
��� 3������ ���������������������������� �
load location factors a, b, c are shown in table (B6).
a
��W�K�KRx1 = Rn1 x
a
��W�K�K; Rx2 = Rn2 x
L
2A�K�L�A�as long as
(B5)
(B6)
X
Rx1-2
Load location factors [in]
Output shaft Input shaft
a b c a b c
F 10 2 4.8 4.0 17.7 0.8 0 11.8
F 20 2 5.7 4.5 23.6 1.6 0.8 13.8
F 20 3 5.7 4.5 23.6 0.8 0 11.8
F 25 2 - F 25 3 6.2 5.0 31.5 1.6 0.8 13.8
F 25 4 6.2 5.0 31.5 0.8 0 11.8
F 31 2 - F 31 3 6.5 5.3 33.5 1.5 0.7 13.8
F 31 4 6.5 5.3 33.5 0.8 0 11.8
F 41 2 - F 41 3 7.5 6.0 39.4 1.9 1.0 17.7
F 41 4 7.5 6.0 39.4 1.6 0.8 13.8
F 51 2 - F 51 3 9.2 7.2 51.2 1.9 1.0 17.7
F 51 4 9.2 7.2 51.2 1.5 0.7 13.8
F 60 3 10.2 7.8 43.3 2.2 1.0 23.6
F 60 4 10.2 7.8 43.3 1.9 1.0 17.7
F 70 3 13.5 10.9 63.0 3.4 1.2 39.4
F 70 4 13.5 10.9 63.0 1.9 1.0 17.7
F 80 3 15.2 11.9 70.9 3.4 1.2 39.4
F 80 4 15.2 11.9 70.9 1.9 1.0 17.7
F 90 3 18.1 13.9 94.5 4.6 1.8 55.1
F 90 4 18.1 13.9 94.5 1.9 1.0 17.7
24
Output shaft OHL
Rated values for radial load referred to mid-point of the
output shaft are listed in the gearmotor and speed reduc-
er 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 rota-
tion direction.
If permitted values are below required values, please
consult our Technical Service Department reporting the
load angle and shaft rotation direction.
Input shaft OHL
These values which are shown in the speed reducer se-
lection charts are speed sensitive 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,
Maximum permitted thrust loads can be calculated as
follows:
An1 = Rn1 x 0.2
An2 = Rn2 x 0.2
������������� �� ���� ����� ����� ���������������
Technical Service.
2.9 ANTI-RUN BACK DEVICE
On request the gear unit can be provided complete with
an anti-run back device allowing the output shaft to ro-
��� ��������� ���� ������� ��� ������� ���� ����� �����
– option AL/AR.
Table B7 shows the gearboxes in which the anti-run back
device can be installed.
Rn2
Rn1
An2An1
N.B. When the anti-run back device operates
very frequently make sure that the torque back-
driving the gearbox does not exceed 70% of the rated
torque Mn2 for the captioned gear unit.
When ordering the gear unit, the direction of free rotation
������ ��� ��� ��������� ��� ���� �������� ���������
(B7)
F 31 2* F 41 2 (6.7 ; 10.8)
F 31 3* F 41 3 F 51 3 F 60 3 F 70 3 F 80 3 F 90 3
F 51 4 F 60 4 F 70 4 F 80 4 F 90 4
�� � ����������� ����!����"�������� ��������������� ������
adapters type S_60A, S_ 60B, S_80A.
2.10 SIDE FLATS (FL Option)
Gear units from F 10 through F 41 can be side machined
and tapped by specifying the FL option.
Gear units type F 51 through F 90 are side machined and
tapped as standard. Mounting dimensions relevant to the
FL option are given in the chart at page 200.
25
2.11 GEARMOTOR RATING CHARTS
0.16 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
228 42 16.0 7.4:1 420 F 102_7.4 S05 + M05A4 P63 + BN63A4 N56C 99...102
197 49 14.9 8.6:1 440 F 102_8.6 S05 + M05A4 P63 + BN63A4 N56C 99...102
173 55 14.2 9.8:1 460 F 102_9.8 S05 + M05A4 P63 + BN63A4 N56C 99...102
146 65 13.0 11.5:1 490 F 102_11.5 S05 + M05A4 P63 + BN63A4 N56C 99...102
130 74 12.5 13.0:1 510 F 102_13.0 S05 + M05A4 P63 + BN63A4 N56C 99...102
115 83 12.7 14.6:1 530 F 102_14.6 S05 + M05A4 P63 + BN63A4 N56C 99...102
100 96 11.7 17.0:1 550 F 102_17.0 S05 + M05A4 P63 + BN63A4 N56C 99...102
88 110 10.9 19.3:1 580 F 102_19.3 S05 + M05A4 P63 + BN63A4 N56C 99...102
74 130 9.6 22.8:1 610 F 102_22.8 S05 + M05A4 P63 + BN63A4 N56C 99...102
65 146 8.4 25.8:1 630 F 102_25.8 S05 + M05A4 P63 + BN63A4 N56C 99...102
58 168 7.4 29.6:1 630 F 102_29.6 S05 + M05A4 P63 + BN63A4 N56C 99...102
51 187 6.7 33.0:1 630 F 102_33.0 S05 + M05A4 P63 + BN63A4 N56C 99...102
48 201 6.2 35.3:1 630 F 102_35.3 S05 + M05A4 P63 + BN63A4 N56C 99...102
43 225 5.5 39.6:1 630 F 102_39.6 S05 + M05A4 P63 + BN63A4 N56C 99...102
38 253 4.9 44.7:1 630 F 102_44.7 S05 + M05A4 P63 + BN63A4 N56C 99...102
35 276 4.5 48.7:1 630 F 102_48.7 S05 + M05A4 P63 + BN63A4 N56C 99...102
29.8 322 3.9 56.7:1 630 F 102_56.7 S05 + M05A4 P63 + BN63A4 N56C 99...102
26.8 357 3.5 63.0:1 630 F 102_63.0 S05 + M05A4 P63 + BN63A4 N56C 99...102
23.8 404 3.0 71.1:1 630 F 102_71.1 S05 + M05A4 P63 + BN63A4 N56C 99...102
20.8 461 2.6 81.3:1 630 F 102_81.3 S05 + M05A4 P63 + BN63A4 N56C 99...102
18.7 513 4.3 90.4:1 900 F 202_90.4 S05 + M05A4 P63 + BN63A4 N56C 110...113
18.5 519 2.4 91.5:1 630 F 102_91.5 S05 + M05A4 P63 + BN63A4 N56C 99...102
16.6 577 3.8 101.6:1 900 F 202_101.6 S05 + M05A4 P63 + BN63A4 N56C 110...113
15.9 602 2.0 106.0:1 630 F 102_106.0 S05 + M05A4 P63 + BN63A4 N56C 99...102
14.8 649 3.4 114.3:1 900 F 202_114.3 S05 + M05A4 P63 + BN63A4 N56C 110...113
13.3 721 1.8 127.1:1 630 F 102_127.1 S05 + M05A4 P63 + BN63A4 N56C 99...102
12.8 750 2.9 132.2:1 900 F 202_132.2 S05 + M05A4 P63 + BN63A4 N56C 110...113
11.8 794 4.4 143.0:1 1460 F 253_143.0 S05 + M05A4 P63 + BN63A4 N56C 121...124
10.9 866 4.0 155.9:1 1460 F 253_155.9 S05 + M05A4 P63 + BN63A4 N56C 121...124
10.8 868 2.5 156.3:1 900 F 203_156.3 S05 + M05A4 P63 + BN63A4 N56C 110...113
9.8 959 2.3 172.6:1 900 F 203_172.6 S05 + M05A4 P63 + BN63A4 N56C 110...113
9.6 968 3.6 174.2:1 1460 F 253_174.2 S05 + M05A4 P63 + BN63A4 N56C 121...124
9.1 1027 2.1 184.9:1 900 F 203_184.9 S05 + M05A4 P63 + BN63A4 N56C 110...113
8.8 1075 3.3 193.6:1 1460 F 253_193.6 S05 + M05A4 P63 + BN63A4 N56C 121...124
8.1 1162 1.9 209.3:1 900 F 203_209.3 S05 + M05A4 P63 + BN63A4 N56C 110...113
7.4 1265 2.8 227.8:1 1460 F 253_227.8 S05 + M05A4 P63 + BN63A4 N56C 121...124
26
0.16 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
7.4 1268 4.2 228.2:1 1460 F 313_228.2 P63 + BN63A4 N56C 132...135
6.6 1418 1.5 255.3:1 900 F 203_255.3 S05 + M05A4 P63 + BN63A4 N56C 110...113
6.6 1423 2.5 256.1:1 1460 F 253_256.1 S05 + M05A4 P63 + BN63A4 N56C 121...124
6.6 1408 3.8 253.6:1 1460 F 313_253.6 P63 + BN63A4 N56C 132...135
5.9 1584 1.4 285.2:1 900 F 203_285.2 S05 + M05A4 P63 + BN63A4 N56C 110...113
5.9 1600 2.3 288.1:1 1460 F 253_288.1 S05 + M05A4 P63 + BN63A4 N56C 121...124
5.8 1632 3.3 293.8:1 1460 F 313_293.8 P63 + BN63A4 N56C 132...135
5.4 1760 1.3 316.9:1 900 F 203_316.9 S05 + M05A4 P63 + BN63A4 N56C 110...113
5.1 1850 1.9 333.1:1 1460 F 253_333.1 S05 + M05A4 P63 + BN63A4 N56C 121...124
5.1 1849 2.9 332.8:1 1460 F 313_332.8 P63 + BN63A4 N56C 132...135
4.5 2080 2.5 374.4:1 1460 F 313_374.4 P63 + BN63A4 N56C 132...135
4.3 2141 1.6 393.9:1 1460 F 254_393.9 S05 + M05A4 P63 + BN63A4 N56C 121...124
4.0 2276 2.4 418.9:1 1460 F 314_418.9 S05 + M05A4 P63 + BN63A4 N56C 132...135
3.9 2364 1.5 434.9:1 1460 F 254_434.9 S05 + M05A4 P63 + BN63A4 N56C 121...124
3.9 2357 4.2 433.7:1 1910 F 414_433.7 S05 + M05A4 P63 + BN63A4 N56C 143...146
3.6 2532 1.4 466.0:1 1460 F 254_466.0 S05 + M05A4 P63 + BN63A4 N56C 121...124
3.6 2514 2.1 462.6:1 1460 F 314_462.6 S05 + M05A4 P63 + BN63A4 N56C 132...135
3.3 2866 1.3 527.3:1 1460 F 254_527.3 S05 + M05A4 P63 + BN63A4 N56C 121...124
3.3 2868 1.9 527.8:1 1460 F 314_527.8 S05 + M05A4 P63 + BN63A4 N56C 132...135
3.1 2988 3.3 549.8:1 1910 F 414_549.8 S05 + M05A4 P63 + BN63A4 N56C 143...146
2.9 3205 1.1 589.7:1 1460 F 254_589.7 S05 + M05A4 P63 + BN63A4 N56C 121...124
2.9 3144 1.6 578.6:1 1460 F 314_578.6 S05 + M05A4 P63 + BN63A4 N56C 132...135
2.8 3369 1.6 619.9:1 1460 F 314_619.9 S05 + M05A4 P63 + BN63A4 N56C 132...135
2.5 3726 1.4 685.6:1 1460 F 314_685.6 S05 + M05A4 P63 + BN63A4 N56C 132...135
2.5 3751 2.6 690.1:1 1910 F 414_690.1 S05 + M05A4 P63 + BN63A4 N56C 143...146
2.3 4143 1.3 762.3:1 1460 F 314_762.3 S05 + M05A4 P63 + BN63A4 N56C 132...135
2.3 4018 2.4 739.4:1 1910 F 414_739.4 S05 + M05A4 P63 + BN63A4 N56C 143...146
2.1 4423 2.1 813.8:1 1910 F 414_813.8 S05 + M05A4 P63 + BN63A4 N56C 143...146
2.0 4520 1.1 831.6:1 1460 F 314_831.6 S05 + M05A4 P63 + BN63A4 N56C 132...135
1.9 4894 2.0 900.5:1 1910 F 414_900.5 S05 + M05A4 P63 + BN63A4 N56C 143...146
1.8 5339 1.8 982.4:1 1910 F 414_982.4 S05 + M05A4 P63 + BN63A4 N56C 143...146
1.5 5935 1.6 1092:1 1910 F 414_1092 S05 + M05A4 P63 + BN63A4 N56C 143...146
1.4 6594 1.5 1213:1 1910 F 414_1213 S05 + M05A4 P63 + BN63A4 N56C 143...146
1.2 7666 1.3 1411:1 1910 F 414_1411 S05 + M05A4 P63 + BN63A4 N56C 143...146
0.81 11300 3.9 2019:1 7870 F 704_2019 P63 + BN63A4 N56C 176...179
0.75 12249 3.6 2188:1 7870 F 704_2188 P63 + BN63A4 N56C 176...179
27
0.25 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
225 66 10.1 7.4:1 420 F 102_7.4 S05 + M05B4 P63 + BN63B4 N56C 99...102
195 77 9.4 8.6:1 440 F 102_8.6 S05 + M05B4 P63 + BN63B4 N56C 99...102
171 88 9.0 9.8:1 460 F 102_9.8 S05 + M05B4 P63 + BN63B4 N56C 99...102
144 103 8.2 11.5:1 480 F 102_11.5 S05 + M05B4 P63 + BN63B4 N56C 99...102
128 117 7.8 13.0:1 500 F 102_13.0 S05 + M05B4 P63 + BN63B4 N56C 99...102
114 131 8.1 14.6:1 520 F 102_14.6 S05 + M05B4 P63 + BN63B4 N56C 99...102
99 152 7.4 17.0:1 550 F 102_17.0 S05 + M05B4 P63 + BN63B4 N56C 99...102
86 173 7.0 19.3:1 570 F 102_19.3 S05 + M05B4 P63 + BN63B4 N56C 99...102
73 205 6.1 22.8:1 600 F 102_22.8 S05 + M05B4 P63 + BN63B4 N56C 99...102
65 231 5.4 25.8:1 620 F 102_25.8 S05 + M05B4 P63 + BN63B4 N56C 99...102
57 266 4.6 29.6:1 630 F 102_29.6 S05 + M05B4 P63 + BN63B4 N56C 99...102
51 296 4.2 33.0:1 630 F 102_33.0 S05 + M05B4 P63 + BN63B4 N56C 99...102
47 317 3.9 35.3:1 630 F 102_35.3 S05 + M05B4 P63 + BN63B4 N56C 99...102
42 356 3.5 39.6:1 630 F 102_39.6 S05 + M05B4 P63 + BN63B4 N56C 99...102
37 401 3.1 44.7:1 630 F 102_44.7 S05 + M05B4 P63 + BN63B4 N56C 99...102
34 437 2.8 48.7:1 630 F 102_48.7 S05 + M05B4 P63 + BN63B4 N56C 99...102
29.5 509 2.4 56.7:1 630 F 102_56.7 S05 + M05B4 P63 + BN63B4 N56C 99...102
26.9 555 4.0 61.9:1 900 F 202_61.9 S05 + M05B4 P63 + BN63B4 N56C 110...113
26.6 565 2.2 63.0:1 630 F 102_63.0 S05 + M05B4 P63 + BN63B4 N56C 99...102
24.2 620 3.5 69.1:1 900 F 202_69.1 S05 + M05B4 P63 + BN63B4 N56C 110...113
23.5 638 2.0 71.1:1 630 F 102_71.1 S05 + M05B4 P63 + BN63B4 N56C 99...102
21.8 689 3.2 76.8:1 900 F 202_76.8 S05 + M05B4 P63 + BN63B4 N56C 110...113
20.5 729 1.7 81.3:1 630 F 102_81.3 S05 + M05B4 P63 + BN63B4 N56C 99...102
18.5 811 2.7 90.4:1 900 F 202_90.4 S05 + M05B4 P63 + BN63B4 N56C 110...113
18.2 821 1.5 91.5:1 630 F 102_91.5 S05 + M05B4 P63 + BN63B4 N56C 99...102
17.5 839 4.3 95.5:1 1460 F 253_95.5 S05 + M05B4 P63 + BN63B4 N56C 121...124
16.4 912 2.4 101.6:1 900 F 202_101.6 S05 + M05B4 P63 + BN63B4 N56C 110...113
15.8 951 1.3 106.0:1 630 F 102_106.0 S05 + M05B4 P63 + BN63B4 N56C 99...102
15.8 926 3.8 105.4:1 1460 F 253_105.4 S05 + M05B4 P63 + BN63B4 N56C 121...124
14.8 992 3.5 113.0:1 1460 F 253_113.0 S05 + M05B4 P63 + BN63B4 N56C 121...124
14.5 1026 2.2 114.3:1 900 F 202_114.3 S05 + M05B4 P63 + BN63B4 N56C 110...113
13.2 1141 1.1 127.1:1 630 F 102_127.1 S05 + M05B4 P63 + BN63B4 N56C 99...102
13.0 1123 3.2 127.8:1 1460 F 253_127.8 S05 + M05B4 P63 + BN63B4 N56C 121...124
12.7 1186 1.8 132.2:1 900 F 202_132.2 S05 + M05B4 P63 + BN63B4 N56C 110...113
11.9 1236 4.3 140.7:1 1460 F 313_140.7 P63 + BN63B4 N56C 132...135
11.6 1255 2.8 143.0:1 1460 F 253_143.0 S05 + M05B4 P63 + BN63B4 N56C 121...124
11.1 1324 4.0 150.8:1 1460 F 313_150.8 P63 + BN63B4 N56C 132...135
28
0.25 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
10.8 1370 2.6 155.9:1 1460 F 253_155.9 S05 + M05B4 P63 + BN63B4 N56C 121...124
10.6 1373 1.6 156.3:1 900 F 203_156.3 S05 + M05B4 P63 + BN63B4 N56C 110...113
10.0 1465 3.7 166.8:1 1460 F 313_166.8 P63 + BN63B4 N56C 132...135
9.6 1516 1.5 172.6:1 900 F 203_172.6 S05 + M05B4 P63 + BN63B4 N56C 110...113
9.6 1530 2.3 174.2:1 1460 F 253_174.2 S05 + M05B4 P63 + BN63B4 N56C 121...124
9.0 1624 1.3 184.9:1 900 F 203_184.9 S05 + M05B4 P63 + BN63B4 N56C 110...113
9.0 1629 3.3 185.4:1 1460 F 313_185.4 P63 + BN63B4 N56C 132...135
8.6 1700 2.1 193.6:1 1460 F 253_193.6 S05 + M05B4 P63 + BN63B4 N56C 121...124
8.2 1777 2.9 202.3:1 1460 F 313_202.3 P63 + BN63B4 N56C 132...135
8.0 1838 1.2 209.3:1 900 F 203_209.3 S05 + M05B4 P63 + BN63B4 N56C 110...113
7.3 2001 1.7 227.8:1 1460 F 253_227.8 S05 + M05B4 P63 + BN63B4 N56C 121...124
7.3 2004 2.7 228.2:1 1460 F 313_228.2 P63 + BN63B4 N56C 132...135
6.6 2249 1.6 256.1:1 1460 F 253_256.1 S05 + M05B4 P63 + BN63B4 N56C 121...124
6.6 2227 2.4 253.6:1 1460 F 313_253.6 P63 + BN63B4 N56C 132...135
6.2 2344 4.2 266.9:1 1910 F 413_266.9 P63 + BN63B4 N56C 143...146
5.8 2531 1.3 288.1:1 1460 F 253_288.1 S05 + M05B4 P63 + BN63B4 N56C 121...124
5.7 2581 2.1 293.8:1 1460 F 313_293.8 P63 + BN63B4 N56C 132...135
5.7 2605 3.8 296.6:1 1910 F 413_296.6 P63 + BN63B4 N56C 143...146
5.1 2926 1.2 333.1:1 1460 F 253_333.1 S05 + M05B4 P63 + BN63B4 N56C 121...124
5.1 2923 1.8 332.8:1 1460 F 313_332.8 P63 + BN63B4 N56C 132...135
4.8 3028 3.2 344.8:1 1910 F 413_344.8 P63 + BN63B4 N56C 143...146
4.4 3288 1.6 374.4:1 1460 F 313_374.4 P63 + BN63B4 N56C 132...135
4.3 3385 1.1 393.9:1 1460 F 254_393.9 S05 + M05B4 P63 + BN63B4 N56C 121...124
4.0 3600 1.5 418.9:1 1460 F 314_418.9 S05 + M05B4 P63 + BN63B4 N56C 132...135
3.8 3727 2.6 433.7:1 1910 F 414_433.7 S05 + M05B4 P63 + BN63B4 N56C 143...146
3.7 3975 1.3 462.6:1 1460 F 314_462.6 S05 + M05B4 P63 + BN63B4 N56C 132...135
3.2 4535 1.2 527.8:1 1460 F 314_527.8 S05 + M05B4 P63 + BN63B4 N56C 132...135
3.0 4725 2.1 549.8:1 1910 F 414_549.8 S05 + M05B4 P63 + BN63B4 N56C 143...146
2.9 4972 1.1 578.6:1 1460 F 314_578.6 S05 + M05B4 P63 + BN63B4 N56C 132...135
2.4 5930 1.6 690.1:1 1910 F 414_690.1 S05 + M05B4 P63 + BN63B4 N56C 143...146
2.3 6354 1.6 739.4:1 1910 F 414_739.4 S05 + M05B4 P63 + BN63B4 N56C 143...146
2.0 6993 1.3 813.8:1 1910 F 414_813.8 S05 + M05B4 P63 + BN63B4 N56C 143...146
1.9 7739 1.2 900.5:1 1910 F 414_900.5 S05 + M05B4 P63 + BN63B4 N56C 143...146
1.6 8442 1.1 982.4:1 1910 F 414_982.4 S05 + M05B4 P63 + BN63B4 N56C 143...146
29
0.33 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
226 88 7.7 7.4:1 420 F 102_7.4 S05 + M05C4 P71 + BN71A4 N56C 99...102
201 99 7.3 8.6:1 440 F 102_8.6 S05 + M05C4 P71 + BN71A4 N56C 99...102
171 116 6.8 9.8:1 460 F 102_9.8 S05 + M05C4 P71 + BN71A4 N56C 99...102
150 133 6.5 11.5:1 480 F 102_11.5 S05 + M05C4 P71 + BN71A4 N56C 99...102
128 154 5.9 13.0:1 500 F 102_13.0 S05 + M05C4 P71 + BN71A4 N56C 99...102
113 173 6.1 14.6:1 520 F 102_14.6 S05 + M05C4 P71 + BN71A4 N56C 99...102
101 195 5.8 17.0:1 540 F 102_17.0 S05 + M05C4 P71 + BN71A4 N56C 99...102
86 229 5.3 19.3:1 570 F 102_19.3 S05 + M05C4 P71 + BN71A4 N56C 99...102
74 270 4.6 22.8:1 600 F 102_22.8 S05 + M05C4 P71 + BN71A4 N56C 99...102
65 305 4.0 25.8:1 620 F 102_25.8 S05 + M05C4 P71 + BN71A4 N56C 99...102
56 351 3.5 29.6:1 630 F 102_29.6 S05 + M05C4 P71 + BN71A4 N56C 99...102
51 391 3.2 33.0:1 630 F 102_33.0 S05 + M05C4 P71 + BN71A4 N56C 99...102
47 419 2.9 35.3:1 630 F 102_35.3 S05 + M05C4 P71 + BN71A4 N56C 99...102
42 469 2.7 39.6:1 630 F 102_39.6 S05 + M05C4 P71 + BN71A4 N56C 99...102
37 531 4.2 44.8:1 870 F 202_44.8 S05 + M05C4 P71 + BN71A4 N56C 110...113
37 529 2.4 44.7:1 630 F 102_44.7 S05 + M05C4 P71 + BN71A4 N56C 99...102
34 577 2.2 48.7:1 630 F 102_48.7 S05 + M05C4 P71 + BN71A4 N56C 99...102
33 601 3.7 50.7:1 900 F 202_50.7 S05 + M05C4 P71 + BN71A4 N56C 110...113
29.4 671 1.9 56.7:1 630 F 102_56.7 S05 + M05C4 P71 + BN71A4 N56C 99...102
29.4 672 3.3 56.7:1 900 F 202_56.7 S05 + M05C4 P71 + BN71A4 N56C 110...113
27.0 733 3.0 61.9:1 900 F 202_61.9 S05 + M05C4 P71 + BN71A4 N56C 110...113
26.5 746 1.6 63.0:1 630 F 102_63.0 S05 + M05C4 P71 + BN71A4 N56C 99...102
24.2 819 2.7 69.1:1 900 F 202_69.1 S05 + M05C4 P71 + BN71A4 N56C 110...113
23.4 842 1.5 71.1:1 630 F 102_71.1 S05 + M05C4 P71 + BN71A4 N56C 99...102
21.8 888 4.0 76.6:1 1440 F 253_76.6 S05 + M05C4 P71 + BN71A4 N56C 121...124
21.7 910 2.4 76.8:1 900 F 202_76.8 S05 + M05C4 P71 + BN71A4 N56C 110...113
20.6 963 1.3 81.3:1 630 F 102_81.3 S05 + M05C4 P71 + BN71A4 N56C 99...102
20.1 967 3.7 83.4:1 1460 F 253_83.4 S05 + M05C4 P71 + BN71A4 N56C 121...124
18.4 1071 2.0 90.4:1 900 F 202_90.4 S05 + M05C4 P71 + BN71A4 N56C 110...113
18.2 1083 1.1 91.5:1 630 F 102_91.5 S05 + M05C4 P71 + BN71A4 N56C 99...102
17.4 1107 3.2 95.5:1 1460 F 253_95.5 S05 + M05C4 P71 + BN71A4 N56C 121...124
16.5 1204 1.9 101.6:1 900 F 202_101.6 S05 + M05C4 P71 + BN71A4 N56C 110...113
15.8 1222 2.9 105.4:1 1460 F 253_105.4 S05 + M05C4 P71 + BN71A4 N56C 121...124
15.3 1267 4.2 112.5:1 1460 F 313_112.5 P71 + BN71A4 N56C 132...135
15.2 1272 2.8 113.0:1 1460 F 253_113.0 S05 + M05C4 P71 + BN71A4 N56C 121...124
14.6 1354 1.6 114.3:1 900 F 202_114.3 S05 + M05C4 P71 + BN71A4 N56C 110...113
13.3 1445 3.7 128.4:1 1460 F 313_128.4 P71 + BN71A4 N56C 132...135
30
0.33 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
13.1 1482 2.4 127.8:1 1460 F 253_127.8 S05 + M05C4 P71 + BN71A4 N56C 121...124
12.6 1565 1.4 132.2:1 900 F 202_132.2 S05 + M05C4 P71 + BN71A4 N56C 110...113
12.2 1584 3.3 140.7:1 1460 F 313_140.7 P71 + BN71A4 N56C 132...135
12.1 1609 2.2 143.0:1 1460 F 253_143.0 S05 + M05C4 P71 + BN71A4 N56C 121...124
11.5 1697 3.2 150.8:1 1460 F 313_150.8 P71 + BN71A4 N56C 132...135
10.7 1812 1.3 156.3:1 900 F 203_156.3 S05 + M05C4 P71 + BN71A4 N56C 110...113
10.7 1808 1.9 155.9:1 1460 F 253_155.9 S05 + M05C4 P71 + BN71A4 N56C 121...124
10.3 1877 2.8 166.8:1 1460 F 313_166.8 P71 + BN71A4 N56C 132...135
10.0 1943 1.1 172.6:1 900 F 203_172.6 S05 + M05C4 P71 + BN71A4 N56C 110...113
9.6 2020 1.8 174.2:1 1460 F 253_174.2 S05 + M05C4 P71 + BN71A4 N56C 121...124
9.2 2087 2.5 185.4:1 1460 F 313_185.4 P71 + BN71A4 N56C 132...135
8.6 2244 1.5 193.6:1 1460 F 253_193.6 S05 + M05C4 P71 + BN71A4 N56C 121...124
8.6 2239 4.3 198.9:1 1910 F 413_198.9 P71 + BN71A4 N56C 143...146
8.5 2277 2.3 202.3:1 1460 F 313_202.3 P71 + BN71A4 N56C 132...135
7.9 2478 3.9 220.1:1 1910 F 413_220.1 P71 + BN71A4 N56C 143...146
7.5 2569 2.0 228.2:1 1460 F 313_228.2 P71 + BN71A4 N56C 132...135
7.4 2641 1.4 227.8:1 1460 F 253_227.8 S05 + M05C4 P71 + BN71A4 N56C 121...124
7.1 2703 3.5 240.1:1 1910 F 413_240.1 P71 + BN71A4 N56C 143...146
6.7 2855 1.9 253.6:1 1460 F 313_253.6 P71 + BN71A4 N56C 132...135
6.5 2969 1.1 256.1:1 1460 F 253_256.1 S05 + M05C4 P71 + BN71A4 N56C 121...124
6.5 3005 3.3 266.9:1 1910 F 413_266.9 P71 + BN71A4 N56C 143...146
5.9 3308 1.6 293.8:1 1460 F 313_293.8 P71 + BN71A4 N56C 132...135
5.9 3339 2.9 296.6:1 1910 F 413_296.6 P71 + BN71A4 N56C 143...146
5.1 3747 1.4 332.8:1 1460 F 313_332.8 P71 + BN71A4 N56C 132...135
5.0 3881 2.5 344.8:1 1910 F 413_344.8 P71 + BN71A4 N56C 143...146
4.6 4215 1.3 374.4:1 1460 F 313_374.4 P71 + BN71A4 N56C 132...135
4.0 4751 1.1 418.9:1 1460 F 314_418.9 S05 + M05C4 P71 + BN71A4 N56C 132...135
3.9 4919 2.0 433.7:1 1910 F 414_433.7 S05 + M05C4 P71 + BN71A4 N56C 143...146
3.0 6237 1.5 549.8:1 1910 F 414_549.8 S05 + M05C4 P71 + BN71A4 N56C 143...146
2.4 7828 1.3 690.1:1 1910 F 414_690.1 S05 + M05C4 P71 + BN71A4 N56C 143...146
2.2 8387 1.1 739.4:1 1910 F 414_739.4 S05 + M05C4 P71 + BN71A4 N56C 143...146
2.1 8963 1.1 813.8:1 1910 F 414_813.8 S05 + M05C4 P71 + BN71A4 N56C 143...146
31
0.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
230 130 5.2 7.4:1 420 F 102_7.4 S1 + M1SD4 P71 + BN71B4 N56C 99...102
199 151 4.8 8.6:1 430 F 102_8.6 S1 + M1SD4 P71 + BN71B4 N56C 99...102
174 172 4.6 9.8:1 450 F 102_9.8 S1 + M1SD4 P71 + BN71B4 N56C 99...102
148 203 4.2 11.5:1 480 F 102_11.5 S1 + M1SD4 P71 + BN71B4 N56C 99...102
130 230 4.1 13.0:1 490 F 102_13.0 S1 + M1SD4 P71 + BN71B4 N56C 99...102
117 258 4.1 14.6:1 510 F 102_14.6 S1 + M1SD4 P71 + BN71B4 N56C 99...102
101 299 3.8 17.0:1 540 F 102_17.0 S1 + M1SD4 P71 + BN71B4 N56C 99...102
88 341 3.6 19.3:1 560 F 102_19.3 S1 + M1SD4 P71 + BN71B4 N56C 99...102
74 402 3.1 22.8:1 580 F 102_22.8 S1 + M1SD4 P71 + BN71B4 N56C 99...102
66 454 2.7 25.8:1 600 F 102_25.8 S1 + M1SD4 P71 + BN71B4 N56C 99...102
57 522 2.3 29.6:1 630 F 102_29.6 S1 + M1SD4 P71 + BN71B4 N56C 99...102
56 536 4.2 30.4:1 760 F 202_30.4 S1 + M1SD4 P71 + BN71B4 N56C 110...113
52 581 2.1 33.0:1 630 F 102_33.0 S1 + M1SD4 P71 + BN71B4 N56C 99...102
51 583 3.8 33.1:1 780 F 202_33.1 S1 + M1SD4 P71 + BN71B4 N56C 110...113
48 623 2.0 35.3:1 630 F 102_35.3 S1 + M1SD4 P71 + BN71B4 N56C 99...102
45 668 3.3 37.9:1 810 F 202_37.9 S1 + M1SD4 P71 + BN71B4 N56C 110...113
43 699 1.7 39.6:1 630 F 102_39.6 S1 + M1SD4 P71 + BN71B4 N56C 99...102
41 737 3.0 41.8:1 830 F 202_41.8 S1 + M1SD4 P71 + BN71B4 N56C 110...113
38 787 1.6 44.7:1 630 F 102_44.7 S1 + M1SD4 P71 + BN71B4 N56C 99...102
38 790 2.8 44.8:1 850 F 202_44.8 S1 + M1SD4 P71 + BN71B4 N56C 110...113
38 783 4.3 44.4:1 1210 F 252_44.4 S1 + M1SD4 P71 + BN71B4 N56C 121...124
35 859 1.5 48.7:1 630 F 102_48.7 S1 + M1SD4 P71 + BN71B4 N56C 99...102
34 894 2.5 50.7:1 880 F 202_50.7 S1 + M1SD4 P71 + BN71B4 N56C 110...113
34 876 4.1 50.8:1 1250 F 253_50.8 S1 + M1SD4 P71 + BN71B4 N56C 121...124
30 999 1.2 56.7:1 630 F 102_56.7 S1 + M1SD4 P71 + BN71B4 N56C 99...102
30 1000 2.2 56.7:1 900 F 202_56.7 S1 + M1SD4 P71 + BN71B4 N56C 110...113
29.2 1007 3.6 58.3:1 1290 F 253_58.3 S1 + M1SD4 P71 + BN71B4 N56C 121...124
27.4 1091 2.0 61.9:1 900 F 202_61.9 S1 + M1SD4 P71 + BN71B4 N56C 110...113
26.9 1110 1.1 63.0:1 630 F 102_63.0 S1 + M1SD4 P71 + BN71B4 N56C 99...102
26.1 1127 3.2 65.3:1 1330 F 253_65.3 S1 + M1SD4 P71 + BN71B4 N56C 121...124
24.6 1219 1.8 69.1:1 900 F 202_69.1 S1 + M1SD4 P71 + BN71B4 N56C 110...113
22.2 1321 2.7 76.6:1 1380 F 253_76.6 S1 + M1SD4 P71 + BN71B4 N56C 121...124
22.1 1354 1.6 76.8:1 900 F 202_76.8 S1 + M1SD4 P71 + BN71B4 N56C 110...113
21.6 1361 3.9 78.9:1 1460 F 313_78.9 S1 + M1SD4 P71 + BN71B4 N56C 132...135
20.4 1439 2.5 83.4:1 1410 F 253_83.4 S1 + M1SD4 P71 + BN71B4 N56C 121...124
19.5 1508 3.6 87.4:1 1460 F 313_87.4 S1 + M1SD4 P71 + BN71B4 N56C 132...135
18.9 1594 1.4 90.4:1 900 F 202_90.4 S1 + M1SD4 P71 + BN71B4 N56C 110...113
32
0.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
17.7 1648 2.1 95.5:1 1460 F 253_95.5 S1 + M1SD4 P71 + BN71B4 N56C 121...124
16.8 1791 1.2 101.6:1 900 F 202_101.6 P71 + BN71B4 N56C 110...113
16.6 1758 3.1 101.9:1 1460 F 313_101.9 S1 + M1SD4 P71 + BN71B4 N56C 132...135
16.1 1819 2.0 105.4:1 1460 F 253_105.4 S1 + M1SD4 P71 + BN71B4 N56C 121...124
15.1 1942 2.7 112.5:1 1460 F 313_112.5 S1 + M1SD4 P71 + BN71B4 N56C 132...135
15.0 1949 1.8 113.0:1 1460 F 253_113.0 S1 + M1SD4 P71 + BN71B4 N56C 121...124
13.3 2206 1.6 127.8:1 1460 F 253_127.8 S1 + M1SD4 P71 + BN71B4 N56C 121...124
13.3 2215 2.3 128.4:1 1460 F 313_128.4 S1 + M1SD4 P71 + BN71B4 N56C 132...135
12.7 2319 4.2 134.4:1 1910 F 413_134.4 S1 + M1SD4 P71 + BN71B4 N56C 143...146
12.0 2428 2.2 140.7:1 1460 F 313_140.7 S1 + M1SD4 P71 + BN71B4 N56C 132...135
11.9 2467 1.5 143.0:1 1460 F 253_143.0 S1 + M1SD4 P71 + BN71B4 N56C 121...124
11.3 2602 2.1 150.8:1 1460 F 313_150.8 S1 + M1SD4 P71 + BN71B4 N56C 132...135
10.9 2691 1.4 155.9:1 1460 F 253_155.9 S1 + M1SD4 P71 + BN71B4 N56C 121...124
10.2 2878 1.8 166.8:1 1460 F 313_166.8 S1 + M1SD4 P71 + BN71B4 N56C 132...135
10.1 2911 3.3 168.7:1 1910 F 413_168.7 S1 + M1SD4 P71 + BN71B4 N56C 143...146
9.8 3006 1.2 174.2:1 1460 F 253_174.2 S1 + M1SD4 P71 + BN71B4 N56C 121...124
9.4 3119 3.1 180.7:1 1910 F 413_180.7 S1 + M1SD4 P71 + BN71B4 N56C 143...146
9.2 3200 1.6 185.4:1 1460 F 313_185.4 S1 + M1SD4 P71 + BN71B4 N56C 132...135
8.6 3432 2.8 198.9:1 1910 F 413_198.9 S1 + M1SD4 P71 + BN71B4 N56C 143...146
8.4 3490 1.5 202.3:1 1460 F 313_202.3 S1 + M1SD4 P71 + BN71B4 N56C 132...135
7.8 3742 4.3 216.9:1 2700 F 513_216.9 S1 + M1SD4 P71 + BN71B4 N56C 154...157
7.7 3798 2.6 220.1:1 1910 F 413_220.1 S1 + M1SD4 P71 + BN71B4 N56C 143...146
7.4 3938 1.4 228.2:1 1460 F 313_228.2 S1 + M1SD4 P71 + BN71B4 N56C 132...135
7.1 4144 2.3 240.1:1 1910 F 413_240.1 S1 + M1SD4 P71 + BN71B4 N56C 143...146
7.1 4138 3.8 239.8:1 2700 F 513_239.8 S1 + M1SD4 P71 + BN71B4 N56C 154...157
6.7 4376 1.2 253.6:1 1460 F 313_253.6 S1 + M1SD4 P71 + BN71B4 N56C 132...135
6.5 4523 3.6 262.1:1 2700 F 513_262.1 S1 + M1SD4 P71 + BN71B4 N56C 154...157
6.3 4606 2.1 266.9:1 1910 F 413_266.9 S1 + M1SD4 P71 + BN71B4 N56C 143...146
6.0 4934 3.2 285.9:1 2700 F 513_285.9 S1 + M1SD4 P71 + BN71B4 N56C 154...157
5.7 5118 1.8 296.6:1 1910 F 413_296.6 S1 + M1SD4 P71 + BN71B4 N56C 143...146
5.3 5474 3.0 317.3:1 2700 F 513_317.3 S1 + M1SD4 P71 + BN71B4 N56C 154...157
5.0 5949 1.6 344.8:1 1910 F 413_344.8 S1 + M1SD4 P71 + BN71B4 N56C 143...146
4.8 6083 2.6 352.5:1 2700 F 513_352.5 S1 + M1SD4 P71 + BN71B4 N56C 154...157
4.2 6742 3.8 399.3:1 4500 F 604_399.3 S1 + M1SD4 P71 + BN71B4 N56C 165...168
4.0 7322 1.4 433.7:1 1910 F 414_433.7 S1 + M1SD4 P71 + BN71B4 N56C 143...146
4.0 7245 2.2 429.1:1 2700 F 514_429.1 S1 + M1SD4 P71 + BN71B4 N56C 154...157
4.0 7304 3.6 432.6:1 4500 F 604_432.6 S1 + M1SD4 P71 + BN71B4 N56C 165...168
33
0.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
3.5 8271 3.1 489.8:1 4500 F 604_489.8 S1 + M1SD4 P71 + BN71B4 N56C 165...168
3.2 8957 1.7 530.5:1 2700 F 514_530.5 S1 + M1SD4 P71 + BN71B4 N56C 154...157
3.2 8960 2.8 530.7:1 4500 F 604_530.7 S1 + M1SD4 P71 + BN71B4 N56C 165...168
3.1 9283 1.1 549.8:1 1910 F 414_549.8 S1 + M1SD4 P71 + BN71B4 N56C 143...146
2.9 10246 4.3 606.8:1 7870 F 704_606.8 S1 + M1SD4 P71 + BN71B4 N56C 176...179
2.7 10324 2.5 611.4:1 4500 F 604_611.4 S1 + M1SD4 P71 + BN71B4 N56C 165...168
2.6 11184 2.3 662.4:1 4500 F 604_662.4 S1 + M1SD4 P71 + BN71B4 N56C 165...168
2.6 11100 3.9 657.4:1 7870 F 704_657.4 S1 + M1SD4 P71 + BN71B4 N56C 176...179
2.5 11419 1.4 676.3:1 2700 F 514_676.3 S1 + M1SD4 P71 + BN71B4 N56C 154...157
2.1 13954 1.1 826.4:1 2700 F 514_826.4 S1 + M1SD4 P71 + BN71B4 N56C 154...157
2.1 13882 3.2 822.2:1 7870 F 704_822.2 S1 + M1SD4 P71 + BN71B4 N56C 176...179
1.9 14950 1.1 885.5:1 2700 F 514_885.5 S1 + M1SD4 P71 + BN71B4 N56C 154...157
1.9 14944 1.7 885.1:1 4500 F 604_885.1 S1 + M1SD4 P71 + BN71B4 N56C 165...168
1.9 15186 3.0 899.4:1 7870 F 704_899.4 S1 + M1SD4 P71 + BN71B4 N56C 176...179
1.7 16189 1.6 958.9:1 4500 F 604_958.9 S1 + M1SD4 P71 + BN71B4 N56C 165...168
1.7 16451 2.7 974.4:1 7870 F 704_974.4 S1 + M1SD4 P71 + BN71B4 N56C 176...179
1.6 17789 1.5 1054:1 4500 F 604_1054 S1 + M1SD4 P71 + BN71B4 N56C 165...168
1.6 18419 2.5 1091:1 7870 F 704_1091 S1 + M1SD4 P71 + BN71B4 N56C 176...179
1.6 17864 3.9 1058:1 10100 F 804_1058 S1 + M1SD4 P71 + BN71B4 N56C 184...187
1.5 19271 1.4 1141:1 4500 F 604_1141 S1 + M1SD4 P71 + BN71B4 N56C 165...168
1.5 19954 2.2 1182:1 7870 F 704_1182 S1 + M1SD4 P71 + BN71B4 N56C 176...179
1.5 19353 3.7 1146:1 10100 F 804_1146 S1 + M1SD4 P71 + BN71B4 N56C 184...187
1.4 21567 3.3 1277:1 10100 F 804_1277 S1 + M1SD4 P71 + BN71B4 N56C 184...187
1.2 23364 3.1 1384:1 10100 F 804_1384 S1 + M1SD4 P71 + BN71B4 N56C 184...187
1.2 23089 2.0 1368:1 7870 F 704_1368 S1 + M1SD4 P71 + BN71B4 N56C 176...179
1.1 26755 1.6 1585:1 7870 F 704_1585 S1 + M1SD4 P71 + BN71B4 N56C 176...179
1.1 26637 2.7 1578:1 10100 F 804_1578 S1 + M1SD4 P71 + BN71B4 N56C 184...187
1.1 25013 1.7 1481:1 7870 F 704_1481 S1 + M1SD4 P71 + BN71B4 N56C 176...179
0.99 28984 1.5 1717:1 7870 F 704_1717 S1 + M1SD4 P71 + BN71B4 N56C 176...179
0.99 28856 2.5 1709:1 10100 F 804_1709 S1 + M1SD4 P71 + BN71B4 N56C 184...187
0.93 30965 2.3 1834:1 10100 F 804_1834 S1 + M1SD4 P71 + BN71B4 N56C 184...187
0.86 33545 2.1 1987:1 10100 F 804_1987 S1 + M1SD4 P71 + BN71B4 N56C 184...187
0.84 34093 1.4 2019:1 7870 F 704_2019 S1 + M1SD4 P71 + BN71B4 N56C 176...179
0.78 36934 1.2 2188:1 7870 F 704_2188 S1 + M1SD4 P71 + BN71B4 N56C 176...179
34
0.75 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
230 195 3.4 7.4:1 410 F 102_7.4 S1 + M1LA4 P80 + BN80A4 N56C 99...102
200 226 3.2 8.6:1 420 F 102_8.6 S1 + M1LA4 P80 + BN80A4 N56C 99...102
175 257 3.0 9.8:1 440 F 102_9.8 S1 + M1LA4 P80 + BN80A4 N56C 99...102
149 303 2.8 11.5:1 470 F 102_11.5 S1 + M1LA4 P80 + BN80A4 N56C 99...102
131 342 2.7 13.0:1 480 F 102_13.0 S1 + M1LA4 P80 + BN80A4 N56C 99...102
116 385 2.7 14.6:1 500 F 102_14.6 S1 + M1LA4 P80 + BN80A4 N56C 99...102
100 446 2.6 17.0:1 520 F 102_17.0 S1 + M1LA4 P80 + BN80A4 N56C 99...102
95 472 4.0 18.1:1 630 F 202_18.1 S1 + M1LA4 P80 + BN80A4 110...113
88 508 2.3 19.3:1 540 F 102_19.3 S1 + M1LA4 P80 + BN80A4 N56C 99...102
84 530 3.8 20.2:1 650 F 202_20.2 S1 + M1LA4 P80 + BN80A4 N56C 110...113
74 600 2.1 22.8:1 560 F 102_22.8 S1 + M1LA4 P80 + BN80A4 N56C 99...102
74 608 3.4 23.1:1 680 F 202_23.1 S1 + M1LA4 P80 + BN80A4 N56C 110...113
67 677 1.8 25.8:1 580 F 102_25.8 S1 + M1LA4 P80 + BN80A4 N56C 99...102
66 681 3.2 25.9:1 700 F 202_25.9 S1 + M1LA4 P80 + BN80A4 N56C 110...113
58 779 1.6 29.6:1 600 F 102_29.6 S1 + M1LA4 P80 + BN80A4 N56C 99...102
56 799 2.8 30.4:1 730 F 202_30.4 S1 + M1LA4 P80 + BN80A4 N56C 110...113
53 846 4.1 32.2:1 1060 F 252_32.2 S1 + M1LA4 P80 + BN80A4 N56C 121...124
52 867 1.5 33.0:1 620 F 102_33.0 S1 + M1LA4 P80 + BN80A4 N56C 99...102
52 870 2.6 33.1:1 750 F 202_33.1 S1 + M1LA4 P80 + BN80A4 N56C 110...113
48 929 1.3 35.3:1 630 F 102_35.3 S1 + M1LA4 P80 + BN80A4 N56C 99...102
47 957 3.7 36.4:1 1100 F 252_36.4 S1 + M1LA4 P80 + BN80A4 N56C 121...124
45 996 2.2 37.9:1 780 F 202_37.9 S1 + M1LA4 P80 + BN80A4 N56C 110...113
43 1042 1.2 39.6:1 630 F 102_39.6 S1 + M1LA4 P80 + BN80A4 N56C 99...102
42 1070 3.0 40.7:1 1130 F 252_40.7 S1 + M1LA4 P80 + BN80A4 N56C 121...124
41 1100 2.1 41.8:1 800 F 202_41.8 S1 + M1LA4 P80 + BN80A4 N56C 110...113
38 1178 1.8 44.8:1 810 F 202_44.8 S1 + M1LA4 P80 + BN80A4 N56C 110...113
38 1168 2.9 44.4:1 1160 F 252_44.4 S1 + M1LA4 P80 + BN80A4 N56C 121...124
38 1164 3.0 45.6:1 1150 F 253_45.6 P80 + BN80A4 N56C 121...124
36 1215 4.3 47.5:1 1460 F 313_47.5 P80 + BN80A4 N56C 132...135
34 1333 1.7 50.7:1 840 F 202_50.7 S1 + M1LA4 P80 + BN80A4 N56C 110...113
34 1307 2.7 50.8:1 1180 F 253_50.8 S1 + M1LA4 P80 + BN80A4 N56C 121...124
33 1331 4.0 52.1:1 1460 F 313_52.1 P80 + BN80A4 N56C 132...135
30 1491 1.5 56.7:1 860 F 202_56.7 S1 + M1LA4 P80 + BN80A4 N56C 110...113
29.4 1501 2.3 58.3:1 1220 F 253_58.3 S1 + M1LA4 P80 + BN80A4 N56C 121...124
27.6 1627 1.3 61.9:1 870 F 202_61.9 S1 + M1LA4 P80 + BN80A4 N56C 110...113
27.4 1603 3.3 62.8:1 1460 F 313_62.8 P80 + BN80A4 N56C 132...135
26.1 1681 2.1 65.3:1 1250 F 253_65.3 S1 + M1LA4 P80 + BN80A4 N56C 121...124
35
0.75 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
24.8 1817 1.2 69.1:1 890 F 202_69.1 S1 + M1LA4 P80 + BN80A4 N56C 110...113
24.8 1777 3.0 69.1:1 1460 F 313_69.1 S1 + M1LA4 P80 + BN80A4 N56C 132...135
22.3 2019 1.1 76.8:1 900 F 202_76.8 S1 + M1LA4 P80 + BN80A4 N56C 110...113
22.3 1971 1.8 76.6:1 1290 F 253_76.6 S1 + M1LA4 P80 + BN80A4 N56C 121...124
21.7 2029 2.6 78.9:1 1460 F 313_78.9 S1 + M1LA4 P80 + BN80A4 N56C 132...135
20.4 2146 1.7 83.4:1 1310 F 253_83.4 S1 + M1LA4 P80 + BN80A4 N56C 121...124
19.6 2248 2.3 87.4:1 1460 F 313_87.4 S1 + M1LA4 P80 + BN80A4 N56C 132...135
18.0 2457 1.5 95.5:1 1340 F 253_95.5 S1 + M1LA4 P80 + BN80A4 N56C 121...124
16.7 2622 2.1 101.9:1 1460 F 313_101.9 S1 + M1LA4 P80 + BN80A4 N56C 132...135
16.2 2713 1.3 105.4:1 1360 F 253_105.4 S1 + M1LA4 P80 + BN80A4 N56C 121...124
16.1 2728 3.5 106.0:1 1910 F 413_106.0 S1 + M1LA4 P80 + BN80A4 N56C 143...146
15.2 2895 1.8 112.5:1 1460 F 313_112.5 S1 + M1LA4 P80 + BN80A4 N56C 132...135
15.1 2907 1.2 113.0:1 1380 F 253_113.0 S1 + M1LA4 P80 + BN80A4 N56C 121...124
13.3 3303 1.6 128.4:1 1460 F 313_128.4 S1 + M1LA4 P80 + BN80A4 N56C 132...135
12.8 3458 2.8 134.4:1 1910 F 413_134.4 S1 + M1LA4 P80 + BN80A4 N56C 143...146
12.1 3621 1.5 140.7:1 1460 F 313_140.7 S1 + M1LA4 P80 + BN80A4 N56C 132...135
11.4 3880 1.3 150.8:1 1460 F 313_150.8 S1 + M1LA4 P80 + BN80A4 N56C 132...135
10.3 4291 1.2 166.8:1 1460 F 313_166.8 S1 + M1LA4 P80 + BN80A4 N56C 132...135
10.3 4262 3.8 165.6:1 2700 F 513_165.6 S1 + M1LA4 P80 + BN80A4 N56C 154...157
10.2 4341 2.2 168.7:1 1910 F 413_168.7 S1 + M1LA4 P80 + BN80A4 N56C 143...146
9.4 4651 2.1 180.7:1 1910 F 413_180.7 S1 + M1LA4 P80 + BN80A4 N56C 143...146
9.2 4771 1.1 185.4:1 1460 F 313_185.4 S1 + M1LA4 P80 + BN80A4 N56C 132...135
8.6 5118 1.9 198.9:1 1910 F 413_198.9 S1 + M1LA4 P80 + BN80A4 N56C 143...146
8.4 5208 3.0 202.4:1 2700 F 513_202.4 S1 + M1LA4 P80 + BN80A4 N56C 154...157
7.9 5580 2.8 216.9:1 2700 F 513_216.9 S1 + M1LA4 P80 + BN80A4 N56C 154...157
7.8 5664 1.7 220.1:1 1910 F 413_220.1 S1 + M1LA4 P80 + BN80A4 N56C 143...146
7.2 6172 2.6 239.8:1 2700 F 513_239.8 S1 + M1LA4 P80 + BN80A4 N56C 154...157
7.1 6179 1.6 240.1:1 1910 F 413_240.1 S1 + M1LA4 P80 + BN80A4 N56C 143...146
6.6 6744 2.3 262.1:1 2700 F 513_262.1 S1 + M1LA4 P80 + BN80A4 N56C 154...157
6.4 6869 1.5 266.9:1 1910 F 413_266.9 S1 + M1LA4 P80 + BN80A4 N56C 143...146
5.9 7358 2.2 285.9:1 2700 F 513_285.9 S1 + M1LA4 P80 + BN80A4 N56C 154...157
5.8 7632 1.2 296.6:1 1910 F 413_296.6 S1 + M1LA4 P80 + BN80A4 N56C 143...146
5.5 7941 3.3 315.4:1 4500 F 604_315.4 S1 + M1LA4 P80 + BN80A4 N56C 165...168
5.3 8164 1.9 317.3:1 2700 F 513_317.3 S1 + M1LA4 P80 + BN80A4 N56C 154...157
5.0 8872 1.1 344.8:1 1910 F 413_344.8 S1 + M1LA4 P80 + BN80A4 N56C 143...146
5.0 8603 2.9 341.7:1 4500 F 604_341.7 S1 + M1LA4 P80 + BN80A4 N56C 165...168
4.8 9071 1.7 352.5:1 2700 F 513_352.5 S1 + M1LA4 P80 + BN80A4 N56C 154...157
36
0.75 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
4.3 10055 2.6 399.3:1 4500 F 604_399.3 S1 + M1LA4 P80 + BN80A4 N56C 165...168
4.0 10804 1.5 429.1:1 2700 F 514_429.1 S1 + M1LA4 P80 + BN80A4 N56C 154...157
4.0 10892 2.3 432.6:1 4500 F 604_432.6 S1 + M1LA4 P80 + BN80A4 N56C 165...168
3.6 11863 3.8 471.2:1 7870 F 704_471.2 S1 + M1LA4 P80 + BN80A4 N56C 176...179
3.5 12333 2.1 489.8:1 4500 F 604_489.8 S1 + M1LA4 P80 + BN80A4 N56C 165...168
3.3 12851 3.4 510.4:1 7870 F 704_510.4 S1 + M1LA4 P80 + BN80A4 N56C 176...179
3.2 13357 1.2 530.5:1 2700 F 514_530.5 S1 + M1LA4 P80 + BN80A4 N56C 154...157
3.2 13361 1.9 530.7:1 4500 F 604_530.7 S1 + M1LA4 P80 + BN80A4 N56C 165...168
2.9 15395 1.7 611.4:1 4500 F 604_611.4 S1 + M1LA4 P80 + BN80A4 N56C 165...168
2.9 15279 2.9 606.8:1 7870 F 704_606.8 S1 + M1LA4 P80 + BN80A4 N56C 176...179
2.6 16678 1.6 662.4:1 4500 F 604_662.4 S1 + M1LA4 P80 + BN80A4 N56C 165...168
2.6 16552 2.7 657.4:1 7870 F 704_657.4 S1 + M1LA4 P80 + BN80A4 N56C 176...179
2.4 17999 3.9 714.9:1 10100 F 804_714.9 S1 + M1LA4 P80 + BN80A4 N56C 184...187
2.2 19499 3.7 774.4:1 10100 F 804_774.4 S1 + M1LA4 P80 + BN80A4 N56C 184...187
2.1 20702 2.2 822.2:1 7870 F 704_822.2 S1 + M1LA4 P80 + BN80A4 N56C 176...179
2.0 22285 1.1 885.1:1 4500 F 604_885.1 S1 + M1LA4 P80 + BN80A4 N56C 165...168
1.9 22645 1.9 899.4:1 7870 F 704_899.4 S1 + M1LA4 P80 + BN80A4 N56C 176...179
1.9 22591 3.2 897.3:1 10100 F 804_897.3 S1 + M1LA4 P80 + BN80A4 N56C 184...187
1.7 24142 1.1 958.9:1 4500 F 604_958.9 S1 + M1LA4 P80 + BN80A4 N56C 165...168
1.7 24532 1.8 974.4:1 7870 F 704_974.4 S1 + M1LA4 P80 + BN80A4 N56C 176...179
1.6 27467 1.6 1091:1 7870 F 704_1091 S1 + M1LA4 P80 + BN80A4 N56C 176...179
1.6 26640 2.7 1058:1 10100 F 804_1058 S1 + M1LA4 P80 + BN80A4 N56C 184...187
1.5 29756 1.5 1182:1 7870 F 704_1182 S1 + M1LA4 P80 + BN80A4 N56C 176...179
1.5 28860 2.4 1146:1 10100 F 804_1146 S1 + M1LA4 P80 + BN80A4 N56C 184...187
1.4 32161 2.2 1277:1 10100 F 804_1277 S1 + M1LA4 P80 + BN80A4 N56C 184...187
1.2 37301 1.2 1481:1 7870 F 704_1481 S1 + M1LA4 P80 + BN80A4 N56C 176...179
1.2 34431 1.3 1368:1 7870 F 704_1368 S1 + M1LA4 P80 + BN80A4 N56C 176...179
1.2 34841 2.1 1384:1 10100 F 804_1384 S1 + M1LA4 P80 + BN80A4 N56C 184...187
1.1 39897 1.1 1585:1 7870 F 704_1585 S1 + M1LA4 P80 + BN80A4 N56C 176...179
1.1 39721 1.8 1578:1 10100 F 804_1578 S1 + M1LA4 P80 + BN80A4 N56C 184...187
1.0 43031 1.7 1709:1 10100 F 804_1709 S1 + M1LA4 P80 + BN80A4 N56C 184...187
0.93 46176 1.6 1834:1 10100 F 804_1834 S1 + M1LA4 P80 + BN80A4 N56C 184...187
0.86 50024 1.5 1987:1 10100 F 804_1987 S1 + M1LA4 P80 + BN80A4 N56C 184...187
37
1 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
232 258 2.6 7.4:1 400 F 102_7.4 S2 + M2SA4 P80 + BN80B4 N56C 99...102
200 299 2.5 8.6:1 420 F 102_8.6 S2 + M2SA4 P80 + BN80B4 N56C 99...102
176 340 2.3 9.8:1 430 F 102_9.8 S2 + M2SA4 P80 + BN80B4 N56C 99...102
154 391 4.0 11.2:1 540 F 202_11.2 S2 + M2SA4 P80 + BN80B4 N56C 110...113
149 402 2.1 11.5:1 450 F 102_11.5 S2 + M2SA4 P80 + BN80B4 N56C 99...102
131 454 2.0 13.0:1 470 F 102_13.0 S2 + M2SA4 P80 + BN80B4 N56C 99...102
118 510 2.1 14.6:1 480 F 102_14.6 S2 + M2SA4 P80 + BN80B4 N56C 99...102
117 516 3.5 14.8:1 580 F 202_14.8 S2 + M2SA4 P80 + BN80B4 110...113
101 592 2.0 17.0:1 500 F 102_17.0 S2 + M2SA4 P80 + BN80B4 N56C 99...102
95 630 3.0 18.1:1 620 F 202_18.1 S2 + M2SA4 P80 + BN80B4 110...113
88 673 1.7 19.3:1 520 F 102_19.3 S2 + M2SA4 P80 + BN80B4 N56C 99...102
85 702 2.8 20.2:1 640 F 202_20.2 S2 + M2SA4 P80 + BN80B4 N56C 110...113
75 795 1.6 22.8:1 540 F 102_22.8 S2 + M2SA4 P80 + BN80B4 N56C 99...102
74 807 2.6 23.1:1 660 F 202_23.1 S2 + M2SA4 P80 + BN80B4 N56C 110...113
72 828 4.3 23.8:1 950 F 252_23.8 S2 + M2SA4 P80 + BN80B4 N56C 121...124
66 898 1.4 25.8:1 560 F 102_25.8 S2 + M2SA4 P80 + BN80B4 N56C 99...102
66 903 2.3 25.9:1 680 F 202_25.9 S2 + M2SA4 P80 + BN80B4 N56C 110...113
63 948 3.7 27.2:1 980 F 252_27.2 S2 + M2SA4 P80 + BN80B4 N56C 121...124
58 1033 1.2 29.6:1 570 F 102_29.6 S2 + M2SA4 P80 + BN80B4 N56C 99...102
58 1047 3.3 30.0:1 1000 F 252_30.0 S2 + M2SA4 P80 + BN80B4 N56C 121...124
57 1059 2.1 30.4:1 710 F 202_30.4 S2 + M2SA4 P80 + BN80B4 N56C 110...113
54 1121 3.2 32.2:1 1020 F 252_32.2 S2 + M2SA4 P80 + BN80B4 N56C 121...124
52 1153 2.0 33.1:1 720 F 202_33.1 S2 + M2SA4 P80 + BN80B4 N56C 110...113
47 1269 2.8 36.4:1 1050 F 252_36.4 S2 + M2SA4 P80 + BN80B4 N56C 121...124
45 1320 1.7 37.9:1 740 F 202_37.9 S2 + M2SA4 P80 + BN80B4 N56C 110...113
45 1313 4.1 37.7:1 1460 F 312_37.7 S2 + M2SA4 P80 + BN80B4 N56C 132...135
43 1406 3.8 40.4:1 1460 F 312_40.4 S2 + M2SA4 P80 + BN80B4 N56C 132...135
42 1419 2.3 40.7:1 1080 F 252_40.7 S2 + M2SA4 P80 + BN80B4 N56C 121...124
41 1458 1.5 41.8:1 760 F 202_41.8 S2 + M2SA4 P80 + BN80B4 N56C 110...113
39 1548 2.2 44.4:1 1100 F 252_44.4 S2 + M2SA4 P80 + BN80B4 N56C 121...124
38 1562 1.4 44.8:1 770 F 202_44.8 S2 + M2SA4 P80 + BN80B4 N56C 110...113
38 1554 2.2 45.6:1 1090 F 253_45.6 S2 + M2SA4 P80 + BN80B4 N56C 121...124
38 1555 3.5 44.6:1 1460 F 312_44.6 S2 + M2SA4 P80 + BN80B4 N56C 132...135
36 1622 3.2 47.5:1 1460 F 313_47.5 S2 + M2SA4 P80 + BN80B4 N56C 132...135
34 1767 1.2 50.7:1 790 F 202_50.7 S2 + M2SA4 P80 + BN80B4 N56C 110...113
34 1732 2.1 50.8:1 1120 F 253_50.8 S2 + M2SA4 P80 + BN80B4 N56C 121...124
33 1777 3.0 52.1:1 1460 F 313_52.1 S2 + M2SA4 P80 + BN80B4 N56C 132...135
38
1 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
30 1976 1.1 56.7:1 810 F 202_56.7 S2 + M2SA4 P80 + BN80B4 N56C 110...113
29.5 1990 1.7 58.3:1 1140 F 253_58.3 S2 + M2SA4 P80 + BN80B4 N56C 121...124
27.4 2141 2.5 62.8:1 1460 F 313_62.8 S2 + M2SA4 P80 + BN80B4 N56C 132...135
26.3 2228 1.6 65.3:1 1160 F 253_65.3 S2 + M2SA4 P80 + BN80B4 N56C 121...124
25.9 2268 4.3 66.5:1 1910 F 413_66.5 S2 + M2SA4 P80 + BN80B4 N56C 143...146
24.9 2356 2.2 69.1:1 1460 F 313_69.1 S2 + M2SA4 P80 + BN80B4 N56C 132...135
22.5 2612 1.4 76.6:1 1190 F 253_76.6 S2 + M2SA4 P80 + BN80B4 N56C 121...124
21.9 2690 2.0 78.9:1 1460 F 313_78.9 S2 + M2SA4 P80 + BN80B4 N56C 132...135
20.6 2844 1.2 83.4:1 1200 F 253_83.4 S2 + M2SA4 P80 + BN80B4 N56C 121...124
20.3 2895 3.3 84.9:1 1910 F 413_84.9 S2 + M2SA4 P80 + BN80B4 N56C 143...146
19.7 2980 1.7 87.4:1 1460 F 313_87.4 S2 + M2SA4 P80 + BN80B4 N56C 132...135
16.8 3475 1.5 101.9:1 1460 F 313_101.9 S2 + M2SA4 P80 + BN80B4 N56C 132...135
16.2 3616 2.7 106.0:1 1910 F 413_106.0 S2 + M2SA4 P80 + BN80B4 N56C 143...146
15.2 3838 1.4 112.5:1 1460 F 313_112.5 S2 + M2SA4 P80 + BN80B4 N56C 132...135
13.4 4379 1.2 128.4:1 1460 F 313_128.4 S2 + M2SA4 P80 + BN80B4 N56C 132...135
13.3 4431 3.6 129.9:1 2700 F 513_129.9 S2 + M2SA4 P80 + BN80B4 N56C 154...157
12.8 4584 2.1 134.4:1 1910 F 413_134.4 S2 + M2SA4 P80 + BN80B4 N56C 143...146
10.6 5553 4.6 162.9:1 4500 F 603_162.9 S2 + M2SA4 P80 + BN80B4 N56C 165...168
10.4 5649 2.8 165.6:1 2700 F 513_165.6 S2 + M2SA4 P80 + BN80B4 N56C 154...157
10.2 5754 1.7 168.7:1 1910 F 413_168.7 S2 + M2SA4 P80 + BN80B4 N56C 143...146
9.5 6165 1.6 180.7:1 1910 F 413_180.7 S2 + M2SA4 P80 + BN80B4 N56C 143...146
9.2 6338 4.1 185.9:1 4500 F 603_185.9 S2 + M2SA4 P80 + BN80B4 N56C 165...168
8.6 6785 1.5 198.9:1 1910 F 413_198.9 S2 + M2SA4 P80 + BN80B4 N56C 143...146
8.6 6866 3.7 201.4:1 4500 F 603_201.4 S2 + M2SA4 P80 + BN80B4 N56C 165...168
8.5 6903 2.3 202.4:1 2700 F 513_202.4 S2 + M2SA4 P80 + BN80B4 N56C 154...157
8.0 7397 2.1 216.9:1 2700 F 513_216.9 S2 + M2SA4 P80 + BN80B4 N56C 154...157
7.9 7508 1.2 220.1:1 1910 F 413_220.1 S2 + M2SA4 P80 + BN80B4 N56C 143...146
7.9 7420 3.5 217.6:1 4500 F 603_217.6 S2 + M2SA4 P80 + BN80B4 N56C 165...168
7.3 8038 3.2 235.8:1 4500 F 603_235.8 S2 + M2SA4 P80 + BN80B4 N56C 165...168
7.1 8191 1.2 240.1:1 1910 F 413_240.1 S2 + M2SA4 P80 + BN80B4 N56C 143...146
7.1 8181 2.0 239.8:1 2700 F 513_239.8 S2 + M2SA4 P80 + BN80B4 N56C 154...157
6.6 8832 3.0 259.1:1 4500 F 603_259.1 S2 + M2SA4 P80 + BN80B4 N56C 165...168
6.5 8940 1.7 262.1:1 2700 F 513_262.1 S2 + M2SA4 P80 + BN80B4 N56C 154...157
6.1 9568 2.7 280.7:1 4500 F 603_280.7 S2 + M2SA4 P80 + BN80B4 N56C 165...168
6.0 9753 1.6 285.9:1 2700 F 513_285.9 S2 + M2SA4 P80 + BN80B4 N56C 154...157
5.7 10158 4.3 304.3:1 7870 F 704_304.3 S2 + M2SA4 P80 + BN80B4 N56C 176...179
5.4 10822 1.5 317.3:1 2700 F 513_317.3 S2 + M2SA4 P80 + BN80B4 N56C 154...157
39
1 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
5.4 10526 2.5 315.4:1 4500 F 604_315.4 S2 + M2SA4 P80 + BN80B4 N56C 165...168
5.0 11403 2.2 341.7:1 4500 F 604_341.7 S2 + M2SA4 P80 + BN80B4 N56C 165...168
4.9 12024 1.4 352.5:1 2700 F 513_352.5 S2 + M2SA4 P80 + BN80B4 N56C 154...157
4.7 12431 3.6 372.5:1 7870 F 704_372.5 S2 + M2SA4 P80 + BN80B4 N56C 176...179
4.3 13328 2.0 399.3:1 4500 F 604_399.3 S2 + M2SA4 P80 + BN80B4 N56C 165...168
4.3 13467 3.3 403.5:1 7870 F 704_403.5 S2 + M2SA4 P80 + BN80B4 N56C 176...179
4.1 14321 1.1 429.1:1 2700 F 514_429.1 S2 + M2SA4 P80 + BN80B4 N56C 154...157
3.9 14439 1.7 432.6:1 4500 F 604_432.6 S2 + M2SA4 P80 + BN80B4 N56C 165...168
3.7 15725 2.8 471.2:1 7870 F 704_471.2 S2 + M2SA4 P80 + BN80B4 N56C 176...179
3.6 16349 1.6 489.8:1 4500 F 604_489.8 S2 + M2SA4 P80 + BN80B4 N56C 165...168
3.6 16324 4.3 489.1:1 10100 F 804_489.1 S2 + M2SA4 P80 + BN80B4 N56C 184...187
3.3 17035 2.6 510.4:1 7870 F 704_510.4 S2 + M2SA4 P80 + BN80B4 N56C 176...179
3.2 17711 1.5 530.7:1 4500 F 604_530.7 S2 + M2SA4 P80 + BN80B4 N56C 165...168
3.1 18820 3.7 563.9:1 10100 F 804_563.9 S2 + M2SA4 P80 + BN80B4 N56C 184...187
2.8 20407 1.2 611.4:1 4500 F 604_611.4 S2 + M2SA4 P80 + BN80B4 N56C 165...168
2.8 20253 2.2 606.8:1 7870 F 704_606.8 S2 + M2SA4 P80 + BN80B4 N56C 176...179
2.8 20388 3.5 610.9:1 10100 F 804_610.9 S2 + M2SA4 P80 + BN80B4 N56C 184...187
2.6 22108 1.1 662.4:1 4500 F 604_662.4 S2 + M2SA4 P80 + BN80B4 N56C 165...168
2.6 21941 2.0 657.4:1 7870 F 704_657.4 S2 + M2SA4 P80 + BN80B4 N56C 176...179
2.5 23859 3.0 714.9:1 10100 F 804_714.9 S2 + M2SA4 P80 + BN80B4 N56C 184...187
2.2 25847 2.7 774.4:1 10100 F 804_774.4 S2 + M2SA4 P80 + BN80B4 N56C 184...187
2.1 27442 1.6 822.2:1 7870 F 704_822.2 S2 + M2SA4 P80 + BN80B4 N56C 176...179
2.0 30018 1.5 899.4:1 7870 F 704_899.4 S2 + M2SA4 P80 + BN80B4 N56C 176...179
2.0 29947 2.3 897.3:1 10100 F 804_897.3 S2 + M2SA4 P80 + BN80B4 N56C 184...187
1.8 30378 4.1 910.2:1 12400 F 904_910.2 S2 + M2SA4 P80 + BN80B4 N56C 192...195
1.7 32520 1.4 974.4:1 7870 F 704_974.4 S2 + M2SA4 P80 + BN80B4 N56C 176...179
1.6 36409 1.2 1091:1 7870 F 704_1091 S2 + M2SA4 P80 + BN80B4 N56C 176...179
1.6 35313 2.0 1058:1 10100 F 804_1058 S2 + M2SA4 P80 + BN80B4 N56C 184...187
1.6 37122 3.3 1112:1 12400 F 904_1112 S2 + M2SA4 P80 + BN80B4 N56C 192...195
1.5 39444 1.1 1182:1 7870 F 704_1182 S2 + M2SA4 P80 + BN80B4 N56C 176...179
1.5 38256 1.9 1146:1 10100 F 804_1146 S2 + M2SA4 P80 + BN80B4 N56C 184...187
1.5 40216 3.1 1205:1 12400 F 904_1205 S2 + M2SA4 P80 + BN80B4 N56C 192...195
1.4 42632 1.6 1277:1 10100 F 804_1277 S2 + M2SA4 P80 + BN80B4 N56C 184...187
1.4 43991 2.8 1318:1 12400 F 904_1318 S2 + M2SA4 P80 + BN80B4 N56C 192...195
1.2 47657 2.6 1428:1 12400 F 904_1428 S2 + M2SA4 P80 + BN80B4 N56C 192...195
1.2 46184 1.5 1384:1 10100 F 804_1384 S2 + M2SA4 P80 + BN80B4 N56C 184...187
1.1 52654 1.4 1578:1 10100 F 804_1578 S2 + M2SA4 P80 + BN80B4 N56C 184...187
40
1.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
268 335 3.4 6.4:1 450 F 202_6.4 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
232 387 1.7 7.4:1 390 F 102_7.4 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
220 409 3.1 7.8:1 470 F 202_7.8 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
200 449 1.6 8.6:1 400 F 102_8.6 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
197 456 3.0 8.7:1 490 F 202_8.7 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
176 511 1.6 9.8:1 410 F 102_9.8 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
154 587 2.7 11.2:1 520 F 202_11.2 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
149 603 1.4 11.5:1 430 F 102_11.5 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
131 681 1.3 13.0:1 450 F 102_13.0 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
118 766 1.3 14.6:1 460 F 102_14.6 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
117 773 2.3 14.8:1 560 F 202_14.8 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
103 869 4.1 16.6:1 830 F 252_16.6 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
101 887 1.3 17.0:1 470 F 102_17.0 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
95 945 2.1 18.1:1 590 F 202_18.1 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
92 973 3.6 18.6:1 850 F 252_18.6 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
88 1010 1.2 19.3:1 490 F 102_19.3 S2 + M2SB4 P90 + BN90S4 N140TC 99...102
85 1053 1.9 20.2:1 600 F 202_20.2 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
79 1140 3.1 21.8:1 880 F 252_21.8 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
74 1210 1.7 23.1:1 620 F 202_23.1 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
72 1242 2.9 23.8:1 900 F 252_23.8 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
66 1355 1.6 25.9:1 640 F 202_25.9 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
63 1422 2.5 27.2:1 920 F 252_27.2 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
1 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
1.1 52445 2.3 1571:1 12400 F 904_1571 S2 + M2SA4 P80 + BN80B4 N56C 192...195
1.0 57041 1.2 1709:1 10100 F 804_1709 S2 + M2SA4 P80 + BN80B4 N56C 184...187
1.0 56816 2.2 1702:1 12400 F 904_1702 S2 + M2SA4 P80 + BN80B4 N56C 192...195
0.93 61210 1.1 1834:1 10100 F 804_1834 S2 + M2SA4 P80 + BN80B4 N56C 184...187
0.88 64657 2.0 1937:1 12400 F 904_1937 S2 + M2SA4 P80 + BN80B4 N56C 192...195
0.86 66311 1.1 1987:1 10100 F 804_1987 S2 + M2SA4 P80 + BN80B4 N56C 184...187
0.82 70045 1.7 2099:1 12400 F 904_2099 S2 + M2SA4 P80 + BN80B4 N56C 192...195
41
1.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
63 1425 3.7 27.3:1 1460 F 312_27.3 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
58 1570 2.3 30.0:1 940 F 252_30.0 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
57 1588 1.4 30.4:1 660 F 202_30.4 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
57 1574 3.4 30.1:1 1460 F 312_30.1 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
54 1682 2.1 32.2:1 950 F 252_32.2 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
52 1729 1.3 33.1:1 670 F 202_33.1 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
50 1796 2.9 34.4:1 1460 F 312_34.4 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
47 1903 1.8 36.4:1 970 F 252_36.4 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
45 1980 1.1 37.9:1 690 F 202_37.9 S2 + M2SB4 P90 + BN90S4 N140TC 110...113
45 1969 2.7 37.7:1 1460 F 312_37.7 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
43 2110 2.5 40.4:1 1460 F 312_40.4 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
42 2129 1.6 40.7:1 990 F 252_40.7 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
39 2322 1.4 44.4:1 1000 F 252_44.4 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
38 2331 1.6 45.6:1 990 F 253_45.6 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
38 2333 2.3 44.6:1 1460 F 312_44.6 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
36 2505 3.7 47.9:1 1910 F 412_47.9 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
36 2433 2.1 47.5:1 1460 F 313_47.5 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
34 2598 1.3 50.8:1 1000 F 253_50.8 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
33 2665 1.9 52.1:1 1460 F 313_52.1 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
33 2635 3.6 51.5:1 1910 F 413_51.5 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
29.5 2985 1.2 58.3:1 1010 F 253_58.3 S2 + M2SB4 P90 + BN90S4 N140TC 121...124
28.5 3082 3.1 60.2:1 1910 F 413_60.2 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
27.4 3211 1.7 62.8:1 1460 F 313_62.8 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
25.9 3402 2.9 66.5:1 1910 F 413_66.5 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
24.9 3534 1.4 69.1:1 1460 F 313_69.1 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
21.9 4035 1.3 78.9:1 1460 F 313_78.9 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
20.6 4259 3.7 83.2:1 2700 F 513_83.2 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
20.3 4343 2.3 84.9:1 1910 F 413_84.9 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
19.7 4470 1.2 87.4:1 1460 F 313_87.4 S2 + M2SB4 P90 + BN90S4 N140TC 132...135
16.3 5376 3.0 105.1:1 2700 F 513_105.1 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
16.2 5424 1.8 106.0:1 1910 F 413_106.0 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
13.3 6647 2.4 129.9:1 2700 F 513_129.9 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
12.8 6876 1.4 134.4:1 1910 F 413_134.4 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
10.4 8474 1.9 165.6:1 2700 F 513_165.6 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
10.2 8631 1.1 168.7:1 1910 F 413_168.7 S2 + M2SB4 P90 + BN90S4 N140TC 143...146
8.5 10355 1.6 202.4:1 2700 F 513_202.4 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
8.0 11095 1.4 216.9:1 2700 F 513_216.9 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
42
1.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
8.0 10840 4.1 216.5:1 7870 F 704_216.5 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
7.4 11743 3.7 234.6:1 7870 F 704_234.6 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
7.1 12271 1.3 239.8:1 2700 F 513_239.8 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
6.5 13410 1.2 262.1:1 2700 F 513_262.1 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
6.1 14360 1.8 280.7:1 4500 F 603_280.7 S2 + M2SB4 P90 + BN90S4 N140TC 165...168
6.1 14065 3.1 280.9:1 7870 F 704_280.9 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
6.0 14630 1.1 285.9:1 2700 F 513_285.9 S2 + M2SB4 P90 + BN90S4 N140TC 154...157
5.7 15237 2.9 304.3:1 7870 F 704_304.3 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
5.4 15789 1.6 315.4:1 4500 F 604_315.4 S2 + M2SB4 P90 + BN90S4 N140TC 165...168
5.0 17105 1.4 341.7:1 4500 F 604_341.7 S2 + M2SB4 P90 + BN90S4 N140TC 165...168
4.9 17706 4.0 353.7:1 10100 F 804_353.7 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
4.7 18647 2.4 372.5:1 7870 F 704_372.5 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
4.5 19182 3.7 383.2:1 10100 F 804_383.2 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
4.3 19992 1.3 399.3:1 4500 F 604_399.3 S2 + M2SB4 P90 + BN90S4 N140TC 165...168
4.3 20201 2.2 403.5:1 7870 F 704_403.5 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
3.9 21658 1.2 432.6:1 4500 F 604_432.6 S2 + M2SB4 P90 + BN90S4 N140TC 165...168
3.8 22603 3.1 451.5:1 10100 F 804_451.5 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
3.7 23587 1.9 471.2:1 7870 F 704_471.2 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
3.6 24523 1.1 489.8:1 4500 F 604_489.8 S2 + M2SB4 P90 + BN90S4 N140TC 165...168
3.6 24487 2.9 489.1:1 10100 F 804_489.1 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
3.3 25553 1.7 510.4:1 7870 F 704_510.4 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
3.1 28229 2.5 563.9:1 10100 F 804_563.9 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
2.9 28911 4.2 577.5:1 12400 F 904_577.5 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
2.8 30380 1.4 606.8:1 7870 F 704_606.8 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
2.8 30582 2.3 610.9:1 10100 F 804_610.9 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
2.7 31320 4.0 625.6:1 12400 F 904_625.6 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
2.6 32912 1.3 657.4:1 7870 F 704_657.4 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
2.5 35788 1.9 714.9:1 10100 F 804_714.9 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
2.2 38770 1.8 774.4:1 10100 F 804_774.4 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
2.2 38721 3.1 773.4:1 12400 F 904_773.4 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
2.1 41163 1.1 822.2:1 7870 F 704_822.2 S2 + M2SB4 P90 + BN90S4 N140TC 176...179
2.0 44920 1.6 897.3:1 10100 F 804_897.3 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
1.8 45566 2.8 910.2:1 12400 F 904_910.2 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
1.6 52970 1.3 1058:1 10100 F 804_1058 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
1.6 55683 2.2 1112:1 12400 F 904_1112 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
1.5 57384 1.2 1146:1 10100 F 804_1146 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
1.5 60323 2.1 1205:1 12400 F 904_1205 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
43
1.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
1.4 63947 1.1 1277:1 10100 F 804_1277 S2 + M2SB4 P90 + BN90S4 N140TC 184...187
1.4 65986 1.9 1318:1 12400 F 904_1318 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
1.2 71485 1.7 1428:1 12400 F 904_1428 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
1.1 78668 1.6 1571:1 12400 F 904_1571 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
1.0 85223 1.4 1702:1 12400 F 904_1702 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
0.88 96986 1.3 1937:1 12400 F 904_1937 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
0.82 105068 1.2 2099:1 12400 F 904_2099 S2 + M2SB4 P90 + BN90S4 N140TC 192...195
2 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
268 447 2.6 6.4:1 430 F 202_6.4 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
232 516 1.3 7.4:1 370 F 102_7.4 S3 + M3SA4 P90 + BN90LA4 N140TC 99...102
220 546 2.3 7.8:1 460 F 202_7.8 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
205 585 3.9 8.4:1 670 F 252_8.4 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
200 598 1.2 8.6:1 380 F 102_8.6 S3 + M3SA4 P90 + BN90LA4 N140TC 99...102
196 608 2.2 8.7:1 470 F 202_8.7 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
184 652 3.6 9.4:1 690 F 252_9.4 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
176 681 1.1 9.8:1 400 F 102_9.8 S3 + M3SA4 P90 + BN90LA4 N140TC 99...102
154 783 2.0 11.2:1 500 F 202_11.2 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
133 905 3.9 13.0:1 740 F 252_13.0 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
118 1008 3.6 14.5:1 760 F 252_14.5 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
116 1031 1.7 14.8:1 540 F 202_14.8 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
104 1158 3.1 16.6:1 780 F 252_16.6 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
95 1260 1.5 18.1:1 560 F 202_18.1 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
93 1297 2.7 18.6:1 800 F 252_18.6 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
93 1288 4.2 18.5:1 1370 F 312_18.5 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
85 1404 1.3 20.2:1 570 F 202_20.2 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
82 1471 3.6 21.1:1 1420 F 312_21.1 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
79 1520 2.3 21.8:1 830 F 252_21.8 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
74 1613 1.3 23.1:1 580 F 202_23.1 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
73 1630 3.3 23.4:1 1460 F 312_23.4 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
72 1656 2.1 23.8:1 840 F 252_23.8 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
44
2 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
66 1807 1.2 25.9:1 590 F 202_25.9 S3 + M3SA4 P90 + BN90LA4 N140TC 110...113
63 1896 1.8 27.2:1 860 F 252_27.2 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
63 1900 2.8 27.3:1 1460 F 312_27.3 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
57 2093 1.7 30.0:1 870 F 252_30.0 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
57 2099 2.6 30.1:1 1460 F 312_30.1 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
54 2243 1.6 32.2:1 870 F 252_32.2 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
50 2395 2.2 34.4:1 1460 F 312_34.4 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
48 2538 1.3 36.4:1 890 F 252_36.4 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
45 2625 2.0 37.7:1 1460 F 312_37.7 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
45 2661 3.7 38.2:1 1910 F 412_38.2 S3 + M3SA4 P90 + BN90LA4 N140TC 143...146
43 2838 1.2 40.7:1 890 F 252_40.7 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
43 2813 1.8 40.4:1 1460 F 312_40.4 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
39 3111 1.7 44.6:1 1460 F 312_44.6 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
38 3108 1.1 45.6:1 870 F 253_45.6 S3 + M3SA4 P90 + BN90LA4 N140TC 121...124
36 3340 2.8 47.9:1 1910 F 412_47.9 S3 + M3SA4 P90 + BN90LA4 N140TC 143...146
36 3243 1.6 47.5:1 1460 F 313_47.5 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
33 3554 1.5 52.1:1 1460 F 313_52.1 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
33 3513 2.7 51.5:1 1910 F 413_51.5 S3 + M3SA4 P90 + BN90LA4 N140TC 143...146
28.5 4110 2.3 60.2:1 1910 F 413_60.2 S3 + M3SA4 P90 + BN90LA4 N140TC 143...146
27.4 4281 1.2 62.8:1 1460 F 313_62.8 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
26.1 4492 3.6 65.8:1 2700 F 513_65.8 S3 + M3SA4 P90 + BN90LA4 N140TC 154...157
25.9 4536 2.1 66.5:1 1910 F 413_66.5 S3 + M3SA4 P90 + BN90LA4 N140TC 143...146
24.9 4712 1.1 69.1:1 1460 F 313_69.1 S3 + M3SA4 P90 + BN90LA4 N140TC 132...135
20.6 5679 2.8 83.2:1 2700 F 513_83.2 S3 + M3SA4 P90 + BN90LA4 N140TC 154...157
20.2 5790 1.7 84.9:1 1910 F 413_84.9 S3 + M3SA4 P90 + BN90LA4 N140TC 143...146
17.6 6699 3.8 98.2:1 4500 F 603_98.2 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
16.3 7169 2.2 105.1:1 2700 F 513_105.1 S3 + M3SA4 P90 + BN90LA4 N140TC 154...157
16.2 7232 1.3 106.0:1 1910 F 413_106.0 S3 + M3SA4 P90 + BN90LA4 N140TC 143...146
16.2 7257 3.6 106.4:1 4500 F 603_106.4 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
14.3 8217 3.1 120.5:1 4500 F 603_120.5 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
13.3 8863 1.8 129.9:1 2700 F 513_129.9 S3 + M3SA4 P90 + BN90LA4 N140TC 154...157
13.2 8902 2.9 130.5:1 4500 F 603_130.5 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
11.5 10257 2.5 150.4:1 4500 F 603_150.4 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
11.2 10495 4.2 153.8:1 7870 F 703_153.8 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
10.6 11112 2.3 162.9:1 4500 F 603_162.9 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
10.4 11298 1.3 165.6:1 2700 F 513_165.6 S3 + M3SA4 P90 + BN90LA4 N140TC 154...157
10.4 11370 3.9 166.7:1 7870 F 703_166.7 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
45
2 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
9.5 12344 3.6 180.9:1 7870 F 703_180.9 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
9.3 12681 2.1 185.9:1 4500 F 603_185.9 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
8.8 13372 3.3 196.0:1 7870 F 703_196.0 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
8.5 13807 1.1 202.4:1 2700 F 513_202.4 S3 + M3SA4 P90 + BN90LA4 N140TC 154...157
8.5 13738 1.8 201.4:1 4500 F 603_201.4 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
7.9 14847 1.7 217.6:1 4500 F 603_217.6 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
7.9 14453 3.1 216.5:1 7870 F 704_216.5 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
7.3 16085 1.6 235.8:1 4500 F 603_235.8 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
7.3 15658 2.8 234.6:1 7870 F 704_234.6 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
6.6 17674 1.5 259.1:1 4500 F 603_259.1 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
6.2 18283 3.9 273.9:1 10100 F 804_273.9 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
6.1 19147 1.3 280.7:1 4500 F 603_280.7 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
6.1 18753 2.3 280.9:1 7870 F 704_280.9 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
5.9 19806 3.6 296.7:1 10100 F 804_296.7 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
5.6 20315 2.2 304.3:1 7870 F 704_304.3 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
5.5 21052 1.2 315.4:1 4500 F 604_315.4 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
5.0 22807 1.1 341.7:1 4500 F 604_341.7 S3 + M3SA4 P90 + BN90LA4 N140TC 165...168
4.9 23608 2.9 353.7:1 10100 F 804_353.7 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
4.6 24863 1.8 372.5:1 7870 F 704_372.5 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
4.5 25576 2.8 383.2:1 10100 F 804_383.2 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
4.3 26935 1.6 403.5:1 7870 F 704_403.5 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
3.8 30137 2.3 451.5:1 10100 F 804_451.5 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
3.8 30535 4.0 457.5:1 12400 F 904_457.5 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
3.7 31450 1.3 471.2:1 7870 F 704_471.2 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
3.5 32649 2.2 489.1:1 10100 F 804_489.1 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
3.4 34071 1.3 510.4:1 7870 F 704_510.4 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
3.4 33080 3.8 495.6:1 12400 F 904_495.6 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
3.0 37639 1.8 563.9:1 10100 F 804_563.9 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
2.9 38548 3.2 577.5:1 12400 F 904_577.5 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
2.8 40507 1.1 606.8:1 7870 F 704_606.8 S3 + M3SA4 P90 + BN90LA4 N140TC 176...179
2.8 40776 1.7 610.9:1 10100 F 804_610.9 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
2.8 41760 2.9 625.6:1 12400 F 904_625.6 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
2.4 47717 1.5 714.9:1 10100 F 804_714.9 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
2.2 51694 1.3 774.4:1 10100 F 804_774.4 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
2.2 51628 2.5 773.4:1 12400 F 904_773.4 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
2.0 59894 1.2 897.3:1 10100 F 804_897.3 S3 + M3SA4 P90 + BN90LA4 N140TC 184...187
1.8 60755 2.1 910.2:1 12400 F 904_910.2 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
46
3 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
268 670 1.7 6.4:1 410 F 202_6.4 S3 + M3LA4 P100 + BN100LA4 N180TC 110...113
250 718 3.1 6.9:1 610 F 252_6.9 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
220 819 1.6 7.8:1 430 F 202_7.8 S3 + M3LA4 P100 + BN100LA4 N180TC 110...113
209 860 4.0 8.2:1 1060 F 312_8.2 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
205 877 2.6 8.4:1 640 F 252_8.4 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
196 913 1.6 8.7:1 440 F 202_8.7 S3 + M3LA4 P100 + BN100LA4 N180TC 110...113
190 942 3.7 9.0:1 1090 F 312_9.0 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
184 978 2.4 9.4:1 650 F 252_9.4 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
162 1111 3.1 10.6:1 670 F 252_10.6 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
154 1174 1.3 11.2:1 460 F 202_11.2 S3 + M3LA4 P100 + BN100LA4 N180TC 110...113
135 1330 4.0 12.7:1 1190 F 312_12.7 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
133 1357 2.6 13.0:1 690 F 252_13.0 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
123 1458 3.6 13.9:1 1220 F 312_13.9 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
118 1512 2.4 14.5:1 700 F 252_14.5 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
116 1547 1.2 14.8:1 490 F 202_14.8 S3 + M3LA4 P100 + BN100LA4 N180TC 110...113
104 1737 2.0 16.6:1 710 F 252_16.6 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
102 1756 3.0 16.8:1 1270 F 312_16.8 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
93 1946 1.8 18.6:1 720 F 252_18.6 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
93 1933 2.8 18.5:1 1300 F 312_18.5 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
82 2207 2.4 21.1:1 1340 F 312_21.1 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
79 2281 1.6 21.8:1 740 F 252_21.8 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
73 2444 2.2 23.4:1 1370 F 312_23.4 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
72 2483 1.4 23.8:1 740 F 252_23.8 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
2 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
1.6 74244 1.7 1112:1 12400 F 904_1112 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
1.5 80431 1.6 1205:1 12400 F 904_1205 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
1.3 87982 1.3 1318:1 12400 F 904_1318 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
1.2 95313 1.3 1428:1 12400 F 904_1428 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
1.1 104890 1.2 1571:1 12400 F 904_1571 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
1.0 113631 1.1 1702:1 12400 F 904_1702 S3 + M3SA4 P90 + BN90LA4 N140TC 192...195
47
3 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
71 2521 3.8 24.1:1 1890 F 412_24.1 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
63 2844 1.2 27.2:1 740 F 252_27.2 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
63 2851 1.9 27.3:1 1410 F 312_27.3 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
57 3140 1.1 30.0:1 740 F 252_30.0 S3 + M3LA4 P100 + BN100LA4 N180TC 121...124
57 3148 1.7 30.1:1 1430 F 312_30.1 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
57 3148 3.1 30.1:1 1910 F 412_30.1 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
50 3592 1.4 34.4:1 1460 F 312_34.4 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
46 3882 3.8 37.1:1 2700 F 512_37.1 S3 + M3LA4 P100 + BN100LA4 N180TC 154...157
45 3938 1.3 37.7:1 1460 F 312_37.7 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
45 3991 2.4 38.2:1 1910 F 412_38.2 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
43 4219 1.2 40.4:1 1460 F 312_40.4 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
39 4666 1.1 44.6:1 1460 F 312_44.6 S3 + M3LA4 P100 + BN100LA4 N180TC 132...135
36 5010 1.9 47.9:1 1910 F 412_47.9 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
35 5004 3.2 48.9:1 2700 F 513_48.9 S3 + M3LA4 P100 + BN100LA4 N180TC 154...157
33 5269 1.8 51.5:1 1910 F 413_51.5 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
28.5 6165 1.6 60.2:1 1910 F 413_60.2 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
27.3 6449 4.0 63.0:1 4500 F 603_63.0 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
26.1 6738 2.4 65.8:1 2700 F 513_65.8 S3 + M3LA4 P100 + BN100LA4 N180TC 154...157
25.9 6804 1.4 66.5:1 1910 F 413_66.5 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
25.3 6987 3.7 68.3:1 4500 F 603_68.3 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
22.2 7936 3.2 77.6:1 4500 F 603_77.6 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
20.6 8518 1.9 83.2:1 2700 F 513_83.2 S3 + M3LA4 P100 + BN100LA4 N180TC 154...157
20.5 8597 3.0 84.0:1 4500 F 603_84.0 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
20.2 8686 1.1 84.9:1 1910 F 413_84.9 S3 + M3LA4 P100 + BN100LA4 N180TC 143...146
17.6 10048 2.5 98.2:1 4500 F 603_98.2 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
16.3 10753 1.4 105.1:1 2700 F 513_105.1 S3 + M3LA4 P100 + BN100LA4 N180TC 154...157
16.2 10886 2.4 106.4:1 4500 F 603_106.4 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
15.7 11217 4.0 109.6:1 7870 F 703_109.6 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
14.3 12326 2.0 120.5:1 4500 F 603_120.5 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
14.0 12558 3.5 122.7:1 7870 F 703_122.7 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
13.3 13294 1.2 129.9:1 2700 F 513_129.9 S3 + M3LA4 P100 + BN100LA4 N180TC 154...157
13.2 13353 1.9 130.5:1 4500 F 603_130.5 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
12.9 13605 3.2 133.0:1 7870 F 703_133.0 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
11.5 15385 1.7 150.4:1 4500 F 603_150.4 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
11.2 15743 2.8 153.8:1 7870 F 703_153.8 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
10.6 16667 1.6 162.9:1 4500 F 603_162.9 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
10.4 17054 2.6 166.7:1 7870 F 703_166.7 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
48
3 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
9.5 18515 2.4 180.9:1 7870 F 703_180.9 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
9.3 19022 1.3 185.9:1 4500 F 603_185.9 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
9.3 18891 3.7 184.6:1 10100 F 803_184.6 P100 + BN100LA4 N180TC 184...187
8.8 20058 2.2 196.0:1 7870 F 703_196.0 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
8.5 20607 1.2 201.4:1 4500 F 603_201.4 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
7.9 22271 1.2 217.6:1 4500 F 603_217.6 S3 + M3LA4 P100 + BN100LA4 N180TC 165...168
7.9 21680 2.0 216.5:1 7870 F 704_216.5 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
7.9 21877 3.2 218.5:1 10100 F 804_218.5 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
7.3 23486 1.9 234.6:1 7870 F 704_234.6 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
6.2 27424 2.6 273.9:1 10100 F 804_273.9 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
6.1 28129 1.6 280.9:1 7870 F 704_280.9 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
5.9 29709 2.4 296.7:1 10100 F 804_296.7 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
5.9 29149 4.2 291.1:1 12400 F 904_291.1 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
5.6 30473 1.4 304.3:1 7870 F 704_304.3 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
4.9 35412 2.0 353.7:1 10100 F 804_353.7 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
4.8 36230 3.5 361.8:1 12400 F 904_361.8 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
4.6 37294 1.2 372.5:1 7870 F 704_372.5 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
4.5 38364 1.8 383.2:1 10100 F 804_383.2 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
4.3 40402 1.1 403.5:1 7870 F 704_403.5 S3 + M3LA4 P100 + BN100LA4 N180TC 176...179
3.8 45206 1.6 451.5:1 10100 F 804_451.5 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
3.8 45803 2.8 457.5:1 12400 F 904_457.5 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
3.5 48973 1.4 489.1:1 10100 F 804_489.1 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
3.4 49620 2.5 495.6:1 12400 F 904_495.6 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
3.0 56459 1.2 563.9:1 10100 F 804_563.9 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
2.9 57822 2.2 577.5:1 12400 F 904_577.5 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
2.8 61164 1.2 610.9:1 10100 F 804_610.9 S3 + M3LA4 P100 + BN100LA4 N180TC 184...187
2.8 62640 1.9 625.6:1 12400 F 904_625.6 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
2.2 77442 1.6 773.4:1 12400 F 904_773.4 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
1.8 91133 1.3 910.2:1 12400 F 904_910.2 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
1.6 111366 1.1 1112:1 12400 F 904_1112 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
1.5 120647 1.1 1205:1 12400 F 904_1205 S3 + M3LA4 P100 + BN100LA4 N180TC 192...195
49
5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
252 1190 1.9 6.9:1 540 F 252_6.9 S3 + M3LC4 P112 + BN112M4 N180TC 121...124
248 1204 2.9 6.9:1 940 F 312_6.9 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
210 1425 2.4 8.2:1 980 F 312_8.2 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
206 1454 1.6 8.4:1 550 F 252_8.4 S3 + M3LC4 P112 + BN112M4 N180TC 121...124
192 1562 2.3 9.0:1 990 F 312_9.0 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
189 1582 4.0 9.1:1 1380 F 412_9.1 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
185 1620 1.5 9.4:1 560 F 252_9.4 S3 + M3LC4 P112 + BN112M4 N180TC 121...124
163 1840 1.9 10.6:1 550 F 252_10.6 S3 + M3LC4 P112 + BN112M4 N180TC 121...124
161 1862 2.9 10.7:1 1040 F 312_10.7 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
161 1866 4.2 10.8:1 1430 F 412_10.8 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
136 2204 2.4 12.7:1 1070 F 312_12.7 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
133 2248 1.6 13.0:1 550 F 252_13.0 S3 + M3LC4 P112 + BN112M4 N180TC 121...124
124 2415 2.3 13.9:1 1080 F 312_13.9 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
120 2506 1.5 14.5:1 540 F 252_14.5 S3 + M3LC4 P112 + BN112M4 N180TC 121...124
119 2534 3.6 14.6:1 1530 F 412_14.6 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
104 2879 1.2 16.6:1 540 F 252_16.6 S3 + M3LC4 P112 + BN112M4 N180TC 121...124
103 2910 1.9 16.8:1 1110 F 312_16.8 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
101 2965 3.2 17.1:1 1580 F 412_17.1 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
94 3202 1.7 18.5:1 1120 F 312_18.5 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
91 3272 2.9 18.9:1 1610 F 412_18.9 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
91 3260 4.2 18.8:1 2170 F 512_18.8 S3 + M3LC4 P112 + BN112M4 N180TC 154...157
82 3657 1.5 21.1:1 1130 F 312_21.1 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
74 4051 1.3 23.4:1 1130 F 312_23.4 S3 + M3LC4 P112 + BN112M4 N180TC 132...135
74 3978 4.2 23.5:1 4500 F 603_23.5 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
73 4121 3.6 23.8:1 2290 F 512_23.8 S3 + M3LC4 P112 + BN112M4 N180TC 154...157
72 4177 2.4 24.1:1 1670 F 412_24.1 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
68 4310 3.8 25.4:1 4500 F 603_25.4 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
58 5203 2.9 30.0:1 2410 F 512_30.0 S3 + M3LC4 P112 + BN112M4 N180TC 154...157
57 5217 1.9 30.1:1 1710 F 412_30.1 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
47 6432 2.4 37.1:1 2520 F 512_37.1 S3 + M3LC4 P112 + BN112M4 N180TC 154...157
46 6614 1.5 38.2:1 1740 F 412_38.2 S3 + M3LC4 P112 + BN112M4 N180TC 143...146
44 6587 3.8 38.8:1 4500 F 603_38.8 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
41 7136 3.6 42.1:1 4500 F 603_42.1 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
36 8112 3.2 47.8:1 4500 F 603_47.8 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
35 8291 1.9 48.9:1 2610 F 513_48.9 S3 + M3LC4 P112 + BN112M4 N180TC 154...157
33 8788 2.9 51.8:1 4500 F 603_51.8 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
27.4 10687 2.4 63.0:1 4500 F 603_63.0 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
50
5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
26.3 11164 1.5 65.8:1 2700 F 513_65.8 S3 + M3LC4 P112 + BN112M4 N180TC 154...157
25.3 11577 2.3 68.3:1 4500 F 603_68.3 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
22.4 13150 2.0 77.6:1 4500 F 603_77.6 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
20.6 14246 1.9 84.0:1 4500 F 603_84.0 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
20.3 14478 3.0 85.4:1 7870 F 703_85.4 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
18.7 15684 2.8 92.5:1 7870 F 703_92.5 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
17.7 16650 1.6 98.2:1 4500 F 603_98.2 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
17.1 17157 2.5 101.2:1 7870 F 703_101.2 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
16.3 18038 1.5 106.4:1 4500 F 603_106.4 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
15.8 18586 2.4 109.6:1 7870 F 703_109.6 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
15.2 19287 3.7 113.8:1 10100 F 803_113.8 P112 + BN112M4 N180TC 184...187
14.3 20424 1.2 120.5:1 4500 F 603_120.5 S3 + M3LC4 P112 + BN112M4 N180TC 165...168
14.1 20809 2.1 122.7:1 7870 F 703_122.7 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
14.1 20768 3.4 122.5:1 10100 F 803_122.5 P112 + BN112M4 N180TC 184...187
13.1 22499 3.2 132.7:1 10100 F 803_132.7 P112 + BN112M4 N180TC 184...187
13.0 22544 2.0 133.0:1 7870 F 703_133.0 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
11.7 25078 2.8 147.9:1 10100 F 803_147.9 P112 + BN112M4 N180TC 184...187
11.2 26086 1.7 153.8:1 7870 F 703_153.8 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
10.8 27168 2.7 160.2:1 10100 F 803_160.2 P112 + BN112M4 N180TC 184...187
10.6 27609 4.5 162.8:1 12400 F 903_162.8 P112 + BN112M4 N180TC 192...195
10.4 28260 1.6 166.7:1 7870 F 703_166.7 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
9.6 30388 4.1 179.2:1 12400 F 903_179.2 P112 + BN112M4 N180TC 192...195
9.5 30681 1.5 180.9:1 7870 F 703_180.9 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
9.4 31303 2.3 184.6:1 10100 F 803_184.6 P112 + BN112M4 N180TC 184...187
8.9 32921 3.7 194.2:1 12400 F 903_194.2 P112 + BN112M4 N180TC 192...195
8.8 33237 1.3 196.0:1 7870 F 703_196.0 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
8.2 35437 3.4 213.6:1 12400 F 904_213.6 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
8.0 35924 1.2 216.5:1 7870 F 704_216.5 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
7.9 36250 2.0 218.5:1 10100 F 804_218.5 S3 + M3LC4 P112 + BN112M4 N180TC 184...187
7.5 38391 3.2 231.4:1 12400 F 904_231.4 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
7.4 38918 1.2 234.6:1 7870 F 704_234.6 S3 + M3LC4 P112 + BN112M4 N180TC 176...179
6.4 44585 2.8 268.7:1 12400 F 904_268.7 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
6.3 45442 1.6 273.9:1 10100 F 804_273.9 S3 + M3LC4 P112 + BN112M4 N180TC 184...187
5.9 48301 2.5 291.1:1 12400 F 904_291.1 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
5.8 49229 1.5 296.7:1 10100 F 804_296.7 S3 + M3LC4 P112 + BN112M4 N180TC 184...187
4.9 58680 1.2 353.7:1 10100 F 804_353.7 S3 + M3LC4 P112 + BN112M4 N180TC 184...187
4.8 60035 2.1 361.8:1 12400 F 904_361.8 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
51
5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
3.8 75897 1.6 457.5:1 12400 F 904_457.5 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
3.5 82221 1.5 495.6:1 12400 F 904_495.6 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
3.0 95812 1.3 577.5:1 12400 F 904_577.5 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
2.7 103797 1.2 625.6:1 12400 F 904_625.6 S3 + M3LC4 P112 + BN112M4 N180TC 192...195
7.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
257 1748 3.2 6.7:1 1220 F 412_6.7 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
191 2352 4.1 9.1:1 1710 F 512_9.1 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
190 2374 2.6 9.1:1 1310 F 412_9.1 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
161 2799 2.8 10.8:1 1340 F 412_10.8 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
156 2887 4.1 11.1:1 1810 F 512_11.1 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
124 3632 3.4 14.0:1 1920 F 512_14.0 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
118 3801 2.4 14.6:1 1410 F 412_14.6 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
101 4447 2.1 17.1:1 1440 F 412_17.1 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
93 4890 2.8 18.8:1 2050 F 512_18.8 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
91 4908 2.0 18.9:1 1460 F 412_18.9 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
91 4850 3.4 19.1:1 4500 F 603_19.1 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
84 5254 3.2 20.7:1 4500 F 603_20.7 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
73 6182 2.4 23.8:1 2150 F 512_23.8 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
73 5968 2.8 23.5:1 4500 F 603_23.5 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
72 6265 1.5 24.1:1 1480 F 412_24.1 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
68 6465 2.6 25.4:1 4500 F 603_25.4 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
59 7532 3.4 29.6:1 4500 F 603_29.6 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
58 7825 1.3 30.1:1 1480 F 412_30.1 S4 + M4SA4 P132 + BN132S4 N210TC 143...146
58 7804 1.9 30.0:1 2240 F 512_30.0 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
54 8160 3.2 32.1:1 4500 F 603_32.1 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
47 9648 1.5 37.1:1 2320 F 512_37.1 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
44 9880 2.6 38.8:1 4500 F 603_38.8 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
41 10704 2.4 42.1:1 4500 F 603_42.1 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
38 11494 3.9 45.2:1 7710 F 703_45.2 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
36 12168 2.1 47.8:1 4500 F 603_47.8 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
52
7.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
35 12437 1.3 48.9:1 2320 F 513_48.9 S4 + M4SA4 P132 + BN132S4 N210TC 154...157
35 12452 3.5 49.0:1 7870 F 703_49.0 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
33 13182 1.9 51.8:1 4500 F 603_51.8 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
30 14673 3.1 57.7:1 7870 F 703_57.7 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
27.6 15896 2.8 62.5:1 7870 F 703_62.5 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
27.4 16030 1.7 63.0:1 4500 F 603_63.0 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
25.5 17269 2.6 67.9:1 7870 F 703_67.9 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
25.3 17366 1.5 68.3:1 4500 F 603_68.3 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
24.6 17901 3.9 70.4:1 10100 F 803_70.4 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
23.5 18709 2.4 73.6:1 7870 F 703_73.6 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
22.7 19393 3.7 76.3:1 10100 F 803_76.3 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
22.3 19725 1.3 77.6:1 4500 F 603_77.6 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
20.5 21369 1.2 84.0:1 4500 F 603_84.0 S4 + M4SA4 P132 + BN132S4 N210TC 165...168
20.3 21717 2.0 85.4:1 7870 F 703_85.4 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
20.3 21671 3.3 85.2:1 10100 F 803_85.2 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
18.7 23526 1.9 92.5:1 7870 F 703_92.5 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
18.7 23477 3.1 92.3:1 10100 F 803_92.3 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
17.1 25735 1.8 101.2:1 7870 F 703_101.2 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
15.7 27879 1.5 109.6:1 7870 F 703_109.6 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
15.3 28931 2.5 113.8:1 10100 F 803_113.8 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
14.2 31153 2.2 122.5:1 10100 F 803_122.5 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
14.1 31214 1.4 122.7:1 7870 F 703_122.7 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
13.7 32244 3.9 126.8:1 12400 F 903_126.8 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
13.1 33749 2.1 132.7:1 10100 F 803_132.7 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
13.0 33815 1.3 133.0:1 7870 F 703_133.0 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
12.6 34931 3.5 137.3:1 12400 F 903_137.3 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
11.7 37617 1.9 147.9:1 10100 F 803_147.9 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
11.5 38228 3.2 150.3:1 12400 F 903_150.3 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
11.3 39129 1.2 153.8:1 7870 F 703_153.8 S4 + M4SA4 P132 + BN132S4 N210TC 176...179
10.8 40752 1.8 160.2:1 10100 F 803_160.2 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
10.6 41414 3.0 162.8:1 12400 F 903_162.8 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
9.6 45582 2.7 179.2:1 12400 F 903_179.2 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
9.4 46955 1.5 184.6:1 10100 F 803_184.6 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
8.9 49381 2.5 194.2:1 12400 F 903_194.2 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
8.0 53156 2.4 213.6:1 12400 F 904_213.6 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
7.9 54376 1.3 218.5:1 10100 F 804_218.5 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
7.4 57586 2.1 231.4:1 12400 F 904_231.4 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
53
10 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
259 2317 2.4 6.7:1 1160 F 412_6.7 S4 + M4LA4 P132 + BN132MA4 N210TC 143...146
242 2478 3.5 7.2:1 1550 F 512_7.2 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
192 3117 3.2 9.1:1 1640 F 512_9.1 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
191 3147 1.9 9.1:1 1220 F 412_9.1 S4 + M4LA4 P132 + BN132MA4 N210TC 143...146
162 3710 2.2 10.8:1 1230 F 412_10.8 S4 + M4LA4 P132 + BN132MA4 N210TC 143...146
157 3826 3.0 11.1:1 1730 F 512_11.1 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
149 3963 4.3 11.8:1 4380 F 603_11.8 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
137 4293 3.9 12.7:1 4470 F 603_12.7 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
124 4814 2.6 14.0:1 1820 F 512_14.0 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
120 4880 3.4 14.5:1 4500 F 603_14.5 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
118 5039 1.8 14.6:1 1270 F 412_14.6 S4 + M4LA4 P132 + BN132MA4 N210TC 143...146
111 5287 3.2 15.7:1 4500 F 603_15.7 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
102 5895 1.6 17.1:1 1270 F 412_17.1 S4 + M4LA4 P132 + BN132MA4 N210TC 143...146
93 6482 2.1 18.8:1 1920 F 512_18.8 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
92 6507 1.5 18.9:1 1270 F 412_18.9 S4 + M4LA4 P132 + BN132MA4 N210TC 143...146
92 6429 2.7 19.1:1 4500 F 603_19.1 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
85 6965 2.4 20.7:1 4500 F 603_20.7 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
74 8195 1.8 23.8:1 1980 F 512_23.8 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
74 7911 2.1 23.5:1 4500 F 603_23.5 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
73 8306 1.2 24.1:1 1240 F 412_24.1 S4 + M4LA4 P132 + BN132MA4 N210TC 143...146
71 8280 4.3 24.6:1 6470 F 703_24.6 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
69 8571 1.9 25.4:1 4500 F 603_25.4 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
59 9985 2.6 29.6:1 4500 F 603_29.6 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
7.5 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
6.5 66878 1.9 268.7:1 12400 F 904_268.7 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
6.4 68163 1.1 273.9:1 10100 F 804_273.9 S4 + M4SA4 P132 + BN132S4 N210TC 184...187
5.9 72451 1.7 291.1:1 12400 F 904_291.1 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
4.8 90052 1.4 361.8:1 12400 F 904_361.8 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
3.7 113845 1.1 457.5:1 12400 F 904_457.5 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
3.5 123332 1.1 495.6:1 12400 F 904_495.6 S4 + M4SA4 P132 + BN132S4 N210TC 192...195
54
10 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
58 10346 1.5 30.0:1 2030 F 512_30.0 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
54 10817 2.4 32.1:1 4500 F 603_32.1 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
47 12790 1.2 37.1:1 2040 F 512_37.1 S4 + M4LA4 P132 + BN132MA4 N210TC 154...157
45 13098 1.9 38.8:1 4500 F 603_38.8 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
41 14190 1.8 42.1:1 4500 F 603_42.1 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
39 15237 2.9 45.2:1 7460 F 703_45.2 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
36 16507 2.7 49.0:1 7600 F 703_49.0 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
36 16130 1.6 47.8:1 4500 F 603_47.8 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
34 17474 1.5 51.8:1 4500 F 603_51.8 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
31 19128 3.6 56.7:1 9580 F 803_56.7 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
30 19452 2.3 57.7:1 7850 F 703_57.7 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
28.3 20722 3.4 61.5:1 9780 F 803_61.5 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
27.8 21073 2.1 62.5:1 7870 F 703_62.5 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
27.6 21251 1.2 63.0:1 4500 F 603_63.0 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
25.6 22893 1.9 67.9:1 7870 F 703_67.9 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
25.5 23022 1.1 68.3:1 4500 F 603_68.3 S4 + M4LA4 P132 + BN132MA4 N210TC 165...168
24.8 23731 3.0 70.4:1 10000 F 803_70.4 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
23.7 24801 1.8 73.6:1 7870 F 703_73.6 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
22.8 25709 2.8 76.3:1 10100 F 803_76.3 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
20.4 28789 1.6 85.4:1 7870 F 703_85.4 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
20.4 28729 2.4 85.2:1 10100 F 803_85.2 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
19.7 29804 4.1 88.4:1 12400 F 903_88.4 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
18.9 31188 1.5 92.5:1 7870 F 703_92.5 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
18.9 31123 2.3 92.3:1 10100 F 803_92.3 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
18.1 32287 3.9 95.8:1 12400 F 903_95.8 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
17.2 34116 1.3 101.2:1 7870 F 703_101.2 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
16.8 34841 3.5 103.3:1 12400 F 903_103.3 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
15.8 36959 1.2 109.6:1 7870 F 703_109.6 S4 + M4LA4 P132 + BN132MA4 N210TC 176...179
15.6 37745 3.3 111.9:1 12400 F 903_111.9 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
15.3 38353 1.8 113.8:1 10100 F 803_113.8 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
14.3 41298 1.7 122.5:1 10100 F 803_122.5 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
13.8 42745 2.9 126.8:1 12400 F 903_126.8 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
13.2 44740 1.6 132.7:1 10100 F 803_132.7 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
12.7 46307 2.7 137.3:1 12400 F 903_137.3 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
11.7 49868 1.5 147.9:1 10100 F 803_147.9 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
11.6 50678 2.4 150.3:1 12400 F 903_150.3 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
10.9 54023 1.3 160.2:1 10100 F 803_160.2 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
55
10 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
10.6 54901 2.3 162.8:1 12400 F 903_162.8 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
9.7 60427 2.1 179.2:1 12400 F 903_179.2 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
9.4 62246 1.1 184.6:1 10100 F 803_184.6 S4 + M4LA4 P132 + BN132MA4 N210TC 184...187
8.9 65463 1.9 194.2:1 12400 F 903_194.2 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
8.1 70468 1.7 213.6:1 12400 F 904_213.6 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
7.5 76340 1.6 231.4:1 12400 F 904_231.4 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
6.5 88658 1.5 268.7:1 12400 F 904_268.7 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
5.9 96046 1.3 291.1:1 12400 F 904_291.1 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
4.8 119379 1.1 361.8:1 12400 F 904_361.8 S4 + M4LA4 P132 + BN132MA4 N210TC 192...195
15 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
259 3476 1.7 6.7:1 1040 F 412_6.7 S4 + M4LC4 143...146
242 3717 2.4 7.2:1 1460 F 512_7.2 S4 + M4LC4 P160 + BN160MR4 N250TC 154...157
195 4532 3.7 9.0:1 4000 F 603_9.0 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
192 4676 2.1 9.1:1 1520 F 512_9.1 S4 + M4LC4 P160 + BN160MR4 N250TC 154...157
191 4720 1.3 9.1:1 1060 F 412_9.1 S4 + M4LC4 143...146
179 4909 3.4 9.7:1 4090 F 603_9.7 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
162 5565 1.4 10.8:1 1050 F 412_10.8 S4 + M4LC4 143...146
157 5740 2.0 11.1:1 1590 F 512_11.1 S4 + M4LC4 P160 + BN160MR4 N250TC 154...157
149 5944 2.9 11.8:1 4270 F 603_11.8 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
137 6440 2.6 12.7:1 4360 F 603_12.7 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
124 7221 1.8 14.0:1 1640 F 512_14.0 S4 + M4LC4 P160 + BN160MR4 N250TC 154...157
120 7320 2.3 14.5:1 4500 F 603_14.5 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
118 7558 1.2 14.6:1 1010 F 412_14.6 S4 + M4LC4 143...146
111 7930 2.1 15.7:1 4500 F 603_15.7 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
93 9724 1.4 18.8:1 1680 F 512_18.8 S4 + M4LC4 P160 + BN160MR4 N250TC 154...157
92 9644 1.8 19.1:1 4500 F 603_19.1 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
85 10448 1.7 20.7:1 4500 F 603_20.7 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
83 10553 3.3 20.9:1 6020 F 703_20.9 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
77 11432 3.3 22.6:1 6140 F 703_22.6 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
74 12293 1.2 23.8:1 1690 F 512_23.8 S4 + M4LC4 P160 + BN160MR4 N250TC 154...157
56
15 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
74 11867 1.4 23.5:1 4500 F 603_23.5 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
71 12420 2.9 24.6:1 6250 F 703_24.6 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
69 12856 1.3 25.4:1 4500 F 603_25.4 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
63 14005 3.0 27.7:1 6410 F 703_27.7 P160 + BN160MR4 N250TC 176...179
59 14978 1.7 29.6:1 4500 F 603_29.6 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
54 16226 1.5 32.1:1 4500 F 603_32.1 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
50 17924 2.5 35.4:1 6740 F 703_35.4 P160 + BN160MR4 N250TC 176...179
46 19417 2.3 38.4:1 6860 F 703_38.4 P160 + BN160MR4 N250TC 176...179
45 19647 1.3 38.8:1 4500 F 603_38.8 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
41 21285 1.2 42.1:1 4500 F 603_42.1 S4 + M4LC4 P160 + BN160MR4 N250TC 165...168
39 22856 1.9 45.2:1 7040 F 703_45.2 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
39 22926 3.1 45.3:1 8740 F 803_45.3 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
36 24761 1.8 49.0:1 7150 F 703_49.0 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
35 24836 2.9 49.1:1 8830 F 803_49.1 P160 + BN160MR4 N250TC 184...187
31 28692 2.5 56.7:1 9170 F 803_56.7 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
30 29178 1.5 57.7:1 7310 F 703_57.7 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
28.3 31083 2.3 61.5:1 9240 F 803_61.5 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
28.0 31407 3.9 62.1:1 12400 F 903_62.1 P160 + BN160MR4 N250TC 192...195
27.8 31610 1.4 62.5:1 7400 F 703_62.5 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
25.6 34340 1.3 67.9:1 7440 F 703_67.9 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
24.8 35597 2.0 70.4:1 9550 F 803_70.4 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
24.7 35784 3.4 70.8:1 12400 F 903_70.8 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
23.7 37202 1.2 73.6:1 7530 F 703_73.6 S4 + M4LC4 P160 + BN160MR4 N250TC 176...179
22.8 38564 1.8 76.3:1 9620 F 803_76.3 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
22.7 38766 3.2 76.7:1 12400 F 903_76.7 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
20.4 43094 1.7 85.2:1 9890 F 803_85.2 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
19.7 44705 2.7 88.4:1 12400 F 903_88.4 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
18.9 46685 1.5 92.3:1 9910 F 803_92.3 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
18.1 48431 2.6 95.8:1 12400 F 903_95.8 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
16.8 52262 2.4 103.3:1 12400 F 903_103.3 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
15.6 56617 2.1 111.9:1 12400 F 903_111.9 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
15.3 57529 1.2 113.8:1 10100 F 803_113.8 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
14.3 61947 1.2 122.5:1 10100 F 803_122.5 S4 + M4LC4 P160 + BN160MR4 N250TC 184...187
13.8 64117 1.9 126.8:1 12400 F 903_126.8 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
12.7 69460 1.8 137.3:1 12400 F 903_137.3 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
11.6 76017 1.7 150.3:1 12400 F 903_150.3 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
10.6 82352 1.5 162.8:1 12400 F 903_162.8 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
57
15 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
9.7 90641 1.4 179.2:1 12400 F 903_179.2 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
8.9 98194 1.3 194.2:1 12400 F 903_194.2 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
8.1 105701 1.2 213.6:1 12400 F 904_213.6 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
7.5 114510 1.1 231.4:1 12400 F 904_231.4 S4 + M4LC4 P160 + BN160MR4 N250TC 192...195
20 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
195 6008 2.8 9.0:1 3890 F 603_9.0 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
180 6508 2.5 9.7:1 3980 F 603_9.7 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
175 6715 4.2 10.0:1 4900 F 703_10.0 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
162 7275 4.2 10.9:1 5010 F 703_10.9 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
149 7880 2.2 11.8:1 4140 F 603_11.8 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
138 8537 1.9 12.7:1 4230 F 603_12.7 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
137 8594 3.7 12.8:1 5190 F 703_12.8 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
126 9310 3.7 13.9:1 5310 F 703_13.9 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
121 9705 1.7 14.5:1 4320 F 603_14.5 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
111 10513 1.6 15.7:1 4410 F 603_15.7 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
107 10959 3.3 16.3:1 5490 F 703_16.3 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
98 11872 3.3 17.7:1 5600 F 703_17.7 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
92 12785 1.3 19.1:1 4500 F 603_19.1 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
86 13632 4.1 20.3:1 7040 F 803_20.3 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
85 13851 1.2 20.7:1 4500 F 603_20.7 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
84 13990 2.5 20.9:1 5780 F 703_20.9 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
79 14769 4.1 22.0:1 7170 F 803_22.0 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
78 15156 2.5 22.6:1 5890 F 703_22.6 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
71 16465 2.2 24.6:1 5960 F 703_24.6 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
70 16913 3.3 25.2:1 7400 F 803_25.2 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
64 18567 2.2 27.7:1 6090 F 703_27.7 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
59 19857 1.3 29.6:1 4500 F 603_29.6 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
55 21511 1.2 32.1:1 4500 F 603_32.1 S5 + M5SB4 P160 + BN160L4 N250TC 165...168
49 23762 1.8 35.4:1 6340 F 703_35.4 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
46 25742 1.7 38.4:1 6430 F 703_38.4 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
58
20 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
38 30301 1.4 45.2:1 6540 F 703_45.2 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
38 30393 2.3 45.3:1 8360 F 803_45.3 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
36 32926 2.2 49.1:1 8500 F 803_49.1 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
36 32826 1.3 49.0:1 6610 F 703_49.0 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
31 38434 3.3 57.3:1 12400 F 903_57.3 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
31 38037 1.8 56.7:1 8680 F 803_56.7 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
30 38682 1.1 57.7:1 6680 F 703_57.7 S5 + M5SB4 P160 + BN160L4 N250TC 176...179
28.5 41207 1.7 61.5:1 8700 F 803_61.5 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
28.2 41637 3.0 62.1:1 12400 F 903_62.1 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
24.8 47192 1.4 70.4:1 8970 F 803_70.4 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
24.7 47439 2.7 70.8:1 12400 F 903_70.8 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
22.9 51124 1.3 76.3:1 9100 F 803_76.3 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
22.8 51392 2.4 76.7:1 12400 F 903_76.7 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
20.5 57130 1.2 85.2:1 9170 F 803_85.2 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
19.8 59267 2.0 88.4:1 12400 F 903_88.4 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
18.9 61891 1.1 92.3:1 9280 F 803_92.3 S5 + M5SB4 P160 + BN160L4 N250TC 184...187
18.2 64205 1.9 95.8:1 12400 F 903_95.8 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
16.9 69284 1.8 103.3:1 12400 F 903_103.3 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
15.6 75058 1.7 111.9:1 12400 F 903_111.9 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
13.8 85001 1.4 126.8:1 12400 F 903_126.8 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
12.7 92084 1.3 137.3:1 12400 F 903_137.3 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
11.6 100777 1.2 150.3:1 12400 F 903_150.3 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
10.8 108555 1.1 162.8:1 12400 F 903_162.8 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
9.8 119481 1.1 179.2:1 12400 F 903_179.2 S5 + M5SB4 P160 + BN160L4 N250TC 192...195
25 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
196 7460 2.3 9.0:1 3800 F 603_9.0 S5 + M5LA4 P180 + BN180M4 N280TC 165...168
181 8082 2.0 9.7:1 3890 F 603_9.7 S5 + M5LA4 P180 + BN180M4 N280TC 165...168
176 8341 3.3 10.0:1 4810 F 703_10.0 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
163 9037 3.3 10.9:1 4900 F 703_10.9 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
149 9792 1.7 11.8:1 4020 F 603_11.8 S5 + M5LA4 P180 + BN180M4 N280TC 165...168
59
25 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
139 10606 1.6 12.7:1 4110 F 603_12.7 S5 + M5LA4 P180 + BN180M4 N280TC 165...168
137 10672 3.0 12.8:1 5080 F 703_12.8 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
127 11568 3.0 13.9:1 5170 F 703_13.9 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
122 12056 1.4 14.5:1 4180 F 603_14.5 S5 + M5LA4 P180 + BN180M4 N280TC 165...168
112 13063 1.3 15.7:1 4200 F 603_15.7 S5 + M5LA4 P180 + BN180M4 N280TC 165...168
108 13529 4.1 16.2:1 6540 F 803_16.2 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
107 13610 2.6 16.3:1 5350 F 703_16.3 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
100 14661 4.1 17.6:1 6680 F 803_17.6 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
99 14750 2.6 17.7:1 5440 F 703_17.7 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
87 16933 3.2 20.3:1 6880 F 803_20.3 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
84 17378 2.0 20.9:1 5600 F 703_20.9 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
80 18347 3.2 22.0:1 7040 F 803_22.0 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
78 18828 2.0 22.6:1 5660 F 703_22.6 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
71 20456 1.7 24.6:1 5730 F 703_24.6 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
70 21011 2.6 25.2:1 7220 F 803_25.2 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
64 23062 1.8 27.7:1 5840 F 703_27.7 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
61 24024 3.0 28.8:1 7420 F 803_28.8 P180 + BN180M4 N280TC 184...187
59 24986 1.8 30.0:1 5910 F 703_30.0 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
57 26029 2.8 31.3:1 7550 F 803_31.3 P180 + BN180M4 N280TC 184...187
49 29981 2.4 36.0:1 7730 F 803_36.0 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
49 29515 1.6 35.4:1 6000 F 703_35.4 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
47 31136 3.8 37.4:1 11800 F 903_37.4 P180 + BN180M4 N280TC 192...195
46 31980 1.4 38.4:1 6070 F 703_38.4 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
45 32483 2.2 39.0:1 7870 F 803_39.0 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
43 33734 3.7 40.5:1 12100 F 903_40.5 P180 + BN180M4 N280TC 192...195
39 38359 3.2 46.1:1 12400 F 903_46.1 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
39 37753 1.9 45.3:1 8030 F 803_45.3 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
39 37642 1.2 45.2:1 6110 F 703_45.2 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
36 40898 1.7 49.1:1 8050 F 803_49.1 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
36 40780 1.1 49.0:1 6160 F 703_49.0 S5 + M5LA4 P180 + BN180M4 N280TC 176...179
35 41557 3.0 49.9:1 12400 F 903_49.9 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
31 47744 2.6 57.3:1 12400 F 903_57.3 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
31 47248 1.6 56.7:1 8270 F 803_56.7 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
28.7 51185 1.3 61.5:1 8410 F 803_61.5 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
28.3 51726 2.4 62.1:1 12400 F 903_62.1 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
25.0 58623 1.2 70.4:1 8450 F 803_70.4 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
24.8 58934 2.2 70.8:1 12400 F 903_70.8 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
60
25 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
23.0 63508 1.1 76.3:1 8560 F 803_76.3 S5 + M5LA4 P180 + BN180M4 N280TC 184...187
22.9 63841 1.9 76.7:1 12400 F 903_76.7 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
19.9 73625 1.7 88.4:1 12400 F 903_88.4 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
18.3 79761 1.6 95.8:1 12400 F 903_95.8 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
17.0 86066 1.4 103.3:1 12400 F 903_103.3 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
15.7 93238 1.3 111.9:1 12400 F 903_111.9 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
13.9 105590 1.2 126.8:1 12400 F 903_126.8 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
12.8 114390 1.1 137.3:1 12400 F 903_137.3 S5 + M5LA4 P180 + BN180M4 N280TC 192...195
30 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
198 8895 1.9 9.0:1 3710 F 603_9.0 P180 + BN180L4 N280TC 137...139
182 9634 1.8 9.7:1 3800 F 603_9.7 P180 + BN180L4 N280TC 137...139
177 9940 2.8 10.0:1 4720 F 703_10.0 P180 + BN180L4 N280TC 176...179
163 10769 2.8 10.9:1 4810 F 703_10.9 P180 + BN180L4 N280TC 176...179
151 11665 1.4 11.8:1 3910 F 603_11.8 P180 + BN180L4 N280TC 137...139
139 12726 2.5 12.8:1 4970 F 703_12.8 P180 + BN180L4 N280TC 176...179
139 12636 1.3 12.7:1 3980 F 603_12.7 P180 + BN180L4 N280TC 137...139
128 13786 2.5 13.9:1 5040 F 703_13.9 P180 + BN180L4 N280TC 176...179
108 16229 2.1 16.3:1 5190 F 703_16.3 P180 + BN180L4 N280TC 176...179
108 16124 3.4 16.2:1 6410 F 803_16.2 P180 + BN180L4 N280TC 184...187
101 17468 3.4 17.6:1 6540 F 803_17.6 P180 + BN180L4 N280TC 184...187
100 17580 2.1 17.7:1 5260 F 703_17.7 P180 + BN180L4 N280TC 176...179
87 20187 2.7 20.3:1 6720 F 803_20.3 P180 + BN180L4 N280TC 184...187
84 20710 1.7 20.9:1 5400 F 703_20.9 P180 + BN180L4 N280TC 176...179
81 21867 2.7 22.0:1 6790 F 803_22.0 P180 + BN180L4 N280TC 184...187
78 22442 1.7 22.6:1 5460 F 703_22.6 P180 + BN180L4 N280TC 176...179
72 24376 1.4 24.6:1 5510 F 703_24.6 P180 + BN180L4 N280TC 176...179
70 25041 2.3 25.2:1 7040 F 803_25.2 P180 + BN180L4 N280TC 184...187
64 27491 1.5 27.7:1 5580 F 703_27.7 P180 + BN180L4 N280TC 176...179
61 28633 2.5 28.8:1 7190 F 803_28.8 P180 + BN180L4 N280TC 184...187
61 28402 3.8 28.6:1 10900 F 903_28.6 P180 + BN180L4 N280TC 192...195
61
30 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
59 29784 1.5 30.0:1 5640 F 703_30.0 P180 + BN180L4 N280TC 176...179
57 31023 2.3 31.3:1 7330 F 803_31.3 P180 + BN180L4 N280TC 184...187
57 30769 3.8 31.0:1 11100 F 903_31.0 P180 + BN180L4 N280TC 192...195
49 35736 2.0 36.0:1 7460 F 803_36.0 P180 + BN180L4 N280TC 184...187
49 35183 1.3 35.4:1 5690 F 703_35.4 P180 + BN180L4 N280TC 176...179
47 37110 3.2 37.4:1 11600 F 903_37.4 P180 + BN180L4 N280TC 192...195
46 38716 1.8 39.0:1 7490 F 803_39.0 P180 + BN180L4 N280TC 184...187
46 38111 1.2 38.4:1 5710 F 703_38.4 P180 + BN180L4 N280TC 176...179
43 40202 3.1 40.5:1 11800 F 903_40.5 P180 + BN180L4 N280TC 192...195
39 45721 2.7 46.1:1 12000 F 903_46.1 P180 + BN180L4 N280TC 192...195
39 44996 1.5 45.3:1 7710 F 803_45.3 P180 + BN180L4 N280TC 184...187
36 49530 2.5 49.9:1 12200 F 903_49.9 P180 + BN180L4 N280TC 192...195
36 48745 1.4 49.1:1 7670 F 803_49.1 P180 + BN180L4 N280TC 184...187
31 56901 2.1 57.3:1 12400 F 903_57.3 P180 + BN180L4 N280TC 192...195
31 56318 1.3 56.7:1 7870 F 803_56.7 P180 + BN180L4 N280TC 184...187
28.8 61008 1.2 61.5:1 7960 F 803_61.5 P180 + BN180L4 N280TC 184...187
28.6 61643 2.0 62.1:1 12400 F 903_62.1 P180 + BN180L4 N280TC 192...195
25.1 70239 1.8 70.8:1 12400 F 903_70.8 P180 + BN180L4 N280TC 192...195
23.1 76087 1.7 76.7:1 12400 F 903_76.7 P180 + BN180L4 N280TC 192...195
20.0 87745 1.4 88.4:1 12400 F 903_88.4 P180 + BN180L4 N280TC 192...195
18.6 95056 1.3 95.8:1 12400 F 903_95.8 P180 + BN180L4 N280TC 192...195
17.1 102577 1.2 103.3:1 12400 F 903_103.3 P180 + BN180L4 N280TC 192...195
15.8 111128 1.1 111.9:1 12400 F 903_111.9 P180 + BN180L4 N280TC 192...195
40 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
177 13254 2.2 10.0:1 4500 F 703_10.0 P200 + BN200L4 176...179
171 13685 3.6 10.3:1 5600 F 803_10.3 P200 + BN200L4 N320TC 184...187
163 14364 2.2 10.9:1 4560 F 703_10.9 P200 + BN200L4 176...179
139 16963 1.8 12.8:1 4700 F 703_12.8 P200 + BN200L4 176...179
137 17080 3.3 12.9:1 5890 F 803_12.9 P200 + BN200L4 N320TC 184...187
128 18380 1.8 13.9:1 4740 F 703_13.9 P200 + BN200L4 176...179
62
40 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
127 18504 3.3 14.0:1 6000 F 803_14.0 P200 + BN200L4 N320TC 184...187
108 21637 1.7 16.3:1 4830 F 703_16.3 P200 + BN200L4 176...179
108 21505 2.5 16.2:1 6160 F 803_16.2 P200 + BN200L4 N320TC 184...187
101 23294 2.5 17.6:1 6270 F 803_17.6 P200 + BN200L4 N320TC 184...187
100 23433 1.7 17.7:1 4900 F 703_17.7 P200 + BN200L4 176...179
87 26909 2.1 20.3:1 6410 F 803_20.3 P200 + BN200L4 N320TC 184...187
86 27223 3.6 20.6:1 9800 F 903_20.6 P200 + BN200L4 N320TC 192...195
81 29151 2.1 22.0:1 6520 F 803_22.0 P200 + BN200L4 N320TC 184...187
80 29494 3.6 22.3:1 9980 F 903_22.3 P200 + BN200L4 N320TC 192...195
70 33598 3.2 25.4:1 10200 F 903_25.4 P200 + BN200L4 N320TC 192...195
70 33386 1.5 25.2:1 6630 F 803_25.2 P200 + BN200L4 N320TC 184...187
64 36650 1.1 27.7:1 4990 F 703_27.7 P200 + BN200L4 176...179
61 38184 1.8 28.8:1 6630 F 803_28.8 P200 + BN200L4 N320TC 184...187
61 37870 2.8 28.6:1 10500 F 903_28.6 P200 + BN200L4 N320TC 192...195
59 39710 1.1 30.0:1 5010 F 703_30.0 P200 + BN200L4 176...179
57 41360 1.7 31.3:1 6720 F 803_31.3 P200 + BN200L4 N320TC 184...187
57 41024 2.8 31.0:1 10600 F 903_31.0 P200 + BN200L4 N320TC 192...195
49 47648 1.5 36.0:1 6880 F 803_36.0 P200 + BN200L4 N320TC 184...187
47 49481 2.4 37.4:1 10900 F 903_37.4 P200 + BN200L4 N320TC 192...195
46 51620 1.3 39.0:1 6970 F 803_39.0 P200 + BN200L4 N320TC 184...187
43 53606 2.3 40.5:1 11100 F 903_40.5 P200 + BN200L4 N320TC 192...195
39 60960 2.1 46.1:1 11300 F 903_46.1 P200 + BN200L4 N320TC 192...195
39 59996 1.2 45.3:1 6950 F 803_45.3 P200 + BN200L4 N320TC 184...187
36 66042 1.8 49.9:1 11400 F 903_49.9 P200 + BN200L4 N320TC 192...195
31 75871 1.6 57.3:1 11600 F 903_57.3 P200 + BN200L4 N320TC 192...195
28.6 82195 1.5 62.1:1 11600 F 903_62.1 P200 + BN200L4 N320TC 192...195
25.1 93652 1.3 70.8:1 11700 F 903_70.8 P200 + BN200L4 N320TC 192...195
23.1 101451 1.2 76.7:1 11800 F 903_76.7 P200 + BN200L4 N320TC 192...195
20.0 116998 1.1 88.4:1 11700 F 903_88.4 P200 + BN200L4 N320TC 192...195
63
50 hp
n2 T2 S i Rn2
����� [Ib·in]Safety
factor(ratio) [Ib]
172 17032 2.9 10.3:1 5460 F 803_10.3 P225 + BN225S4 N320TC 184...187
159 18449 2.9 11.2:1 5510 F 803_11.2 P225 + BN225S4 N320TC 184...187
138 21253 2.6 12.9:1 5690 F 803_12.9 P225 + BN225S4 N320TC 184...187
132 22091 3.7 13.4:1 8700 F 903_13.4 P225 + BN225S4 N320TC 192...195
127 23026 2.6 14.0:1 5800 F 803_14.0 P225 + BN225S4 N320TC 184...187
123 23931 3.7 14.5:1 8880 F 903_14.5 P225 + BN225S4 N320TC 192...195
109 26757 2.0 16.2:1 5910 F 803_16.2 P225 + BN225S4 N320TC 184...187
108 27217 3.3 16.5:1 9100 F 903_16.5 P225 + BN225S4 N320TC 192...195
101 28990 2.0 17.6:1 6020 F 803_17.6 P225 + BN225S4 N320TC 184...187
100 29487 3.3 17.9:1 9260 F 903_17.9 P225 + BN225S4 N320TC 192...195
88 33493 1.3 20.3:1 6110 F 803_20.3 P225 + BN225S4 N320TC 184...187
87 33878 3.0 20.6:1 9510 F 903_20.6 P225 + BN225S4 N320TC 192...195
81 36282 1.3 22.0:1 6200 F 803_22.0 P225 + BN225S4 N320TC 184...187
79 36697 2.9 22.3:1 9670 F 903_22.3 P225 + BN225S4 N320TC 192...195
71 41549 1.3 25.2:1 6250 F 803_25.2 P225 + BN225S4 N320TC 184...187
70 41816 2.5 25.4:1 9870 F 903_25.4 P225 + BN225S4 N320TC 192...195
63 47127 2.3 28.6:1 10000 F 903_28.6 P225 + BN225S4 N320TC 192...195
61 47513 1.4 28.8:1 6320 F 803_28.8 P225 + BN225S4 N320TC 184...187
58 51051 2.3 31.0:1 10200 F 903_31.0 P225 + BN225S4 N320TC 192...195
57 51474 1.4 31.3:1 6380 F 803_31.3 P225 + BN225S4 N320TC 184...187
49 59293 1.2 36.0:1 6360 F 803_36.0 P225 + BN225S4 N320TC 184...187
48 61578 1.9 37.4:1 10400 F 903_37.4 P225 + BN225S4 N320TC 192...195
46 64233 1.1 39.0:1 6410 F 803_39.0 P225 + BN225S4 N320TC 184...187
45 66711 1.9 40.5:1 10500 F 903_40.5 P225 + BN225S4 N320TC 192...195
38 75865 1.7 46.1:1 10600 F 903_46.1 P225 + BN225S4 N320TC 192...195
36 82185 1.6 49.9:1 10700 F 903_49.9 P225 + BN225S4 N320TC 192...195
31 94417 1.3 57.3:1 10700 F 903_57.3 P225 + BN225S4 N320TC 192...195
25.1 116538 1.1 70.8:1 10700 F 903_70.8 P225 + BN225S4 N320TC 192...195
64
F 10 1,240 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 10 2_ 7.4 473 560 4.4 225 290 236 675 2.7 290 370
F 10 2_ 8.6 408 590 4.0 225 305 204 730 2.5 285 385
F 10 2_ 9.8 358 650 3.9 225 320 179 790 2.4 285 405
F 10 2_ 11.5 303 695 3.5 215 335 152 855 2.2 275 425
F 10 2_ 13.0 269 755 3.4 215 345 134 925 2.1 275 440
F 10 2_ 14.6 239 835 3.3 255 360 119 1055 2.1 295 450
F 10 2_ 17.0 206 925 3.2 250 375 103 1140 2.0 295 470
F 10 2_ 19.3 181 960 2.9 250 390 91 1205 1.8 295 495
F 10 2_ 22.8 153 1060 2.7 245 410 77 1240 1.6 295 520
F 10 2_ 25.8 136 1090 2.5 250 425 68 1240 1.4 295 550
F 10 2_ 29.6 118 1175 2.3 240 445 59 1240 1.2 295 580
F 10 2_ 33.0 106 1215 2.2 245 460 53 1240 1.1 295 605
F 10 2_ 35.3 99 1240 2.1 240 470 50 1240 1.0 295 620
F 10 2_ 39.6 88 1240 1.8 245 495 44 1240 0.91 295 630
F 10 2_ 44.7 78 1240 1.6 245 515 39 1240 0.81 295 630
F 10 2_ 48.7 72 1240 1.5 250 535 36 1240 0.74 295 630
F 10 2_ 56.7 62 1240 1.3 250 570 31 1240 0.64 295 630
F 10 2_ 63.0 56 1240 1.2 250 590 27.8 1240 0.58 295 630
F 10 2_ 71.1 49 1240 1.0 225 620 24.6 1240 0.51 295 630
F 10 2_ 81.3 43 1240 0.89 250 630 21.5 1240 0.45 295 630
F 10 2_ 91.5 38 1240 0.79 250 630 19.1 1240 0.40 295 630
F 10 2_ 106.0 33 1240 0.68 255 630 16.5 1240 0.34 295 630
F 10 2_ 127.1 27.5 1240 0.57 255 630 13.8 1240 0.29 295 630
2.12 SPEED REDUCER RATING CHARTS
65
F 10 1,240 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 10 2_ 7.4 149 810 2.0 295 425 81 985 1.3 — —
F 10 2_ 8.6 128 830 1.8 295 445 70 990 1.2 295 550
F 10 2_ 9.8 113 950 1.8 295 465 61 1155 1.2 295 560
F 10 2_ 11.5 95 975 1.6 295 495 52 1165 1.0 295 600
F 10 2_ 13.0 84 1100 1.6 295 505 46 1240 0.95 295 630
F 10 2_ 14.6 75 1225 1.5 295 525 41 1240 0.85 295 630
F 10 2_ 17.0 65 1245 1.3 295 555 35 1245 0.73 295 630
F 10 2_ 19.3 57 1240 1.2 295 580 31 1240 0.64 295 630
F 10 2_ 22.8 48 1240 1.0 295 620 26.3 1240 0.54 295 630
F 10 2_ 25.8 43 1240 0.88 295 630 23.3 1240 0.48 295 630
F 10 2_ 29.6 37 1240 0.77 295 630 20.2 1240 0.42 295 630
F 10 2_ 33.0 33 1240 0.69 295 630 18.2 1240 0.38 295 630
F 10 2_ 35.3 31 1240 0.64 295 630 17.0 1240 0.35 295 630
F 10 2_ 39.6 27.7 1240 0.57 295 630 15.1 1240 0.31 295 630
F 10 2_ 44.7 24.6 1240 0.51 295 630 13.4 1240 0.28 295 630
F 10 2_ 48.7 22.6 1240 0.47 295 630 12.3 1240 0.26 295 630
F 10 2_ 56.7 19.4 1240 0.40 295 630 10.6 1240 0.22 295 630
F 10 2_ 63.0 17.5 1240 0.36 295 630 9.5 1240 0.20 295 630
F 10 2_ 71.1 15.5 1240 0.32 295 630 8.4 1240 0.17 295 630
F 10 2_ 81.3 13.5 1240 0.28 295 630 7.4 1240 0.15 295 630
F 10 2_ 91.5 12.0 1240 0.25 295 630 6.6 1240 0.14 295 630
F 10 2_ 106.0 10.4 1240 0.21 295 630 5.7 1240 0.12 295 630
F 10 2_ 127.1 8.7 1240 0.18 295 630 4.7 1240 0.10 295 630
66
F 20 2,200 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 20 2_ 6.4 546 915 8.3 — 310 273 1155 5.3 — 390
F 20 2_ 7.8 447 1020 7.6 — 325 223 1275 4.8 — 410
F 20 2_ 8.7 401 1090 7.3 — 335 200 1375 4.6 — 425
F 20 2_ 10.0 349 1160 6.8 — 350 174 1465 4.3 — 440
F 20 2_ 11.2 312 1250 6.5 — 360 156 1570 4.1 — 455
F 20 2_ 14.8 237 1470 5.8 175 395 118 1800 3.6 230 500
F 20 2_ 18.1 194 1550 5.0 170 425 97 1890 3.1 230 540
F 20 2_ 20.2 174 1615 4.7 185 440 87 1975 2.9 245 555
F 20 2_ 23.1 151 1685 4.3 175 460 76 2080 2.6 225 580
F 20 2_ 25.9 135 1735 3.9 190 475 67 2125 2.4 250 605
F 20 2_ 30.4 115 1815 3.5 180 505 58 2215 2.1 240 640
F 20 2_ 33.1 106 1860 3.3 180 520 53 2215 2.0 255 665
F 20 2_ 37.9 92 1950 3.0 170 540 46 2215 1.7 255 700
F 20 2_ 41.8 84 1995 2.8 180 560 42 2215 1.5 275 730
F 20 2_ 44.8 78 2080 2.7 160 575 39 2215 1.4 270 750
F 20 2_ 50.7 69 2110 2.4 180 600 34 2215 1.3 300 790
F 20 2_ 56.7 62 2215 2.3 165 620 31 2215 1.1 310 825
F 20 2_ 61.9 57 2215 2.1 170 645 28.3 2215 1.0 310 855
F 20 2_ 69.1 51 2215 1.9 175 675 25.3 2215 0.94 310 890
F 20 2_ 76.8 46 2215 1.7 180 705 22.8 2215 0.84 315 900
F 20 2_ 90.4 39 2215 1.4 190 755 19.4 2215 0.72 315 900
F 20 2_ 101.6 34 2215 1.3 190 790 17.2 2215 0.64 315 900
F 20 2_ 114.3 31 2215 1.1 195 830 15.3 2215 0.57 315 900
F 20 2_ 132.2 26.5 2215 0.98 200 875 13.2 2215 0.49 315 900
F 20 3_ 156.3 22.4 2215 0.85 265 900 11.2 2215 0.41 295 900
F 20 3_ 172.6 20.3 2215 0.77 270 900 10.1 2215 0.38 295 900
F 20 3_ 184.9 18.9 2215 0.72 275 900 9.5 2215 0.35 295 900
F 20 3_ 209.3 16.7 2215 0.63 280 900 8.4 2215 0.31 295 900
F 20 3_ 234.0 15.0 2215 0.57 290 900 7.5 2215 0.28 295 900
F 20 3_ 255.3 13.7 2215 0.52 290 900 6.9 2215 0.25 295 900
F 20 3_ 285.2 12.3 2215 0.46 295 900 6.1 2215 0.23 295 900
F 20 3_ 316.9 11.0 2215 0.42 295 900 5.5 2215 0.20 295 900
F 20 3_ 372.9 9.4 2215 0.35 295 900 4.7 2215 0.17 295 900
F 20 3_ 419.3 8.3 2215 0.32 295 900 4.2 2215 0.15 295 900
F 20 3_ 471.7 7.4 2215 0.28 295 900 3.7 2215 0.14 295 900
F 20 3_ 545.3 6.4 2215 0.24 295 900 3.2 2215 0.12 295 900
67
F 20 2,200 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 20 2_ 6.4 172 1330 3.8 — 450 94 1620 2.5 — 545
F 20 2_ 7.8 140 1480 3.5 — 475 77 1675 2.1 — 590
F 20 2_ 8.7 126 1595 3.4 — 490 69 1940 2.2 — 595
F 20 2_ 10.0 110 1695 3.1 — 510 60 1960 2.0 — 630
F 20 2_ 11.2 98 1815 3.0 — 525 53 2215 2.0 — 640
F 20 2_ 14.8 74 2055 2.6 275 580 41 2215 1.5 405 730
F 20 2_ 18.1 61 2215 2.3 260 620 33 2215 1.2 430 790
F 20 2_ 20.2 55 2215 2.0 300 650 29.8 2215 1.1 445 825
F 20 2_ 23.1 48 2215 1.8 305 685 25.9 2215 0.96 445 870
F 20 2_ 25.9 42 2215 1.6 340 720 23.1 2215 0.86 455 900
F 20 2_ 30.4 36 2215 1.3 345 765 19.7 2215 0.73 455 900
F 20 2_ 33.1 33 2215 1.2 360 795 18.1 2215 0.67 460 900
F 20 2_ 37.9 29.0 2215 1.1 360 840 15.8 2215 0.59 460 900
F 20 2_ 41.8 26.3 2215 0.97 365 870 14.3 2215 0.53 470 900
F 20 2_ 44.8 24.5 2215 0.91 365 895 13.4 2215 0.50 465 900
F 20 2_ 50.7 21.7 2215 0.80 370 900 11.8 2215 0.44 470 900
F 20 2_ 56.7 19.4 2215 0.72 375 900 10.6 2215 0.39 475 900
F 20 2_ 61.9 17.8 2215 0.66 375 900 9.7 2215 0.36 475 900
F 20 2_ 69.1 15.9 2215 0.59 375 900 8.7 2215 0.32 475 900
F 20 2_ 76.8 14.3 2215 0.53 380 900 7.8 2215 0.29 480 900
F 20 2_ 90.4 12.2 2215 0.45 380 900 6.6 2215 0.25 480 900
F 20 2_ 101.6 10.8 2215 0.40 380 900 5.9 2215 0.22 480 900
F 20 2_ 114.3 9.6 2215 0.36 380 900 5.2 2215 0.19 485 900
F 20 2_ 132.2 8.3 2215 0.31 380 900 4.5 2215 0.17 485 900
F 20 3_ 156.3 7.0 2215 0.27 295 900 3.8 2215 0.15 295 900
F 20 3_ 172.6 6.4 2215 0.24 295 900 3.5 2215 0.13 295 900
F 20 3_ 184.9 5.9 2215 0.22 295 900 3.2 2215 0.12 295 900
F 20 3_ 209.3 5.3 2215 0.20 295 900 2.9 2215 0.11 295 900
F 20 3_ 234.0 4.7 2215 0.18 295 900 2.6 2215 0.10 295 900
F 20 3_ 255.3 4.3 2215 0.16 295 900 2.4 2215 0.09 295 900
F 20 3_ 285.2 3.9 2215 0.15 295 900 2.1 2215 0.08 295 900
F 20 3_ 316.9 3.5 2215 0.13 295 900 1.9 2215 0.07 295 900
F 20 3_ 372.9 2.9 2215 0.11 295 900 1.6 2215 0.06 295 900
F 20 3_ 419.3 2.6 2215 0.10 295 900 1.4 2215 0.05 295 900
F 20 3_ 471.7 2.3 2215 0.09 295 900 1.3 2215 0.05 295 900
F 20 3_ 545.3 2.0 2215 0.08 295 900 1.1 2215 0.04 295 900
68
F 25 3,540 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 25 2_ 6.9 509 1375 11.7 — 415 255 1730 7.4 — 525
F 25 2_ 8.4 417 1505 10.5 — 440 208 1905 6.6 — 555
F 25 2_ 9.4 374 1595 10.0 — 455 187 1995 6.2 — 575
F 25 2_ 10.6 329 2125 11.7 — 420 165 2700 7.4 — 525
F 25 2_ 13.0 270 2260 10.2 — 450 135 2835 6.4 — 565
F 25 2_ 14.5 242 2305 9.3 — 470 121 2925 5.9 — 590
F 25 2_ 16.6 211 2390 8.4 — 495 105 3010 5.3 — 625
F 25 2_ 18.6 188 2480 7.8 — 515 94 3100 4.9 — 650
F 25 2_ 21.8 160 2480 6.6 — 555 80 3145 4.2 60 695
F 25 2_ 23.8 147 2525 6.2 60 575 74 3190 3.9 70 720
F 25 2_ 27.2 129 2570 5.5 60 605 64 3235 3.5 75 765
F 25 2_ 30.0 117 2615 5.1 70 630 58 3275 3.2 95 800
F 25 2_ 32.2 109 2615 4.7 70 655 54 3275 3.0 95 825
F 25 2_ 36.4 96 2615 4.2 105 695 48 3275 2.6 135 875
F 25 2_ 40.7 86 2615 3.8 130 730 43 3275 2.4 165 920
F 25 2_ 44.4 79 2615 3.4 165 760 39 3275 2.2 165 960
F 25 3_ 45.6 77 3010 3.9 325 700 38 3540 2.3 415 910
F 25 3_ 50.8 69 3100 3.6 330 730 34 3540 2.1 420 960
F 25 3_ 58.3 60 3235 3.3 330 765 30 3540 1.8 420 1020
F 25 3_ 65.3 54 3320 3.0 330 795 26.8 3540 1.6 425 1075
F 25 3_ 76.6 46 3500 2.7 330 840 22.9 3540 1.4 425 1160
F 25 3_ 83.4 42 3540 2.5 330 870 21.0 3540 1.3 425 1200
F 25 3_ 95.5 37 3540 2.2 330 930 18.3 3540 1.1 425 1275
F 25 3_ 105.4 33 3540 2.0 335 975 16.6 3540 1.0 425 1330
F 25 3_ 113.0 31 3540 1.9 335 1005 15.5 3540 0.94 425 1370
F 25 3_ 127.8 27.4 3540 1.7 335 1065 13.7 3540 0.83 430 1450
F 25 3_ 143.0 24.5 3540 1.5 335 1120 12.2 3540 0.74 430 1465
F 25 3_ 155.9 22.4 3540 1.4 335 1165 11.2 3540 0.68 430 1465
F 25 3_ 174.2 20.1 3540 1.2 335 1225 10.0 3540 0.61 430 1465
F 25 3_ 193.6 18.1 3540 1.1 335 1285 9.0 3540 0.55 430 1465
F 25 3_ 227.8 15.4 3540 0.93 335 1380 7.7 3540 0.46 435 1465
F 25 3_ 256.1 13.7 3540 0.83 335 1450 6.8 3540 0.41 435 1465
F 25 3_ 288.1 12.1 3540 0.73 335 1465 6.1 3540 0.37 435 1465
F 25 3_ 333.1 10.5 3540 0.63 340 1465 5.3 3540 0.32 435 1465
F 25 4_ 393.9 8.9 3540 0.55 290 1465 4.4 3540 0.27 295 1465
F 25 4_ 434.9 8.0 3540 0.50 290 1465 4.0 3540 0.25 295 1465
F 25 4_ 466.0 7.5 3540 0.46 295 1465 3.8 3540 0.23 295 1465
F 25 4_ 527.3 6.6 3540 0.41 295 1465 3.3 3540 0.20 295 1465
F 25 4_ 589.7 5.9 3540 0.37 295 1465 3.0 3540 0.18 295 1465
F 25 4_ 643.3 5.4 3540 0.34 295 1465 2.7 3540 0.17 295 1465
F 25 4_ 718.7 4.9 3540 0.30 295 1465 2.4 3540 0.15 295 1465
F 25 4_ 798.5 4.4 3540 0.27 295 1465 2.2 3540 0.14 295 1465
F 25 4_ 939.8 3.7 3540 0.23 295 1465 1.9 3540 0.11 295 1465
F 25 4_ 1057 3.3 3540 0.20 295 1465 1.7 3540 0.10 295 1465
F 25 4_ 1189 2.9 3540 0.18 295 1465 1.5 3540 0.09 295 1465
F 25 4_ 1374 2.5 3540 0.16 295 1465 1.3 3540 0.08 295 1465
69
F 25 3,540 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 25 2_ 6.9 160 1995 5.3 — 605 87 2260 3.3 85 755
F 25 2_ 8.4 131 2215 4.8 — 640 71 2305 2.8 135 820
F 25 2_ 9.4 118 2305 4.5 — 665 64 2350 2.5 185 850
F 25 2_ 10.6 104 3145 5.4 — 605 56 3500 3.3 85 770
F 25 2_ 13.0 85 3275 4.6 — 655 46 3540 2.7 140 845
F 25 2_ 14.5 76 3365 4.3 — 685 41 3540 2.5 215 890
F 25 2_ 16.6 66 3500 3.9 — 720 36 3540 2.1 245 950
F 25 2_ 18.6 59 3540 3.5 70 755 32 3540 1.9 300 1000
F 25 2_ 21.8 50 3540 3.0 95 820 27.5 3540 1.6 330 1075
F 25 2_ 23.8 46 3540 2.7 120 850 25.3 3540 1.5 355 1115
F 25 2_ 27.2 40 3540 2.4 140 910 22.1 3540 1.3 370 1185
F 25 2_ 30.0 37 3540 2.2 175 950 20.0 3540 1.2 405 1235
F 25 2_ 32.2 34 3540 2.0 175 985 18.6 3540 1.1 405 1275
F 25 2_ 36.4 30 3540 1.8 220 1040 16.5 3540 0.97 450 1345
F 25 2_ 40.7 27.0 3320 1.5 300 1115 14.7 3320 0.82 450 1430
F 25 2_ 44.4 24.8 3410 1.4 280 1150 13.5 3410 0.77 450 1465
F 25 3_ 45.6 24.1 3540 1.5 490 1120 13.2 3540 0.80 495 1445
F 25 3_ 50.8 21.7 3540 1.3 495 1175 11.8 3540 0.71 495 1465
F 25 3_ 58.3 18.9 3540 1.1 495 1250 10.3 3540 0.62 495 1465
F 25 3_ 65.3 16.8 3540 1.0 495 1310 9.2 3540 0.55 495 1465
F 25 3_ 76.6 14.4 3540 0.87 495 1405 7.8 3540 0.47 495 1465
F 25 3_ 83.4 13.2 3540 0.80 495 1455 7.2 3540 0.43 495 1465
F 25 3_ 95.5 11.5 3540 0.70 495 1465 6.3 3540 0.38 495 1465
F 25 3_ 105.4 10.4 3540 0.63 495 1465 5.7 3540 0.34 495 1465
F 25 3_ 113.0 9.7 3540 0.59 495 1465 5.3 3540 0.32 495 1465
F 25 3_ 127.8 8.6 3540 0.52 495 1465 4.7 3540 0.28 495 1465
F 25 3_ 143.0 7.7 3540 0.46 495 1465 4.2 3540 0.25 495 1465
F 25 3_ 155.9 7.1 3540 0.43 495 1465 3.8 3540 0.23 495 1465
F 25 3_ 174.2 6.3 3540 0.38 495 1465 3.4 3540 0.21 495 1465
F 25 3_ 193.6 5.7 3540 0.34 495 1465 3.1 3540 0.19 495 1465
F 25 3_ 227.8 4.8 3540 0.29 495 1465 2.6 3540 0.16 495 1465
F 25 3_ 256.1 4.3 3540 0.26 495 1465 2.3 3540 0.14 495 1465
F 25 3_ 288.1 3.8 3540 0.23 495 1465 2.1 3540 0.13 495 1465
F 25 3_ 333.1 3.3 3540 0.20 495 1465 1.8 3540 0.11 495 1465
F 25 4_ 393.9 2.8 3540 0.17 295 1465 1.5 3540 0.09 295 1465
F 25 4_ 434.9 2.5 3540 0.16 295 1465 1.4 3540 0.09 295 1465
F 25 4_ 466.0 2.4 3540 0.15 295 1465 1.3 3540 0.08 295 1465
F 25 4_ 527.3 2.1 3540 0.13 295 1465 1.1 3540 0.07 295 1465
F 25 4_ 589.7 1.9 3540 0.12 295 1465 1.0 3540 0.06 295 1465
F 25 4_ 643.3 1.7 3540 0.11 295 1465 0.93 3540 0.06 295 1465
F 25 4_ 718.7 1.5 3540 0.09 295 1465 0.83 3540 0.05 295 1465
F 25 4_ 798.5 1.4 3540 0.09 295 1465 0.75 3540 0.05 295 1465
F 25 4_ 939.8 1.2 3540 0.07 295 1465 0.64 3540 0.04 295 1465
F 25 4_ 1057 1.0 3540 0.06 295 1465 0.57 3540 0.04 295 1465
F 25 4_ 1189 0.93 3540 0.06 295 1465 0.50 3540 0.03 295 1465
F 25 4_ 1374 0.80 3540 0.05 295 1465 0.44 3540 0.03 295 1465
70
F 31 5,300 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 31 2_ 6.9 504 2615 22 — 610 252 3190 13.4 — 780
F 31 2_ 8.2 425 2745 19.5 — 650 213 3320 11.8 — 830
F 31 2_ 9.0 388 2745 17.8 — 675 194 3410 11.1 90 860
F 31 2_ 10.7 326 3985 21.7 — 630 163 4650 12.6 115 830
F 31 2_ 12.7 275 4205 19.3 — 665 138 4915 11.3 115 875
F 31 2_ 13.9 251 4205 17.6 70 700 125 5045 10.6 150 905
F 31 2_ 16.8 208 4205 14.6 115 770 104 5270 9.2 155 970
F 31 2_ 18.5 189 4205 13.3 165 805 95 5310 8.4 205 1015
F 31 2_ 21.1 166 4205 11.6 190 865 83 5310 7.4 235 1085
F 31 2_ 23.4 150 4205 10.5 230 905 75 5310 6.6 290 1140
F 31 2_ 27.3 128 4205 9.0 250 975 64 5310 5.7 315 1230
F 31 2_ 30.1 116 4205 8.2 290 1025 58 5310 5.2 360 1285
F 31 2_ 34.4 102 4205 7.2 300 1085 51 5310 4.5 375 1365
F 31 2_ 37.7 93 4205 6.5 325 1135 46 5310 4.1 405 1425
F 31 2_ 40.4 87 4205 6.1 325 1170 43 5310 3.8 405 1465
F 31 2_ 44.6 78 4205 5.5 350 1225 39 5310 3.5 435 1465
F 31 3_ 47.5 74 4205 5.3 475 1235 37 5135 3.2 495 1465
F 31 3_ 52.1 67 4295 4.9 480 1280 34 5310 3.0 495 1465
F 31 3_ 62.8 56 4560 4.3 480 1360 27.9 5310 2.5 495 1465
F 31 3_ 69.1 51 4695 4.1 480 1405 25.3 5310 2.3 495 1465
F 31 3_ 78.9 44 4870 3.7 480 1465 22.2 5310 2.0 495 1465
F 31 3_ 87.4 40 5045 3.4 480 1465 20.0 5310 1.8 495 1465
F 31 3_ 101.9 34 5270 3.1 480 1465 17.2 5310 1.6 495 1465
F 31 3_ 112.5 31 5310 2.8 480 1465 15.6 5310 1.4 495 1465
F 31 3_ 128.4 27.3 5310 2.5 485 1465 13.6 5310 1.2 495 1465
F 31 3_ 140.7 24.9 5310 2.3 485 1465 12.4 5310 1.1 495 1465
F 31 3_ 150.8 23.2 5310 2.1 485 1465 11.6 5310 1.1 495 1465
F 31 3_ 166.8 21.0 5310 1.9 485 1465 10.5 5310 0.95 495 1465
F 31 3_ 185.4 18.9 5310 1.7 490 1465 9.4 5310 0.85 495 1465
F 31 3_ 202.3 17.3 5310 1.6 490 1465 8.7 5310 0.78 495 1465
F 31 3_ 228.2 15.3 5310 1.4 490 1465 7.7 5310 0.69 495 1465
F 31 3_ 253.6 13.8 5310 1.3 490 1465 6.9 5310 0.63 495 1465
F 31 3_ 293.8 11.9 5310 1.1 490 1465 6.0 5310 0.54 495 1465
F 31 3_ 332.8 10.5 5310 0.95 490 1465 5.3 5310 0.48 495 1465
F 31 3_ 374.4 9.3 5310 0.85 490 1465 4.7 5310 0.42 495 1465
F 31 4_ 418.9 8.4 5310 0.77 280 1465 4.2 5310 0.39 295 1465
F 31 4_ 462.6 7.6 5310 0.70 285 1465 3.8 5310 0.35 295 1465
F 31 4_ 527.8 6.6 5310 0.61 290 1465 3.3 5310 0.31 295 1465
F 31 4_ 578.6 6.0 5310 0.56 290 1465 3.0 5310 0.28 295 1465
F 31 4_ 619.9 5.6 5310 0.52 295 1465 2.8 5310 0.26 295 1465
F 31 4_ 685.6 5.1 5310 0.47 295 1465 2.6 5310 0.24 295 1465
F 31 4_ 762.3 4.6 5310 0.43 295 1465 2.3 5310 0.21 295 1465
F 31 4_ 831.6 4.2 5310 0.39 295 1465 2.1 5310 0.19 295 1465
F 31 4_ 938.2 3.7 5310 0.35 295 1465 1.9 5310 0.17 295 1465
F 31 4_ 1042 3.4 5310 0.31 295 1465 1.7 5310 0.16 295 1465
F 31 4_ 1208 2.9 5310 0.27 295 1465 1.4 5310 0.13 295 1465
F 31 4_ 1368 2.6 5310 0.24 295 1465 1.3 5310 0.12 295 1465
F 31 4_ 1539 2.3 5310 0.21 295 1465 1.1 5310 0.11 295 1465
71
F 31 5,300 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 31 2_ 6.9 158 3455 9.1 145 930 86 3455 5.0 495 1205
F 31 2_ 8.2 134 3455 7.7 225 1005 73 3455 4.2 495 1295
F 31 2_ 9.0 122 3455 7.0 300 1045 67 3455 3.8 495 1345
F 31 2_ 10.7 102 5310 9.1 155 965 56 5310 5.0 495 1285
F 31 2_ 12.7 86 5310 7.7 230 1050 47 5310 4.2 495 1390
F 31 2_ 13.9 79 5310 7.0 305 1100 43 5310 3.8 495 1450
F 31 2_ 16.8 65 5310 5.8 370 1205 36 5310 3.2 495 1465
F 31 2_ 18.5 59 5310 5.3 435 1255 32 5310 2.9 495 1465
F 31 2_ 21.1 52 5310 4.6 460 1340 28.4 5310 2.5 495 1465
F 31 2_ 23.4 47 5310 4.2 495 1405 25.7 5310 2.3 495 1465
F 31 2_ 27.3 40 5310 3.6 495 1465 22.0 5310 2.0 495 1465
F 31 2_ 30.1 37 5310 3.2 495 1465 19.9 5310 1.8 495 1465
F 31 2_ 34.4 32 5310 2.8 495 1465 17.5 5310 1.5 495 1465
F 31 2_ 37.7 29.2 5310 2.6 495 1465 15.9 5310 1.4 495 1465
F 31 2_ 40.4 27.3 5310 2.4 495 1465 14.9 5310 1.3 495 1465
F 31 2_ 44.6 24.6 5310 2.2 495 1465 13.4 5310 1.2 495 1465
F 31 3_ 47.5 23.1 5310 2.1 495 1465 12.6 5310 1.1 495 1465
F 31 3_ 52.1 21.1 5310 1.9 495 1465 11.5 5310 1.0 495 1465
F 31 3_ 62.8 17.5 5310 1.6 495 1465 9.6 5310 0.87 495 1465
F 31 3_ 69.1 15.9 5310 1.4 495 1465 8.7 5310 0.79 495 1465
F 31 3_ 78.9 13.9 5310 1.3 495 1465 7.6 5310 0.69 495 1465
F 31 3_ 87.4 12.6 5310 1.1 495 1465 6.9 5310 0.62 495 1465
F 31 3_ 101.9 10.8 5310 0.98 495 1465 5.9 5310 0.53 495 1465
F 31 3_ 112.5 9.8 5310 0.89 495 1465 5.3 5310 0.48 495 1465
F 31 3_ 128.4 8.6 5310 0.78 495 1465 4.7 5310 0.42 495 1465
F 31 3_ 140.7 7.8 5310 0.71 495 1465 4.3 5310 0.39 495 1465
F 31 3_ 150.8 7.3 5310 0.66 495 1465 4.0 5310 0.36 495 1465
F 31 3_ 166.8 6.6 5310 0.60 495 1465 3.6 5310 0.33 495 1465
F 31 3_ 185.4 5.9 5310 0.54 495 1465 3.2 5310 0.29 495 1465
F 31 3_ 202.3 5.4 5310 0.49 495 1465 3.0 5310 0.27 495 1465
F 31 3_ 228.2 4.8 5310 0.44 495 1465 2.6 5310 0.24 495 1465
F 31 3_ 253.6 4.3 5310 0.39 495 1465 2.4 5310 0.21 495 1465
F 31 3_ 293.8 3.7 5310 0.34 495 1465 2.0 5310 0.18 495 1465
F 31 3_ 332.8 3.3 5310 0.30 495 1465 1.8 5310 0.16 495 1465
F 31 3_ 374.4 2.9 5310 0.27 495 1465 1.6 5310 0.15 495 1465
F 31 4_ 418.9 2.6 5310 0.24 295 1465 1.4 5310 0.13 295 1465
F 31 4_ 462.6 2.4 5310 0.22 295 1465 1.3 5310 0.12 295 1465
F 31 4_ 527.8 2.1 5310 0.19 295 1465 1.1 5310 0.11 295 1465
F 31 4_ 578.6 1.9 5310 0.18 295 1465 1.0 5310 0.10 295 1465
F 31 4_ 619.9 1.8 5310 0.16 295 1465 0.97 5310 0.09 295 1465
F 31 4_ 685.6 1.6 5310 0.15 295 1465 0.88 5310 0.08 295 1465
F 31 4_ 762.3 1.4 5310 0.13 295 1465 0.79 5310 0.07 295 1465
F 31 4_ 831.6 1.3 5310 0.12 295 1465 0.72 5310 0.07 295 1465
F 31 4_ 938.2 1.2 5310 0.11 295 1465 0.64 5310 0.06 295 1465
F 31 4_ 1042 1.1 5310 0.10 295 1465 0.58 5310 0.05 295 1465
F 31 4_ 1208 0.91 5310 0.08 295 1465 0.50 5310 0.05 295 1465
F 31 4_ 1368 0.80 5310 0.07 295 1465 0.44 5310 0.04 295 1465
F 31 4_ 1539 0.71 5310 0.07 295 1465 0.39 5310 0.04 295 1465
72
F 41 9,735 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 41 2_ 6.7 520 4075 35 — 770 260 5135 22 — 965
F 41 2_ 9.1 383 4560 29 — 845 192 5755 18 — 1065
F 41 2_ 10.8 325 6330 34 — 745 162 7965 22 — 940
F 41 2_ 14.6 239 7125 29 — 815 120 8985 18.0 — 1030
F 41 2_ 17.1 204 7390 25 — 870 102 9340 15.9 — 1095
F 41 2_ 18.9 185 7615 24 95 900 93 9605 14.9 115 1135
F 41 2_ 24.1 145 7745 18.8 150 1025 73 9735 11.8 190 1290
F 41 2_ 30.1 116 7745 15.0 225 1155 58 9735 9.4 285 1455
F 41 2_ 38.2 92 7745 11.9 285 1310 46 9735 7.5 360 1650
F 41 2_ 47.9 73 7525 9.2 380 1485 37 9470 5.8 480 1875
F 41 3_ 51.5 68 7790 9.0 685 1520 34 9605 5.6 790 1915
F 41 3_ 60.2 58 8235 8.2 685 1600 29.0 9735 4.8 790 1915
F 41 3_ 66.5 53 8675 7.8 685 1640 26.3 9735 4.4 790 1915
F 41 3_ 84.9 41 9430 6.6 685 1775 20.6 9735 3.4 790 1915
F 41 3_ 106.0 33 9735 5.5 685 1915 16.5 9735 2.7 790 1915
F 41 3_ 134.4 26.0 9735 4.3 690 1915 13.0 9735 2.2 790 1915
F 41 3_ 168.7 20.7 9735 3.4 695 1915 10.4 9735 1.7 790 1915
F 41 3_ 180.7 19.4 9735 3.2 695 1915 9.7 9735 1.6 790 1915
F 41 3_ 198.9 17.6 9735 2.9 695 1915 8.8 9735 1.5 790 1915
F 41 3_ 220.1 15.9 9735 2.6 695 1915 7.9 9735 1.3 790 1915
F 41 3_ 240.1 14.6 9735 2.4 695 1915 7.3 9735 1.2 790 1915
F 41 3_ 266.9 13.1 9735 2.2 695 1915 6.6 9735 1.1 790 1915
F 41 3_ 296.6 11.8 9735 2.0 695 1915 5.9 9735 0.98 790 1915
F 41 3_ 344.8 10.2 9735 1.7 700 1915 5.1 9735 0.84 790 1915
F 41 4_ 433.7 8.1 9735 1.4 335 1915 4.0 9735 0.68 430 1915
F 41 4_ 549.8 6.4 9735 1.1 345 1915 3.2 9735 0.54 440 1915
F 41 4_ 690.1 5.1 9735 0.86 350 1915 2.5 9735 0.43 445 1915
F 41 4_ 739.4 4.7 9735 0.80 350 1915 2.4 9735 0.40 450 1915
F 41 4_ 813.8 4.3 9735 0.73 355 1915 2.2 9735 0.37 450 1915
F 41 4_ 900.5 3.9 9735 0.66 355 1915 1.9 9735 0.33 450 1915
F 41 4_ 982.4 3.6 9735 0.60 355 1915 1.8 9735 0.30 450 1915
F 41 4_ 1092 3.2 9735 0.54 360 1915 1.6 9735 0.27 455 1915
F 41 4_ 1213 2.9 9735 0.49 360 1915 1.4 9735 0.24 455 1915
F 41 4_ 1411 2.5 9735 0.42 360 1915 1.2 9735 0.21 455 1915
73
F 41 9,735 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 41 2_ 6.7 164 5930 16.2 — 1120 89 6195 9.2 400 1450
F 41 2_ 9.1 120 6195 12.5 155 1275 66 6195 6.8 645 1670
F 41 2_ 10.8 102 9075 15.5 110 1105 56 9735 9.1 440 1460
F 41 2_ 14.6 75 9735 12.2 195 1250 41 9735 6.7 685 1710
F 41 2_ 17.1 64 9735 10.4 280 1365 35 9735 5.7 765 1850
F 41 2_ 18.9 58 9735 9.5 400 1440 32 9735 5.2 790 1915
F 41 2_ 24.1 46 9735 7.4 500 1635 24.9 9735 4.0 790 1915
F 41 2_ 30.1 37 9735 5.9 595 1830 19.9 9735 3.2 790 1915
F 41 2_ 38.2 28.8 9735 4.7 670 1915 15.7 9735 2.6 790 1915
F 41 2_ 47.9 23.0 9470 3.6 785 1915 12.5 9470 2.0 790 1915
F 41 3_ 51.5 21.4 9735 3.5 790 1915 11.7 9735 1.9 790 1915
F 41 3_ 60.2 18.3 9735 3.0 790 1915 10.0 9735 1.7 790 1915
F 41 3_ 66.5 16.5 9735 2.7 790 1915 9.0 9735 1.5 790 1915
F 41 3_ 84.9 13.0 9735 2.2 790 1915 7.1 9735 1.2 790 1915
F 41 3_ 106.0 10.4 9735 1.7 790 1915 5.7 9735 0.94 790 1915
F 41 3_ 134.4 8.2 9735 1.4 790 1915 4.5 9735 0.74 790 1915
F 41 3_ 168.7 6.5 9735 1.1 790 1915 3.6 9735 0.59 790 1915
F 41 3_ 180.7 6.1 9735 1.0 790 1915 3.3 9735 0.55 790 1915
F 41 3_ 198.9 5.5 9735 0.92 790 1915 3.0 9735 0.50 790 1915
F 41 3_ 220.1 5.0 9735 0.83 790 1915 2.7 9735 0.45 790 1915
F 41 3_ 240.1 4.6 9735 0.76 790 1915 2.5 9735 0.41 790 1915
F 41 3_ 266.9 4.1 9735 0.68 790 1915 2.2 9735 0.37 790 1915
F 41 3_ 296.6 3.7 9735 0.62 790 1915 2.0 9735 0.34 790 1915
F 41 3_ 344.8 3.2 9735 0.53 790 1915 1.7 9735 0.29 790 1915
F 41 4_ 433.7 2.5 9735 0.43 495 1915 1.4 9735 0.23 495 1915
F 41 4_ 549.8 2.0 9735 0.34 495 1915 1.1 9735 0.19 495 1915
F 41 4_ 690.1 1.6 9735 0.27 495 1915 0.87 9735 0.15 495 1915
F 41 4_ 739.4 1.5 9735 0.25 495 1915 0.81 9735 0.14 495 1915
F 41 4_ 813.8 1.4 9735 0.23 495 1915 0.74 9735 0.13 495 1915
F 41 4_ 900.5 1.2 9735 0.21 495 1915 0.67 9735 0.11 495 1915
F 41 4_ 982.4 1.1 9735 0.19 495 1915 0.61 9735 0.10 495 1915
F 41 4_ 1092 1.0 9735 0.17 495 1915 0.55 9735 0.09 495 1915
F 41 4_ 1213 0.91 9735 0.15 495 1915 0.49 9735 0.08 495 1915
F 41 4_ 1411 0.78 9735 0.13 495 1915 0.43 9735 0.07 495 1915
74
F 51 15,930 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 51 2_ 7.2 487 6860 56 225 940 243 8630 35 325 1185
F 51 2_ 9.1 387 7745 50 205 990 193 9735 31 300 1250
F 51 2_ 11.1 315 9340 49 330 1020 158 11775 31 455 1285
F 51 2_ 14.0 250 9960 42 360 1110 125 12570 26 485 1395
F 51 2_ 18.8 186 10845 34 375 1235 93 13675 21 505 1555
F 51 2_ 23.8 147 11595 29 385 1340 74 14605 17.9 515 1695
F 51 2_ 30.0 117 11950 23 400 1490 58 15045 14.6 525 1875
F 51 2_ 37.1 94 11950 18.8 430 1655 47 15045 11.8 545 2085
F 51 3_ 48.9 72 13320 16.3 585 1755 36 15930 9.7 745 2275
F 51 3_ 65.8 53 14605 13.2 590 1945 26.6 15930 7.2 760 2610
F 51 3_ 83.2 42 15665 11.2 595 2110 21.0 15930 5.7 775 2700
F 51 3_ 105.1 33 15930 9.1 600 2340 16.7 15930 4.5 780 2700
F 51 3_ 129.9 26.9 15930 7.3 605 2610 13.5 15930 3.7 785 2700
F 51 3_ 165.6 21.1 15930 5.7 610 2700 10.6 15930 2.9 790 2700
F 51 3_ 202.4 17.3 15930 4.7 610 2700 8.6 15930 2.3 790 2700
F 51 3_ 216.9 16.1 15930 4.4 610 2700 8.1 15930 2.2 790 2700
F 51 3_ 239.8 14.6 15930 4.0 615 2700 7.3 15930 2.0 790 2700
F 51 3_ 262.1 13.4 15930 3.6 615 2700 6.7 15930 1.8 790 2700
F 51 3_ 285.9 12.2 15930 3.3 615 2700 6.1 15930 1.7 790 2700
F 51 3_ 317.3 11.0 15930 3.0 620 2700 5.5 15930 1.5 790 2700
F 51 3_ 352.5 9.9 15930 2.7 620 2700 5.0 15930 1.3 790 2700
F 51 4_ 429.1 8.2 15930 2.3 435 2700 4.1 15930 1.1 495 2700
F 51 4_ 530.5 6.6 15930 1.8 445 2700 3.3 15930 0.92 495 2700
F 51 4_ 676.3 5.2 15930 1.4 455 2700 2.6 15930 0.72 495 2700
F 51 4_ 826.4 4.2 15930 1.2 460 2700 2.1 15930 0.59 495 2700
F 51 4_ 885.5 4.0 15930 1.1 465 2700 2.0 15930 0.55 495 2700
F 51 4_ 979.4 3.6 15930 1.0 465 2700 1.8 15930 0.50 495 2700
F 51 4_ 1070 3.3 15930 0.91 470 2700 1.6 15930 0.45 495 2700
F 51 4_ 1168 3.0 15930 0.83 470 2700 1.5 15930 0.42 495 2700
F 51 4_ 1296 2.7 15930 0.75 470 2700 1.4 15930 0.38 495 2700
F 51 4_ 1439 2.4 15930 0.68 475 2700 1.2 15930 0.34 495 2700
75
F 51 15,930 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 51 2_ 7.2 153 9735 25 440 1390 83 9735 13.6 720 1830
F 51 2_ 9.1 122 9735 19.8 555 1555 66 9735 10.8 775 2030
F 51 2_ 11.1 99 13455 22 555 1500 54 15045 13.6 720 1910
F 51 2_ 14.0 79 14340 18.8 575 1630 43 15045 10.8 775 2140
F 51 2_ 18.8 58 15045 14.7 605 1855 32 15045 8.0 790 2455
F 51 2_ 23.8 46 15045 11.6 650 2080 25 15045 6.3 790 2700
F 51 2_ 30.0 37 15045 9.2 670 2320 20.0 15045 5.0 790 2700
F 51 2_ 37.1 30 15045 7.4 685 2565 16.2 15045 4.1 790 2700
F 51 3_ 48.9 22.5 15930 6.1 790 2700 12.3 15930 3.3 790 2700
F 51 3_ 65.8 16.7 15930 4.5 790 2700 9.1 15930 2.5 790 2700
F 51 3_ 83.2 13.2 15930 3.6 790 2700 7.2 15930 2.0 790 2700
F 51 3_ 105.1 10.5 15930 2.8 790 2700 5.7 15930 1.6 790 2700
F 51 3_ 129.9 8.5 15930 2.3 790 2700 4.6 15930 1.3 790 2700
F 51 3_ 165.6 6.6 15930 1.8 790 2700 3.6 15930 0.98 790 2700
F 51 3_ 202.4 5.4 15930 1.5 790 2700 3.0 15930 0.81 790 2700
F 51 3_ 216.9 5.1 15930 1.4 790 2700 2.8 15930 0.75 790 2700
F 51 3_ 239.8 4.6 15930 1.2 790 2700 2.5 15930 0.68 790 2700
F 51 3_ 262.1 4.2 15930 1.1 790 2700 2.3 15930 0.62 790 2700
F 51 3_ 285.9 3.8 15930 1.0 790 2700 2.1 15930 0.57 790 2700
F 51 3_ 317.3 3.5 15930 0.94 790 2700 1.9 15930 0.51 790 2700
F 51 3_ 352.5 3.1 15930 0.85 790 2700 1.7 15930 0.46 790 2700
F 51 4_ 429.1 2.6 15930 0.71 495 2700 1.4 15930 0.39 495 2700
F 51 4_ 530.5 2.1 15930 0.58 495 2700 1.1 15930 0.31 495 2700
F 51 4_ 676.3 1.6 15930 0.45 495 2700 0.89 15930 0.25 495 2700
F 51 4_ 826.4 1.3 15930 0.37 495 2700 0.73 15930 0.20 495 2700
F 51 4_ 885.5 1.2 15930 0.35 495 2700 0.68 15930 0.19 495 2700
F 51 4_ 979.4 1.1 15930 0.31 495 2700 0.61 15930 0.17 495 2700
F 51 4_ 1070 1.0 15930 0.29 495 2700 0.56 15930 0.16 495 2700
F 51 4_ 1168 0.94 15930 0.26 495 2700 0.51 15930 0.14 495 2700
F 51 4_ 1296 0.85 15930 0.24 495 2700 0.46 15930 0.13 495 2700
F 51 4_ 1439 0.76 15930 0.21 495 2700 0.42 15930 0.12 495 2700
76
F 60 25,670 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 60 3_ 9.0 389 8150 54 — 2985 194 10270 34 — 3720
F 60 3_ 9.7 361 8850 54 — 3065 180 11070 34 — 3760
F 60 3_ 11.8 297 9120 46 — 3275 148 11510 29 — 4015
F 60 3_ 12.7 276 9830 46 — 3310 138 12390 29 — 4055
F 60 3_ 14.5 241 9830 40 — 3475 121 12390 26 — 4260
F 60 3_ 15.7 223 10620 40 — 3515 111 13280 25 — 4310
F 60 3_ 19.1 183 10620 33 — 3780 92 13280 21 — 4500
F 60 3_ 20.7 169 11510 33 — 3815 85 14520 21 — 4500
F 60 3_ 23.5 149 11160 28 — 4030 74 14080 18 — 4500
F 60 3_ 25.4 138 12130 29 — 4070 69 15230 18 — 4500
F 60 3_ 29.6 118 24340 49 185 3580 59 25670 26 595 4500
F 60 3_ 32.1 109 24780 46 290 3645 55 25670 24 735 4500
F 60 3_ 38.8 90 25670 40 285 3930 45 25670 19.8 785 4500
F 60 3_ 42.1 83 25670 36 410 4030 42 25670 18.2 840 4500
F 60 3_ 47.8 73 25670 32 400 4285 37 25670 16.0 840 4500
F 60 3_ 51.8 68 25670 30 515 4395 34 25670 14.8 865 4500
F 60 3_ 63.0 56 25670 24 520 4500 27.8 25670 12.2 870 4500
F 60 3_ 68.3 51 25670 22 630 4500 25.6 25670 11.2 890 4500
F 60 3_ 77.6 45 25670 19.8 590 4500 22.6 25670 9.9 885 4500
F 60 3_ 84.0 42 25670 18.2 670 4500 20.8 25670 9.1 905 4500
F 60 3_ 98.2 36 25670 15.6 655 4500 17.8 25670 7.8 895 4500
F 60 3_ 106.4 33 25670 14.4 680 4500 16.4 25670 7.2 915 4500
F 60 3_ 120.5 29.0 25670 12.7 670 4500 14.5 25670 6.4 910 4500
F 60 3_ 130.5 26.8 25670 11.7 690 4500 13.4 25670 5.9 925 4500
F 60 3_ 150.4 23.3 25670 10.2 680 4500 11.6 25670 5.1 915 4500
F 60 3_ 162.9 21.5 25670 9.4 695 4500 10.7 25670 4.7 935 4500
F 60 3_ 185.9 18.8 25670 8.2 690 4500 9.4 25670 4.1 925 4500
F 60 3_ 201.4 17.4 25670 7.6 705 4500 8.7 25670 3.8 940 4500
F 60 3_ 217.6 16.1 25670 7.0 695 4500 8.0 25670 3.5 930 4500
F 60 3_ 235.8 14.8 25670 6.5 710 4500 7.4 25670 3.3 945 4500
F 60 3_ 259.1 13.5 25670 5.9 695 4500 6.8 25670 3.0 930 4500
F 60 3_ 280.7 12.5 25670 5.5 710 4500 6.2 25670 2.7 945 4500
F 60 4_ 315.4 11.1 25670 5.0 790 4500 5.5 25670 2.5 790 4500
F 60 4_ 341.7 10.2 25670 4.6 790 4500 5.1 25670 2.3 790 4500
F 60 4_ 399.3 8.8 25670 3.9 790 4500 4.4 25670 2.0 790 4500
F 60 4_ 432.6 8.1 25670 3.6 790 4500 4.0 25670 1.8 790 4500
F 60 4_ 489.8 7.1 25670 3.2 790 4500 3.6 25670 1.6 790 4500
F 60 4_ 530.7 6.6 25670 3.0 790 4500 3.3 25670 1.5 790 4500
F 60 4_ 611.4 5.7 25670 2.6 790 4500 2.9 25670 1.3 790 4500
F 60 4_ 662.4 5.3 25670 2.4 790 4500 2.6 25670 1.2 790 4500
F 60 4_ 756.0 4.6 25670 2.1 790 4500 2.3 25670 1.0 790 4500
F 60 4_ 819.0 4.3 25670 1.9 790 4500 2.1 25670 0.96 790 4500
F 60 4_ 885.1 4.0 25670 1.8 790 4500 2.0 25670 0.88 790 4500
F 60 4_ 958.9 3.7 25670 1.6 790 4500 1.8 25670 0.82 790 4500
F 60 4_ 1054 3.3 25670 1.5 790 4500 1.7 25670 0.74 790 4500
F 60 4_ 1141 3.1 25670 1.4 790 4500 1.5 25670 0.69 790 4500
77
F 60 25,670 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 60 3_ 9.0 122 11860 25 — 4240 67 14430 16.4 — 4500
F 60 3_ 9.7 113 12930 25 — 4275 62 15760 16.6 — 4500
F 60 3_ 11.8 93 13280 21 — 4500 51 16200 14.1 — 4500
F 60 3_ 12.7 87 14340 21 — 4500 47 16820 13.6 135 4500
F 60 3_ 14.5 76 14340 18.6 — 4500 41 16820 11.9 115 4500
F 60 3_ 15.7 70 15490 18.5 — 4500 38 16820 11.0 370 4500
F 60 3_ 19.1 58 15490 15.2 — 4500 31 16820 9.0 375 4500
F 60 3_ 20.7 53 16820 15.2 — 4500 29 16820 8.3 610 4500
F 60 3_ 23.5 47 16290 13.0 — 4500 26 16820 7.3 530 4500
F 60 3_ 25.4 43 16820 12.4 140 4500 24 16820 6.8 750 4500
F 60 3_ 29.6 37 25670 16.3 950 4500 20 25670 8.9 1060 4500
F 60 3_ 32.1 34 25670 15.0 980 4500 19 25670 8.2 1060 4500
F 60 3_ 38.8 28.4 25670 12.4 995 4500 15 25670 6.8 1060 4500
F 60 3_ 42.1 26.1 25670 11.4 1020 4500 14 25670 6.2 1060 4500
F 60 3_ 47.8 23.0 25670 10.1 1020 4500 13 25670 5.5 1060 4500
F 60 3_ 51.8 21.2 25670 9.3 1045 4500 12 25670 5.1 1060 4500
F 60 3_ 63.0 17.5 25670 7.6 1050 4500 9.5 25670 4.2 1060 4500
F 60 3_ 68.3 16.1 25670 7.1 1060 4500 8.8 25670 3.8 1060 4500
F 60 3_ 77.6 14.2 25670 6.2 1060 4500 7.7 25670 3.4 1060 4500
F 60 3_ 84.0 13.1 25670 5.7 1060 4500 7.1 25670 3.1 1060 4500
F 60 3_ 98.2 11.2 25670 4.9 1060 4500 6.1 25670 2.7 1060 4500
F 60 3_ 106.4 10.3 25670 4.5 1060 4500 5.6 25670 2.5 1060 4500
F 60 3_ 120.5 9.1 25670 4.0 1060 4500 5.0 25670 2.2 1060 4500
F 60 3_ 130.5 8.4 25670 3.7 1060 4500 4.6 25670 2.0 1060 4500
F 60 3_ 150.4 7.3 25670 3.2 1060 4500 4.0 25670 1.7 1060 4500
F 60 3_ 162.9 6.8 25670 3.0 1060 4500 3.7 25670 1.6 1060 4500
F 60 3_ 185.9 5.9 25670 2.6 1060 4500 3.2 25670 1.4 1060 4500
F 60 3_ 201.4 5.5 25670 2.4 1060 4500 3.0 25670 1.3 1060 4500
F 60 3_ 217.6 5.1 25670 2.2 1060 4500 2.8 25670 1.2 1060 4500
F 60 3_ 235.8 4.7 25670 2.0 1060 4500 2.5 25670 1.1 1060 4500
F 60 3_ 259.1 4.2 25670 1.9 1060 4500 2.3 25670 1.0 1060 4500
F 60 3_ 280.7 3.9 25670 1.7 1060 4500 2.1 25670 0.94 1060 4500
F 60 4_ 315.4 3.5 25670 1.6 790 4500 1.9 25670 0.85 790 4500
F 60 4_ 341.7 3.2 25670 1.4 790 4500 1.8 25670 0.79 790 4500
F 60 4_ 399.3 2.8 25670 1.2 790 4500 1.5 25670 0.67 790 4500
F 60 4_ 432.6 2.5 25670 1.1 790 4500 1.4 25670 0.62 790 4500
F 60 4_ 489.8 2.2 25670 1.0 790 4500 1.2 25670 0.55 790 4500
F 60 4_ 530.7 2.1 25670 0.93 790 4500 1.1 25670 0.51 790 4500
F 60 4_ 611.4 1.8 25670 0.81 790 4500 0.98 25670 0.44 790 4500
F 60 4_ 662.4 1.7 25670 0.74 790 4500 0.91 25670 0.41 790 4500
F 60 4_ 756.0 1.5 25670 0.65 790 4500 0.79 25670 0.36 790 4500
F 60 4_ 819.0 1.3 25670 0.60 790 4500 0.73 25670 0.33 790 4500
F 60 4_ 885.1 1.2 25670 0.56 790 4500 0.68 25670 0.30 790 4500
F 60 4_ 958.9 1.1 25670 0.51 790 4500 0.63 25670 0.28 790 4500
F 60 4_ 1054 1.0 25670 0.47 790 4500 0.57 25670 0.25 790 4500
F 60 4_ 1141 0.96 25670 0.43 790 4500 0.53 25670 0.24 790 4500
78
F 70 44,250 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 70 3_ 10.0 350 23010 137 320 3325 175 28320 85 395 4090
F 70 3_ 10.9 321 24780 136 340 3310 161 30540 84 415 4075
F 70 3_ 12.8 273 25670 120 195 3535 137 31860 74 200 4335
F 70 3_ 13.9 252 27880 120 185 3505 126 34520 74 200 4300
F 70 3_ 16.3 215 28770 105 130 3740 107 35400 65 160 4605
F 70 3_ 17.7 198 31420 106 100 3690 99 38500 65 145 4550
F 70 3_ 20.9 167 30540 87 160 4045 84 35400 51 470 5095
F 70 3_ 22.6 155 33190 88 145 4005 77 38500 51 455 5055
F 70 3_ 24.6 142 31420 76 130 4285 71 35400 43 565 5440
F 70 3_ 27.7 126 33190 72 1140 4410 63 41160 44 1445 5410
F 70 3_ 30.0 117 35850 71 1145 4375 58 44250 44 1445 5375
F 70 3_ 35.4 99 36730 62 1140 4695 49 44250 37 1450 5830
F 70 3_ 38.4 91 39830 62 1140 4645 46 44250 34 1475 5970
F 70 3_ 45.2 77 40710 54 1145 4990 39 44250 29 1485 6445
F 70 3_ 49.0 71 40710 50 1165 5110 36 44250 27 1505 6595
F 70 3_ 57.7 61 44250 46 1145 5345 30 44250 23 1505 7100
F 70 3_ 62.5 56 44250 42 1165 5470 28.0 44250 21 1520 7265
F 70 3_ 67.9 52 44250 39 1150 5725 25.8 44250 19.5 1510 7565
F 70 3_ 73.6 48 44250 36 1170 5865 23.8 44250 18.0 1530 7740
F 70 3_ 85.4 41 44250 31 1170 6295 20.5 44250 15.5 1525 7870
F 70 3_ 92.5 38 44250 29 1185 6445 18.9 44250 14.3 1545 7870
F 70 3_ 101.2 35 44250 26 1175 6740 17.3 44250 13.1 1535 7870
F 70 3_ 109.6 32 44250 24 1190 6895 16.0 44250 12.1 1550 7870
F 70 3_ 122.7 28.5 44250 22 1185 7275 14.3 44250 10.8 1540 7870
F 70 3_ 133.0 26.3 44250 19.9 1200 7445 13.2 44250 9.9 1560 7870
F 70 3_ 153.8 22.8 44250 17.2 1190 7870 11.4 44250 8.6 1550 7870
F 70 3_ 166.7 21.0 44250 15.9 1205 7870 10.5 44250 7.9 1565 7870
F 70 3_ 180.9 19.3 44250 14.6 1195 7870 9.7 44250 7.3 1555 7870
F 70 3_ 196.0 17.9 44250 13.5 1210 7870 8.9 44250 6.7 1570 7870
F 70 4_ 216.5 16.2 44250 12.5 480 7870 8.1 44250 6.2 645 7870
F 70 4_ 234.6 14.9 44250 11.5 480 7870 7.5 44250 5.8 645 7870
F 70 4_ 280.9 12.5 44250 9.6 495 7870 6.2 44250 4.8 665 7870
F 70 4_ 304.3 11.5 44250 8.9 495 7870 5.8 44250 4.4 665 7870
F 70 4_ 372.5 9.4 44250 7.2 510 7870 4.7 44250 3.6 675 7870
F 70 4_ 403.5 8.7 44250 6.7 510 7870 4.3 44250 3.3 675 7870
F 70 4_ 471.2 7.4 44250 5.7 520 7870 3.7 44250 2.9 685 7870
F 70 4_ 510.4 6.9 44250 5.3 520 7870 3.4 44250 2.6 685 7870
F 70 4_ 606.8 5.8 44250 4.5 530 7870 2.9 44250 2.2 695 7870
F 70 4_ 657.4 5.3 44250 4.1 530 7870 2.7 44250 2.1 695 7870
F 70 4_ 759.0 4.6 44250 3.6 535 7870 2.3 44250 1.8 695 7870
F 70 4_ 822.2 4.3 44250 3.3 535 7870 2.1 44250 1.6 695 7870
F 70 4_ 899.4 3.9 44250 3.0 535 7870 1.9 44250 1.5 700 7870
F 70 4_ 974.4 3.6 44250 2.8 535 7870 1.8 44250 1.4 700 7870
F 70 4_ 1091 3.2 44250 2.5 540 7870 1.6 44250 1.2 705 7870
F 70 4_ 1182 3.0 44250 2.3 540 7870 1.5 44250 1.1 705 7870
F 70 4_ 1368 2.6 44250 2.0 540 7870 1.3 44250 0.99 705 7870
F 70 4_ 1481 2.4 44250 1.8 540 7870 1.2 44250 0.91 705 7870
F 70 4_ 1585 2.2 44250 1.7 545 7870 1.1 44250 0.85 710 7870
F 70 4_ 1717 2.0 44250 1.6 545 7870 1.0 44250 0.79 710 7870
F 70 4_ 2019 1.7 44250 1.3 545 7870 0.9 44250 0.67 710 7870
F 70 4_ 2188 1.6 44250 1.2 545 7870 0.8 44250 0.62 710 7870
79
F 70 44,250 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 70 3_ 10.0 110 28320 53 1095 4870 60 28320 29 1575 6075
F 70 3_ 10.9 101 30540 53 1120 4875 55 30540 29 1575 6110
F 70 3_ 12.8 86 34080 50 575 5065 47 31860 25 1575 6370
F 70 3_ 13.9 79 37170 50 540 5025 43 34520 25 1575 6360
F 70 3_ 16.3 67 35400 41 865 5515 37 35400 22 1575 6910
F 70 3_ 17.7 62 38500 41 845 5485 34 38500 22 1575 6915
F 70 3_ 20.9 53 35400 32 1175 6065 28.7 35400 17.3 1575 7565
F 70 3_ 22.6 49 38500 32 1155 6050 26.5 38500 17.4 1575 7590
F 70 3_ 24.6 45 35400 27 1270 6455 24.4 35400 14.7 1575 7870
F 70 3_ 27.7 40 44250 30 1575 6315 21.7 41160 15.2 1575 7870
F 70 3_ 30.0 37 44250 28 1575 6465 20.0 44250 15.1 1575 7870
F 70 3_ 35.4 31 44250 23 1575 6975 16.9 44250 12.8 1575 7870
F 70 3_ 38.4 28.6 44250 22 1575 7140 15.6 44250 11.8 1575 7870
F 70 3_ 45.2 24.3 44250 18.4 1575 7665 13.3 44250 10.0 1575 7870
F 70 3_ 49.0 22.4 44250 16.9 1575 7845 12.2 44250 9.2 1575 7870
F 70 3_ 57.7 19.1 44250 14.4 1575 7870 10.4 44250 7.9 1575 7870
F 70 3_ 62.5 17.6 44250 13.3 1575 7870 9.6 44250 7.2 1575 7870
F 70 3_ 67.9 16.2 44250 12.2 1575 7870 8.8 44250 6.7 1575 7870
F 70 3_ 73.6 14.9 44250 11.3 1575 7870 8.2 44250 6.2 1575 7870
F 70 3_ 85.4 12.9 44250 9.7 1575 7870 7.0 44250 5.3 1575 7870
F 70 3_ 92.5 11.9 44250 9.0 1575 7870 6.5 44250 4.9 1575 7870
F 70 3_ 101.2 10.9 44250 8.2 1575 7870 5.9 44250 4.5 1575 7870
F 70 3_ 109.6 10.0 44250 7.6 1575 7870 5.5 44250 4.1 1575 7870
F 70 3_ 122.7 9.0 44250 6.8 1575 7870 4.9 44250 3.7 1575 7870
F 70 3_ 133.0 8.3 44250 6.2 1575 7870 4.5 44250 3.4 1575 7870
F 70 3_ 153.8 7.2 44250 5.4 1575 7870 3.9 44250 2.9 1575 7870
F 70 3_ 166.7 6.6 44250 5.0 1575 7870 3.6 44250 2.7 1575 7870
F 70 3_ 180.9 6.1 44250 4.6 1575 7870 3.3 44250 2.5 1575 7870
F 70 3_ 196.0 5.6 44250 4.2 1575 7870 3.1 44250 2.3 1575 7870
F 70 4_ 216.5 5.1 44250 3.9 775 7870 2.8 44250 2.1 790 7870
F 70 4_ 234.6 4.7 44250 3.6 775 7870 2.6 44250 2.0 790 7870
F 70 4_ 280.9 3.9 44250 3.0 790 7870 2.1 44250 1.6 790 7870
F 70 4_ 304.3 3.6 44250 2.8 790 7870 2.0 44250 1.5 790 7870
F 70 4_ 372.5 3.0 44250 2.3 790 7870 1.6 44250 1.2 790 7870
F 70 4_ 403.5 2.7 44250 2.1 790 7870 1.5 44250 1.1 790 7870
F 70 4_ 471.2 2.3 44250 1.8 790 7870 1.3 44250 0.98 790 7870
F 70 4_ 510.4 2.2 44250 1.7 790 7870 1.2 44250 0.91 790 7870
F 70 4_ 606.8 1.8 44250 1.4 790 7870 0.99 44250 0.76 790 7870
F 70 4_ 657.4 1.7 44250 1.3 790 7870 0.91 44250 0.70 790 7870
F 70 4_ 759.0 1.4 44250 1.1 790 7870 0.79 44250 0.61 790 7870
F 70 4_ 822.2 1.3 44250 1.0 790 7870 0.73 44250 0.56 790 7870
F 70 4_ 899.4 1.2 44250 0.94 790 7870 0.67 44250 0.51 790 7870
F 70 4_ 974.4 1.1 44250 0.87 790 7870 0.62 44250 0.48 790 7870
F 70 4_ 1091 1.0 44250 0.78 790 7870 0.55 44250 0.42 790 7870
F 70 4_ 1182 0.93 44250 0.72 790 7870 0.51 44250 0.39 790 7870
F 70 4_ 1368 0.80 44250 0.62 790 7870 0.44 44250 0.34 790 7870
F 70 4_ 1481 0.74 44250 0.57 790 7870 0.41 44250 0.31 790 7870
F 70 4_ 1585 0.69 44250 0.54 790 7870 0.38 44250 0.29 790 7870
F 70 4_ 1717 0.64 44250 0.49 790 7870 0.35 44250 0.27 790 7870
F 70 4_ 2019 0.54 44250 0.42 790 7870 0.30 44250 0.23 790 7870
F 70 4_ 2188 0.50 44250 0.39 790 7870 0.27 44250 0.21 790 7870
80
F 80 70,800 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 80 3_ 10.3 340 28770 167 140 3880 170 36290 105 50 4890
F 80 3_ 11.2 313 31160 166 140 3995 156 39300 105 55 4875
F 80 3_ 12.9 271 31510 146 155 4245 136 39650 92 80 5190
F 80 3_ 14.0 250 34080 145 160 4235 125 43020 92 70 5165
F 80 3_ 16.2 216 33280 123 175 4570 108 41950 77 100 5585
F 80 3_ 17.6 199 35400 120 165 4555 99 45490 77 95 5560
F 80 3_ 20.3 172 35940 106 180 4875 86 45320 67 100 5955
F 80 3_ 22.0 159 38940 106 180 4860 80 49030 67 110 5935
F 80 3_ 25.2 139 37440 89 160 5240 69 47180 56 85 6405
F 80 3_ 28.8 122 57970 120 1035 4610 61 70800 73 1325 5700
F 80 3_ 31.3 112 62840 120 1035 4500 56 70800 68 1360 5845
F 80 3_ 36.0 97 64170 106 1030 4825 49 70800 59 1375 6315
F 80 3_ 39.0 90 59300 91 1100 5175 45 70800 54 1405 6475
F 80 3_ 45.3 77 69920 92 1000 5115 39 70800 47 1405 7000
F 80 3_ 49.1 71 70800 86 1070 5205 36 70800 43 1430 7170
F 80 3_ 56.7 62 70800 75 1075 5655 31 70800 37 1440 7705
F 80 3_ 61.5 57 70800 69 1100 5800 28.5 70800 34 1465 7890
F 80 3_ 70.4 50 70800 60 1095 6250 24.9 70800 30 1455 8425
F 80 3_ 76.3 46 70800 55 1115 6405 22.9 70800 28 1475 8625
F 80 3_ 85.2 41 70800 50 1115 6810 20.5 70800 25 1475 9100
F 80 3_ 92.3 38 70800 46 1135 6980 19.0 70800 23 1495 9320
F 80 3_ 105.0 33 70800 40 1125 7455 16.7 70800 20 1490 9885
F 80 3_ 113.8 31 70800 37 1145 7635 15.4 70800 18.6 1510 10120
F 80 3_ 122.5 28.6 70800 35 1130 7955 14.3 70800 17.3 1495 10120
F 80 3_ 132.7 26.4 70800 32 1150 8145 13.2 70800 15.9 1515 10120
F 80 3_ 147.9 23.7 70800 29 1140 8595 11.8 70800 14.3 1500 10120
F 80 3_ 160.2 21.8 70800 26 1160 8800 10.9 70800 13.2 1520 10120
F 80 3_ 184.6 19.0 70800 23 1145 9395 9.5 70800 11.5 1510 10120
F 80 3_ 200.0 17.5 70800 21 1165 9620 8.8 70800 10.6 1525 10120
F 80 4_ 218.5 16.0 70800 19.8 230 10120 8.0 70800 9.9 540 10120
F 80 4_ 273.9 12.8 70800 15.8 335 10120 6.4 70800 7.9 605 10120
F 80 4_ 296.7 11.8 70800 14.6 335 10120 5.9 70800 7.3 605 10120
F 80 4_ 353.7 9.9 70800 12.2 420 10120 4.9 70800 6.1 625 10120
F 80 4_ 383.2 9.1 70800 11.3 420 10120 4.6 70800 5.6 625 10120
F 80 4_ 451.5 7.8 70800 9.6 460 10120 3.9 70800 4.8 635 10120
F 80 4_ 489.1 7.2 70800 8.8 460 10120 3.6 70800 4.4 635 10120
F 80 4_ 563.9 6.2 70800 7.7 480 10120 3.1 70800 3.8 645 10120
F 80 4_ 610.9 5.7 70800 7.1 480 10120 2.9 70800 3.5 645 10120
F 80 4_ 714.9 4.9 70800 6.0 490 10120 2.4 70800 3.0 650 10120
F 80 4_ 774.4 4.5 70800 5.6 490 10120 2.3 70800 2.8 650 10120
F 80 4_ 897.3 3.9 70800 4.8 495 10120 2.0 70800 2.4 660 10120
F 80 4_ 972.0 3.6 70800 4.4 495 10120 1.8 70800 2.2 660 10120
F 80 4_ 1058 3.3 70800 4.1 500 10120 1.7 70800 2.0 665 10120
F 80 4_ 1146 3.1 70800 3.8 500 10120 1.5 70800 1.9 665 10120
F 80 4_ 1277 2.7 70800 3.4 505 10120 1.4 70800 1.7 670 10120
F 80 4_ 1384 2.5 70800 3.1 505 10120 1.3 70800 1.6 670 10120
F 80 4_ 1578 2.2 70800 2.7 505 10120 1.1 70800 1.4 670 10120
F 80 4_ 1709 2.0 70800 2.5 505 10120 1.0 70800 1.3 670 10120
F 80 4_ 1834 1.9 70800 2.4 510 10120 0.95 70800 1.2 670 10120
F 80 4_ 1987 1.8 70800 2.2 510 10120 0.88 70800 1.1 670 10120
81
F 80 70,800 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 80 3_ 10.3 107 41950 76 — 5560 58 51070 51 — 6590
F 80 3_ 11.2 98 45490 76 — 5540 54 55320 51 — 6560
F 80 3_ 12.9 85 46020 67 — 5895 47 55940 44 — 6985
F 80 3_ 14.0 79 49740 67 — 5870 43 60180 44 — 6965
F 80 3_ 16.2 68 48590 56 — 6345 37 55320 35 350 7685
F 80 3_ 17.6 63 52750 56 — 6315 34 60180 35 320 6755
F 80 3_ 20.3 54 52490 49 — 6765 29.6 55320 28 835 8380
F 80 3_ 22.0 50 56820 48 — 6740 27.3 60180 28 810 8370
F 80 3_ 25.2 44 54650 41 — 7275 23.8 55320 22 1050 9095
F 80 3_ 28.8 38 70800 46 1575 6965 20.8 70800 25 1575 8910
F 80 3_ 31.3 35 70800 42 1575 7140 19.2 70800 23 1575 9120
F 80 3_ 36.0 31 70800 37 1575 7660 16.7 70800 20 1575 9730
F 80 3_ 39.0 28.2 70800 34 1575 7845 15.4 70800 18.6 1575 9960
F 80 3_ 45.3 24.3 70800 29 1575 8430 13.2 70800 16.0 1575 10120
F 80 3_ 49.1 22.4 70800 27 1575 8635 12.2 70800 14.8 1575 10120
F 80 3_ 56.7 19.4 70800 23 1575 9230 10.6 70800 12.8 1575 10120
F 80 3_ 61.5 17.9 70800 22 1575 9450 9.8 70800 11.8 1575 10120
F 80 3_ 70.4 15.6 70800 18.9 1575 10050 8.5 70800 10.3 1575 10120
F 80 3_ 76.3 14.4 70800 17.4 1575 10120 7.9 70800 9.5 1575 10120
F 80 3_ 85.2 12.9 70800 15.6 1575 10120 7.0 70800 8.5 1575 10120
F 80 3_ 92.3 11.9 70800 14.4 1575 10120 6.5 70800 7.9 1575 10120
F 80 3_ 105.0 10.5 70800 12.7 1575 10120 5.7 70800 6.9 1575 10120
F 80 3_ 113.8 9.7 70800 11.7 1575 10120 5.3 70800 6.4 1575 10120
F 80 3_ 122.5 9.0 70800 10.8 1575 10120 4.9 70800 5.9 1575 10120
F 80 3_ 132.7 8.3 70800 10.0 1575 10120 4.5 70800 5.5 1575 10120
F 80 3_ 147.9 7.4 70800 9.0 1575 10120 4.1 70800 4.9 1575 10120
F 80 3_ 160.2 6.9 70800 8.3 1575 10120 3.7 70800 4.5 1575 10120
F 80 3_ 184.6 6.0 70800 7.2 1575 10120 3.3 70800 3.9 1575 10120
F 80 3_ 200.0 5.5 70800 6.6 1575 10120 3.0 70800 3.6 1575 10120
F 80 4_ 218.5 5.0 70800 6.2 705 10120 2.7 70800 3.4 790 10120
F 80 4_ 273.9 4.0 70800 5.0 730 10120 2.2 70800 2.7 790 10120
F 80 4_ 296.7 3.7 70800 4.6 730 10120 2.0 70800 2.5 790 10120
F 80 4_ 353.7 3.1 70800 3.8 750 10120 1.7 70800 2.1 790 10120
F 80 4_ 383.2 2.9 70800 3.5 750 10120 1.6 70800 1.9 790 10120
F 80 4_ 451.5 2.4 70800 3.0 760 10120 1.3 70800 1.6 790 10120
F 80 4_ 489.1 2.2 70800 2.8 760 10120 1.2 70800 1.5 790 10120
F 80 4_ 563.9 2.0 70800 2.4 770 10120 1.1 70800 1.3 790 10120
F 80 4_ 610.9 1.8 70800 2.2 770 10120 0.98 70800 1.2 790 10120
F 80 4_ 714.9 1.5 70800 1.9 780 10120 0.84 70800 1.0 790 10120
F 80 4_ 774.4 1.4 70800 1.8 780 10120 0.77 70800 0.96 790 10120
F 80 4_ 897.3 1.2 70800 1.5 785 10120 0.67 70800 0.83 790 10120
F 80 4_ 972.0 1.1 70800 1.4 785 10120 0.62 70800 0.76 790 10120
F 80 4_ 1058 1.0 70800 1.3 790 10120 0.57 70800 0.70 790 10120
F 80 4_ 1146 0.96 70800 1.2 790 10120 0.52 70800 0.65 790 10120
F 80 4_ 1277 0.86 70800 1.1 790 10120 0.47 70800 0.58 790 10120
F 80 4_ 1384 0.79 70800 0.98 790 10120 0.43 70800 0.54 790 10120
F 80 4_ 1578 0.70 70800 0.86 790 10120 0.38 70800 0.47 790 10120
F 80 4_ 1709 0.64 70800 0.79 790 10120 0.35 70800 0.43 790 10120
F 80 4_ 1834 0.60 70800 0.74 790 10120 0.33 70800 0.40 790 10120
F 80 4_ 1987 0.55 70800 0.68 790 10120 0.30 70800 0.37 790 10120
82
F 90 123,900 Ib·in
i
(ratio)
n1 = 3500 ��� n1 = 1750 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 90 3_ 10.3 340 57530 334 1235 5350 170 70800 205 1800 6585
F 90 3_ 11.1 315 63280 340 1190 5240 158 77880 209 1750 6450
F 90 3_ 13.4 261 66820 298 1100 5610 131 82310 183 1640 6905
F 90 3_ 14.5 241 71690 295 1125 5545 121 88500 182 1665 6815
F 90 3_ 16.5 212 74340 269 1025 5840 106 91160 165 1565 7205
F 90 3_ 17.9 196 79210 264 1030 5780 98 97350 162 1615 7120
F 90 3_ 20.6 170 81420 236 895 6155 85 100010 145 1410 7585
F 90 3_ 22.3 157 86290 231 965 6100 78 106200 142 1485 7510
F 90 3_ 25.4 138 88950 209 815 6460 69 106200 125 1420 8090
F 90 3_ 28.6 122 86290 180 2205 6940 61 106200 111 2790 8545
F 90 3_ 31.0 113 93370 180 2205 6815 56 115050 111 2790 8385
F 90 3_ 37.4 94 96910 155 2210 7380 47 119480 95 2795 9080
F 90 3_ 40.5 86 105320 155 2210 7205 43 123900 91 2815 9120
F 90 3_ 46.1 76 106650 138 2215 7710 38 123900 80 2825 9800
F 90 3_ 49.9 70 115500 138 2215 7525 35 123900 74 2860 10045
F 90 3_ 57.3 61 115500 120 2210 8165 31 123900 65 2855 10815
F 90 3_ 62.1 56 123900 119 2210 8010 28.2 123900 60 2885 11075
F 90 3_ 70.8 49 123900 104 2210 8660 24.7 123900 52 2885 11845
F 90 3_ 76.7 46 123900 96 2240 8880 22.8 123900 48 2915 12130
F 90 3_ 88.4 40 123900 84 2235 9620 19.8 123900 42 2910 12365
F 90 3_ 95.8 37 123900 77 2260 9860 18.3 123900 39 2935 12365
F 90 3_ 103.3 34 123900 72 2240 10325 16.9 123900 36 2915 12365
F 90 3_ 111.9 31 123900 66 2270 10580 15.6 123900 33 2945 12365
F 90 3_ 126.8 27.6 123900 58 2255 11300 13.8 123900 29 2930 12365
F 90 3_ 137.3 25.5 123900 54 2280 11575 12.7 123900 27 2955 12365
F 90 3_ 150.3 23.3 123900 49 2270 12150 11.6 123900 25 2945 12365
F 90 3_ 162.8 21.5 123900 45 2300 12365 10.7 123900 23 2970 12365
F 90 3_ 179.2 19.5 123900 41 2290 12365 9.8 123900 21 2945 12365
F 90 3_ 194.2 18.0 123900 38 2300 12365 9.0 123900 19.0 2970 12365
F 90 4_ 213.6 16.4 123900 35 — 12365 8.2 123900 17.7 — 12365
F 90 4_ 231.4 15.1 123900 33 — 12365 7.6 123900 16.3 — 12365
F 90 4_ 268.7 13.0 123900 28 — 12365 6.5 123900 14.1 95 12365
F 90 4_ 291.1 12.0 123900 26 — 12365 6.0 123900 13.0 95 12365
F 90 4_ 361.8 9.7 123900 21 — 12365 4.8 123900 10.4 225 12365
F 90 4_ 392.0 8.9 123900 19.3 — 12365 4.5 123900 9.6 225 12365
F 90 4_ 457.5 7.7 123900 16.5 — 12365 3.8 123900 8.3 315 12365
F 90 4_ 495.6 7.1 123900 15.3 — 12365 3.5 123900 7.6 315 12365
F 90 4_ 577.5 6.1 123900 13.1 — 12365 3.0 123900 6.5 360 12365
F 90 4_ 625.6 5.6 123900 12.1 — 12365 2.8 123900 6.0 360 12365
F 90 4_ 714.0 4.9 123900 10.6 — 12365 2.5 123900 5.3 405 12365
F 90 4_ 773.4 4.5 123900 9.8 — 12365 2.3 123900 4.9 405 12365
F 90 4_ 910.2 3.8 123900 8.3 — 12365 1.9 123900 4.2 455 12365
F 90 4_ 986.0 3.5 123900 7.7 — 12365 1.8 123900 3.8 455 12365
F 90 4_ 1112 3.1 123900 6.8 — 12365 1.6 123900 3.4 475 12365
F 90 4_ 1205 2.9 123900 6.3 — 12365 1.5 123900 3.1 475 12365
F 90 4_ 1318 2.7 123900 5.7 — 12365 1.3 123900 2.9 500 12365
F 90 4_ 1428 2.5 123900 5.3 — 12365 1.2 123900 2.6 500 12365
F 90 4_ 1571 2.2 123900 4.8 — 12365 1.1 123900 2.4 510 12365
F 90 4_ 1702 2.1 123900 4.4 — 12365 1.0 123900 2.2 510 12365
F 90 4_ 1937 1.8 123900 3.9 — 12365 0.90 123900 2.0 520 12365
F 90 4_ 2099 1.7 123900 3.6 — 12365 0.83 123900 1.8 520 12365
83
F 90 123,900 Ib·in
i
(ratio)
n1 = 1100 ��� n1 = 600 ���
n2 Tn2 Pn1 Rn1 Rn2 n2 Tn2 Pn1 Rn1 Rn2
����� [Ib·in] [hp] [Ib] [Ib] ����� [Ib·in] [hp] [Ib] [Ib]
F 90 3_ 10.3 107 80980 148 2255 7510 58 84960 84 3375 9420
F 90 3_ 11.1 99 88950 150 2200 7360 54 92040 85 3375 9360
F 90 3_ 13.4 82 93810 131 2085 7890 45 110630 85 2865 9465
F 90 3_ 14.5 76 100890 131 2115 7785 41 119920 85 2860 9305
F 90 3_ 16.5 67 103990 118 2000 8230 36 108860 68 3280 10440
F 90 3_ 17.9 61 111070 116 2055 8135 34 116380 67 3335 10380
F 90 3_ 20.6 53 107970 98 2050 8915 29.1 107970 54 3375 11475
F 90 3_ 22.3 49 116820 98 2055 8765 26.9 116820 54 3375 11390
F 90 3_ 25.4 43 106200 78 2345 9855 23.6 106200 43 3375 12365
F 90 3_ 28.6 38 121250 80 3240 9760 21.0 123900 44 3375 12365
F 90 3_ 31.0 35 123900 75 3270 9890 19.4 123900 41 3375 12365
F 90 3_ 37.4 29.4 123900 62 3295 10880 16.0 123900 34 3375 12365
F 90 3_ 40.5 27.2 123900 57 3335 11145 14.8 123900 31 3375 12365
F 90 3_ 46.1 23.9 123900 50 3345 11910 13.0 123900 28 3375 12365
F 90 3_ 49.9 22.0 123900 47 3375 12195 12.0 123900 25 3375 12365
F 90 3_ 57.3 19.2 123900 41 3370 12365 10.5 123900 22 3375 12365
F 90 3_ 62.1 17.7 123900 37 3375 12365 9.7 123900 20 3375 12365
F 90 3_ 70.8 15.5 123900 33 3375 12365 8.5 123900 17.9 3375 12365
F 90 3_ 76.7 14.3 123900 30 3375 12365 7.8 123900 16.5 3375 12365
F 90 3_ 88.4 12.4 123900 26 3375 12365 6.8 123900 14.3 3375 12365
F 90 3_ 95.8 11.5 123900 24 3375 12365 6.3 123900 13.2 3375 12365
F 90 3_ 103.3 10.6 123900 23 3375 12365 5.8 123900 12.3 3375 12365
F 90 3_ 111.9 9.8 123900 21 3375 12365 5.4 123900 11.3 3375 12365
F 90 3_ 126.8 8.7 123900 18.3 3375 12365 4.7 123900 10.0 3375 12365
F 90 3_ 137.3 8.0 123900 16.9 3375 12365 4.4 123900 9.2 3375 12365
F 90 3_ 150.3 7.3 123900 15.5 3375 12365 4.0 123900 8.4 3375 12365
F 90 3_ 162.8 6.8 123900 14.3 3375 12365 3.7 123900 7.8 3375 12365
F 90 3_ 179.2 6.1 123900 13.0 3375 12365 3.3 123900 7.1 3375 12365
F 90 3_ 194.2 5.7 123900 12.0 3375 12365 3.1 123900 6.5 3375 12365
F 90 4_ 213.6 5.1 123900 11.1 185 12365 2.8 123900 6.1 530 12365
F 90 4_ 231.4 4.8 123900 10.3 185 12365 2.6 123900 5.6 530 12365
F 90 4_ 268.7 4.1 123900 8.8 315 12365 2.2 123900 4.8 660 12365
F 90 4_ 291.1 3.8 123900 8.2 315 12365 2.1 123900 4.5 660 12365
F 90 4_ 361.8 3.0 123900 6.6 445 12365 1.7 123900 3.6 765 12365
F 90 4_ 392.0 2.8 123900 6.1 445 12365 1.5 123900 3.3 765 12365
F 90 4_ 457.5 2.4 123900 5.2 535 12365 1.3 123900 2.8 785 12365
F 90 4_ 495.6 2.2 123900 4.8 535 12365 1.2 123900 2.6 785 12365
F 90 4_ 577.5 1.9 123900 4.1 580 12365 1.0 123900 2.2 790 12365
F 90 4_ 625.6 1.8 123900 3.8 580 12365 0.96 123900 2.1 790 12365
F 90 4_ 714.0 1.5 123900 3.3 625 12365 0.84 123900 1.8 790 12365
F 90 4_ 773.4 1.4 123900 3.1 625 12365 0.78 123900 1.7 790 12365
F 90 4_ 910.2 1.2 123900 2.6 640 12365 0.66 123900 1.4 790 12365
F 90 4_ 986.0 1.1 123900 2.4 640 12365 0.61 123900 1.3 790 12365
F 90 4_ 1112 0.99 123900 2.1 645 12365 0.54 123900 1.2 790 12365
F 90 4_ 1205 0.91 123900 2.0 645 12365 0.50 123900 1.1 790 12365
F 90 4_ 1318 0.83 123900 1.8 650 12365 0.46 123900 0.98 790 12365
F 90 4_ 1428 0.77 123900 1.7 650 12365 0.42 123900 0.91 790 12365
F 90 4_ 1571 0.70 123900 1.5 655 12365 0.38 123900 0.83 790 12365
F 90 4_ 1702 0.65 123900 1.4 655 12365 0.35 123900 0.76 790 12365
F 90 4_ 1937 0.57 123900 1.2 655 12365 0.31 123900 0.67 790 12365
F 90 4_ 2099 0.52 123900 1.1 655 12365 0.29 123900 0.62 790 12365
84
2.13 MOTOR AVAILABILITY
��������������� ����������� ������� � � �������:DT;.�
:D8(;�� ��:D88;����������������������������� �����-
�����������������-�U�� ������� ��������������������
procedure described at chapter 1.8, based on torque/hp
���� �-�*��� ��� ��������� ���������������������� ����-
ckets are not possible.
(B9)
(IM B5)
P63
P71
P80
P90
P100
P112P132 P160 P180 P200 P225 P250
F 10 2
i =
7.4_127.1 7.4_91.5 7.4_91.5
F 20 28.7_132.2
(14.8_18.1)6.4_114.3 6.4_114.3
F 20 3 156.3_545.3 156.3_545.3 156.3_545.3
F 25 29.4_44.4
(10.6_13.0)6.9_44.4 6.9_44.4
F 25 3 50.8_333.1 45.6_288.1 45.6_288.1
F 25 4 393.9_1374 393.9_1374 393.9_1374
F 31 2 18.5_44.6 6.9_44.6 6.9_44.6
F 31 3 69.1_374.4 47.5_374.4 47.5_374.4
F 31 4 418.9_1539 418.9_1539 418.9_1539
F 41 2 24.1_47.9 6.7_47.9 6.7_47.9 6.7_47.9
F 41 3 84.9_344.8 51.5_344.8 51.5_344.8 51.5_168.7
F 41 4 433.7_1411 433.7_1411 433.7_1411
F 51 2 30.0_37.1 7.2_37.1 7.2_37.1 7.2_37.1 7.2_37.1 7.2_37.1
F 51 3 105.1_352.5 48.9_352.5 48.9_352.5 48.9_202.4 48.9_202.4 48.9_202.4
F 51 4 429.1_1439 429.1_1439 429.1_1439
F 60 3 98.2_280.711.8_280.7
(29.6_32.1)
11.8_280.7
(29.6_32.1)9.0_201.4 9.0_201.4 9.0_201.4
F 60 4 315.4_1141 315.4_1141 315.4_1141
F 70 3 85.4_196.0 85.4_196.016.3_196.0
(27.7_38.4)10.0_196.0 10.0_196.0
10.0_49.0
(20.9_24.6)
F 70 4 372.5_2188 216.5_2188 216.5_2188 216.5_822.2
F 80 3 105.0_200.0 105.0_200.020.3_200
(28.8_49.1)
12.9_200
(28.8_31.3)10.3_200.0 10.3_132.7 10.3_132.7
F 80 4 451.5_1987 218.5_1987 218.5_1987 218.5_972
F 90 3 126.8_194.2 126.8_194.225.4_194.2
(28.6_62.1)
20.6_194.2
(28.6_40.5)10.3_194.2 10.3_162.8 10.3_162.8 10.3_162.8
F 90 4 577.5_2099 213.6_2099 213.6_2099 213.6_1205 213.6_1205 213.6_1205
85
Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
HP 0.16...1 1.5...2 3...5 7.5...10 15...20 25...30 40...50
F 10 2
i =
7.4_127.1 7.4_91.5 7.4_91.5
F 20 28.7_132.2
(14.8-18.1)6.4_114.3 6.4_114.3
F 20 3 156.3_545.3 156.3_545.3 156.3_545.3
F 25 29.4_44.4
(10.6-13.0)6.9_44.4 6.9_44.4
F 25 3 50.8_333.1 45.6_288.1 45.6_288.1
F 25 4 393.9_1374 393.9_1374 393.9_1374
F 31 2 18.5_44.6 6.9_44.6 6.9_44.6
F 31 3 69.1_374.4 47.5_374.4 47.5_374.4
F 31 4 418.9_1539 418.9_1539 418.9_1539
F 41 2 24.1_47.9 6.7_47.9 6.7_47.9 6.7_47.9
F 41 3 84.9_344.8 51.5_344.8 51.5_344.8 51.5_168.7
F 41 4 433.7_1411 433.7_1411 433.7_1411
F 51 2 30.0-37.1 7.2_37.1 7.2_37.1 7.2_37.1 7.2_37.1 7.2_37.1
F 51 3 105.1_352.5 48.9_352.5 48.9_352.5 48.9_202.4 48.9_202.4 48.9_202.4
F 51 4 429.1_1439 429.1_1439 429.1_1439
F 60 3 98.2_280.711.8_280.7
(29.6-32.1)
11.8_280.7
(29.6-32.1)9.0_201.4 9.0_201.4 9.0_201.4
F 60 4 315.4_1141 315.4_1141 315.4_1141
F 70 3 85.4_196.0 85.4_196.016.3_196.0
(27.7_38.4)10.0_196.0 10.0_196.0
F 70 4 372.5_2188 216.5_2188 216.5_2188 216.5_822.2
F 80 3 105.0_200.020.3_200.0
(28.8_49.1)
12.9_200.0
(28.8-31.3)10.3_200.0 10.3_132.7
F 80 4 451.5_1987 218.5_1987 218.5_1987 218.5_972.0
F 90 3 126.8_194.225.4_194.2
(28.6_62.1)
16.5_194.2
(28.6_40.5)10.3_194.2 10.3_162.8
F 90 4 577.5_2099 213.6_2099 213.6_2099 213.6_1205 213.6_1205 213.6_1205
(B10)
86
(B11)
Integral gearmotors
M05 M1 M2 M3 M4 M5
F 10 2
i =
7.4_127.1 7.4_71.1 7.4_91.5 7.4_91.5
F 20 28.7_132.2
(14.8_18.1)
8.7_90.4
(14.8_18.1)6.4_114.3 6.4_114.3
F 20 3 156.3_545.3 156.3_545.3 156.3_545.3 156.3_545.3
F 25 29.4_44.4
(10.6_13.0)
9.4_44.4
(10.6_13.0)6.9_44.4 6.9_44.4
F 25 3 50.8_333.1 50.8_227.8 45.6_288.1 45.6_288.1
F 25 4 393.9_1374 393.9_1374 393.9_1374 393.9_1374
F 31 2 18.5_44.6 6.9_44.6 6.9_44.6
F 31 3 69.1_293.8 47.5_374.4 47.5_374.4
F 31 4 418.9_1539 418.9_1539 418.9_1539 418.9_1539
F 41 2 24.1_47.9 6.7_47.9 6.7_47.9 6.7_47.9
F 41 3 84.9_344.8 51.5_344.8 51.5_344.8 51.5_168.7
F 41 4 433.7_1411 433.7_1411 433.7_1411 433.7_1411
F 51 2 30.0_37.1 7.2_37.1 7.2_37.1 7.2_37.1
F 51 3 105.1_352.5 48.9_352.5 48.9_352.5 48.9_202.4
F 51 4 429.1_1439 429.1_1439 429.1_1439
F 60 311.8_280.7
(29.6_32.1)
11.8_280.7
(29.6_32.1)9_201.4 9_201.4
F 60 4 315.4_1141 315.4_1141 315.4_1141 315.4_1141
F 70 3 85.4_196.0 85.4_196.016.3_196.0
(27.7_38.4)
16.3_196.0
(27.7_38.4)
F 70 4 372.5_2188 216.5_2188 216.5_2188 216.5_822.2
F 80 3 105.0_200.020.3_200.0
(28.8_49.1)
20.3_200.0
(28.8_49.1)
F 80 4 451.5_1987 218.5_1987 218.5_1987 218.5_972.0
F 90 3 126.8_194.225.4_194.2
(28.6_62.1)
25.4_194.2
(28.6_62.1)
F 90 4 213.6_2099 213.6_2099 213.6_1205
87
������������������ �������������������� �������� ���������� ������������ ������R��,�8(�X�,�M(-�%��� �� ��
����� ����� ����������� ���������� ���������� ������ ����������������R�-
�������E@������������� ������������ ���� � �� ���#�����.����������������������&��� �������E*��������� ����
�������������������������� ���� ���� �����-
SERVO INPUT
SK60A SK60B SK80A SK80B SK80C SK95A SK95B SK95C
SC60A SC60B SC80A SC80B SC80C SC95A SC95B SC95C
F 10 2
i =
7.4_127.1 7.4_71.1 7.4_71.1 7.4_91.5 7.4_71.1 7.4_91.5 7.4_91.5
F 20 28.7_132.2
(14.8_18.1)
8.7_90.4
(14.8_18.1)
8.7_90.4
(14.8_18.1)6.4_114.3
8.7_90.4
(14.8_18.1)6.4_114.3 6.4_114.3
F 20 3 156.3_545.3 156.3_545.3 156.3_545.3 156.3_545.3 156.3_545.3 156.3_545.3 156.3_545.3
F 25 29.4_44.4
(10.6_13.0)
9.4_44.4
(10.6_13.0)
9.4_44.4
(10.6_13.0)6.9_44.4
9.4_44.4
(10.6_13.0)6.9_44.4 6.9_44.4
F 25 3 45.6_333.1 45.6_227.8 45.6_227.8 45.6_288.1 45.6_227.8 45.6_288.1 45.6_288.1
F 25 4 393.9_1374 393.9_1374 393.9_1374 393.9_1374 393.9_1374 393.9_1374 393.9_1374
F 31 2 18.5_44.6 18.5_44.6 18.5_44.6 6.9_44.6 18.5_44.6 6.9_44.6 6.9_44.6
F 31 3 69.1_374.4 69.1_293.8 69.1_293.8 47.5_374.4 69.1_293.8 47.5_374.4 47.5_374.4
F 31 4 418.9_1539 418.9_1539 418.9_1539 418.9_1539 418.9_1539 418.9_1539 418.9_1539
F 41 2 24.1_47.9 6.7_47.9 24.1_47.9 6.7_47.9 6.7_47.9
F 41 3 84.9_344.8 51.5_344.8 84.9_344.8 51.5_344.8 51.5_344.8
F 41 4 433.7_1411 433.7_1411 433.7_1411 433.7_1411 433.7_1411 433.7_1411 433.7_1411
F 51 2 30.0_37.1 7.2_37.1 30.0_37.1 7.2_37.1 7.2_37.1
F 51 3 105.1_352.5 48.9_352.5 105.1_352.5 48.9_352.5 48.9_352.5
F 51 4 429.1_1439 429.1_1439 429.1_1439 429.1_1439 429.1_1439 429.1_1439 429.1_1439
F 60 311.8_280.7
(29.6_32.1)106.4_280.7
11.8_280.7
(29.6_32.1)
11.8_280.7
(29.6_32.1)
F 60 4 315.4_1141 315.4_1141 315.4_1141 315.4_1141 315.4_1141
SERVO INPUT
SK110A SK110B SK130A SK130B SK180A SK180B
SC110A SC110B SC130A SC130B SC180A SC180B
F 10 2
i =
7.4_91.5 7.4_91.5
F 20 2 6.4_114.3 6.4_114.3
F 20 3 156.3_545.3 156.3_545.3
F 25 2 6.9_44.4 6.9_44.4
F 25 3 45.6_288.1 45.6_288.1
F 25 4 393.9_1374 393.9_1374
F 31 2 6.9_44.6 6.9_44.6 6.9_44.6
F 31 3 47.5_374.4 47.5_374.4 47.5_374.4
F 31 4 418.9_1539 418.9_1539
F 41 2 6.7_47.9 6.7_47.9 6.7_47.9 6.7_47.9 6.7_47.9 6.7_47.9
F 41 3 51.5_344.8 51.5_344.8 51.5_344.8 51.5_168.7 51.5_168.7 51.5_168.7
F 41 4 433.7_1411 433.7_1411
F 51 2 7.2_37.1 7.2_37.1 7.2_37.1 7.2_37.1 7.2_37.1 7.2_37.1
F 51 3 48.9_352.5 48.9_352.5 48.9_352.5 48.9_202.4 48.9_202.4 48.9_202.4
F 51 4 429.1_1439 429.1_1439 429.1_1439
F 60 311.8_280.7
(29.6_32.1)
11.8_280.7
(29.6_32.1)
11.8_280.7
(29.6_32.1)9.0_201.4 9.0_201.4 9.0_201.4
F 60 4 315.4_1141 315.4_1141 315.4_1141
(B12a)
(B12b)
88
2.14 MASS MOMENT OF INERTIA
F 10
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 10 2_ 7.4 24 79 75 121 — — — — 40
F 10 2_ 8.6 18 74 70 116 — — — — 35
F 10 2_ 9.8 15 71 67 112 — — — — 31
F 10 2_ 14.6 14 70 66 112 — — — — 31
F 10 2_ 17.0 11 67 63 109 — — — — 28
F 10 2_ 11.5 11 67 63 109 — — — — 27
F 10 2_ 19.3 10 66 62 107 — — — — 26
F 10 2_ 13.0 8.9 65 61 106 — — — — 25
F 10 2_ 22.8 7.5 63 59 105 — — — — 24
F 10 2_ 25.8 5.9 62 58 103 — — — — 22
F 10 2_ 29.6 4.5 60 56 102 — — — — 21
F 10 2_ 33.0 3.8 60 56 101 — — — — 20
F 10 2_ 35.3 3.4 59 55 101 — — — — 20
F 10 2_ 39.6 2.9 59 55 100 — — — — 19
F 10 2_ 44.7 2.5 58 54 99 — — — — 19
F 10 2_ 48.7 2.1 58 54 99 — — — — 18
F 10 2_ 56.7 1.7 57 53 99 — — — — 18
F 10 2_ 63.0 1.4 57 53 98 — — — — 18
F 10 2_ 71.1 1.2 57 53 98 — — — — 17
F 10 2_ 81.3 1.0 56 52 98 — — — — 16
F 10 2_ 91.5 0.78 56 52 98 — — — — 16
F 10 2_ 106.0 0.62 56 — — — — — — 16
F 10 2_ 127.1 0.47 56 — — — — — — 15
89
F 20
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 20 2_ 6.4 52 — 103 148 — — — — 93
F 20 2_ 7.8 37 — 87 133 — — — — 77
F 20 2_ 8.7 31 86 82 127 — — — — 72
F 20 2_ 10.0 25 79 75 121 — — — — 65
F 20 2_ 11.2 21 75 71 117 — — — — 62
F 20 2_ 14.8 29 — 80 125 — — — — 70
F 20 2_ 18.1 21 — 72 117 — — — — 62
F 20 2_ 20.2 19 73 69 115 — — — — 59
F 20 2_ 23.1 15 70 66 111 — — — — 56
F 20 2_ 25.9 13 68 64 109 — — — — 54
F 20 2_ 30.4 10 64 60 106 — — — — 50
F 20 2_ 33.1 8.4 63 59 104 — — — — 49
F 20 2_ 37.9 7.1 62 58 103 — — — — 48
F 20 2_ 41.8 6.3 61 57 102 — — — — 47
F 20 2_ 44.8 5.8 60 56 102 — — — — 46
F 20 2_ 50.7 5.0 60 55 101 — — — — 46
F 20 2_ 56.7 4.3 59 55 100 — — — — 45
F 20 2_ 61.9 3.8 59 54 100 — — — — 44
F 20 2_ 69.1 3.3 58 54 99 — — — — 44
F 20 2_ 76.8 2.9 58 53 99 — — — — 43
F 20 2_ 90.4 2.4 57 53 98 — — — — 43
F 20 2_ 101.6 2.1 56 53 98 — — — — 43
F 20 2_ 114.3 1.9 56 52 98 — — — — 42
F 20 2_ 132.2 0.81 56 — — — — — — 42
F 20 3_ 156.3 0.94 57 52 98 — — — — 17
F 20 3_ 172.6 0.89 57 52 98 — — — — 17
F 20 3_ 184.9 0.86 57 52 98 — — — — 17
F 20 3_ 209.3 0.81 57 52 98 — — — — 17
F 20 3_ 234.0 0.78 57 52 98 — — — — 17
F 20 3_ 255.3 0.75 57 52 98 — — — — 17
F 20 3_ 285.2 0.73 56 52 98 — — — — 17
F 20 3_ 316.9 0.71 56 52 98 — — — — 17
F 20 3_ 372.9 0.68 56 52 98 — — — — 17
F 20 3_ 419.3 0.66 56 52 98 — — — — 16
F 20 3_ 471.7 0.65 56 52 98 — — — — 16
F 20 3_ 545.3 0.64 56 52 98 — — — — 16
90
F 25
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 25 2_ 6.9 64 — 114 160 — — — — 104
F 25 2_ 8.4 44 — 95 140 — — — — 85
F 25 2_ 9.4 37 92 88 133 — — — — 78
F 25 2_ 10.6 44 — 95 140 — — — — 85
F 25 2_ 13.0 31 — 82 127 — — — — 72
F 25 2_ 14.5 27 81 77 123 — — — — 67
F 25 2_ 16.6 21 76 72 117 — — — — 62
F 25 2_ 18.6 18 73 69 114 — — — — 59
F 25 2_ 21.8 13 68 64 109 — — — — 54
F 25 2_ 23.8 11 66 62 107 — — — — 52
F 25 2_ 27.2 9.4 64 60 105 — — — — 50
F 25 2_ 30.0 8.2 63 59 104 — — — — 49
F 25 2_ 32.2 7.4 62 58 103 — — — — 48
F 25 2_ 36.4 6.3 61 57 102 — — — — 47
F 25 2_ 40.7 5.3 60 56 101 — — — — 46
F 25 2_ 44.4 4.7 59 55 101 — — — — 45
F 25 3_ 45.6 19 — 69 115 — — — — 59
F 25 3_ 50.8 17 71 67 113 — — — — 57
F 25 3_ 58.3 14 68 64 110 — — — — 54
F 25 3_ 65.3 12 67 63 108 — — — — 53
F 25 3_ 76.6 9.0 63 59 105 — — — — 50
F 25 3_ 83.4 7.7 62 58 104 — — — — 48
F 25 3_ 95.5 6.6 61 57 103 — — — — 47
F 25 3_ 105.4 5.9 60 56 102 — — — — 47
F 25 3_ 113.0 5.3 60 56 101 — — — — 46
F 25 3_ 127.8 4.6 59 55 101 — — — — 45
F 25 3_ 143.0 4.0 59 55 100 — — — — 45
F 25 3_ 155.9 3.6 58 54 100 — — — — 44
F 25 3_ 174.2 3.1 58 54 99 — — — — 44
F 25 3_ 193.6 2.8 58 53 99 — — — — 43
F 25 3_ 227.8 2.3 57 53 98 — — — — 43
F 25 3_ 256.1 2.0 56 53 98 — — — — 43
F 25 3_ 288.1 1.8 56 52 98 — — — — 43
F 25 3_ 333.1 0.77 56 — — — — — — 42
F 25 4_ 393.9 0.54 56 52 98 — — — — 17
F 25 4_ 434.9 0.51 56 52 97 — — — — 17
F 25 4_ 466.0 0.47 56 52 97 — — — — 17
F 25 4_ 527.3 0.44 56 52 97 — — — — 17
F 25 4_ 589.7 0.41 56 52 97 — — — — 17
F 25 4_ 643.3 0.38 56 52 97 — — — — 17
F 25 4_ 718.7 0.36 56 52 97 — — — — 17
F 25 4_ 798.5 0.34 56 52 97 — — — — 17
F 25 4_ 939.8 0.31 56 52 97 — — — — 16
F 25 4_ 1057 0.30 56 52 97 — — — — 15
F 25 4_ 1189 0.29 56 52 97 — — — — 15
F 25 4_ 1374 0.27 56 52 97 — — — — 15
91
F 31
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 31 2_ 6.9 119 — 170 215 — — — — 168
F 31 2_ 8.2 88 — 138 184 — — — — 137
F 31 2_ 9.0 76 — 126 172 — — — — 125
F 31 2_ 10.7 84 — 134 180 — — — — 133
F 31 2_ 12.7 63 — 113 159 — — — — 112
F 31 2_ 13.9 55 — 105 151 — — — — 104
F 31 2_ 16.8 43 — 93 139 — — — — 91
F 31 2_ 18.5 35 90 86 131 — — — — 84
F 31 2_ 21.1 27 81 77 122 — — — — 75
F 31 2_ 23.4 23 78 74 119 — — — — 72
F 31 2_ 27.3 18 73 69 114 — — — — 67
F 31 2_ 30.1 15 70 66 111 — — — — 64
F 31 2_ 34.4 13 67 63 109 — — — — 62
F 31 2_ 37.7 11 66 62 107 — — — — 60
F 31 2_ 40.4 10 65 60 106 — — — — 59
F 31 2_ 44.6 8.7 63 59 105 — — — — 58
F 31 3_ 47.5 37 — 87 133 — — — — 86
F 31 3_ 52.1 33 — 84 129 — — — — 82
F 31 3_ 62.8 28 — 78 124 — — — — 77
F 31 3_ 69.1 23 78 74 119 — — — — 72
F 31 3_ 78.9 17 72 68 113 — — — — 66
F 31 3_ 87.4 16 70 66 112 — — — — 64
F 31 3_ 101.9 13 67 63 109 — — — — 62
F 31 3_ 112.5 11 65 61 107 — — — — 60
F 31 3_ 128.4 9.1 64 60 105 — — — — 58
F 31 3_ 140.7 8.2 63 59 104 — — — — 57
F 31 3_ 150.8 7.4 62 58 103 — — — — 56
F 31 3_ 166.8 6.6 61 57 103 — — — — 55
F 31 3_ 185.4 5.8 61 56 102 — — — — 55
F 31 3_ 202.3 5.1 60 56 101 — — — — 54
F 31 3_ 228.2 4.3 59 55 100 — — — — 53
F 31 3_ 253.6 3.7 59 54 100 — — — — 53
F 31 3_ 293.8 3.0 58 54 99 — — — — 52
F 31 3_ 332.8 2.7 57 53 99 — — — — 52
F 31 3_ 374.4 2.3 57 53 98 — — — — 51
F 31 4_ 418.9 2.1 58 53 98 — — — — 18
F 31 4_ 462.6 2.0 58 53 98 — — — — 18
F 31 4_ 527.8 1.9 58 53 98 — — — — 18
F 31 4_ 578.6 1.8 58 53 98 — — — — 18
F 31 4_ 619.9 1.8 58 53 98 — — — — 18
F 31 4_ 685.6 1.7 58 53 97 — — — — 18
F 31 4_ 762.3 1.7 57 53 97 — — — — 18
F 31 4_ 831.6 1.6 57 53 97 — — — — 18
F 31 4_ 938.2 1.6 57 53 97 — — — — 18
F 31 4_ 1042 1.6 57 53 97 — — — — 18
F 31 4_ 1208 1.5 57 53 97 — — — — 18
F 31 4_ 1368 1.5 57 53 97 — — — — 18
F 31 4_ 1539 1.5 57 53 97 — — — — 18
92
F 41
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 41 2_ 6.7 288 — 339 421 680 — — — 497
F 41 2_ 9.1 171 — 221 303 563 — — — 379
F 41 2_ 10.8 190 — 240 322 582 — — — 398
F 41 2_ 14.6 118 — 168 250 509 — — — 326
F 41 2_ 17.1 84 — 135 216 477 — — — 293
F 41 2_ 18.9 73 — 124 205 466 — — — 281
F 41 2_ 24.1 51 105 101 183 443 — — — 259
F 41 2_ 30.1 36 91 87 169 428 — — — 245
F 41 2_ 38.2 22 77 73 155 413 — — — 231
F 41 2_ 47.9 16 70 66 148 406 — — — 224
F 41 3_ 51.5 71 — 121 203 462 — — — 279
F 41 3_ 60.2 50 — 100 182 442 — — — 258
F 41 3_ 66.5 45 — 95 177 437 — — — 253
F 41 3_ 84.9 33 87 84 166 426 — — — 242
F 41 3_ 106.0 25 79 76 158 417 — — — 234
F 41 3_ 134.4 16 70 66 148 406 — — — 224
F 41 3_ 168.7 12 66 62 144 402 — — — 220
F 41 3_ 180.7 10 65 61 143 — — — — 219
F 41 3_ 198.9 9.2 64 60 142 — — — — 218
F 41 3_ 220.1 8.6 63 59 141 — — — — 217
F 41 3_ 240.1 7.5 62 58 140 — — — — 216
F 41 3_ 266.9 6.6 61 57 139 — — — — 215
F 41 3_ 296.6 5.5 60 56 138 — — — — 214
F 41 3_ 344.8 4.4 59 55 137 — — — — 213
F 41 4_ 433.7 5.0 60 56 101 — — — — 46
F 41 4_ 549.8 4.4 59 55 100 — — — — 45
F 41 4_ 690.1 4.2 59 55 100 — — — — 45
F 41 4_ 739.4 4.1 59 55 100 — — — — 45
F 41 4_ 813.8 4.0 59 55 100 — — — — 45
F 41 4_ 900.5 4.0 59 55 100 — — — — 45
F 41 4_ 982.4 3.9 59 54 100 — — — — 45
F 41 4_ 1092 3.9 59 54 100 — — — — 44
F 41 4_ 1213 3.8 59 54 100 — — — — 44
F 41 4_ 1411 3.8 59 54 100 — — — — 44
93
F 51
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 51 2_ 7.2 595 — 645 727 986 — — — 803
F 51 2_ 9.1 398 — 448 530 789 — — — 606
F 51 2_ 11.1 390 — 440 522 781 — — — 598
F 51 2_ 14.0 268 — 319 401 660 — — — 477
F 51 2_ 18.8 167 — 217 299 558 — — — 375
F 51 2_ 23.8 107 — 158 240 500 — — — 316
F 51 2_ 30.0 74 129 125 207 467 — — — 283
F 51 2_ 37.1 53 108 104 186 445 — — — 262
F 51 3_ 48.9 146 — 197 279 538 — — — 355
F 51 3_ 65.8 99 — 150 232 491 — — — 308
F 51 3_ 83.2 65 — 116 198 458 — — — 274
F 51 3_ 105.1 48 102 98 180 440 — — — 256
F 51 3_ 129.9 36 91 87 168 428 — — — 245
F 51 3_ 165.6 23 77 73 155 413 — — — 231
F 51 3_ 202.4 17 72 68 149 407 — — — 226
F 51 3_ 216.9 15 70 66 147 — — — — 224
F 51 3_ 239.8 14 69 65 146 — — — — 223
F 51 3_ 262.1 13 67 63 145 — — — — 221
F 51 3_ 285.9 11 66 61 143 — — — — 219
F 51 3_ 317.3 9.4 64 60 142 — — — — 218
F 51 3_ 352.5 6.7 63 58 140 — — — — 216
F 51 4_ 429.1 8.6 63 59 141 — — — — 57
F 51 4_ 530.5 7.9 63 58 140 — — — — 57
F 51 4_ 676.3 7.1 62 58 139 — — — — 56
F 51 4_ 826.4 6.7 61 57 139 — — — — 56
F 51 4_ 885.5 6.6 61 57 139 — — — — 55
F 51 4_ 979.4 6.5 61 57 139 — — — — 55
F 51 4_ 1070 6.5 61 57 139 — — — — 55
F 51 4_ 1168 6.3 61 57 139 — — — — 55
F 51 4_ 1296 6.3 61 57 139 — — — — 55
F 51 4_ 1439 6.2 61 57 138 — — — — 55
94
F 60
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 60 3_ 9.0 949 — — — 1400 2919 2895 — 1448
F 60 3_ 9.7 902 — — — 1353 2871 2848 — 1400
F 60 3_ 11.8 593 — 648 695 1044 2563 2539 — 1092
F 60 3_ 12.7 567 — 622 669 1020 2539 2515 — 1068
F 60 3_ 14.5 418 — 472 520 878 2397 2373 — 925
F 60 3_ 15.7 401 — 456 503 854 2373 2349 — 902
F 60 3_ 19.1 244 — 299 346 693 2231 2183 — 736
F 60 3_ 20.7 235 — 290 337 683 2207 2183 — 736
F 60 3_ 23.5 173 — 228 275 622 2159 2112 — 672
F 60 3_ 25.4 168 — 223 268 617 2136 2112 — 664
F 60 3_ 29.6 356 — — — 804 2326 2302 — 854
F 60 3_ 32.1 351 — — — 800 2326 2302 — 854
F 60 3_ 38.8 252 — 306 354 700 2231 2207 — 759
F 60 3_ 42.1 249 — 304 351 698 2231 2207 — 736
F 60 3_ 47.8 195 — 249 294 643 2159 2136 — 691
F 60 3_ 51.8 192 — 247 294 641 2159 2136 — 691
F 60 3_ 63.0 116 — 168 216 565 2088 2065 — 612
F 60 3_ 68.3 114 — 168 216 562 2088 2065 — 612
F 60 3_ 77.6 88 — 142 190 536 2065 2041 — 586
F 60 3_ 84.0 88 — 142 190 536 2065 2041 — 584
F 60 3_ 98.2 64 137 119 166 513 2041 2017 — 562
F 60 3_ 106.4 64 137 116 166 513 2041 2017 — 560
F 60 3_ 120.5 43 114 97 145 491 2017 1993 — 539
F 60 3_ 130.5 43 114 97 142 491 2017 1993 — 539
F 60 3_ 150.4 31 102 85 133 479 2017 1970 — 527
F 60 3_ 162.9 31 102 85 133 479 2017 1970 — 527
F 60 3_ 185.9 21 95 76 123 472 1993 1970 — 520
F 60 3_ 201.4 21 95 76 123 470 1993 1970 — 520
F 60 3_ 217.6 17 90 71 119 — — — — 515
F 60 3_ 235.8 17 90 71 119 — — — — 515
F 60 3_ 259.1 12 85 66 114 — — — — 510
F 60 3_ 280.7 12 85 66 114 — — — — 510
,������ ��������������� ����� ��������4!��������������.�������� ���������� ����E�� ����������� �-
95
F 70
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 70 3_ 10.0 — — — — — 4129 4105 — 3156
F 70 3_ 10.9 — — — — — 4058 4010 — 3061
F 70 3_ 12.8 — — — — — 3417 3393 — 2420
F 70 3_ 13.9 — — — — — 3370 3346 — 2373
F 70 3_ 16.3 925 — — — 1376 2895 2871 — 1898
F 70 3_ 17.7 878 — — — 1329 2871 2824 — 1875
F 70 3_ 20.9 617 — — — 1068 2610 2563 — 1614
F 70 3_ 22.6 617 — — — 1044 2587 2563 — 1590
F 70 3_ 24.6 498 — — — 949 2468 2444 — 1471
F 70 3_ 27.7 — — — — — 3156 3132 — 1732
F 70 3_ 30.0 — — — — — 3132 3109 — 1732
F 70 3_ 35.4 — — — — — 2824 2800 — 1827
F 70 3_ 38.4 — — — — — 2824 2776 — 1827
F 70 3_ 45.2 553 — — — 997 2515 2492 — 1542
F 70 3_ 49.0 548 — — — 997 2515 2492 — 1542
F 70 3_ 57.7 401 — — — 854 2373 2349 — 1376
F 70 3_ 62.5 399 — — — 854 2373 2349 — 1376
F 70 3_ 67.9 332 — — — 783 2302 2278 — 1305
F 70 3_ 73.6 330 — — — 783 2302 2278 — 1305
F 70 3_ 85.4 214 — 259 306 662 2183 2159 — 1187
F 70 3_ 92.5 214 — 256 304 662 2183 2159 — 1187
F 70 3_ 101.2 149 — 197 244 598 2136 2088 — 1115
F 70 3_ 109.6 149 — 197 244 598 2136 2088 — 1115
F 70 3_ 122.7 121 — 173 221 570 2088 2065 — 1092
F 70 3_ 133.0 121 — 173 221 570 2088 2065 — 1092
F 70 3_ 153.8 76 — 131 178 524 2041 2017 — 1044
F 70 3_ 166.7 76 — 131 178 524 2041 2017 — 1044
F 70 3_ 180.9 55 — 109 154 503 2041 1993 — 1020
F 70 3_ 196.0 55 — 107 154 503 2041 1993 — 1020
,������ ��������������� ����� ��������4!��������������.�������� ���������� ����E�� ����������� �-
96
F 80
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 80 3_ 10.3 — — — — — — 6929 14594 5980
F 80 3_ 11.2 — — — — — — 6716 14380 5790
F 80 3_ 12.9 — — — — — 5268 5316 12957 4366
F 80 3_ 14.0 — — — — — 5149 5173 12838 4224
F 80 3_ 16.2 — — — — — 4224 4200 11889 3227
F 80 3_ 17.6 — — — — — 4153 4105 11818 3156
F 80 3_ 20.3 1424 — — — 1875 3417 3370 11106 2420
F 80 3_ 22.0 1376 — — — 1827 3346 3322 11058 2373
F 80 3_ 25.2 1020 — — — 1471 2990 2966 10679 1993
F 80 3_ 28.8 — — — — — — 4627 12268 3678
F 80 3_ 31.3 — — — — — — 4604 12245 3654
F 80 3_ 36.0 — — — — — 3797 3821 11485 2871
F 80 3_ 39.0 — — — — — 3773 3797 11462 2871
F 80 3_ 45.3 — — — — — 3275 3275 10963 2302
F 80 3_ 49.1 — — — — — 3275 3251 10963 2302
F 80 3_ 56.7 831 — — — 1281 2800 2776 10512 1827
F 80 3_ 61.5 831 — — — 1281 2800 2776 10512 1803
F 80 3_ 70.4 634 — — — 1092 2610 2587 10299 1614
F 80 3_ 76.3 629 — — — 1068 2610 2587 10275 1614
F 80 3_ 85.2 484 — — — 925 2468 2420 10109 1471
F 80 3_ 92.3 482 — — — 925 2468 2420 10109 1448
F 80 3_ 105.0 323 — 365 413 759 2302 2278 9967 1305
F 80 3_ 113.8 320 — 365 411 759 2302 2278 9943 1305
F 80 3_ 122.5 299 — 349 396 759 2278 2254 9919 1281
F 80 3_ 132.7 299 — 346 394 736 2278 2254 9919 1281
F 80 3_ 147.9 202 — 254 301 650 2183 2159 9824 1187
F 80 3_ 160.2 202 — 252 301 650 2183 2136 — 1187
F 80 3_ 184.6 121 — 173 221 570 2088 2065 — 1092
F 80 3_ 200.0 119 — 173 221 567 2088 2065 — 1092
,������ ��������������� ����� ��������4!��������������.�������� ���������� ����E�� ����������� �-
97
F 90
Typei
(ratio)
������-4) [Ib·ft2]
Nema Motor frame
N56C N140TC N180TC N210TC N250TC N280TC N320TC
F 90 3_ 10.3 — — — — — — — 20882 12102
F 90 3_ 11.1 — — — — — — — 20408 11604
F 90 3_ 13.4 — — — — — — — 16706 7902
F 90 3_ 14.5 — — — — — — — 16421 7617
F 90 3_ 16.5 — — — — — — — 14641 5838
F 90 3_ 17.9 — — — — — — — 14452 5648
F 90 3_ 20.6 — — — — — 5434 5410 13123 4366
F 90 3_ 22.3 — — — — — 5339 5292 13004 4248
F 90 3_ 25.4 2444 — — — 2895 4414 4390 12126 3370
F 90 3_ 28.6 — — — — — — — 14760 5980
F 90 3_ 31.0 — — — — — — — 14713 5933
F 90 3_ 37.4 — — — — — — — 13123 4319
F 90 3_ 40.5 — — — — — — — 13075 4295
F 90 3_ 46.1 — — — — — — — 12268 3488
F 90 3_ 49.9 — — — — — — — 12245 3465
F 90 3_ 57.3 1732 — — — — 3939 3892 11604 2848
F 90 3_ 62.1 1709 — — — — 3915 3892 11580 2848
F 90 3_ 70.8 1448 — — — 1898 3417 3393 11129 2373
F 90 3_ 76.7 1424 — — — 1875 3417 3370 11106 2373
F 90 3_ 88.4 1044 — — — 1495 3037 2990 10702 1970
F 90 3_ 95.8 1044 — — — 1495 3014 2990 10702 1970
F 90 3_ 103.3 973 — — — 1400 2943 2919 10607 1851
F 90 3_ 111.9 949 — — — 1400 2943 2895 10584 1851
F 90 3_ 126.8 617 — 676 717 1068 2610 2563 10251 1519
F 90 3_ 137.3 617 — 676 717 1068 2587 2563 10251 1519
F 90 3_ 150.3 498 — 558 598 949 2492 2444 10133 1400
F 90 3_ 162.8 498 — 558 598 949 2492 2444 10133 1400
F 90 3_ 179.2 332 — 368 432 783 2302 2278 — 1210
F 90 3_ 194.2 332 — 368 408 783 2302 2278 — 1210
,������ ��������������� ����� ��������4!��������������.�������� ���������� ����E�� ����������� �-
98
iN F 10 F 20 F 25 F 31 F 41 F 51 F 60 F 70 F 80 F 90
2x
6.3 6.41210
7.1 7.40443 6.86957 6.94907 6.72727 7.19408
8.0 7.83478 8.39375 8.22917
9.0 8.58204 8.73227 9.35526 9.01630 9.13580 9.05114 8.96000
10.0 9.76974 10.03069 10.62451 10.74747 9.70667 10.01538 10.33846 10.26577
11.2 11.53759 11.23370 10.77273 11.11005 11.75320 10.85000 11.20000 11.12125
12.5 13.02632 12.98182 12.72727 13.97796 12.73263 12.81731 12.90240 13.41346
14.0 14.64777 14.79842 14.46890 13.94466 14.62963 14.47385 13.88542 13.97760 14.53125
16.0 16.97738 16.62032 16.80000 17.11667 15.68000 16.34455 16.24615 16.52538
18.0 18.08182 18.61364 18.48804 18.89130 18.82155 19.06872 17.70660 17.60000 17.90250
20.0 19.32692 20.15311 21.81818 21.11230 20.65778 20.86538 20.33231 20.56731
22.4 22.82418 23.14973 23.75758 23.38636 23.79447 23.46381 22.60417 22.02667 22.28125
25.0 25.76923 25.92614 27.20455 27.27273 24.11579 25.41913 24.55695 25.22585 25.38622
28.0 29.63462 30.38961 30.03636 30.12121 30.11875 30.03828 29.61538 27.69231 28.84615 28.61169
31.5 32.98462 33.09091 32.18182 34.36364 32.08333 30.00000 31.25000 30.99600
35.5 35.34066 37.89205 36.41958 37.67273 38.18333 37.13636 38.84771 35.43956 36.00000 37.38462
40.0 39.64497 41.83636 40.72727 40.36364 42.08502 38.39286 39.00000 40.50000
45.0 44.66667 44.82468 45.56607 44.64336 47.92667 47.84024 45.19231 45.32967 46.05785
50.0 48.72727 50.72727 50.78571 47.54630 51.49270 48.89965 51.82692 48.95833 49.10714 49.89600
56.0 56.69231 56.72727 58.33718 52.09420 60.24646 63.02761 57.69231 56.73077 57.32308
63.0 62.99145 61.88430 65.33371 62.76111 66.49275 65.84416 68.27991 62.50000 61.45833 62.10000
71.0 71.12308 69.13636 76.58163 69.06725 77.55467 73.55769 70.38462 70.75385
80.0 81.31624 76.81818 83.38889 78.87092 84.88166 83.24111 84.01756 85.38462 76.25000 76.65000
90.0 91.48077 90.40909 95.48772 87.36632 98.19838 92.50000 92.30769 88.39385
100.0 106.02198 101.63636 105.42738 101.88492 106.01061 105.08407 106.38158 101.18343 105.00000 103.33491
112.2 114.34091 112.95791 112.52623 120.45488 109.61538 113.75000 111.94615
125.5 127.12821 132.19481 127.83242 128.37500 134.39596 129.91558 130.49279 122.72727 122.48521 126.77538
3x
140.0 156.30469 142.95238 140.73704 150.35503 132.95455 132.69231 150.30533
160.0 172.57500 155.94805 166.77778 168.69010 165.62338 162.88462 166.66667 160.22727 162.83077
180.0 184.90179 174.22321 185.43056 180.73939 202.39481 185.89349 180.94406 184.61538 179.21958
200.0 209.25000 193.58135 202.28788 198.92028 216.85158 201.38462 196.02273 200.00000 194.15455
225.0 234.00000 227.83036 228.22222 220.13131 239.84416 217.64679 216.52422 218.49174 213.59178
250.0 255.27273 256.12302 253.58025 240.14325 262.11039 259.08284 234.56790 273.89277 231.39109
280.0 285.18750 288.13839 293.83611 266.93818 285.93861 280.67308 280.93645 296.71717 268.72770
315.0 316.87500 333.13010 332.82407 296.59798 317.26753 315.38899 304.34783 353.67893 291.12168
355.0 372.93750 374.42708 344.79515 352.51948 341.67140 372.46964 383.15217 361.84615
400.0 419.25000 393.88686 418.86023 429.09330 399.34008 403.50877 451.49061 392.00000
450.0 471.65625 434.88795 462.60785 433.67975 432.61842 471.15385 489.11483 457.45099
500.0 465.95137 527.76389 489.84985 510.41667 563.87675 495.57191
560.0 545.30357 527.30872 578.58560 549.80165 530.48864 530.67067 606.83761 610.86648 577.48888
4x
630.0 589.67857 619.91314 690.09587 676.29545 611.44379 657.40741 714.86014 625.61296
710.0 643.28571 685.64198 739.38843 826.44545 755.96686 758.97436 774.43182 713.95030
800.0 718.67076 762.32562 813.76478 885.47727 818.96410 822.22222 897.27273 773.44615
900.0 798.52307 831.62795 900.53719 979.36364 885.09695 899.40828 972.04545 910.18225
1000.0 939.80022 938.24691 982.40421 1070.28409 958.85503 974.35897 1058.06885 986.03077
1125.0 1056.50744 1042.49657 1092.01983 1167.58264 1053.60355 1090.90909 1146.24126 1112.25941
1250.0 1188.57087 1207.99290 1213.35537 1295.50909 1141.40385 1181.81818 1277.33630 1204.94769
1400.0 1374.16167 1368.27675 1410.52562 1439.45455 1367.52137 1383.78099 1427.90059
1600.0 1539.31134 1584.61538 1577.62238 1571.37386
1800.0 1716.66667 1709.09091 1702.32168
2000.0 2019.23077 1833.98601 1937.26864
2250.0 2187.50000 1986.81818 2098.70769
2.15 EXACT RATIOS
99
2.16 DIMENSIONS
Integral motorF 10 2
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 10 26.69 3.96 4.72 3.94 3.150 -0.0012
-0.0024 M8x12 [mm]3.31 1.87 5.51 0.79 1.38 0.43 9.88
170 100.5 120 100 80 -0.030-0.060 84 47.5 140 20 35 11 251
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 10 2 NH 1.000+0.0011
+0.00031.496 M10 [mm] 1.114 0.250 0.71 0.59 3.48 0.24 0.18
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 10 2_S05 M053.74 4.69 3.74 12.26 14.86 4.76
29 / 1395 119 95 311.5 377.5 121
F 10 2_S1 M14.25 5.20 4.25 13.41 15.81 5.43
37 / 17108 132 108 340.5 401.5 138
F 10 2_S2 M2S4.69 5.63 4.69 14.55 17.30 6.14
46 / 21119 143 119 369.5 439.5 156
F 10 2_S3 M3S5.59 6.10 5.59 16.24 20.02 7.68
66 / 30142 155 142 412.5 508.5 195
F 10 2_S3 M3L5.59 6.10 5.59 17.50 21.08 7.68
68 / 31142 155 142 444.5 535.5 195
100
NEMA C-face adapter
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 10 26.69 3.96 4.72 3.94 3.150 -0.0012
-0.0024 M8x12 [mm]3.31 1.87 5.51 0.79 1.38 0.43 9.88
170 100.5 120 100 80 -0.030-0.060 84 47.5 140 20 35 11 251
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 10 2 NH 1.000+0.0011
+0.00031.496 M10 [mm] 1.114 0.250 0.71 0.59 3.48 0.24 0.18
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 18 / 8
N 140TC 6.496 5.875 4.500 0.394 0.196 20 / 9
N 180TC 8.996 7.250 8.500 0.551 0.216 29 / 13
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
C
N 56C N 140TC N 180TC
F 10 28.09 8.09 8.84
205.5 205.5 224.5
F 10 2
101
Solid input / hollow output shaftF 10 2
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 10 26.69 3.96 4.72 3.94 3.150 -0.0012
-0.0024 M8x12 [mm]3.31 1.87 5.51 0.79 1.38 0.43 9.88
170 100.5 120 100 80 -0.030-0.060 84 47.5 140 20 35 11 251
Input shaft (Inch series)
FU FZ FV Key FM
F 10 2 NHS 0.625+0
-0.00040.710 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
C
F 10 27.56
192
Weight
[lbs / kg]
17 / 7.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 10 2 NH 1.000+0.0011
+0.00031.496 M10 [mm] 1.114 0.250 0.71 0.59 3.48 0.24 0.18
Input shaft (Metric series)
FU FZ FV X KEY FM
F 10 2 HS0.630
+0
-0.00040.709 1.575 0.098
5x5x35 [mm] M6x16 [mm]16 +0
-0.011 18 40 2.5
102
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 10 26.69 3.96 4.72 3.94 3.150 -0.0012
-0.0024 M8x12 [mm]3.31 1.87 5.51 0.79 1.38 0.43 9.88
170 100.5 120 100 80 -0.030-0.060 84 47.5 140 20 35 11 251
IEC B5-motor adapter
C
P 63
P 71
P 80
P 90
P 100
P 112
F 10 27.30 8.07 8.46
185.5 205 215
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 18 / 8
P 71 160 130 110 M8x16 4.5 18 / 8
P 80, P 90 200 165 130 M10x12 4 20 / 9
P 100, P 112 250 215 180 M12x16 4.5 29 / 13
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 10 2 NH 1.000+0.0011
+0.00031.496 M10 [mm] 1.114 0.250 0.71 0.59 3.48 0.24 0.18
F 10 2
103
SK servomotor adapterF 10 2
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 10 26.69 3.96 4.72 3.94 3.150 -0.0012
-0.0024 M8x12 [mm]3.31 1.87 5.51 0.79 1.38 0.43 9.88
170 100.5 120 100 80 -0.030-0.060 84 47.5 140 20 35 11 251
N NA NB NC XWeight
[lbs / kg]
SK 60A3.23 2.95 2.36
M5x10 [mm]0.14
18 / 882 75 60 3.5
SK 60B3.23 2.95 2.36
M5x10 [mm]0.16
18 / 882 75 60 4
SK 80A3.54 3.94 3.15
M6x12 [mm]0.16
18 / 890 100 80 4
SK 80C3.78 3.94 3.15
M6x12 [mm]0.16
20 / 996 100 80 4
SK 95A, SK 95B, SK 95C4.02 4.53 3.74
M8x12 [mm]0.16
20 / 9102 115 95 4
SK 110A, SK 110B4.72 5.12 4.33
M8x12 [mm]0.20
20 / 9120 130 110 5
Hollow input shaft
MA MB MC
SK 60A0.16 0.43 0.50
4 11 12.8
SK 60B0.20 0.55 0.64
5 14 16.3
SK 80A0.20 0.55 0.64
5 14 16.3
SK 80C0.24 0.75 0.86
6 19 21.8
SK 95A0.20 0.55 0.64
5 14 16.3
SK 95B0.24 0.75 0.86
6 19 21.8
SK 95C0.31 0.94 1.07
8 24 27.3
SK 110A0.24 0.75 0.86
6 19 21.8
SK 110B0.31 0.94 1.07
8 24 27.3
C
SK 60ASK 60B
SK 80A
SK 80C
SK 95A, SK 95B, SK 95C
SK 110A, SK 110B
F 10 26.18 6.46 8.07
157 164 205
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 10 2 NH 1.000+0.0011
+0.00031.496 M10 [mm] 1.114 0.250 0.71 0.59 3.48 0.24 0.18
���&�������'����#�����('���) (keyed)
104
F 10 2
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 10 26.69 3.96 4.72 3.94 3.150 -0.0012
-0.0024 M8x12 [mm]3.31 1.87 5.51 0.79 1.38 0.43 9.88
170 100.5 120 100 80 -0.030-0.060 84 47.5 140 20 35 11 251
SC servomotor adapter
N NA NB NC P Q XWeight
[lbs / kg]
SC 60A3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
18 / 882 75 60 7 12.5 4
SC 60B3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
20 / 982 75 60 7 12.5 4
SC 80A3.54 3.94 3.15
M6x12 [mm]0.24 0.49 0.16
20 / 990 100 80 6 12.5 4
SC 80C3.78 3.94 3.15
M6x12 [mm]0.61 0.57 0.16
22 / 1096 100 80 15.5 14.5 4
SC 95A, SC 95B, SC 95C4.02 4.53 3.74
M8x16 [mm]0.65 0.59 0.16
22 / 10102 115 95 16.5 15 4
SC 110A, SC 110B4.72 5.12 4.33
M8x16 [mm]0.65 0.63 0.20
24 / 11120 130 110 16.5 16 5
Hollow input shaft
MBtight. torque
���Q� �2�Nm]
SC 60A0.43
M6 [mm] 133 / 1511
SC 60B0.55
M6 [mm] 133 / 1514
SC 80A0.55
M6 [mm] 133 / 1514
SC 80C0.75
M6 [mm] 133 / 1519
SC 95A0.55
M6 [mm] 133 / 1514
SC 95B0.75
M6 [mm] 133 / 1519
SC 95C0.94
M6 [mm] 133 / 1524
SC 110A0.75
M6 [mm] 133 / 1519
SC 110B0.94
M6 [mm] 133 / 1524
C
SC 60A, SC 60B
SC 80A
SC 80C
SC 95A, SC 95B, SC 95C
SC 110A, SC 110B
F 10 27.24 9.00
184 228.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 10 2 NH 1.000+0.0011
+0.00031.496 M10 [mm] 1.114 0.250 0.71 0.59 3.48 0.24 0.18
���&�������'����#�����('���%�:����� ���� ��;
105
F 10 2
Output shaft (inch series)
Output shaft (inch series)
Plug-in solid shaft
Adapter bushings and shrink disc NQF
NR
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
tight.torque
���Q� �
F 10
NQF1 6.988 3.031 M5 [mm] 53 M5 [mm] 62 1.000 1.201 1.890 1.614 3.268 0.886
NQF1-3/16 6.988 3.031 M5 [mm] 53 M5 [mm] 62 1.188 1.201 1.890 1.614 3.268 0.886
U UY V VA VB Key M
F 10 NR 1.000+0
-0.00051.109 2.000 3.240 3.445 1/4 x 1/4 x 1 3/4 3/8 - 16 x 0.87
106
F 10 2
Hollow output shaft
Output shaft (metric series)
AC U UB UC UY UZ VA VB VC VD VE
F 10
H254.154 0.984
+0.0011
+0.00031.496
M10 [mm]1.114 0.315 0.709 0.591 3.484 0.236 0.177
105.5 25 +0.028+0.007 38 28.3 8 18 15 88.5 6 4.5
H303.957 1.181
+0.0011
+0.00031.496
M10 [mm]1.311 0.315 0.709 0.591 3.484 0.236 0.177
100.5 30 +0.028+0.007 38 33.3 8 18 15 88.5 6 4.5
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 10 S75 6.280 3.031 1.063 +0.0011
+0.0003 0.984 +0.0008+0 1.417 1.339 2.756 0.177
8.5 159.5 77 27 +0.028+0.007 25 +0.021
+0 36 34 70 4.5
Shrink disc
%��� �� �����inch
mm
S
H
107
F 10 2
Output shaft (metric series)
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
[Nm]
tight.torque
���Q� �
[Nm]
F 10
QF256.988 3.031
M5 [mm]53
M5 [mm]62 0.984 1.201 1.890 1.614 3.268 0.886
177.5 77 6 7 25 30.5 48 41 83 22.5
QF306.988 3.031
M5 [mm]53
M5 [mm]62 1.181 1.201 1.890 1.614 3.268 0.886
177.5 77 6 7 30 30.5 48 41 83 22.5
Adapter bushings and shrink disc
Plug-in solid shaft
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 10 R0.984
+0
-0.00051.102 1.772 3.012 3.445 0.197
8x7x35 A [mm] M8x19 [mm]25 +0
-0.013 28 45 76.5 87.5 5
%��� �� �����inch
mm
R
QF
108
F 10 2
Flange options
AJ AK BD BE BF GA VD
F 10
FA5.118 4.331 -0.0014
-0.0028 6.299 0.118 4x 0.354 0.394 1.240
130 110 -0.036-0.071 160 3 4x 9 10 31.5
FB6.496 5.118 -0.0017
-0.0033 7.874 0.138 4x 0.433 0.433 1.240
165 130 -0.043-0.083 200 3.5 4x 11 11 31.5
FC8.465 7.087 -0.0017
-0.0033 9.843 0.157 4x 0.551 0.512 1.240
215 180 -0.043-0.083 250 4 4x 14 13 31.5
Machine driven shaft
R U UA UB UY VG VH VL VM VN X Key
F 10 NH 0.020 1.000 +0-0.0008 1.201 0.965 1.109 3.445 0.610 2.224 0.079 0.079 0.059 1/4 x 1/4 x 7/8
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 10 H
0.020 1.181 +0-0.0008 1.378 1.142 1.299 3.445 0.610 2.224 0.079 0.079 0.059
8x7x20 A [mm]0.5 30 +0
-0.021 35 29 33 87.5 15.5 56.5 2 2 1.50.020 0.984 +0
-0.0008 1.181 0.945 1.102 3.445 0.610 2.224 0.079 0.079 0.0598x7x20 A [mm]
0.5 25 +0-0.021 30 24 28 87.5 15.5 56.5 2 2 1.5
Customer’ shaft (metric series)
%��� �� �����inch
mm
F_
NH H
109
F 10 2
Machine driven shaft
Machine driven shaft
Customer’ shaft (inch series)
U VG X
F 10NQF1 1.000
+0
-0.00516.772 0.059
NQF1-3/16 1.188+0
-0.0063
Customer’ shaft (metric series)
U VG X
F 10
QF250.984 +0
-0.0051 6.772 0.059
25 +0-0.13 172 1.5
QF301.181 +0
-0.0051 6.772 0.059
30 +0-0.13 172 1.5
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 10 S0.020 0.984 +0
-0.0005 1.417 0.945 1.063 +0-0.0008 5.433 1.339 2.756 0.059
0.5 25 +0-0.013 36 24 27 +0
-0.021 138 34 70 1.5
%��� �� �����inch
mm
NQF QF
S
110
Integral motor F 20 3F 20 2
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 20 2, F 20 37.40 4.72 5.51 4.53 3.740 -0.0014
-0.0028 M8x15 [mm]3.64 2.24 6.30 0.79 1.57 0.43 11.26
188 120 140 115 95 -0.036-0.071 92.5 57 160 20 40 11 286
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 20 2, F 20 3 NH 1.250+0.0013
+0.00041.654 M10 [mm] 1.367 0.250 0.79 0.79 3.98 0.41 0.20
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 20 2_S05 M053.74 4.69 3.74 12.74 15.33 4.76
37 / 1795 119 95 323.5 389.5 121
F 20 2_S1 M14.25 5.20 4.25 13.88 16.28 5.43
44 / 20108 132 108 352.5 413.5 138
F 20 2_S2 M2S4.69 5.63 4.69 15.02 17.78 6.14
55 / 25119 143 119 381.5 451.5 156
F 20 2_S3 M3S5.59 6.10 5.59 16.71 20.49 7.68
73 / 33142 155 142 424.5 520.5 195
F 20 2_S3 M3L5.59 6.10 5.59 17.97 21.56 7.68
84 / 38142 155 142 456.5 547.5 195
F 20 3_S05 M053.74 4.69 3.74 14.92 17.52 4.76
40 / 1895 119 95 379 445 121
F 20 3_S1 M14.25 5.20 4.25 16.06 18.46 5.43
46 / 21108 132 108 408 469 138
F 20 3_S2 M2S4.69 5.63 4.69 17.20 19.96 6.14
57 / 26119 143 119 437 507 156
F 20 3_S3 M3S5.59 6.10 5.59 18.90 22.68 7.68
75 / 34142 155 142 480 576 195
F 20 3_S3 M3L5.59 6.10 5.59 20.16 23.74 7.68
86 / 39142 155 142 512 603 195
111
NEMA C-face adapterF 20 3F 20 2
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 20 2, F 20 37.40 4.72 5.51 4.53 3.740 -0.0014
-0.0028 M8x15 [mm]3.64 2.24 6.30 0.79 1.57 0.43 11.26
188 120 140 115 95 -0.036-0.071 92.5 57 160 20 40 11 286
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 20 2, F 20 3 NH 1.250+0.0013
+0.00041.654 M10 [mm] 1.367 0.250 0.79 0.79 3.98 0.41 0.20
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 29 / 13
N 140TC 6.496 5.875 4.500 0.394 0.196 31 / 14
N 180TC 8.996 7.250 8.500 0.551 0.216 40 / 18
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
C
N 56C N 140TC N 180TC
F 20 28.56 8.56 9.31
217.5 217.5 236.5
F 20 310.75 10.75 11.50
273 273 292
112
Solid input / hollow output shaft
%��� �� �����inch
mm
Input shaft (Inch series)
FU FZ FV Key FM
F 20 2 NHS 0.750+0
-0.00050.830 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
F 20 3 NHS 0.625+0
-0.00040.710 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
C
F 20 29.74
247.5
F 20 310.24
260
Weight
[lbs / kg]
25 / 11.5
27 / 12.4
F 20 3F 20 2
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 20 2, F 20 37.40 4.72 5.51 4.53 3.740 -0.0014
-0.0028 M8x15 [mm]3.64 2.24 6.30 0.79 1.57 0.43 11.26
188 120 140 115 95 -0.036-0.071 92.5 57 160 20 40 11 286
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 20 2, F 20 3 NH 1.250+0.0013
+0.00041.654 M10 [mm] 1.367 0.250 0.79 0.79 3.98 0.41 0.20
Input shaft (Metric series)
FU FZ FV X KEY FM
F 20 2 HS0.748
+0
-0.00050.846 1.575 0.098
6x6x35 [mm] M6x16 [mm]19 +0
-0.013 21.5 40 2.5
F 20 3 HS0.630
+0
-0.00040.709 1.575 0.098
5x5x35 [mm] M6x16 [mm]16 +0
-0.011 18 40 2.5
113
%��� �� �����inch
mm
IEC B5-motor adapter
C
P 63
P 71
P 80
P 90
P 100
P 112
F 20 27.78 8.54 8.94
197.5 217 227
F 20 39.96 10.73 11.12
253 272.5 282.5
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 29 / 13
P 71 160 130 110 M8x16 4.5 29 / 13
P 80, P 90 200 165 130 M10x12 4 31 / 14
P 100, P 112 250 215 180 M12x16 4.5 40 / 18
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
F 20 3F 20 2
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 20 2, F 20 37.40 4.72 5.51 4.53 3.740 -0.0014
-0.0028 M8x15 [mm]3.64 2.24 6.30 0.79 1.57 0.43 11.26
188 120 140 115 95 -0.036-0.071 92.5 57 160 20 40 11 286
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 20 2, F 20 3 NH 1.250+0.0013
+0.00041.654 M10 [mm] 1.367 0.250 0.79 0.79 3.98 0.41 0.20
114
SK servomotor adapter
N NA NB NC XWeight
[lbs / kg]
SK 60A3.23 2.95 2.36
M5x10 [mm]0.14
26 / 1282 75 60 3.5
SK 60B3.23 2.95 2.36
M5x10 [mm]0.16
29 / 1382 75 60 4
SK 80A3.54 3.94 3.15
M6x12 [mm]0.16
29 / 1390 100 80 4
SK 80C3.78 3.94 3.15
M6x12 [mm]0.16
31 / 1496 100 80 4
SK 95A, SK 95B, SK 95C4.02 4.53 3.74
M8x12 [mm]0.16
31 / 14102 115 95 4
SK 110A, SK 110B4.72 5.12 4.33
M8x12 [mm]0.20
31 / 14120 130 110 5
Hollow input shaft
MA MB MC
SK 60A0.16 0.43 0.50
4 11 12.8
SK 60B0.20 0.55 0.64
5 14 16.3
SK 80A0.20 0.55 0.64
5 14 16.3
SK 80C0.24 0.75 0.86
6 19 21.8
SK 95A0.20 0.55 0.64
5 14 16.3
SK 95B0.24 0.75 0.86
6 19 21.8
SK 95C0.31 0.94 1.07
8 24 27.3
SK 110A0.24 0.75 0.86
6 19 21.8
SK 110B0.31 0.94 1.07
8 24 27.3
C
SK 60A SK 60B SK 80A
SK 80C
SK 95A, SK 95B, SK 95C
SK 110A, SK 110B
F 20 26.65 6.93 8.54 8.54
169 176 217 217
F 20 38.84 9.11 9.11 10.73
224.5 231.5 231.5 272.5
F 20 3F 20 2
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 20 2, F 20 37.40 4.72 5.51 4.53 3.740 -0.0014
-0.0028 M8x15 [mm]3.64 2.24 6.30 0.79 1.57 0.43 11.26
188 120 140 115 95 -0.036-0.071 92.5 57 160 20 40 11 286
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 20 2, F 20 3 NH 1.250+0.0013
+0.00041.654 M10 [mm] 1.367 0.250 0.79 0.79 3.98 0.41 0.20
%��� �� �����inch
mm
���&�������'����#�����('���) (keyed)
115
SC servomotor adapter
N NA NB NC P Q XWeight
[lbs / kg]
SC 60A3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
29 / 1382 75 60 7 12.5 4
SC 60B3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
31 / 1482 75 60 7 12.5 4
SC 80A3.54 3.94 3.15
M6x12 [mm]0.24 0.49 0.16
31 / 1490 100 80 6 12.5 4
SC 80C3.78 3.94 3.15
M6x12 [mm]0.61 0.57 0.16
33 / 1596 100 80 15.5 14.5 4
SC 95A, SC 95B, SC 95C4.02 4.53 3.74
M8x16 [mm]0.65 0.59 0.16
33 / 15102 115 95 16.5 15 4
SC 110A, SC 110B4.72 5.12 4.33
M8x16 [mm]0.65 0.63 0.20
35 / 16120 130 110 16.5 16 5
Hollow input shaft
MBtight. torque
���Q� �2�Nm]
SC 60A0.43
M6 [mm] 133 / 1511
SC 60B0.55
M6 [mm] 133 / 1514
SC 80A0.55
M6 [mm] 133 / 1514
SC 80C0.75
M6 [mm] 133 / 1519
SC 95A0.55
M6 [mm] 133 / 1514
SC 95B0.75
M6 [mm] 133 / 1519
SC 95C0.94
M6 [mm] 133 / 1524
SC 110A0.75
M6 [mm] 133 / 1519
SC 110B0.94
M6 [mm] 133 / 1524
C
SC 60A, SC 60B
SC 80A
SC 80C
SC 95A, SC 95B, SC 95C
SC 110A, SC 110B
F 20 27.72 9.47
196 240.5
F 20 39.90 11.65
251.5 296
F 20 3F 20 2
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 20 2, F 20 37.40 4.72 5.51 4.53 3.740 -0.0014
-0.0028 M8x15 [mm]3.64 2.24 6.30 0.79 1.57 0.43 11.26
188 120 140 115 95 -0.036-0.071 92.5 57 160 20 40 11 286
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 20 2, F 20 3 NH 1.250+0.0013
+0.00041.654 M10 [mm] 1.367 0.250 0.79 0.79 3.98 0.41 0.20
%��� �� �����inch
mm
���&�������'����#�����('���%�:����� ���� ��;
116
F 20 3F 20 2
Output shaft (inch series)
Output shaft (inch series)
Plug-in solid shaft
Adapter bushings and shrink disc NQF
NR
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
tight.torque
���Q� �
F 20
NQF1 7.874 3.268 M5 [mm] 53 M5 [mm] 62 1.000 1.299 1.890 1.614 4.114 0.906
NQF1-3/16 7.874 3.268 M5 [mm] 53 M5 [mm] 62 1.188 1.299 1.890 1.614 4.114 0.906
U UY V VA VB Key M
F 20 NR 1.250+0
-0.00061.362 2.500 3.917 3.937 1/4 x 1/4 x 2 5/32 1/2 - 13 x 1.10
117
F 20 3F 20 2
Hollow output shaft
Output shaft (metric series)
AC U UB UC UY UZ VA VB VC VD VE
F 20
H304.724 1.181
+0.0011
+0.00031.654
M10 [mm]1.311 0.315 0.787 0.787 3.976 0.406 0.197
120 30 +0.028+0.007 42 33.3 8 20 20 101 10.3 5
H354.724 1.378
+0.0013
+0.00041.654
M10 [mm]1.508 0.394 0.787 0.787 3.976 0.406 0.197
120 35 +0.034+0.009 42 38.3 10 20 20 101 10.3 5
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 20 S128 7.165 3.268 1.260 +0.0013
+0.0004 1.181 +0.0008+0 1.575 1.496 3.307 0.197
14.5 182 83 32 +0.034+0.009 30 +0.021
+0 40 38 84 5
Shrink disc
%��� �� �����inch
mm
S
H
118
F 20 3F 20 2
Output shaft (metric series)
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
[Nm]
tight.torque
���Q� �
[Nm]
F 20
QF257.874 3.268
M5 [mm]53
M5 [mm]62 0.984 1.299 1.890 1.614 4.114 0.906
200 83 6 7 25 33 48 41 104.5 23
QF307.874 3.268
M5 [mm]53
M5 [mm]62 1.181 1.299 1.890 1.614 4.114 0.906
200 83 6 7 30 33 48 41 104.5 23
Adapter bushings and shrink disc
Plug-in solid shaft
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 20 R1.181
+0
-0.00051.299 2.362 3.780 3.937 0.197
8x7x50 A [mm] M10x22 [mm]30 +0
-0.013 33 60 96 100 5
%��� �� �����inch
mm
R
QF
119
F 20 3F 20 2
Flange options
AJ AK BD BE BF GA VD
F 20
FA5.118 4.331 -0.0014
-0.0028 6.299 0.118 4x 0.354 0.394 1.417
130 110 -0.036-0.071 160 3 4x 9 10 36
FB6.496 5.118 -0.0017
-0.0033 7.874 0.138 4x 0.433 0.433 1.417
165 130 -0.043-0.083 200 3.5 4x 11 11 36
FC8.465 7.087 -0.0017
-0.0033 9.843 0.157 4x 0.551 0.512 1.417
215 180 -0.043-0.083 250 4 4x 14 13 36
Machine driven shaft
R U UA UB UY VG VH VL VM VN X Key
F 20 NH 0.020 1.250 +0-0.001 1.457 1.201 1.362 3.898 0.709 2.480 0.079 0.079 0.059 1/4 x 1/4 x 1
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 20 H
0.020 1.378 +0-0.0010 1.654 1.339 1.496 3.898 0.709 2.480 0.079 0.079 0.059
10x8x22 A [mm]0.5 35 +0
-0.025 42 34 38 99 18 63 2 2 1.50.020 1.181 +0
-0.0008 1.378 1.142 1.299 3.898 0.709 2.480 0.079 0.079 0.0598x7x22 A [mm]
0.5 30 +0-0.021 35 29 33 99 18 63 2 2 1.5
Customer’ shaft (metric series)
%��� �� �����inch
mm
F_
NH H
120
F 20 3F 20 2
Machine driven shaft
Machine driven shaft
Customer’ shaft (inch series)
U VG X
F 20NQF1 1.000
+0
-0.00517.618 0.059
NQF1-3/16 1.188+0
-0.0063
Customer’ shaft (metric series)
U VG X
F 20
QF250.984 +0
-0.0051 7.618 0.059
25 +0-0.13 193.5 1.5
QF301.181 +0
-0.0051 7.618 0.059
30 +0-0.13 193.5 1.5
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 20 S0.020 1.181 +0
-0.0005 1.654 1.142 1.260 +0-0.001 6.299 1.496 3.307 0.059
0.5 30 +0-0.013 42 29 32 +0
-0.025 160 38 84 1.5
%��� �� �����inch
mm
NQF QF
S
121
Integral motor
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 25 2, F 25 3, F 25 47.40 5.33 5.91 5.12 4.331 -0.0014
-0.0027 M10x14 [mm]3.68 2.24 6.38 0.79 1.71 0.51 11.44
188 135.5 150 130 110 -0.036-0.071 93.5 57 162 20 43.5 13 290.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 25 2, F 25 3, F 25 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 0.98 0.98 4.15 0.40 0.24
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 25 2_S05 M05 3.74 4.69 3.74 13.35 15.94 4.7637 / 17
F 25 3_S05 M05 95 119 95 339 405 121F 25 2_S1 M1 4.25 5.20 4.25 14.49 16.89 5.43
44 / 20F 25 3_S1 M1 108 132 108 368 429 138F 25 2_S2 M2S 4.69 5.63 4.69 15.63 18.39 6.14
55 / 25F 25 3_S2 M2S 119 143 119 397 467 156F 25 2_S3 M3S 5.59 6.10 5.59 17.32 21.10 7.68
73 / 33F 25 3_S3 M3S 142 155 142 440 536 195F 25 2_S3 M3L 5.59 6.10 5.59 18.58 22.17 7.68
84 / 38F 25 3_S3 M3L 142 155 142 472 563 195
F 25 4_S05 M053.74 4.69 3.74 15.53 18.13 4.76
40 / 1895 119 95 394.5 460.5 121
F 25 4_S1 M14.25 5.20 4.25 16.67 19.07 5.43
46 / 21108 132 108 423.5 484.5 138
F 25 4_S2 M2S4.69 5.63 4.69 17.81 20.57 6.14
57 / 26119 143 119 452.5 522.5 156
F 25 4_S1 M3S5.59 6.10 5.59 19.51 23.29 7.68
75 / 34142 155 142 495.5 591.5 195
F 25 4_S1 M3L5.59 6.10 5.59 20.77 24.35 7.68
86 / 39142 155 142 527.5 618.5 195
F 25 2 F 25 3 F 25 4
122
NEMA C-face adapter
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 25 2, F 25 3, F 25 47.40 5.33 5.91 5.12 4.331 -0.0014
-0.0027 M10x14 [mm]3.68 2.24 6.38 0.79 1.71 0.51 11.44
188 135.5 150 130 110 -0.036-0.071 93.5 57 162 20 43.5 13 290.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 25 2, F 25 3, F 25 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 0.98 0.98 4.15 0.40 0.24
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 29 / 13
N 140TC 6.496 5.875 4.500 0.394 0.196 31 / 14
N 180TC 8.996 7.250 8.500 0.551 0.216 40 / 18
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
C
N 56C N 140TC N 180TC
F 25 2, F 25 39.17 9.17 9.92
233 233 252
F 25 411.36 11.36 12.11
288.5 288.5 307.5
F 25 2 F 25 3 F 25 4
123
%��� �� �����inch
mm
Input shaft (Inch series)
FU FZ FV Key FM
F 25 2, F 25 3 NHS 0.750+0
-0.00050.830 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
F 25 4 NHS 0.625+0
-0.00040.710 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
C
F 25 2, F 25 310.35
263
F 25 410.85
275.5
Weight
[lbs / kg]
25 / 11.5
28 / 12.5
F 25 2 F 25 3 F 25 4 Solid input / hollow output shaft
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 25 2, F 25 3, F 25 47.40 5.33 5.91 5.12 4.331 -0.0014
-0.0027 M10x14 [mm]3.68 2.24 6.38 0.79 1.71 0.51 11.44
188 135.5 150 130 110 -0.036-0.071 93.5 57 162 20 43.5 13 290.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 25 2, F 25 3, F 25 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 0.98 0.98 4.15 0.40 0.24
Input shaft (Metric series)
FU FZ FV X KEY FM
F 25 2, F 25 3 HS0.748
+0
-0.00050.846 1.575 0.098
6x6x35 [mm] M6x16 [mm]19 +0
-0.013 21.5 40 2.5
F 25 4 HS0.630
+0
-0.00040.709 1.575 0.098
5x5x35 [mm] M6x16 [mm]16 +0
-0.011 18 40 2.5
124
%��� �� �����inch
mm
C
P 63
P 71
P 80
P 90
P 100
P 112
F 25 2, F 25 38.39 9.15 9.55
213 232.5 242.5
F 25 410.57 11.34 11.73
268.5 288 298
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 29 / 13
P 71 160 130 110 M8x16 4.5 29 / 13
P 80, P 90 200 165 130 M10x12 4 31 / 14
P 100, P 112 250 215 180 M12x16 4.5 40 / 18
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
IEC B5-motor adapter
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 25 2, F 25 3, F 25 47.40 5.33 5.91 5.12 4.331 -0.0014
-0.0027 M10x14 [mm]3.68 2.24 6.38 0.79 1.71 0.51 11.44
188 135.5 150 130 110 -0.036-0.071 93.5 57 162 20 43.5 13 290.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 25 2, F 25 3, F 25 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 0.98 0.98 4.15 0.40 0.24
F 25 2 F 25 3 F 25 4
125
N NA NB NC XWeight
[lbs / kg]
SK 60A3.23 2.95 2.36
M5x10 [mm]0.14
26 / 1282 75 60 3.5
SK 60B3.23 2.95 2.36
M5x10 [mm]0.16
29 / 1382 75 60 4
SK 80A3.54 3.94 3.15
M6x12 [mm]0.16
29 / 1390 100 80 4
SK 80C3.78 3.94 3.15
M6x12 [mm]0.16
31 / 1496 100 80 4
SK 95A, SK 95B, SK 95C4.02 4.53 3.74
M8x12 [mm]0.16
31 / 14102 115 95 4
SK 110A, SK 110B4.72 5.12 4.33
M8x12 [mm]0.20
31 / 14120 130 110 5
Hollow input shaft
MA MB MC
SK 60A0.16 0.43 0.50
4 11 12.8
SK 60B0.20 0.55 0.64
5 14 16.3
SK 80A0.20 0.55 0.64
5 14 16.3
SK 80C0.24 0.75 0.86
6 19 21.8
SK 95A0.20 0.55 0.64
5 14 16.3
SK 95B0.24 0.75 0.86
6 19 21.8
SK 95C0.31 0.94 1.07
8 24 27.3
SK 110A0.24 0.75 0.86
6 19 21.8
SK 110B0.31 0.94 1.07
8 24 27.3
C
SK 60ASK 60B
SK 80A
SK 80C
SK 95A, SK 95B, SK 95C
SK 110A, SK 110B
F 25 2, F 25 37.26 7.54 9.15
184.5 191.5 232.5
F 25 49.45 9.72 11.34
240 247 288
F 25 2 F 25 3 F 25 4 SK servomotor adapter
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 25 2, F 25 3, F 25 47.40 5.33 5.91 5.12 4.331 -0.0014
-0.0027 M10x14 [mm]3.68 2.24 6.38 0.79 1.71 0.51 11.44
188 135.5 150 130 110 -0.036-0.071 93.5 57 162 20 43.5 13 290.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 25 2, F 25 3, F 25 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 0.98 0.98 4.15 0.40 0.24
%��� �� �����inch
mm
���&�������'����#�����('���) (keyed)
126
N NA NB NC P Q XWeight
[lbs / kg]
SC 60A3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
29 / 1382 75 60 7 12.5 4
SC 60B3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
31 / 1482 75 60 7 12.5 4
SC 80A3.54 3.94 3.15
M6x12 [mm]0.24 0.49 0.16
31 / 1490 100 80 6 12.5 4
SC 80C3.78 3.94 3.15
M6x12 [mm]0.61 0.57 0.16
33 / 1596 100 80 15.5 14.5 4
SC 95A, SC 95B, SC 95C4.02 4.53 3.74
M8x16 [mm]0.65 0.59 0.16
33 / 15102 115 95 16.5 15 4
SC 110A, SC 110B4.72 5.12 4.33
M8x16 [mm]0.65 0.63 0.20
35 / 16120 130 110 16.5 16 5
Hollow input shaft
MBtight. torque
���Q� �2�Nm]
SC 60A0.43
M6 [mm] 133 / 1511
SC 60B0.55
M6 [mm] 133 / 1514
SC 80A0.55
M6 [mm] 133 / 1514
SC 80C0.75
M6 [mm] 133 / 1519
SC 95A0.55
M6 [mm] 133 / 1514
SC 95B0.75
M6 [mm] 133 / 1519
SC 95C0.94
M6 [mm] 133 / 1524
SC 110A0.75
M6 [mm] 133 / 1519
SC 110B0.94
M6 [mm] 133 / 1524
C
SC 60A, SC 60B
SC 80A
SC 80C
SC 95A, SC 95B, SC 95C
SC 110A, SC 110B
F 25 2, F 25 38.33 10.08
211.5 256
F 25 410.51 12.26
267 311.5
F 25 2 F 25 3 F 25 4SC servomotor adapter
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 25 2, F 25 3, F 25 47.40 5.33 5.91 5.12 4.331 -0.0014
-0.0027 M10x14 [mm]3.68 2.24 6.38 0.79 1.71 0.51 11.44
188 135.5 150 130 110 -0.036-0.071 93.5 57 162 20 43.5 13 290.5
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 25 2, F 25 3, F 25 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 0.98 0.98 4.15 0.40 0.24
%��� �� �����inch
mm
���&�������'����#�����('���%�:����� ���� ��;
127
F 25 2 F 25 3 F 25 4
Output shaft (inch series)
Output shaft (inch series)
Plug-in solid shaft
Adapter bushings and shrink disc NQF
NR
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
tight.torque
���Q� �
F 25
NQF1-3/16 8.484 3.268 M5 [mm] 53 M5 [mm] 62 1.188 1.457 1.890 1.614 4.744 0.945
NQF1-1/4 8.484 3.268 M5 [mm] 53 M5 [mm] 62 1.250 1.457 1.890 1.614 4.744 0.945
U UY V VA VB Key M
F 25 NR 1.375+0
-0.00061.513 2.750 4.049 4.094 5/16 x 5/16 x 2 3/8 1/2 - 13 x 1.10
128
F 25 2 F 25 3 F 25 4
Hollow output shaft
Output shaft (metric series)
AC U UB UC UY UZ VA VB VC VD VE
F 25
H355.335 1.378
+0.0013
+0.00041.654
M10 [mm]1.508 0.394 0.984 0.984 4.154 0.404 0.236
135.5 35 +0.034+0.009 42 38.3 10 25 25 105.5 10.25 6
H405.335 1.575
+0.0013
+0.00041.654
M10 [mm]1.705 0.472 0.984 0.984 4.154 0.404 0.236
135.5 40 +0.034+0.009 42 43.3 12 25 25 105.5 10.25 6
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 25 S128 7.776 3.268 1.260 +0.0013
+0.0004 1.220 +0.001+0 1.575 1.496 3.780 0.236
14.5 197.5 83 32 +0.034+0.009 31 +0.025
+0 40 38 96 6
Shrink disc
%��� �� �����inch
mm
S
H
129
F 25 2 F 25 3 F 25 4
Output shaft (metric series)
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
[Nm]
tight.torque
���Q� �
[Nm]
F 25
QF308.484 3.268
M5 [mm]53
M5 [mm]62 1.181 1.457 1.890 1.614 4.744 0.945
215.5 83 6 7 30 37 48 41 120.5 24
QF328.484 3.268
M5 [mm]53
M5 [mm]62 1.260 1.457 1.890 1.614 4.744 0.945
215.5 83 6 7 32 37 48 41 120.5 24
Adapter bushings and shrink disc
Plug-in solid shaft
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 25 R1.378
+0
-0.00061.496 2.362 3.661 4.094 0.197
10x8x50 A [mm] M10x22 [mm]35 +0
-0.016 38 60 93 104 5
%��� �� �����inch
mm
R
QF
130
F 25 2 F 25 3 F 25 4
Flange options
AJ AK BD BE BF GA VD
F 25
FA6.496 5.118 -0.0017
-0.0033 7.874 0.138 4x 0.433 0.433 1.299
165 130 -0.043-0.083 200 3.5 4x 11 11.0 33
FB8.465 7.087 -0.0017
-0.0033 9.843 0.157 4x 0.551 0.512 1.319
215 180 -0.043-0.083 250 4 4x 14 13 33.5
Machine driven shaft
R U UA UB UY VG VH VL VM VN X Key
F 25 NH 0.020 1.375 +0-0.001 1.654 1.339 1.513 4.094 0.906 2.283 0.079 0.079 0.059 5/16 x 5/16 x 1 1/4
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 25 H
0.020 1.575 +0-0.0010 1.850 1.535 1.693 4.094 0.906 2.283 0.079 0.079 0.059
12x8x30 A [mm]0.5 40 +0
-0.025 47 39 43 104 23 58 2 2 1.50.020 1.378 +0
-0.0010 1.654 1.339 1.496 4.094 0.906 2.283 0.079 0.079 0.05910x8x30 A [mm]
0.5 35 +0-0.025 42 34 38 104 23 58 2 2 1.5
Customer’ shaft (metric series)
%��� �� �����inch
mm
F_
NH H
131
F 25 2 F 25 3 F 25 4
Machine driven shaft
Machine driven shaft
Customer’ shaft (inch series)
U VG X
F 25 NQF1-3/16 1.188
+0
-0.00638.248 0.059
NQF1-1/4 1.250+0
-0.0063
Customer’ shaft (metric series)
U VG X
F 25
QF301.181 +0
-0.0051 8.248 0.059
30 +0-0.13 209.5 1.5
QF321.260 +0
-0.0063 8.248 0.059
32 +0-0.16 209.5 1.5
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 25 S0.020 1.220 +0
-0.0006 1.654 1.181 1.260 +0-0.001 6.772 1.496 3.780 0.059
0.5 31 +0-0.016 42 30 32 +0
-0.025 172 38 96 1.5
%��� �� �����inch
mm
NQF QF
S
132
Integral motor F 31 2 F 31 3 F 31 4
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 31 2, F 31 3, F 31 48.27 4.92 5.91 5.12 4.331 -0.0014
-0.0027 M10x17 [mm]4.02 2.68 6.69 0.79 2.13 0.51 12.83
210 125 150 130 110 -0.036-0.071 102 68 170 20 54 13 326
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 31 2, F 31 3, F 31 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 1.18 1.18 4.17 0.40 0.26
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 31 2_S1 M1 4.25 5.20 4.25 14.98 17.38 5.4355 / 25
F 31 3_S1 M1 108 132 108 380.5 441.5 138
F 31 2_S2 M2S 4.69 5.63 4.69 16.12 18.88 6.1466 / 30
F 31 3_S2 M2S 119 143 119 409.5 479.5 156
F 31 2_S3 M3S 5.59 6.10 5.59 17.81 21.59 7.6884 / 38
F 31 3_S3 M3S 142 155 142 452.5 548.5 195
F 31 2_S3 M3L 5.59 6.10 5.59 19.07 22.66 7.6899 / 45
F 31 3_S3 M3L 142 155 142 484.5 575.5 195
F 31 4_S05 M053.74 4.69 3.74 16.10 18.70 4.76
49 / 2295 119 95 409 475 121
F 31 4_S1 M14.25 5.20 4.25 17.24 19.65 5.43
55 / 25108 132 108 438 499 138
F 31 4_S2 M2S4.69 5.63 4.69 18.39 21.14 6.14
68 / 31119 143 119 467 537 156
F 31 4_S3 M3S5.59 6.10 5.59 20.08 23.86 7.68
86 / 39142 155 142 510 606 195
F 31 4_S3 M3L5.59 6.10 5.59 21.34 24.92 7.68
101 / 46142 155 142 542 633 195
133
NEMA C-face adapterF 31 2 F 31 3 F 31 4
%��� �� �����inch
mm
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 37 / 17
N 140TC 6.496 5.875 4.500 0.394 0.196 40 / 18
N 180TC 8.996 7.250 8.500 0.551 0.216 49 / 22
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
C
N 56C N 140TC N 180TC
F 31 2, F 31 39.67 9.67 10.41
245.5 245.5 264.5
F 31 411.93 11.93 12.68
303 303 322
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 31 2, F 31 3, F 31 48.27 4.92 5.91 5.12 4.331 -0.0014
-0.0027 M10x17 [mm]4.02 2.68 6.69 0.79 2.13 0.51 12.83
210 125 150 130 110 -0.036-0.071 102 68 170 20 54 13 326
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 31 2, F 31 3, F 31 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 1.18 1.18 4.17 0.40 0.26
134
%��� �� �����inch
mm
Input shaft (Inch series)
FU FZ FV KEY FM
F 31 2, F 31 3 NHS 0.750+0
-0.00050.830 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
F 31 4 NHS 0.625+0
-0.00040.710 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
C
F 31 2, F 31 3 10.85
275.5
F 3 411.42
290
Weight
[lbs / kg]
37 / 16.7
36 / 16.5
Solid input / hollow output shaft F 31 2 F 31 3 F 31 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 31 2, F 31 3, F 31 48.27 4.92 5.91 5.12 4.331 -0.0014
-0.0027 M10x17 [mm]4.02 2.68 6.69 0.79 2.13 0.51 12.83
210 125 150 130 110 -0.036-0.071 102 68 170 20 54 13 326
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 31 2, F 31 3, F 31 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 1.18 1.18 4.17 0.40 0.26
Input shaft (Metric series)
FU FZ FV X KEY FM
F 31 2, F 31 3 HS0.748
+0
-0.00050.846 1.575 0.098
6x6x35 [mm] M6x16 [mm]19 +0
-0.013 21.5 40 2.5
F 31 4 HS0.630
+0
-0.00040.709 1.575 0.098
5x5x35 [mm] M6x16 [mm]16 +0
-0.011 18 40 2.5
135
%��� �� �����inch
mm
IEC B5-motor adapter
C
P 63
P 71
P 80
P 90
P 100
P 112
F 31 2, F 31 38.88 9.65 10.04
225.5 245 255
F 31 411.14 11.91 12.30
283 302.5 312.5
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 38 / 17
P 71 160 130 110 M8x16 4.5 38 / 17
P 80, P 90 200 165 130 M10x12 4 40 / 18
P 100, P 112 250 215 180 M12x16 4.5 49 / 22
MA MB MC
P 63 4 11 13
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
F 31 2 F 31 3 F 31 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 31 2, F 31 3, F 31 48.27 4.92 5.91 5.12 4.331 -0.0014
-0.0027 M10x17 [mm]4.02 2.68 6.69 0.79 2.13 0.51 12.83
210 125 150 130 110 -0.036-0.071 102 68 170 20 54 13 326
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 31 2, F 31 3, F 31 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 1.18 1.18 4.17 0.40 0.26
136
SK servomotor adapter
Hollow input shaft
MA MB MC
SK 60A0.16 0.43 0.50
4 11 12.8
SK 60B0.20 0.55 0.64
5 14 16.3
SK 80A0.20 0.55 0.64
5 14 16.3
SK 80C0.24 0.75 0.86
6 19 21.8
SK 95A0.20 0.55 0.64
5 14 16.3
SK 95B0.24 0.75 0.86
6 19 21.8
SK 95C0.31 0.94 1.07
8 24 27.3
SK 110A0.24 0.75 0.86
6 19 21.8
SK 110B0.31 0.94 1.07
8 24 27.3
SK 130A0.31 0.94 1.07
8 24 27.3
N NA NB NC XWeight
[lbs / kg]
SK 60A3.23 2.95 2.36
M5x10 [mm]0.14
35 / 1682 75 60 3.5
SK 60B3.23 2.95 2.36
M5x10 [mm]0.16
37 / 1782 75 60 4
SK 80A3.54 3.94 3.15
M6x12 [mm]0.16
37 / 1790 100 80 4
SK 80B, SK 80C3.78 3.94 3.15
M6x12 [mm]0.16
40 / 1896 100 80 4
SK 95A, SK 95B, SK 95C4.02 4.53 3.74
M8x12 [mm]0.16
40 / 18102 115 95 4
SK 110A, SK 110B4.72 5.12 4.33
M8x12 [mm]0.20
40 / 18120 130 110 5
SK 130A5.59 6.50 5.12
M10x20 [mm]0.20
40 / 18142 165 130 5
C
SK 60ASK 60B
SK 80A
SK 80C
SK 95A, SK 95B, SK 95C
SK 110A, SK 110B
SK 130A
F 31 2, F 31 37.76 8.03 9.65 9.65
197 204 245 245
F 31 410.02 10.30 11.91
—254.5 261.5 302.5
F 31 2 F 31 3 F 31 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 31 2, F 31 3, F 31 48.27 4.92 5.91 5.12 4.331 -0.0014
-0.0027 M10x17 [mm]4.02 2.68 6.69 0.79 2.13 0.51 12.83
210 125 150 130 110 -0.036-0.071 102 68 170 20 54 13 326
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 31 2, F 31 3, F 31 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 1.18 1.18 4.17 0.40 0.26
%��� �� �����inch
mm
���&�������'����#�����('���) (keyed)
137
SC servomotor adapter
Hollow input shaft
N NA NB NC P Q XWeight
[lbs / kg]
SC 60A3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
37 / 1782 75 60 7 12.5 4
SC 60B3.23 2.95 2.36
M5x10 [mm]0.28 0.49 0.16
40 / 1882 75 60 7 12.5 4
SC 80A3.54 3.94 3.15
M6x12 [mm]0.24 0.49 0.16
40 / 1890 100 80 6 12.5 4
SC 80C3.78 3.94 3.15
M6x12 [mm]0.61 0.57 0.16
42 / 1996 100 80 15.5 14.5 4
SC 95A, SC 95B, SC 95C4.02 4.53 3.74
M8x16 [mm]0.65 0.59 0.16
42 / 19102 115 95 16.5 15 4
SC 110A, SC 110B4.72 5.12 4.33
M8x16 [mm]0.65 0.63 0.20
44 / 20120 130 110 16.5 16 5
SC 130A5.59 6.50 5.12
M10x20 [mm]0.75 0.63 0.20
46 / 21142 165 130 19 16 5
C
SC 60A, SC 60B
SC 80A
SC 80C
SC 95A, SC 95B, SC 95C
SC 110A, SC 110B
SC 130A
F 31 2, F 31 38.82 10.57 10.57
224 268.5 268.5
F 31 411.08 12.83
—281.5 326
F 31 2 F 31 3 F 31 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 31 2, F 31 3, F 31 48.27 4.92 5.91 5.12 4.331 -0.0014
-0.0027 M10x17 [mm]4.02 2.68 6.69 0.79 2.13 0.51 12.83
210 125 150 130 110 -0.036-0.071 102 68 170 20 54 13 326
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 31 2, F 31 3, F 31 4 NH 1.375+0.0013
+0.00041.654 M10 [mm] 1.518 0.312 1.18 1.18 4.17 0.40 0.26
MBtight. torque
���Q� �2�Nm]
SC 60A0.43
M6 [mm] 133 / 1511
SC 60B0.55
M6 [mm] 133 / 1514
SC 80A0.55
M6 [mm] 133 / 1514
SC 80C0.75
M6 [mm] 133 / 1519
SC 95A0.55
M6 [mm] 133 / 1514
SC 95B0.75
M6 [mm] 133 / 1519
SC 95C0.94
M6 [mm] 133 / 1524
SC 110A0.75
M6 [mm] 133 / 1519
SC 110B0.94
M6 [mm] 133 / 1524
SC 130A0.94
M6 [mm] 133 / 1524
%��� �� �����inch
mm
���&�������'����#�����('���%�:����� ���� ��;
138
F 31 2 F 31 3 F 31 4
Output shaft (inch series)
Output shaft (inch series)
Plug-in solid shaft
Adapter bushings and shrink disc NQF
NR
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
tight.torque
���Q� �
F 31
NQF1-3/8 7.795 3.543 M5 [mm] 53 M5 [mm] 71 1.375 1.614 2.047 1.772 3.760 0.965
NQF1-7/16 7.795 3.543 M5 [mm] 53 M5 [mm] 71 1.438 1.614 2.047 1.772 3.760 0.965
U UY V VA VB Key M
F 31 NR 1.375+0
-0.00061.513 2.750 4.049 4.094 5/16 x 5/16 x 2 3/8 1/2 - 13 x 1.10
139
F 31 2 F 31 3 F 31 4
Hollow output shaft
Output shaft (metric series)
AC U UB UC UY UZ VA VB VC VD VE
F 31
H354.921 1.378
+0.0013
+0.00041.654
M10 [mm]1.508 0.394 1.181 1.181 4.173 0.413 0.256
125 35 +0.034+0.009 42 38.3 10 30 30 106 10.5 6.5
H404.921 1.575
+0.0013
+0.00041.654
M10 [mm]1.705 0.472 1.181 1.181 4.173 0.413 0.256
125 40 +0.034+0.009 42 43.3 12 30 30 106 10.5 6.5
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 31 S128 7.087 3.543 1.496 +0.0013
+0.0004 1.417 +0.001+0 1.654 1.654 2.874 0.256
14.5 180 90 38 +0.034+0.009 36 +0.025
+0 42 42 73 6.5
Shrink disc
%��� �� �����inch
mm
S
H
140
F 31 2 F 31 3 F 31 4
Output shaft (metric series)
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
[Nm]
tight.torque
���Q� �
[Nm]
F 31
QF357.795 3.543
M5 [mm]53
M5 [mm]71 1.378 1.614 2.047 1.772 3.760 0.965
198 90 6 8 35 41 52 45 95.5 24.5
QF407.795 3.543
M5 [mm]53
M5 [mm]71 1.575 1.614 2.047 1.772 3.760 0.965
198 90 6 8 40 41 52 45 95.5 24.5
Adapter bushings and shrink disc
Plug-in solid shaft
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 31 R1.378
+0
-0.00061.496 2.362 3.661 4.094 0.197
10x8x50 A [mm] M10x22 [mm]35 +0
-0.016 38 60 93 104 5
%��� �� �����inch
mm
R
QF
141
F 31 2 F 31 3 F 31 4
Flange options
AJ AK BD BE BF GA VD
F 31
FA8.465 7.087 -0.0017
-0.0033 9.843 0.157 4x 0.551 0.512 1.299
215 180 -0.043-0.083 250 4 4x 14 13 33
FB10.433 9.055 -0.0020
-0.0038 11.811 0.157 4x 0.551 0.630 1.299
265 230 -0.050-0.096 300 4 4x 14 16 33
Machine driven shaft
R U UA UB UY VG VH VL VM VN X Key
F 31 NH 0.020 1.375 +0-0.001 1.654 1.339 1.513 4.094 1.102 1.890 0.079 0.079 0.059 5/16 x 5/16 x 1 1/4
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 31 H
0.020 1.575 +0-0.0010 1.850 1.535 1.693 4.094 1.102 1.890 0.079 0.079 0.059
12x8x30 A [mm]0.5 40 +0
-0.025 47 39 43 104 28 48 2 2 1.50.020 1.378 +0
-0.0010 1.654 1.339 1.496 4.094 1.102 1.890 0.079 0.079 0.05910x8x30 A [mm]
0.5 35 +0-0.025 42 34 38 104 28 48 2 2 1.5
Customer’ shaft (metric series)
%��� �� �����inch
mm
F_
NH H
142
F 31 2 F 31 3 F 31 4
Machine driven shaft
Machine driven shaft
Customer’ shaft (inch series)
U VG X
F 31 NQF1-3/8 1.375
+0
-0.00637.579 0.059
NQF1-7/16 1.438+0
-0.0063
Customer’ shaft (metric series)
U VG X
F 31
QF351.378 +0
-0.0063 7.579 0.059
35 +0-0.16 192.5 1.5
QF401.575 +0
-0.0063 7.579 0.059
40 +0-0.16 192.5 1.5
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 31 S0.039 1.417 +0
-0.0006 1.969 1.378 1.496 +0-0.001 6.102 1.575 2.874 0.079
1 36 +0-0.016 50 35 38 +0
-0.025 155 40 73 2
%��� �� �����inch
mm
NQF QF
S
143
Integral motorF 41 2 F 41 3 F 41 4
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 41 2, F 41 3, F 41 49.53 5.67 7.87 6.50 5.118 -0.0017
-0.0033 M12x19 [mm]4.57 3.11 8.58 0.63 2.22 0.55 15.31
242 144 200 165 130 -0.043-0.083 116 79 218 16 56.5 14 389
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 41 2, F 41 3, F 41 4 NH 1.500+0.0013
+0.00041.969 M12 [mm] 1.669 0.375 1.18 1.18 4.74 0.49 0.30
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 41 2_S1 M1 4.25 5.20 4.25 15.79 18.19 5.43106 / 48
F 41 3_S1 M1 108 132 108 401 462 138F 41 2_S2 M2S 4.69 5.63 4.69 16.93 19.69 6.14
117 / 53F 41 3_S2 M2S 119 143 119 430 500 156F 41 2_S3 M3S 5.59 6.10 5.59 18.62 22.40 7.68
137 / 62F 41 3_S3 M3S 142 155 142 473 569 195F 41 2_S3 M3L 5.59 6.10 5.59 19.88 23.46 7.68
152 / 69F 41 3_S3 M3L 142 155 142 505 596 195F 41 2_S4 M4 7.60 7.60 7.60 24.13 28.43 10.16
251 / 114F 41 3_S4 M4 193 193 193 613 722 258F 41 2_S4 M4LC 7.60 7.60 7.60 25.51 29.41 10.16
269 / 122F 41 3_S4 M4LC 193 193 193 648 747 258
F 41 4_S05 M053.74 4.69 3.74 17.07 19.67 9.09
101 / 4695 119 95 433.5 499.5 231
F 41 4_S1 M14.25 5.20 4.25 18.21 20.61 5.43
108 / 49108 132 108 462.5 523.5 138
F 41 4_S2 M2S4.69 5.63 4.69 19.35 22.11 6.14
128 / 58119 143 119 491.5 561.5 156
F 41 4_S3 M3S5.59 6.10 5.59 21.04 24.82 7.68
137 / 62142 155 142 534.5 630.5 195
F 41 4_S3 M3L5.59 6.10 5.59 22.30 25.89 7.68
154 / 70142 155 142 566.5 657.5 195
144
NEMA C-face adapter
%��� �� �����inch
mm
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 41 2, F 41 3, F 41 4 NH 1.500+0.0013
+0.00041.969 M12 [mm] 1.669 0.375 1.18 1.18 4.74 0.49 0.30
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 97 / 44
N 140TC 6.496 5.875 4.500 0.394 0.196 99 / 45
N 180TC 8.996 7.250 8.500 0.551 0.216 108 / 49
N 210TC 8.996 7.250 8.500 0.551 0.216 110 / 50
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
N 210TC 0.312 1.375 1.518
C
N 56C N 140TC N 180TC N 210TC
F 41 2, F 41 310.47 10.47 11.22 12.46
266 266 285 316.5
F 41 412.89 12.89 13.64
—327.5 327.5 346.5
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 41 2, F 41 3, F 41 49.53 5.67 7.87 6.50 5.118 -0.0017
-0.0033 M12x19 [mm]4.57 3.11 8.58 0.63 2.22 0.55 15.31
242 144 200 165 130 -0.043-0.083 116 79 218 16 56.5 14 389
F 41 2 F 41 3 F 41 4
145
%��� �� �����inch
mm
Input shaft (Inch series)
FU FZ FV KEY FM
F 41 2, F 41 3 NHS 1.000+0
-0.00051.110 1.970 1/4 x 1/4 x 1 3/4 M8x19 [mm]
F 41 4 NHS 0.750+0
-0.00050.830 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
C
F 41 2, F 41 3 13.21
335.5
F 41 414.07
357.5
Weight
[lbs / kg]
102 / 46.4
96 / 43.5
Solid input / hollow output shaftF 41 2 F 41 3 F 41 4
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 41 2, F 41 3, F 41 4 NH 1.500+0.0013
+0.00041.969 M12 [mm] 1.669 0.375 1.18 1.18 4.74 0.49 0.30
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 41 2, F 41 3, F 41 49.53 5.67 7.87 6.50 5.118 -0.0017
-0.0033 M12x19 [mm]4.57 3.11 8.58 0.63 2.22 0.55 15.31
242 144 200 165 130 -0.043-0.083 116 79 218 16 56.5 14 389
Input shaft (Metric series)
FU FZ FV X KEY FM
F 41 2, F 41 3 HS0.945
+0
-0.00051.063 1.969 0.098
8x7x45 [mm] M8x19 [mm]24 +0
-0.013 27 50 2.5
F 41 4 HS0.748
+0
-0.00050.846 1.575 0.098
6x6x35 [mm] M6x16 [mm]19 +0
-0.013 21.5 40 2.5
146
%��� �� �����inch
mm
IEC B5-motor adapter
C
P 63
P 71
P 80
P 90
P 100
P 112P 132
F 41 2 , F 41 3 9.69 10.45 10.85 12.28
246 265.5 275.5 312
F 41 412.11 12.87 13.27
—307.5 327 337
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 97 / 44
P 71 160 130 110 M8x16 4.5 97 / 44
P 80, P 90 200 165 130 M10x12 4 99 / 45
P 100, P 112 250 215 180 M12x16 4.5 108 / 49
P 132 300 265 230 14 5 110 / 50
MA MB MC
P 63 4 11 13
P 71 5 14 16
P 80 6 19 22
P 90 8 24 27
P 100, P 112 8 28 31
P 132 10 38 41
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 41 2, F 41 3, F 41 4 NH 1.500+0.0013
+0.00041.969 M12 [mm] 1.669 0.375 1.18 1.18 4.74 0.49 0.30
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 41 2, F 41 3, F 41 49.53 5.67 7.87 6.50 5.118 -0.0017
-0.0033 M12x19 [mm]4.57 3.11 8.58 0.63 2.22 0.55 15.31
242 144 200 165 130 -0.043-0.083 116 79 218 16 56.5 14 389
F 41 2 F 41 3 F 41 4
147
SK servomotor adapter
Hollow input shaft
MA MB MC
SK 60A0.16 0.43 0.50
4 11 12.8
SK 60B0.20 0.55 0.64
5 14 16.3
SK 80A, SK 80B0.20 0.55 0.64
5 14 16.3
SK 80C0.24 0.75 0.86
6 19 21.8
SK 95A0.20 0.55 0.64
5 14 16.3
SK 95B0.24 0.75 0.86
6 19 21.8
SK 95C0.31 0.94 1.07
8 24 27.3
SK 110A0.24 0.75 0.86
6 19 21.8
SK 110B0.31 0.94 1.07
8 24 27.3
SK 130A0.31 0.94 1.07
8 24 27.3
SK 130B0.39 1.26 1.39
10 32 35.3
SK 180A0.39 1.26 1.39
10 32 35.3
SK 180B0.39 1.50 1.63
10 38 41.3
N NA NB NC XWeight
[lbs / kg]
SK 60A3.23 2.95 2.36 M5x10 [mm] 0.14
95 / 4382 75 60 3.5
SK 60B3.23 2.95 2.36 M5x10 [mm] 0.16
97 / 4482 75 60 4
SK 80A3.54 3.94 3.15 M6x12 [mm] 0.16
97 / 4490 100 80 4
SK 80B, SK 80C3.78 3.94 3.15 M6x12 [mm] 0.16
99 / 4596 100 80 4
SK 95A, SK 95B, SK 95C4.02 4.53 3.74 M8x12 [mm] 0.16
99 / 45102 115 95 4
SK 110A, SK 110B4.72 5.12 4.33 M8x12 [mm] 0.20
99 / 45120 130 110 5
SK 130A5.59 6.50 5.12 M10x20 [mm] 0.20
99 / 45142 165 130 5
SK 130B6.30 6.50 5.12 M10x20 [mm] 0.20
104 / 47160 165 130 5
SK 180A, SK 180B7.56 8.46 7.09 M12x19 [mm] 0.20
104 / 47192 215 180 5
F 41 2 F 41 3 F 41 4
C
SK 60ASK 60B
SK 80ASK 80B
SK 80C
SK 95A, SK 95B, SK 95C
SK 110A, SK 110B
SK 130ASK 130B
SK 180A, SK 180B
F 41 2, F 41 3 — —10.45 10.45 10.45 12.28
265.5 265.5 265.5 312
F 41 410.98 11.26
—12.87
— —279 286 327
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 41 2, F 41 3, F 41 4 NH 1.500+0.0013
+0.00041.969 M12 [mm] 1.669 0.375 1.18 1.18 4.74 0.49 0.30
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 41 2, F 41 3, F 41 49.53 5.67 7.87 6.50 5.118 -0.0017
-0.0033 M12x19 [mm]4.57 3.11 8.58 0.63 2.22 0.55 15.31
242 144 200 165 130 -0.043-0.083 116 79 218 16 56.5 14 389
���&�������'����#�����('���) (keyed)
148
SC servomotor adapter
Hollow input shaft
MBtight. torque
���Q� �2�Nm]
SC 60A0.43 M6 [mm] 133 / 1511
SC 60B0.55 M6 [mm] 133 / 1514
SC 80A
SC 80B
0.55 M6 [mm] 133 / 1514
SC 80C0.75 M6 [mm] 133 / 1519
SC 95A0.55 M6 [mm] 133 / 1514
SC 95B0.75 M6 [mm] 133 / 1519
SC 95C0.94 M6 [mm] 133 / 1524
SC 110A0.75 M6 [mm] 133 / 1519
SC 110B0.94 M6 [mm] 133 / 1524
SC 130A0.94 M6 [mm] 133 / 1524
SC 130B1.26 M8 [mm] 319 / 3632
SC 180A1.26 M8 [mm] 319 / 3632
SC 180B1.50 M8 [mm] 319 / 3638
N NA NB NC P Q XWeight
[lbs / kg]
SC 60A3.23 2.95 2.36 M5x10 [mm] 0.28 0.49 0.16
97 / 4482 75 60 7 12.5 4
SC 60B3.23 2.95 2.36 M5x10 [mm] 0.28 0.49 0.16
99 / 4582 75 60 7 12.5 4
SC 80A3.54 3.94 3.15 M6x12 [mm] 0.24 0.49 0.16
99 / 4590 100 80 6 12.5 4
SC 80B, SC 80C3.78 3.94 3.15 M6x12 [mm] 0.61 0.57 0.16
101 / 4696 100 80 15.5 14.5 4
SC 95A, SC 95B, SC 95C4.02 4.53 3.74 M8x16 [mm] 0.65 0.59 0.16
101 / 46102 115 95 16.5 15 4
SC 110A, SC 110B4.72 5.12 4.33 M8x16 [mm] 0.65 0.63 0.20
104 / 47120 130 110 16.5 16 5
SC 130A5.59 6.50 5.12 M10x20 [mm] 0.75 0.63 0.20
101 / 46142 165 130 19 16 5
SC 130B6.30 6.50 5.12 M10x20 [mm] 0.79 0.67 0.20
110 / 50160 165 130 20 17 5
SC 180A, SC 180B7.56 8.46 7.09 M12x24 [mm] 0.79 0.69 0.20
110 / 50192 215 180 20 17.5 5
F 41 2 F 41 3 F 41 4
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 41 2, F 41 3, F 41 4 NH 1.500+0.0013
+0.00041.969 M12 [mm] 1.669 0.375 1.18 1.18 4.74 0.49 0.30
C
SC 60A, SC 60B
SC 80ASC 80B
SC 80C
SC 95A, SC 95B, SC 95C
SC 110A, SC 110B
SC 130A SC 130BSC 180A,
SC 180B
F 41 2, F 41 3 —11.38 11.38 11.38 13.19 13.35
289 289 289 335 339
F 41 412.05
—13.80
— — —306 350.5
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 41 2, F 41 3, F 41 49.53 5.67 7.87 6.50 5.118 -0.0017
-0.0033 M12x19 [mm]4.57 3.11 8.58 0.63 2.22 0.55 15.31
242 144 200 165 130 -0.043-0.083 116 79 218 16 56.5 14 389
���&�������'����#�����('���%�:����� ���� ��;
149
F 41 2 F 41 3 F 41 4
Output shaft (inch series)
Output shaft (inch series)
Plug-in solid shaft
Adapter bushings and shrink disc NQF
NR
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
tight.torque
���Q� �
F 41
NQF1-5/8 8.583 3.937 M5 [mm] 53 M5 [mm] 89 1.625 1.811 2.087 1.811 4.429 1.004
NQF1-3/4 8.583 3.937 M5 [mm] 53 M5 [mm] 89 1.750 1.811 2.087 1.811 4.429 1.004
U UY V VA VB Key M
F 41 NR 1.625+0
-0.00061.791 3.250 4.530 4.665 3/8 x 3/8 x 2 7/8 5/8 - 11 x 1.42
150
F 41 2 F 41 3 F 41 4
Hollow output shaft
Output shaft (metric series)
AC U UB UC UY UZ VA VB VC VD VE
F 41
H405.669 1.575
+0.0013
+0.00041.969
M12 [mm]1.705 0.472 1.181 1.181 4.744 0.492 0.295
144 40 +0.034+0.009 50 43.3 12 30 30 120.5 12.5 7.5
H455.669 1.772
+0.0013
+0.00041.969
M12 [mm]1.921 0.551 1.181 1.181 4.744 0.492 0.295
144 45 +0.034+0.009 50 48.8 14 30 30 120.5 12.5 7.5
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 41 S128 7.874 3.937 1.732 +0.0013
+0.0004 1.654 +0.001+0 1.909 1.909 3.228 0.295
14.5 200 100 44 +0.034+0.009 42 +0.025
+0 48.5 48.5 82 7.5
Shrink disc
%��� �� �����inch
mm
S
H
151
F 41 2 F 41 3 F 41 4
Output shaft (metric series)
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
[Nm]
tight.torque
���Q� �
[Nm]
F 41
QF428.583 3.937
M5 [mm]53
M5 [mm]89 1.654 1.811 2.087 1.811 4.429 1.004
218 100 6 10 42 46 53 46 112.5 25.5
QF458.583 3.937
M5 [mm]53
M5 [mm]89 1.772 1.811 2.087 1.811 4.429 1.004
218 100 6 10 45 46 53 46 112.5 25.5
Adapter bushings and shrink disc
Plug-in solid shaft
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 41 R1.575
+0
-0.00061.693 3.150 4.429 4.665 0.197
12x8x70 A [mm] M12x28 [mm]40 +0
-0.016 43 80 112.5 118.5 5
%��� �� �����inch
mm
R
QF
152
F 41 2 F 41 3 F 41 4
Flange options
AJ AK BD BE BF GA VD
F 41
FA8.465 7.087 -0.0017
-0.0033 9.843 0.118 4x 0.551 0.394 1.280
215 180 -0.043-0.083 250 3 4x 14 10 32.5
FB10.433 9.055 -0.0020
-0.0038 11.811 0.157 4x 0.551 0.630 1.280
265 230 -0.050-0.096 300 4 4x 14 16 32.5
FC11.811 9.843 -0.0020
-0.0038 13.780 0.197 4x 0.709 0.709 1.280
300 250 -0.050-0.096 350 5 4x 18 18 32.5
Machine driven shaft
R U UA UB UY VG VH VL VM VN X Key
F 41 NH 0.039 1.500 +0-0.001 1.772 1.457 1.664 4.646 1.102 1.890 0.079 0.079 0.079 3/8 x 3/8 x 2
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 41 H
0.039 1.772 +0-0.0010 2.047 1.732 1.949 4.646 1.083 2.480 0.098 0.098 0.079
14x9x45 A [mm]1 45 +0
-0.025 52 44 49.5 118 27.5 63 2.5 2.5 20.039 1.575 +0
-0.0010 1.850 1.535 1.693 4.646 1.083 2.480 0.098 0.098 0.07912x8x45 A [mm]
1 40 +0-0.025 47 39 43 118 27.5 63 2.5 2.5 2
Customer’ shaft (metric series)
%��� �� �����inch
mm
F_
NH H
153
F 41 2 F 41 3 F 41 4
Machine driven shaft
Machine driven shaft
Customer’ shaft (inch series)
U VG X
F 41NQF1-5/8 1.625
+0
-0.00638.327 0.079
NQF1-3/4 1.750+0
-0.0063
Customer’ shaft (metric series)
U VG X
F 41
QF421.654 +0
-0.0063 8.327 0.079
42 +0-0.16 211.5 2
QF451.772 +0
-0.0063 8.327 0.079
45 +0-0.16 211.5 2
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 41 S0.039 1.654 +0
-0.0006 2.283 1.614 1.732 +0-0.001 6.969 1.831 3.228 0.079
1 42 +0-0.016 58 41 44 +0
-0.025 177 46.5 82 2
%��� �� �����inch
mm
NQF QF
S
154
Integral motor F 51 2 F 51 3 F 51 4
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 51 2, F 51 3, F 51 410.75 6. 42 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.67 3.68 10.94 0.79 2.56 0.87 18.86
273 163 250 215 180 -0.043-0.083 144 93.5 278 20 65 22 479
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 51 2, F 51 3, F 51 4 NH 2.000+0.0016
+0.00042.362 M16 [mm] 2.223 0.500 1.38 1.38 5.55 0.56 0.33
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 51 2_S1 M1 4.25 5.20 4.25 16.65 19.06 5.43168 / 76
F 51 3_S1 M1 108 132 108 423 484 138F 51 2_S2 M2S 4.69 5.63 4.69 17.80 20.55 6.14
168 / 76F 51 3_S2 M2S 119 143 119 452 522 156F 51 2_S3 M3S 5.59 6.10 5.59 19.49 23.27 7.68
187 / 85F 51 3_S3 M3S 142 155 142 495 591 195F 51 2_S3 M3L 5.59 6.10 5.59 20.75 24.33 7.68
203 / 92F 51 3_S3 M3L 142 155 142 527 618 195F 51 2_S4 M4 7.60 7.60 7.60 25.00 29.29 10.16
302 / 137F 51 3_S4 M4 193 193 193 635 744 258F 51 2_S4 M4LC 7.60 7.60 7.60 26.38 30.28 10.16
320 / 145F 51 3_S4 M4LC 193 193 193 670 769 258
F 51 4_S1 M14.25 5.20 4.25 19.47 21.87 5.43
172 / 78108 132 108 494.5 555.5 138
F 51 4_S2 M2S4.69 5.63 4.69 20.61 23.37 6.14
183 / 83119 143 119 523.5 593.5 156
F 51 4_S3 M3S5.59 6.10 5.59 22.30 26.08 7.68
201 / 91142 155 142 566.5 662.5 195
F 51 4_S3 M3L5.59 6.10 5.59 23.56 27.15 7.68
216 / 98142 155 142 598.5 689.5 195
155
NEMA C-face adapterF 51 2 F 51 3 F 51 4
%��� �� �����inch
mm
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 154 / 70
N 140TC 6.496 5.875 4.500 0.394 0.196 157 / 71
N 180TC 8.996 7.250 8.500 0.551 0.216 165 / 75
N 210TC 8.996 7.250 8.500 0.551 0.216 163 / 74
N 250TC 13.780 7.250 8.500 0.551 0.216 172 / 78
N 280TC 13.780 9.000 10.500 0.551 0.216 172 / 78
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
N 210TC 0.312 1.375 1.518
N 250TC 0.375 1.625 1.796
N 280TC 0.500 1.875 2.102
C
N 56C N 140TC N 180TC N 210TC N 250TC N 280TC
F 51 2, F 51 311.34 11.34 12.09 13.33 16.12 16.32
288 288 307 338.5 409.5 414.5
F 51 414.15 14.15 14.90
— — —359.5 359.5 378.5
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 51 2, F 51 3, F 51 410.75 6. 42 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.67 3.68 10.94 0.79 2.56 0.87 18.86
273 163 250 215 180 -0.043-0.083 144 93.5 278 20 65 22 479
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 51 2, F 51 3, F 51 4 NH 2.000+0.0016
+0.00042.362 M16 [mm] 2.223 0.500 1.38 1.38 5.55 0.56 0.33
156
%��� �� �����inch
mm
Input shaft (Inch series)
FU FZ FV KEY FM
F 51 2, F 51 3 NHS 1.000+0
-0.00051.110 1.970 1/4 x 1/4 x 1 3/4 M8x19 [mm]
F 51 4 NHS 0.750+0
-0.00050.830 1.570 3/16 x 3/16 x 1 3/8 M6x16 [mm]
Input shaft (Metric series)
FU FZ FV X KEY FM
F 51 2, F 51 3 HS0.945
+0
-0.00051.063 1.969 0.098
8x7x45 [mm] M8x19 [mm]24 +0
-0.013 27 50 2.5
F 51 4 HS0.748
+0
-0.00050.846 1.575 0.098
6x6x35 [mm] M6x16 [mm]19 +0
-0.013 21.5 40 2.5
C
F 51 2, F 51 3 14.07
357.5
F 51 415.33
389.5
Weight
[lbs / kg]
158 / 68
154 / 70
Solid input / hollow output shaft F 51 2 F 51 3 F 51 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 51 2, F 51 3, F 51 410.75 6. 42 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.67 3.68 10.94 0.79 2.56 0.87 18.86
273 163 250 215 180 -0.043-0.083 144 93.5 278 20 65 22 479
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 51 2, F 51 3, F 51 4 NH 2.000+0.0016
+0.00042.362 M16 [mm] 2.223 0.500 1.38 1.38 5.55 0.56 0.33
157
%��� �� �����inch
mm
IEC B5-motor adapter
C
P 63
P 71
P 80
P 90
P 100
P 112P 132
P 160
P 180
F 51 2, F 51 3 10.55 11.32 11.71 13.15 15.14
268 287.5 297.5 334 384.5
F 51 413.37 14.13 14.53
— —339.5 359 369
$!%�#����:��; Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 154 / 70
P 71 160 130 110 M8x16 4.5 154 / 70
P 80, P 90 200 165 130 M10x12 4 157 / 71
P 100, P 112 250 215 180 M12x16 4.5 165 / 75
P 132 300 265 230 14 5 163 / 74
P 160, P 180 350 300 250 18 5.5 172 / 78
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
P 132 10 38 41.3
P 160 12 42 45.3
P 180 14 48 51.8
F 51 2 F 51 3 F 51 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 51 2, F 51 3, F 51 410.75 6. 42 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.67 3.68 10.94 0.79 2.56 0.87 18.86
273 163 250 215 180 -0.043-0.083 144 93.5 278 20 65 22 479
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 51 2, F 51 3, F 51 4 NH 2.000+0.0016
+0.00042.362 M16 [mm] 2.223 0.500 1.38 1.38 5.55 0.56 0.33
158
SK servomotor adapter
Hollow input shaft
MA MB MC
SK 60A0.16 0.43 0.50
4 11 12.8
SK 60B0.20 0.55 0.64
5 14 16.3
SK 80A, SK 80B0.20 0.55 0.64
5 14 16.3
SK 80C0.24 0.75 0.86
6 19 21.8
SK 95A0.20 0.55 0.64
5 14 16.3
SK 95B0.24 0.75 0.86
6 19 21.8
SK 95C0.31 0.94 1.07
8 24 27.3
SK 110A0.24 0.75 0.86
6 19 21.8
SK 110B0.31 0.94 1.07
8 24 27.3
SK 130A0.31 0.94 1.07
8 24 27.3
SK 130B0.39 1.26 1.39
10 32 35.3
SK 180A0.39 1.26 1.39
10 32 35.3
SK 180B0.39 1.50 1.63
10 38 41.3
N NA NB NC XWeight
[lbs / kg]
SK 60A3.23 2.95 2.36 M5x10 [mm] 0.14
154 / 7082 75 60 3.5
SK 60B3.23 2.95 2.36 M5x10 [mm] 0.16
154 / 7082 75 60 4
SK 80A3.54 3.94 3.15 M6x12 [mm] 0.16
154 / 7090 100 80 4
SK 80B, SK 80C3.78 3.94 3.15 M6x12 [mm] 0.16
157 / 7196 100 80 4
SK 95A, SK 95B, SK 95C4.02 4.53 3.74 M8x12 [mm] 0.16
157 / 71102 115 95 4
SK 110A, SK 110B4.72 5.12 4.33 M8x12 [mm] 0.20
157 / 71120 130 110 5
SK 130A5.59 6.50 5.12 M10x20 [mm] 0.20
157 / 71142 165 130 5
SK 130B6.30 6.50 5.12 M10x20 [mm] 0.20
165 / 75160 165 130 5
SK 180A, SK 180B7.56 8.46 7.09 M12x19 [mm] 0.20
165 / 75192 215 180 5
C
SK 60ASK 60B
SK 80ASK 80B
SK 80C
SK 95A, SK 95B, SK 95C
SK 110A, SK 110B
SK 130A
SK 130B
SK 180A, SK 180B
F 51 2, F 51 3 — —11.32 11.32 13.15
287.5 287.5 334
F 51 410.98 11.26
—14.13
—279 286 359
F 51 2 F 51 3 F 51 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 51 2, F 51 3, F 51 410.75 6. 42 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.67 3.68 10.94 0.79 2.56 0.87 18.86
273 163 250 215 180 -0.043-0.083 144 93.5 278 20 65 22 479
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 51 2, F 51 3, F 51 4 NH 2.000+0.0016
+0.00042.362 M16 [mm] 2.223 0.500 1.38 1.38 5.55 0.56 0.33
���&�������'����#�����('���) (keyed)
159
SC servomotor adapter
Hollow input shaft
MBtight. torque
���Q� �2�Nm]
SC 60A0.43 M6 [mm] 133 / 1511
SC 60B0.55 M6 [mm] 133 / 1514
SC 80A
SC 80B
0.55 M6 [mm] 133 / 1514
SC 80C0.75 M6 [mm] 133 / 1519
SC 95A0.55 M6 [mm] 133 / 1514
SC 95B0.75 M6 [mm] 133 / 1519
SC 95C0.94 M6 [mm] 133 / 1524
SC 110A0.75 M6 [mm] 133 / 1519
SC 110B0.94 M6 [mm] 133 / 1524
SC 130A0.94 M6 [mm] 133 / 1524
SC 130B1.26 M8 [mm] 319 / 3632
SC 180A1.26 M8 [mm] 319 / 3632
SC 180B1.50 M8 [mm] 319 / 3638
N NA NB NC P Q XWeight
[lbs / kg]
SC 60A3.23 2.95 2.36 M5x10 [mm] 0.28 0.49 0.16
154 / 7082 75 60 7 12.5 4
SC 60B3.23 2.95 2.36 M5x10 [mm] 0.28 0.49 0.16
157 / 7182 75 60 7 12.5 4
SC 80A3.54 3.94 3.15 M6x12 [mm] 0.24 0.49 0.16
157 / 7190 100 80 6 12.5 4
SC 80B, SC 80C3.78 3.94 3.15 M6x12 [mm] 0.61 0.57 0.16
163 / 7496 100 80 15.5 14.5 4
SC 95A, SC 95B, SC 95C4.02 4.53 3.74 M8x16 [mm] 0.65 0.59 0.16
163 / 74102 115 95 16.5 15 4
SC 110A, SC 110B4.72 5.12 4.33 M8x16 [mm] 0.65 0.63 0.20
165 / 75120 130 110 16.5 16 5
SC 130A5.59 6.50 5.12 M10x20 [mm] 0.75 0.63 0.20
168 / 76142 165 130 19 16 5
SC 130B6.30 6.50 5.12 M10x20 [mm] 0.79 0.67 0.20
165 / 75160 165 130 20 17 5
SC 180A, SC 180B7.56 8.46 7.09 M12x24 [mm] 0.79 0.69 0.20
165 / 75192 215 180 20 17.5 5
C
SC 60A, SC 60B
SC 80ASC 80B
SC 80C
SC 95A, SC 95B, SC 95C
SC 110A, SC 110B
SC 130A
SC 130BSC 180A, SC
180B
F 51 2, F 51 3 —12.24 12.24 14.06 14.21311 311 357 361
F 51 413.31
—15.06
— —338 382.5
F 51 2 F 51 3 F 51 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 51 2, F 51 3, F 51 410.75 6. 42 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.67 3.68 10.94 0.79 2.56 0.87 18.86
273 163 250 215 180 -0.043-0.083 144 93.5 278 20 65 22 479
Output shaft (Inch series)
U UB UC UY UZ VA VB VC VD VE
F 51 2, F 51 3, F 51 4 NH 2.000+0.0016
+0.00042.362 M16 [mm] 2.223 0.500 1.38 1.38 5.55 0.56 0.33
���&�������'����#�����('���%�:����� ���� ��;
160
F 51 2 F 51 3 F 51 4
Output shaft (inch series)
U UY V VA VB Key M
F 51 NR 2.000+0
-0.00072.218 4.000 5.831 5.492 1/2 x 1/2 x 3 3/4 3/4 - 10 x 1.65
Output shaft (inch series)
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
tight.torque
���Q� �
F 51
NQF1-15/16 9.469 4.724 M5 [mm] 53 M6 [mm] 106 1.938 2.205 2.165 1.890 5.157 1.063
NQF2 9.469 4.724 M5 [mm] 53 M6 [mm] 106 2.000 2.205 2.165 1.890 5.157 1.063
Plug-in solid shaft
Adapter bushings and shrink disc NQF
NR
161
F 51 2 F 51 3 F 51 4
Hollow output shaft
Output shaft (metric series)
AC U UB UC UY UZ VA VB VC VD VE
F 51
H506.417 1.969
+0.0013
+0.00042.362
M16 [mm]2.118 0.551 1.378 1.378 5.551 0.571 0.335
163 50 +0.034+0.009 60 53.8 14 35 35 141 14.5 8.5
H556.417 2.165
+0.0016
+0.00042.362
M16 [mm]2.335 0.630 1.378 1.378 5.551 0.571 0.335
163 55 +0.04+0.01 60 59.3 16 35 35 141 14.5 8.5
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 51 S128 8.740 4.724 2.126 +0.0016
+0.0004 2.047 +0.0012+0 1.969 2.441 3.583 0.335
14.5 222 120 54 +0.04+0.01 52 +0.03
+0 50 62 91 8.5
Shrink disc
%��� �� �����inch
mm
S
H
162
F 51 2 F 51 3 F 51 4
Output shaft (metric series)
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
[Nm]
tight.torque
���Q� �
[Nm]
F 51
QF509.469 4.724
M5 [mm]53
M6 [mm]106 1.969 2.205 2.165 1.890 5.157 1.063
240.5 120 6 12 50 56 55 48 131 27
QF559.469 4.724
M5 [mm]53
M6 [mm]106 2.165 2.205 2.165 1.890 5.157 1.063
240.5 120 6 12 55 56 55 48 131 27
Adapter bushings and shrink disc
Plug-in solid shaft
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 51 R1.969
+0
-0.00062.106 3.937 5.768 5.492 0.197
14x9x90 A [mm] M16x36 [mm]50 +0
-0.016 53.5 100 146.5 139.5 5
%��� �� �����inch
mm
R
QF
163
Flange options
F 51 2 F 51 3 F 51 4
AJ AK BD BE BF GA VD
F 51
FA10.433 9.055 -0.0020
-0.0038 11.811 0.197 4x 0.551 0.630 1.831
265 230 -0.050-0.096 300 5 4x 14 16 46.5
FB11.811 9.843 -0.0020
-0.0038 13.780 0.197 4x 0.709 0.709 1.831
300 250 -0.050-0.096 350 5 4x 18 18 46.5
FC13.780 11.811 -0.0022
-0.0043 15.748 0.197 4x 0.709 0.787 1.831
350 300 -0.056-0.108 400 5 4x 18 20 46.5
Machine driven shaft
R U UA UB UY VG VH VL VM VN X Key
F 51 NH 0.039 2.000 +0-0.0012 2.283 1.969 2.218 5.472 1.299 2.874 0.098 0.098 0.079 1/2 x 1/2 x 2 1/2
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 51 H
0.039 2.165 +0-0.0012 2.480 2.126 2.323 5.472 1.299 2.874 0.098 0.098 0.079
16x10x50 A [mm]1 55 +0
-0.030 63 54 59 139 33 73 2.5 2.5 20.039 1.969 +0
-0.0010 2.244 1.929 2.106 5.472 1.299 2.874 0.098 0.098 0.07914x9x50 A [mm]
1 50 +0-0.025 57 49 53.5 139 33 73 2.5 2.5 2
Customer’ shaft (metric series)
%��� �� �����inch
mm
F_
NH H
164
F 51 2 F 51 3 F 51 4
Machine driven shaft
Machine driven shaft
Customer’ shaft (inch series)
U VG X
F 51NQF1-15/16 1.938
+0
-0.00639.193 0.079
NQF2 2.000+0
-0.0075
Customer’ shaft (metric series)
U VG X
F 51
QF501.969 +0
-0.0063 9.193 0.079
50 +0-0.16 233.5 2
QF552.165 +0
-0.0075 9.193 0.079
55 +0-0.19 233.5 2
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 51 S0.039 2.047 -0.0004
-0.0011 2.677 2.008 2.126 +0-0.0012 7.913 1.890 3.583 0.079
1 52 -0.01-0.029 68 51 54 +0
-0.03 201 48 91 2
%��� �� �����inch
mm
NQF QF
S
165
Integral motorF 60 3 F 60 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 60 3, F 60 411.73 8.03 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.59 4.53 12.80 1.02 3.19 0.87 21.02
298 204 250 215 180 -0.043-0.083 142 115 325 26 81 22 534
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 60 3, F 60 4 NH 2.375+0.0016
+0.00042.953 2.651 0.625 0.669 M12 [mm] 1.58 1.58 7.17 0.56 0.39
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 60 3_S2 M2S4.69 5.63 4.69 19.15 21.91 6.14
267 / 121119 143 119 486.5 556.5 156
F 60 3_S3 M3S5.59 6.10 5.59 20.85 24.63 7.68
269 / 122142 155 142 529.5 625.5 195
F 60 3_S3 M3L5.59 6.10 5.59 22.11 25.69 7.68
284 / 129142 155 142 561.5 652.5 195
F 60 3_S4 M47.60 7.60 7.60 26.36 30.61 10.16
384 / 174193 193 193 669.5 777.5 258
F 60 3_S4 M4LC7.60 7.60 7.60 27.74 31.59 10.16
401 / 182193 193 193 704.5 802.5 258
F 60 3_S5 M5S9.65 9.65 9.65 29.76 35.28 12.20
472 / 214245 245 245 756 896 310
F 60 3_S5 M5L9.65 9.65 9.65 31.50 37.01 12.20
507 / 230245 245 245 800 940 310
F 60 4_S1 M14.25 5.20 4.25 20.79 23.19 5.43
256 / 116108 132 108 528 589 138
F 60 4_S2 M2S4.69 5.63 4.69 21.93 24.69 6.14
267 / 121119 143 119 557 627 156
F 60 4_S3 M3S5.59 6.10 5.59 23.62 27.40 7.68
284 / 129142 155 142 600 696 195
F 60 4_S3 M3L5.59 6.10 5.59 24.88 28.46 7.68
300 / 136142 155 142 632 723 195
F 60 4_S4 M4L7.60 7.60 7.60 29.13 33.43 10.16
384 / 174193 193 193 740 849 258
F 60 4_S4 M4LC7.60 7.60 7.60 30.51 34.41 10.16
401 / 182193 193 193 775 874 258 %��� �� �����inch
mm
166
NEMA C-face adapter F 60 3 F 60 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 60 3, F 60 411.73 8.03 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.59 4.53 12.80 1.02 3.19 0.87 21.02
298 204 250 215 180 -0.043-0.083 142 115 325 26 81 22 534
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 60 3, F 60 4 NH 2.375+0.0016
+0.00042.953 2.651 0.625 0.669 M12 [mm] 1.58 1.58 7.17 0.56 0.39
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 238 / 108
N 140TC 6.496 5.875 4.500 0.394 0.196 243 / 110
N 180TC 8.996 7.250 8.500 0.551 0.216 251 / 114
N 210TC 8.996 7.250 8.500 0.551 0.216 245 / 111
N 250TC 13.780 7.250 8.500 0.551 0.216 256 / 116
N 280TC 13.780 9.000 10.500 0.551 0.216 256 / 116
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
N 210TC 0.312 1.375 1.518
N 250TC 0.375 1.625 1.796
N 280TC 0.500 1.875 2.102
C
N 56C N 140TC N 180TC N 210TC N 250TC N 280TC
F 60 312.68 12.68 13.42 14.66 17.48 17.68
322 322 341 372.5 444 449
F 60 415.47 15.47 16.22
— — —393 393 412
%��� �� �����inch
mm
167
Solid input / hollow output shaftF 60 3 F 60 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 60 3, F 60 411.73 8.03 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.59 4.53 12.80 1.02 3.19 0.87 21.02
298 204 250 215 180 -0.043-0.083 142 115 325 26 81 22 534
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 60 3, F 60 4 NH 2.375+0.0016
+0.00042.953 2.651 0.625 0.669 M12 [mm] 1.58 1.58 7.17 0.56 0.39
Input shaft (Inch series)
FU FZ FV Key FM
F 60 3 NHS 1.125+0
-0.00051.230 2.360 1/4 x 1/4 x 2 5/32 M10x22 [mm]
F 60 4 NHS 1.000+0
-0.00051.110 1.970 1/4 x 1/4 x 1 3/4 M8x19 [mm]
C
F 60 316.50
419
F 60 418.21
462.5
Weight
[lbs / kg]
238 / 108
231 / 105
%��� �� �����inch
mm
Input shaft (Metric series)
FU FZ FV X KEY FM
F 60 3 HS1.102
+0
-0.00051.220 2.362 0.197
8x7x50 [mm] M10x22 [mm]28 +0
-0.013 31 60 5
F 60 4 HS0.945
+0
-0.00051.063 1.969 0.098
8x7x45 [mm] M8x19 [mm]24 +0
-0.013 27 50 2.5
168
IEC B5-motor adapter F 60 3 F 60 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 60 3, F 60 411.73 8.03 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.59 4.53 12.80 1.02 3.19 0.87 21.02
298 204 250 215 180 -0.043-0.083 142 115 325 26 81 22 534
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 60 3, F 60 4 NH 2.375+0.0016
+0.00042.953 2.651 0.625 0.669 M12 [mm] 1.58 1.58 7.17 0.56 0.39
C
P 63
P 71
P 80
P 90
P 100
P 112P 132
P 160
P 180
F 60 311.91 12.68 13.03 14.47 16.50
302.5 322 331 367.5 419
F 60 414.69 15.45 15.85
— —373 392.5 402.5
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 238 / 108
P 71 160 130 110 M8x16 4.5 238 / 108
P 80, P 90 200 165 130 M10x12 4 243 / 110
P 100, P 112 250 215 180 M12x16 4.5 251 / 114
P 132 300 265 230 14 5 245 / 111
P 160, P 180 350 300 250 18 6 256 / 116
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
P 132 10 38 41.3
P 160 12 42 45.3
P 180 14 48 51.8
%��� �� �����inch
mm
169
SK servomotor adapterF 60 3 F 60 4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 60 3, F 60 411.73 8.03 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.59 4.53 12.80 1.02 3.19 0.87 21.02
298 204 250 215 180 -0.043-0.083 142 115 325 26 81 22 534
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 60 3, F 60 4 NH 2.375+0.0016
+0.00042.953 2.651 0.625 0.669 M12 [mm] 1.58 1.58 7.17 0.56 0.39
Hollow input shaft
MA MB MC
SK 80B0.20 0.55 0.64
5 14 16.3
SK 80C0.24 0.75 0.86
6 19 21.8
SK 95A0.20 0.55 0.64
5 14 16.3
SK 95B0.24 0.75 0.86
6 19 21.8
SK 95C0.31 0.94 1.07
8 24 27.3
SK 110A0.24 0.75 0.86
6 19 21.8
SK 110B0.31 0.94 1.07
8 24 27.3
SK 130A0.31 0.94 1.07
8 24 27.3
SK 130B0.39 1.26 1.39
10 32 35.3
SK 180A0.39 1.26 1.39
10 32 35.3
SK 180B0.39 1.50 1.63
10 38 41.3
N NA NB NC XWeight
[lbs / kg]
SK 80B, SK 80C3.78 3.94 3.15
M6x12 [mm]0.16
240 / 10996 100 80 4
SK 95A, SK 95B, SK 95C4.02 4.53 3.74
M8x12 [mm]0.16
247 / 112102 115 95 4
SK 110A, SK 110B4.72 5.12 4.33
M8x12 [mm]0.20
247 / 112120 130 110 5
SK 130A5.59 6.50 5.12
M10x20 [mm]0.20
247 / 112142 165 130 5
SK 130B6.30 6.50 5.12
M10x20 [mm]0.20
251 / 114160 165 130 5
SK 180A, SK 180B7.56 8.46 7.09
M12x19 [mm]0.20
240 / 109192 215 180 5
C
SK 80B
SK 80C
SK 95A, SK 95B, SK 95C
SK 110A, SK 110B
SK 130A
SK 130B
SK 180A, SK 180B
F 60 3 —12.68 14.51
322 368.5
F 60 415.45 15.45
—393 392.5
%��� �� �����inch
mm
���&�������'����#�����('���) (keyed)
170
SC servomotor adapter
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 60 3, F 60 411.73 8.03 9.84 8.46 7.087 -0.0017
-0.0033 M12x19 [mm]5.59 4.53 12.80 1.02 3.19 0.87 21.02
298 204 250 215 180 -0.043-0.083 142 115 325 26 81 22 534
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 60 3, F 60 4 NH 2.375+0.0016
+0.00042.953 2.651 0.625 0.669 M12 [mm] 1.58 1.58 7.17 0.56 0.39
Hollow input shaft
MBtight. torque
���Q� �2�Nm]
SC 80B0.55
M6 [mm] 133 / 1514
SC 80C0.75
M6 [mm] 133 / 1519
SC 95A0.55
M6 [mm] 133 / 1514
SC 95B0.75
M6 [mm] 133 / 1519
SC 95C0.94
M6 [mm] 133 / 1524
SC 110A0.75
M6 [mm] 133 / 1519
SC 110B0.94
M6 [mm] 133 / 1524
SC 130A0.94
M6 [mm] 133 / 1524
SC 130B1.26
M8 [mm] 319 / 3632
SC 180A1.26
M8 [mm] 319 / 3632
SC 180B1.50
M8 [mm] 319 / 3638
N NA NB NC P Q XWeight
[lbs / kg]
SC 80B, SC 80C3.78 3.94 3.15
M6x12 [mm]0.61 0.57 0.16
249 / 11396 100 80 15.5 14.5 4
SC 95A, SC 95B, SC 95C4.02 4.53 3.74
M8x16 [mm]0.65 0.59 0.16
249 / 113102 115 95 16.5 15 4
SC 110A, SC 110B4.72 5.12 4.33
M8x16 [mm]0.65 0.63 0.20
249 / 113120 130 110 16.5 16 5
SC 130A5.59 6.50 5.12
M10x20 [mm]0.75 0.63 0.20
254 / 115142 165 130 19 16 5
SC 130B6.30 6.50 5.12
M10x20 [mm]0.79 0.67 0.20
247 / 112160 165 130 20 17 5
SC 180A, SC 180B7.56 8.46 7.09
M12x24 [mm]0.79 0.69 0.20
247 / 112192 215 180 20 17.5 5
C
SC 80B
SC 80C
SC 95A, SC 95B, SC 95C
SC 110A, SC 110B
SC 130A
SC 130B SC 180A, SC 180B
F 60 3 —13.60 15.37 15.53
345.5 390.5 394.5
F 60 416.38 16.38
— —416 416
%��� �� �����inch
mm
���&�������'����#�����('���%�:����� ���� ��;
F 60 3 F 60 4
171
Output shaft (inch series)
Output shaft (inch series)
Plug-in solid shaft
Adapter bushings and shrink disc NQF
NR
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
tight.torque
���Q� �
F 60
NQF2-3/8 11.535 6.496 M5 [mm] 53 M8 [mm] 266 2.375 2.795 2.520 2.244 6.220 1.102
NQF2-7/16 11.535 6.496 M5 [mm] 53 M8 [mm] 266 2.438 2.795 2.520 2.244 6.220 1.102
NQF2-3/4 11.535 6.496 M5 [mm] 53 M8 [mm] 266 2.750 2.795 2.520 2.244 6.220 1.102
U UY V VA VB Key M
F 60 NR 2.375+0
-0.00072.646 4.750 6.522 7.087 5/8 x 5/8 x 3 5/8 3/4 - 10 x 1.65
F 60 3 F 60 4
172
Hollow output shaft
Output shaft (metric series)
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 60 S310 10.748 6.496 2.638 +0.0016
+0.0004 2.559 +0.0012+0 2.165 2.441 5.236 0.394
35 273 165 67 +0.04+0.01 65 +0.03
+0 55 62 133 10
Shrink disc
%��� �� �����inch
mm
S
H
F 60 3 F 60 4
AC U UB UX UY UW UZ VA VB VC VD VE
F 60
H608.031 2.362
+0.0016
+0.00042.953 0.669 2.535
M12 [mm]0.709 1.575 1.575 7.165 0.571 0.394
204 60 +0.04+0.01 75 17 64.4 18 40 40 182 14.5 10
H708.031 2.756
+0.0016
+0.00042.953 0.669 2.949
M12 [mm]0.787 1.575 1.575 7.165 0.571 0.394
204 70 +0.04+0.01 75 17 74.9 20 40 40 182 14.5 10
173
Output shaft (metric series)
Adapter bushings and shrink disc
Plug-in solid shaft
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 60 R2.362
+0
-0.00072.520 4.724 6.496 7.087 0.197
18x11x110 A [mm] M16x36 [mm]60 +0
-0.019 64 120 165 180 5
%��� �� �����inch
mm
R
QF
F 60 3 F 60 4
C D MA MB U UA VA VB VC VE
tight.torque
���Q� �
[Nm]
tight.torque
���Q� �
[Nm]
F 60
QF5511.535 6.496
M5 [mm]53
M8 [mm]266 2.165 2.795 2.520 2.244 6.220 1.102
293 165 6 30 55 71 64 57 158 28
QF6011.535 6.496
M5 [mm]53
M8 [mm]266 2.362 2.795 2.520 2.244 6.220 1.102
293 165 6 30 60 71 64 57 158 28
QF6511.535 6.496
M5 [mm]53
M8 [mm]266 2.559 2.795 2.520 2.244 6.220 1.102
293 165 6 30 65 71 64 57 158 28
QF7011.535 6.496
M5 [mm]53
M8 [mm]266 2.756 2.795 2.520 2.244 6.220 1.102
293 165 6 30 70 71 64 57 158 28
174
Flange options
AJ AK BD BE BF GA VD
F 60
FA10.433 9.055 -0.0020
-0.0038 11.811 0.157 8x 0.551 0.512 1.772
265 230 -0.050-0.096 300 4 8x 14 13 45
FB11.811 9.843 -0.0020
-0.0038 13.780 0.197 8x 0.709 0.709 1.772
300 250 -0.050-0.096 350 5 8x 18 18 45
FC13.780 11.811 -0.0022
-0.0043 15.748 0.197 8x 0.709 0.787 1.772
350 300 -0.056-0.108 400 5 8x 18 20 45
Machine driven shaft
R U UA UB UY VG VH VL VM VN X Key
F 60 NH 0.039 2.375 +0-0.0012 2.677 2.323 2.646 7.087 1.496 4.094 0.098 0.098 0.079 5/8 x 5/8 x 3
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 60 H
0.039 2.756 +0-0.0012 3.071 2.717 2.933 7.087 1.496 4.094 0.098 0.098 0.079
20x12x70 A [mm]1 70 +0
-0.030 78 69 74.5 180 38 104 2.5 2.5 20.039 2.362 +0
-0.0012 2.677 2.323 2.520 7.087 1.496 4.094 0.098 0.098 0.07918x11x70 A [mm]
1 60 +0-0.030 68 59 64 180 38 104 2.5 2.5 2
Customer’ shaft (metric series)
%��� �� �����inch
mm
F_
NH H
F 60 3 F 60 4
175
Machine driven shaft
Machine driven shaft
Customer’ shaft (inch series)
U VG X
F 60
NQF2-3/8 2.375+0
-0.0075
10.984 0.098NQF2-7/16 2.438+0
-0.0075
NQF2-3/4 2.750+0
-0.0075
Customer’ shaft (metric series)
U VG X
F 60
QF552.165 +0
-0.0075 10.984 0.098
55 +0-0.19 279 2.5
QF602.362 +0
-0.0075 10.984 0.098
60 +0-0.19 279 2.5
QF652.559 +0
-0.0075 10.984 0.098
65 +0-0.19 279 2.5
QF702.756 +0
-0.0075 10.984 0.098
70 +0-0.19 279 2.5
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 60 S0.059 2.559 -0.0004
-0.0011 3.307 2.520 2.638 +0-0.0012 9.764 2.087 5.236 0.079
1.5 65 -0.01-0.029 84 64 67 +0
-0.03 248 53 133 2
%��� �� �����inch
mm
NQF QF
S
F 60 3 F 60 4
176
Integral motor F 70 3 F 70 4
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 70 3, F 70 413.58 10.28 10.63 9.25 8.071 -0.0020
-0.0038 M14x22 [mm]6.22 5.67 14.57 1.18 3.92 1.02 23.94
345 261 270 235 205 -0.050-0.096 158 144 370 30 99.5 26 608
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 70 3, F 70 4 NH 2.750+0.0016
+0.00043.346 3.032 0.625 0.866 M16 [mm] 2.36 2.36 9.09 0.67 0.39
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 70 3_S2 M2S4.69 5.63 4.69 21.73 24.49 6.14
390 / 177119 143 119 552 622 156
F 70 3_S3 M3S5.59 6.10 5.59 23.43 27.20 7.68
410 / 186142 155 142 595 691 195
F 70 3_S3 M3L5.59 6.10 5.59 24.69 28.27 7.68
425 / 193142 155 142 627 718 195
F 70 3_S4 M47.60 7.60 7.60 28.94 33.23 10.16
525 / 238193 193 193 735 844 258
F 70 3_S4 M4LC7.60 7.60 7.60 30.31 34.21 10.16
542 / 246193 193 193 770 869 258
F 70 3_S5 M5S9.65 9.65 9.65 32.34 37.85 12.20
613 / 278245 245 245 821.5 961.5 310
F 70 3_S5 M5L9.65 9.65 9.65 34.07 39.59 12.20
648 / 294245 245 245 865.5 1005.5 310
F 70 4_S1 M14.25 5.20 4.25 22.60 25.00 5.43
388 / 176108 132 108 574 635 138
F 70 4_S2 M2S4.69 5.63 4.69 23.74 26.50 6.14
397 / 180119 143 119 603 673 156
F 70 4_S3 M3S5.59 6.10 5.59 25.43 29.21 7.68
417 / 189142 155 142 646 742 195
F 70 4_S3 M3L5.59 6.10 5.59 26.69 30.28 7.68
432 / 196142 155 142 678 769 195
F 70 4_S4 M47.60 7.60 7.60 30.94 35.24 10.16
531 / 241193 193 193 786 895 258
F 70 4_S4 M4LC7.60 7.60 7.60 32.32 36.22 10.16
549 / 249193 193 193 821 920 258
177
%��� �� �����inch
mm
NEMA C-face adapterF 70 3 F 70 4
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 370 / 168
N 140TC 6.496 5.875 4.500 0.394 0.196 375 / 170
N 180TC 8.996 7.250 8.500 0.551 0.216 384 / 174
N 210TC 8.996 7.250 8.500 0.551 0.216 388 / 176
N 250TC 13.780 7.250 8.500 0.551 0.216 408 / 185
N 280TC 13.780 9.000 10.500 0.551 0.216 408 / 185
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
N 210TC 0.312 1.375 1.518
N 250TC 0.375 1.625 1.796
N 280TC 0.500 1.875 2.102
C
N 56C N 140TC N 180TC N 210TC N 250TC N 280TC
F 70 3 —15.26 16.00 17.24 20.24 20.43
387.5 406.5 438 514 519
F 70 417.26 17.26 18.01 19.25
— —438.5 438.5 457.5 489
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 70 3, F 70 413.58 10.28 10.63 9.25 8.071 -0.0020
-0.0038 M14x22 [mm]6.22 5.67 14.57 1.18 3.92 1.02 23.94
345 261 270 235 205 -0.050-0.096 158 144 370 30 99.5 26 608
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 70 3, F 70 4 NH 2.750+0.0016
+0.00043.346 3.032 0.625 0.866 M16 [mm] 2.36 2.36 9.09 0.67 0.39
178
%��� �� �����inch
mm
Solid input / hollow output shaft F 70 3 F 70 4
Input shaft (Inch series)
FU FZ FV Key FM
F 70 3 NHS 1.625+0
-0.00061.791 4.250 3/8 x 3/8 x 4 M12x28 [mm]
F 70 4 NHS 1.000+0
-0.00051.110 1.970 1/4 x 1/4 x 1 3/4 M8x19 [mm]
C
F 70 322.52
572
F 70 420.02
508.5
Weight
[lbs / kg]
410 / 186
384 / 174
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 70 3, F 70 413.58 10.28 10.63 9.25 8.071 -0.0020
-0.0038 M14x22 [mm]6.22 5.67 14.57 1.18 3.92 1.02 23.94
345 261 270 235 205 -0.050-0.096 158 144 370 30 99.5 26 608
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 70 3, F 70 4 NH 2.750+0.0016
+0.00043.346 3.032 0.625 0.866 M16 [mm] 2.36 2.36 9.09 0.67 0.39
Input shaft (Metric series)
FU FZ FV X KEY FM
F 70 3 HS1.654
+0
-0.00061.772 4.331 0.394
12x8x90 [mm] M12x28 [mm]42 +0
-0.016 45 110 10
F 70 4 HS0.945
+0
-0.00051.063 1.969 0.098
8x7x45 [mm] M8x19 [mm]24 +0
-0.013 27 50 2.5
179
IEC B5-motor adapter
%��� �� �����inch
mm
F 70 3 F 70 4
C
P 63
P 71
P 80
P 90
P 100
P 112P 132
P 160
P 180P 200
F 70 3 —15.26 15.65 17.09 19.27 20.26
387.5 397.5 434 489.5 514.5
F 70 416.50 17.26 17.58 18.98
— —419 438.5 446.5 482
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 370 / 168
P 71 160 130 110 M8x16 4.5 370 / 168
P 80, P 90 200 165 130 M10x12 4 375 / 170
P 100, P 112 250 215 180 M12x16 4.5 384 / 174
P 132 300 265 230 14 5 388 / 176
P 160, P 180 350 300 250 18 6 408 / 185
P 200 400 350 300 M16x25 7 454 / 206
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
P 132 10 38 41.3
P 160 12 42 45.3
P 180 14 48 51.8
P 200 16 55 59.3
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 70 3, F 70 413.58 10.28 10.63 9.25 8.071 -0.0020
-0.0038 M14x22 [mm]6.22 5.67 14.57 1.18 3.92 1.02 23.94
345 261 270 235 205 -0.050-0.096 158 144 370 30 99.5 26 608
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 70 3, F 70 4 NH 2.750+0.0016
+0.00043.346 3.032 0.625 0.866 M16 [mm] 2.36 2.36 9.09 0.67 0.39
180
Output shaft (inch series)
Plug-in solid shaft NR
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 70 S310 12.815 7.087 3.228 +0.0019
+0.0005 3.150 +0.0012+0 3.150 3.543 5.512 0.394
35 325.5 180 82 +0.047+0.012 80 +0.03
+0 80 90 140 10
%��� �� �����inch
mm
Shrink disc S
F 70 3 F 70 4
U UY V VA VB X Key M
F 70 NR 2.875+0
-0.00073.200 5.118 7.776 9.035 0.472 3/4 x 3/4 x 4 5/32 3/4 - 10 x 1.65
181
Hollow output shaft
Output shaft (metric series)
%��� �� �����inch
mm
H
F 70 3 F 70 4
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 70 R3.150
+0
-0.00073.346 5.118 7.776 9.035 0.197
22x14x120 A [mm] M20x42 [mm]80 +0
-0.019 85 130 197.5 229.5 5
Plug-in solid shaft R
AC U UB UX UY UW UZ VA VB VC VD VE
F 70
H8010.276 3.150
+0.0016
+0.00043.346 0.866 3.362
M16 [mm]0.866 2.362 2.362 9.094 0.669 0.394
261 80 +0.04+0.01 85 22 85.4 22 60 60 231 17 10
H7010.276 2.756
+0.0016
+0.00043.346 0.866 2.949
M16 [mm]0.787 2.362 2.362 9.094 0.669 0.394
261 70 +0.04+0.01 85 22 74.9 20 60 60 231 17 10
182
%��� �� �����inch
mm
Flange options
AJ AK BD BE BF GA VD
F 70
FA15.748 13.780 -0.0024
-0.0047 17.717 0.197 8x 0.709 0.866 2.756
400 350 -0.062-0.119 450 5 8x 18 22 70
FB19.685 17.717 -0.0027
-0.0052 21.654 0.197 8x 0.709 0.945 2.756
500 450 -0.068-0.131 550 5 8x 18 24 70
R U UA UB UY VG VH VL VM VN X Key
F 70 NH 0.098 2.750 +0-0.0012 3.071 2.717 3.027 9.016 2.283 4.449 0.295 0.118 0.098 5/8 x 5/8 x 3
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 70 H
0.098 3.150 +0-0.0012 3.504 3.110 3.346 9.016 2.283 4.449 0.118 0.118 0.098
22x14x75 A [mm]2.5 80 +0
-0.030 89 79 85 229 58 113 3 3 2.50.098 2.756 +0
-0.0012 3.071 2.717 2.933 9.016 2.283 4.449 0.118 0.118 0.09820x12x75 A [mm]
2.5 70 +0-0.030 78 69 74.5 229 58 113 3 3 2.5
Customer’ shaft (metric series)
F_
Machine driven shaft NH H
F 70 3 F 70 4
183
%��� �� �����inch
mm
F 70 3 F 70 4
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 70 S0.098 3.150 -0.0004
-0.0011 4.094 3.110 3.228 +0-0.0014 12.126 3.071 5.512 0.098
2.5 80 -0.01-0.029 104 79 82 +0
-0.035 308 78 140 2.5
%��� �� �����inch
mm
Machine driven shaft S
184
Integral motor F 80 3 F 80 4
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 80 3, F 80 416.18 12.17 11.81 10.43 9.055 -0.0020
-0.0038 M16x28 [mm]7.20 6.87 16.93 1.42 4.82 1.02 28.11
411 309 300 265 230 -0.050 -0.096 183 174.5 430 36 122.5 26 714
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 80 3, F 80 4 NH 3.188+0.0016
+0.00043.740 3.523 0.750 0.866 M16 [mm] 3.15 3.15 10.79 0.73 0.39
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 80 3_S3 M3S5.59 6.10 5.59 25.71 29.49 7.68
602 / 273142 155 142 653 749 195
F 80 3_S3 M3L5.59 6.10 5.59 26.97 30.55 7.68
617 / 280142 155 142 685 776 195
F 80 3_S4 M47.60 7.60 7.60 31.22 35.51 10.16
717 / 325193 193 193 793 902 258
F 80 3_S4 M4LC7.60 7.60 7.60 32.60 36.50 10.16
734 / 333193 193 193 828 927 258
F 80 3_S5 M5S9.65 9.65 9.65 34.63 40.14 12.20
805 / 365245 245 245 879.5 1019.5 310
F 80 3_S5 M5L9.65 9.65 9.65 36.36 41.87 12.20
840 / 381245 245 245 923.5 1063.5 310
F 80 4_S1 M14.25 5.20 4.25 25.35 27.76 5.43
584 / 265108 132 108 644 705 138
F 80 4_S2 M2S4.69 5.63 4.69 26.50 29.25 6.14
593 / 269119 143 119 673 743 156
F 80 4_S3 M3S5.59 6.10 5.59 28.19 31.97 7.68
613 / 278142 155 142 716 812 195
F 80 4_S3 M3L5.59 6.10 5.59 29.45 33.03 7.68
628 / 285142 155 142 748 839 195
F 80 4_S4 M47.60 7.60 7.60 33.70 37.99 10.16
728 / 330193 193 193 856 965 258
F 80 4_S4 M4LC7.60 7.60 7.60 35.08 38.98 10.16
745 / 338193 193 193 891 990 258
185
Outline dimensions
%��� �� �����inch
mm
NEMA C-face adapterF 80 3 F 80 4
A AC B BA BB BC D FA FB FC FD H OA
F 80 3, F 80 416.18 12.17 11.81 10.43 9.055 -0.0020
-0.0038 M16x28 [mm]7.20 6.87 16.93 1.42 4.82 1.02 28.11
411 309 300 265 230 -0.050-0.096 183 174.5 430 36 122.5 26 714
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 569 / 258
N 140TC 6.496 5.875 4.500 0.394 0.196 573 / 260
N 180TC 8.996 7.250 8.500 0.551 0.216 582 / 264
N 210TC 8.996 7.250 8.500 0.551 0.216 586 / 266
N 250TC 13.780 7.250 8.500 0.551 0.216 608 / 276
N 280TC 13.780 9.000 10.500 0.551 0.216 608 / 276
N 320TC 17.717 11.000 12.500 0.669 0.216 657 / 298
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
N 210TC 0.312 1.375 1.518
N 250TC 0.375 1.625 1.796
N 280TC 0.500 1.875 2.102
N 320TC 0.500 2.125 2.350
C
N 56C N 140TC N 180TC N 210TC N 250TC N 280TC N 320TC
F 80 3 — —18.31 19.55 22.54 22.74 25.59
465 496.5 572.5 577.5 650
F 80 420.04 20.04 20.79 22.03
— — —509 509 528 559.5
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 80 3, F 80 4 NH 3.188+0.0016
+0.00043.740 3.523 0.750 0.866 M16 [mm] 3.15 3.15 10.79 0.73 0.39
186
Outline dimensions
%��� �� �����inch
mm
Solid input / hollow output shaft F 80 3 F 80 4
A AC B BA BB BC D FA FB FC FD H OA
F 80 3 , F 80 416.18 12.17 11.81 10.43 9.055 -0.0020
-0.0038 M16x28 [mm]7.20 6.87 16.93 1.42 4.82 1.02 28.11
411 309 300 265 230 -0.050-0.096 183 174.5 430 36 122.5 26 714
Input shaft (Inch series)
FU FZ FV Key FM
F 80 3 NHS 1.625+0
-0.00061.791 4.250 3/8 x 3/8 x 4 M12x28 [mm]
F 80 4 NHS 1.000+0
-0.00051.110 1.970 1/4 x 1/4 x 1 3/4 M8x19 [mm]
C
F 80 324.80
630
F 80 422.66
575.5
Weight
[lbs / kg]
602 / 273
580 / 263
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 80 3, F 80 4 NH 3.188+0.0016
+0.00043.740 3.523 0.750 0.866 M16 [mm] 3.15 3.15 10.79 0.73 0.39
Input shaft (Metric series)
FU FZ FV X KEY FM
F 80 3 HS1.654
+0
-0.00061.772 4.331 0.394
12x8x90 [mm] M12x28 [mm]42 +0
-0.016 45 110 10
F 80 4 HS0.945
+0
-0.00051.063 1.969 0.098
8x7x45 [mm] M8x19 [mm]24 +0
-0.013 27 50 2.5
187
IEC B5-motor adapter
%��� �� �����inch
mm
Outline dimensions
F 80 3 F 80 4
A AC B BA BB BC D FA FB FC FD H OA
F 80 3, F 80 416.18 12.17 11.81 10.43 9.055 -0.0020
-0.0038 M16x28 [mm]7.20 6.87 16.93 1.42 4.82 1.02 28.11
411 309 300 265 230 -0.050-0.096 183 174.5 430 36 122.5 26 714
C
P 63
P 71
P 80
P 90
P 100
P 112P 132
P 160
P 180P 200 P 225
F 80 3 —17.54 17.93 19.37 21.56 22.54 24.33
445.5 455.5 492 547.5 572.5 618
F 80 419.25 20.02 20.41 21.73
— — —489 508.5 518.5 552
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 569 / 258
P 71 160 130 110 M8x16 4.5 569 / 258
P 80, P 90 200 165 130 M10x12 4 573 / 260
P 100, P 112 250 215 180 M12x16 4.5 582 / 264
P 132 300 265 230 14 5 586 / 266
P 160, P 180 350 300 250 18 6 608 / 276
P 200 400 350 300 M16x25 7 657 / 298
P 225 450 400 350 18 6 657 / 298
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
P 132 10 38 41.3
P 160 12 42 45.3
P 180 14 48 51.8
P 200 16 55 59.3
P 225 18 60 64.4
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 80 3, F 80 4 NH 3.188+0.0016
+0.00043.740 3.523 0.750 0.866 M16 [mm] 3.15 3.15 10.79 0.73 0.39
188
F 80 3 F 80 4
Output shaft (inch series)
Plug-in solid shaft NR
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 80 S611 14.882 7.677 3.622 +0.0019
+0.0005 3.543 +0.0014+0 3.543 3.937 6.969 0.394
69 378 195 92 +0.047+0.012 90 +0.035
+0 90 100 177 10
%��� �� �����inch
mm
Shrink disc S
U UY V VA VB X Key M
F 80 NR 3.500+0
-0.00093.882 6.693 9.449 10.709 0.591 7/8 x 7/8 x 5 1/2 1 - 8 x 1.97
189
F 80 3 F 80 4
Hollow output shaft
%��� �� �����inch
mm
H
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 80 R3.543
+0
-0.00093.740 6.693 9.449 10.709 0.197
25x14x160 A [mm] M20x42 [mm]90 +0
-0.022 95 170 240 272 5
Plug-in solid shaft R
Output shaft (metric series)
AC U UB UX UY UW UZ VA VB VC VD VE
F 80
H9012.165 3.543
+0.0019
+0.00053.740 0.866 3.756
M16 [mm]0.984 3.150 3.150 10.787 0.728 0.394
309 90 +0.047+0.012 95 22 95.4 25 80 80 274 18.5 10
H8012.165 3.150
+0.0016
+0.00043.740 0.866 3.362
M16 [mm]0.866 3.150 3.150 10.787 0.728 0.394
309 80 +0.04+0.01 95 22 85.4 22 80 80 274 18.5 10
190
F 80 3 F 80 4
%��� �� �����inch
mm
Flange options
AJ AK BD BE BF GA VD
F 80
FA15.748 13.780 -0.0024
-0.0047 17.717 0.197 8x 0.709 0.866 2.756
400 350 -0.062-0.119 450 5 8x 18 22 70
FB19.685 17.717 -0.0027
-0.0052 21.654 0.197 8x 0.709 0.945 2.756
500 450 -0.068-0.131 550 5 8x 18 24 70
R U UA UB UY VG VH VL VM VN X Key
F 80 NH 0.098 3.188 +0-0.0014 3.543 3.150 3.536 10.709 3.071 4.567 0.295 0.118 0.098 3/4 x 3/4 x 4 5/32
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 80 H
0.098 3.543 +0-0.0014 3.898 3.504 3.740 10.709 3.071 4.567 0.118 0.118 0.098
25x14x100 A [mm]2.5 90 +0
-0.035 99 89 95 272 78 116 3 3 2.50.098 3.150 +0
-0.0012 3.504 3.110 3.346 10.709 3.071 4.567 0.118 0.118 0.09822x14x100 A [mm]
2.5 80 +0-0.030 89 79 85 272 78 116 3 3 2.5
Customer’ shaft (metric series)
F_
Machine driven shaft NH H
191
F 80 3 F 80 4
%��� �� �����inch
mm
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 80 S0.098 3.543 -0.0005
-0.0013 4.488 3.504 3.622 +0-0.0014 14.370 3.465 6.969 0.098
2.5 90 -0.012-0.034 114 89 92 +0
-0.035 365 88 177 2.5
%��� �� �����inch
mm
Machine driven shaft S
192
Integral motor F 90 3 F 90 4
%��� �� �����inch
mm
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 90 3, F 90 419.49 14.47 13.78 11.81 9.843 -0.0020
-0.0038 M20x33 [mm]8.90 7.91 20.28 1.57 5.22 1.26 33.94
495 367.5 350 300 250 -0.050-0.096 226 201 515 40 132.5 32 862
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 90 3, F 90 4 NH 3.625+0.0019
+0.00054.331 4.014 0.875 1.024 M16 [mm] 3.54 3.54 13.21 0.83 0.43
Motor
AB C CB P Weight
[lbs / kg]no brake FD brake FA brake
F 90 3_S3 M3S5.59 6.10 5.59 28.66 32.44 7.68
1014 / 460142 155 142 728 824 195
F 90 3_S3 M3L5.59 6.10 5.59 29.92 33.50 7.68
1030 / 467142 155 142 760 851 195
F 90 3_S4 M47.60 7.60 7.60 34.17 38.46 10.16
1129 / 512193 193 193 868 977 258
F 90 3_S5 M5L9.65 9.65 9.65 39.31 44.82 12.20
1252 / 568245 245 245 998.5 1138.5 310
F 90 4_S2 M2S4.69 5.63 4.69 30.24 32.99 6.14
1014 / 460119 143 119 768 838 156
F 90 4_S3 M3S5.59 6.10 5.59 31.93 35.71 7.68
1032 / 468142 155 142 811 907 195
F 90 4_S3 M3L5.59 6.10 5.59 33.19 36.77 7.68
1047 / 475142 155 142 843 934 195
F 90 4_S4 M47.60 7.60 7.60 37.44 41.73 10.16
1146 / 520193 193 193 951 1060 258
F 90 4_S4 M4LC7.60 7.60 7.60 38.82 42.72 10.16
1164 / 528193 193 193 986 1085 258
193
%��� �� �����inch
mm
NEMA C-face adapterF 90 3 F 90 4
!"��#��� Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
N 56C 6.496 5.875 4.500 0.394 0.196 988 / 448
N 140TC 6.496 5.875 4.500 0.394 0.196 992 / 450
N 180TC 8.996 7.250 8.500 0.551 0.216 1001 / 454
N 210TC 8.996 7.250 8.500 0.551 0.216 1003 / 455
N 250TC 13.780 7.250 8.500 0.551 0.216 1016 / 461
N 280TC 13.780 9.000 10.500 0.551 0.216 1016 / 461
N 320TC 17.717 11.000 12.500 0.669 0.216 1069 / 485
MA MB MC
N 56C 0.188 0.625 0.710
N 140TC 0.188 0.875 0.964
N 180TC 0.250 1.125 1.241
N 210TC 0.312 1.375 1.518
N 250TC 0.375 1.625 1.796
N 280TC 0.500 1.875 2.102
N 320TC 0.500 2.125 2.350
C
N 56C N 140TC N 180TC N 210TC N 250TC N 280TC N 320TC
F 90 3 — —21.26 22.50 25.49 25.69 28.54
540 571.5 647.5 652.5 725
F 90 423.78 23.78 24.53 25.77 28.56 28.76
—604 604 623 654.5 725.5 730.5
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 90 3, F 90 419.49 14.47 13.78 11.81 9.843 -0.0020
-0.0038 M20x33 [mm]8.90 7.91 20.28 1.57 5.22 1.26 33.94
495 367.5 350 300 250 -0.050-0.096 226 201 515 40 132.5 32 862
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 90 3, F 90 4 NH 3.625+0.0019
+0.00054.331 4.014 0.875 1.024 M16 [mm] 3.54 3.54 13.21 0.83 0.43
194
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 90 3, F 90 419.49 14.47 13.78 11.81 9.843 -0.0020
-0.0038 M20x33 [mm]8.90 7.91 20.28 1.57 5.22 1.26 33.94
495 367.5 350 300 250 -0.050-0.096 226 201 515 40 132.5 32 862
%��� �� �����inch
mm
Solid input / hollow output shaft F 90 3 F 90 4
Input shaft (Inch series)
FU FZ FV Key FM
F 90 3 NHS 2.125+0
-0.00072.345 5.000 1/2 x 1/2 x 4 3/4 M16x36 [mm]
F 90 4 NHS 1.000+0
-0.00051.110 1.970 1/4 x 1/4 x 1 3/4 M8x19 [mm]
C
F 90 331.75
806.5
F 90 426.52
673.5
Weight
[lbs / kg]
1069 / 485
996 / 452
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 90 3, F 90 4 NH 3.625+0.0019
+0.00054.331 4.014 0.875 1.024 M16 [mm] 3.54 3.54 13.21 0.83 0.43
Input shaft (Metric series)
FU FZ FV X KEY FM
F 90 3 HS2.362
+0
-0.00072.520 5.512 0.394
18x11x120 [mm] M16x36 [mm]60 +0
-0.019 64 140 10
F 90 4 HS0.945
+0
-0.00051.063 1.969 0.098
8x7x45 [mm] M8x19 [mm]24 +0
-0.013 27 50 2.5
195
IEC B5-motor adapter
%��� �� �����inch
mm
F 90 3 F 90 4
C
P 63
P 71
P 80
P 90
P 100
P 112P 132
P 160
P 180P 200 P 225 P 250
F 90 3 —20.49 20.89 22.32 24.51 25.49 27.28 28.46
520.5 530.5 567 622.5 647.5 693 723
F 90 422.99 23.76 24.15 25.59 27.58
— — —584 603.5 613.5 650 700.5
$!%�#����(mm) Hollow input shaft
N NA NB NC XWeight
[lbs / kg]
P 63 140 115 95 M8x19 4 988 / 448P 71 160 130 110 M8x16 4.5 988 / 448
P 80, P 90 200 165 130 M10x12 4 992 / 450
P 100, P 112 250 215 180 M12x16 4.5 1001 / 454P 132 300 265 230 14 5 1003 / 455
P 160, P 180 350 300 250 18 6 1016 / 461
P 200 400 350 300 M16x25 7 1069 / 485P 225 450 400 350 18 6 1069 / 485P 250 550 500 450 18 6 1118 / 507
MA MB MC
P 63 4 11 12.8
P 71 5 14 16.3
P 80 6 19 21.8
P 90 8 24 27.3
P 100, P 112 8 28 31.3
P 132 10 38 41.3
P 160 12 42 45.3
P 180 14 48 51.8
P 200 16 55 59.3
P 250 18 60 64.4
P 225 18 65 69.4
Outline dimensions
A AC B BA BB BC D FA FB FC FD H OA
F 90 3, F 90 419.49 14.47 13.78 11.81 9.843 -0.0020
-0.0038 M20x33 [mm]8.90 7.91 20.28 1.57 5.22 1.26 33.94
495 367.5 350 300 250 -0.050-0.096 226 201 515 40 132.5 32 862
Output shaft (Inch series)
U UB UY UZ UX UW VA VB VC VD VE
F 90 3, F 90 4 NH 3.625+0.0019
+0.00054.331 4.014 0.875 1.024 M16 [mm] 3.54 3.54 13.21 0.83 0.43
196
F 90 3 F 90 4
Output shaft (inch series)
Plug-in solid shaft NR
Output shaft (metric series)
tight. torque
���Q� �
[Nm]C D U UA VA VB VC VE
F 90 S611 17.382 8.858 4.016 +0.0019
+0.0005 3.937 +0.0014+0 3.937 4.331 8.720 0.433
69 441.5 225 102 +0.047+0.012 100 +0.035
+0 100 110 221.5 11
%��� �� �����inch
mm
Shrink disc S
U UY V VA VB X Key M
F 90 NR 4.375+0
-0.00094.817 8.268 11.181 13.110 0.374 1 x 1 x 7 1/2 1 - 8 x 1.97
197
F 90 3 F 90 4
Hollow output shaft
%��� �� �����inch
mm
H
Output shaft (metric series)
U UY V VA VB XKey
UNI 6604M
F 90 R3.937
+0
-0.00094.173 8.268 11.181 13.110 0.394
28x16x190 A [mm] M24x50 [mm]100 +0
-0.022 106 210 284 333 10
Plug-in solid shaft R
Output shaft (metric series)
AC U UB UX UY UW UZ VA VB VC VD VE
F 90
H10014.469 3.937
+0.0019
+0.00054.331 1.024 4.189
M16 [mm]1.102 3.543 3.543 13.209 0.827 0.433
367.5 100 +0.047+0.012 110 26 106.4 28 90 90 335.5 21 11
H9014.469 3.543
+0.0019
+0.00054.331 1.024 3.760
M16 [mm]0.984 3.543 3.543 13.209 0.827 0.433
367.5 90 +0.047+0.012 110 26 95.5 25 90 90 335.5 21 11
198
F 90 3 F 90 4
%��� �� �����inch
mm
Flange options
AJ AK BD BE BF GA VD
F 90 FA19.685 17.717 -0.0027
-0.0052 21.654 0.197 8x 0.709 0.945 2.913
500 450 -0.068-0.131 550 5 8x 18 24 74
R U UA UB UY VG VH VL VM VN X Key
F 90 NH 0.098 3.625 +0-0.0014 3.976 3.583 4.009 13.110 3.445 6.220 0.295 0.118 0.098 7/8 x 7/8 x 5 1/2
Customer’ shaft (inch series)
R U UA UB UY VG VH VL VM VN X Key
F 90 H
0.098 3.937 +0-0.0014 4.370 3.898 4.173 13.110 3.445 6.220 0.118 0.118 0.098
28x16x110 A [mm]2.5 100 +0
-0.035 111 99 106 333 87.5 158 3 3 2.50.098 3.543 +0
-0.0014 3.898 3.504 3.740 13.110 3.445 6.220 0.118 0.118 0.09825x14x110 A [mm]
2.5 90 +0-0.035 99 89 95 333 87.5 158 3 3 2.5
Customer’ shaft (metric series)
F_
Machine driven shaft NH H
199
F 90 3 F 90 4
%��� �� �����inch
mm
Customer’ shaft (metric series)
R U UA UB UC VG VH VL X
F 90 S0.098 3.937 -0.0005
-0.0013 4.961 3.898 4.016 +0-0.0014 16.909 3.858 8.720 0.098
2.5 100 -0.012-0.034 126 99 102 +0
-0.035 429.5 98 221.5 2.5
%��� �� �����inch
mm
Machine driven shaft S
200
Outline dimensions
A B C D E F
FL
op
tio
n
F 106.42 2.36 0.84 1.38
M8x16 [mm]4.53
163 60 21.3 35 115
F 20 7.13 2.76 1.04 1.57
M10x20 [mm]5.12
181 70 26.5 40 130
F 25 7.13 2.76 1.08 1.57
M10x20 [mm]5.12
181 70 27.5 40 130
F 31 7.99 3.15 1.18 1.77
M12x20 [mm]5.79
203 80 30 45 147
F 419.25 3.74 1.28 2.36
M12x22 [mm]7.48
235 95 32.5 60 190
Sta
nd
ard
F 5110.75 4.33 1.38 2.76
M14x26 [mm]9.45
273 110 35 70 240
F 60 11.73 5.51 1.56 2.76
M16x30 [mm]10.24
298 140 39.5 70 260
F 70 13.58 7.48 1.79 3.15
M16x30 [mm]11.22
345 190 45.5 80 285
F 80 16.18 9.06 2.01 3.54
M20x35 [mm]12.99
411 230 51 90 330
F 90 19.49 10.63 2.42 3.94
M30x50 [mm]15.75
495 270 61.5 100 400
�����#���
%��� �� �����inch
mmE����?����� �������������������� ��������������FL option
FL
201
3.1 GENERAL INFORMATION
BONFIGLIOLI RIDUTTORI three-phase AC induction
motors and brake motors are designed for continuous
operation, IEC dimensional standard and comply electri-
cally 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.
Canada CSA C22.2 N° 100
Great Britain BS5000 / BS 4999
Germany DIN VDE 0530
Australia AS 1359
Belgium NBNC 51 - 101
Norway NEK – IEC 34
France NF C 51
Austria OEVE M 10
Switzerland SEV 3009
Netherlands NEN 3173
Sweden SS 426 01 01
(C1)
Symb. U.m. Description
cos � – Power factor
� – Efficiency
fm – Intermittence adjustment factor
ft – Ambient temperature factor
I – Cyclic duration factor
ln [A] Rated current
ls [A] Locked rotor current
Jc [Ib·ft2] Load inertia
Jm [Ib·ft2] Motor inertia
n [rpm] Speed
Kc – Torque factor
Kd – Load factor
Kj – Inertia factor
Tb [lb·in] Brake torque
Tn [lb·in] Motor rated torque
Ta [lb·in] Mean starting torque
Tk [lb·in] Breakdown torque
TL [lb·in] Load torque
Ts [lb·in] Locked rotor torque
Pb [W] Power absorbed by brake coil
Pn [W] Rated power output
t1 [ms] Brake release time
t1s [ms] Shorter brake release time
t2 [ms] Brake reaction time
t2c [ms] Faster reaction time
ta [°C/ °F] Ambient temperature
tf [min] Operating time at constant load
tr [min] Rest time
W [Ib•ft] Brake work between two successiveadjustments
Wmax [Ib•ft] Max permissible brake work
Z [1/h] Permissible starts per hour
Z0 [1/h] Permissible starts per hour (un-loaded, I=50%)
Abbreviations and units
Length
1 in =1 ft =1 yd =
25.40 mm304.8 mm914.4 mm
= 0.0254 m= 0.3048 m= 0.9144 m
Area
1 in2
=1 ft
2=
1 yd2
=
645.16 mm2
92.9�103mm
2
836�103mm
2
= 0.645�10-3m
2
= 92.9� 103m
2
= 0.8361 m2
Volume
1 in3
=1 ft
3=
16.4�10-3dm
3
28.32 dm3
= 16.4�10-6m
3
= 28.3�10-3m
3
Force – Weight
1 lbm =1 lbf =
2.2046 kg4.4482 N
Torque
1 lb in =1 lb ft =
0.1129 Nm1.3558 Nm
Power
1 hp = 0.7457 kW
Moment of inertia
1 lb ft2
=1 lb in s
2=
1 lb ft s2=
4.214�10-2
1.12985�10-1
1.35582
kg m2
kg m2
kg m2
Pressure – stress
1 lb/in2=
1 lb/ft2
=6.89�10
-3
47.88
N/mm2
N/m2
Temperature
t [°F] =
T [°C] =
� �5
9x t 32�
9
5x T+ 32
�
��
�
�
[°C]
[°F]
Conversion table for commonlyused metric – imperial units
3.0 BONFIGLIOLI ELECTRIC MOTORS
202
3.2 MOTOR ORDERING NUMBERS
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
TERMINAL BOX
W (default), N, S, E
MOTOR FRAME SIZE
05...5 - integral motor
63...250 - IEC style motor
TYPE OF MOTOR
M = AC, 3-ph, integral style
BN = AC, 3-ph, integral style
PROTECTION CLASS
IP 55 standard (IP 54 standard for brake motors)
MOUNTING
blank for compact motor
B5 for IEC motor
INSULATION CLASS
CL F standard
CL H option
VOLTAGE - FREQUENCY
60 Hz
50 Hz
NUMBER OF POLES
BRAKE TYPE
FD (DC brake)
FA (AC brake)
MOTOR BRAKE
[1 ft•Ib = 1.356 Nm]
BRAKE TORQUE [specify Nm!]
203
US power mains voltages and the corresponding rated
voltages to be specified for the motor are indicated in
the following table:
Frequency Mains voltage Vmot
60 Hz
208 V 200 V
240 V 230 V
480 V 460 V
600 V 575 V
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:
BN_FDM_FD
Wired to terminal box 1�230V a.c.
BN_FAM_FA
Specify
Separate power supply230V � - 60Hz
230SA
Separate power supply460V Y - 60Hz
460SA
Tolerances
As per the IEC standards applicable the tolerances here
after apply to the following quantities.
-0.15 (1 - �) P � 75 hp Efficiency
-(1 - cos�)/6 min 0.02 max 0.07 Power factor
±20% * Slip
+20% Locked rotor current
-15% +25% Locked rotor torque
-10% Max. torque
Motors for USA and Canada
BN and M motors are available in NEMA Design C con-
figuration (concerning electrical characteristics), certified
to CSA (Canadian standard) C22.2 No. 100 and UL
(Underwriters Laboratory) UL 1004. By specifying the
option CUS the name plate is marked with both symbols
shown here below.
3.3 MECHANICALCHARACTERISTICS
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 avail-
able 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).
IP 54 IP 55 IP 56
n.a. standard at request
BN_FDBN_FA
M_FDM_FD
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 direc-
tions. The motors must be installed allowing sufficient
space between fan cowl and the nearest wall to ensure
CUS
* ± 30% for motors with Pn < 0.75 hp
(C2)
(C3)
(C4)
IP..
(C5)
204
free air intake and allow access for maintenance pur-
poses 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.
Direction of rotation
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
Noise levels, measured using the method prescribed by
ISO 1680 Standards, are within the maximum levels
specified by Standards CEI EN 60034-9.
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 im-
proved balancing can be optionally requested (class N).
Table below shows the value for the vibration velocity
for standard (N) and improved (R) balancing.
Vibration
class
Angular
velocity
Limits of the vibration velocity
[mm/s]
n [rpm]
BN56…BN132
M05…M4
BN160MR…BN200
M5
N 600 � n � 3600 1.8 2.8
R600 � n � 1800 0.71 1.12
1800 < n � 3600 1.12 1.8
Values refer to measures with freely suspended motorin unloaded conditions.
Winding connection and motor
terminal box
Standard terminal board has 9 studs for YY-Y dual-volt-
age winding and 6 studs for star/delta winding configu-
ration (single-speed motors).
An earth terminal located in the terminal box is provided
as standard on all motors.
For DC brake motors, the AC/DC rectifier is supplied in
the terminal box and it is provided with adequately con-
nected terminals.
All connections must be carried out according to the dia-
grams inside the terminal box or in the instruction manual.
Cable entry
Cable entry
(metric thread)
Max cable diam.
[mm]
BN 63 M 05 2 x M20 13
BN 71 M 1 2 x M25 17
BN 80 - BN 90 M 2 2 x M25 17
BN 100 M 32 x M32 21
2 x M25 17
BN 112 —2 x M32
172 x M25
BN 132...BN 160MR M 4 4 x M32 21
BN 160M...BN 200L M 5 2 x M40 29
Bearings
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
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
(C6)
(C7)
(C8)
205
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Low Voltage High Voltage
230V - 60Hz 460V - 60Hz
200V - 50Hz 400V - 50Hz
Single-Speed / Dual-Voltage
Low Voltage YY High Voltage Y
��
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Low Voltage High Voltage
200V - 50Hz 346V - 50Hz
208V - 60Hz 360V - 60Hz
220V - 50Hz 380V - 50Hz
230V - 50Hz 400V - 50Hz
240V - 50Hz 415V - 50Hz
330V - 60Hz 575V - 60Hz
Single-Speed / Dual-Voltage
Low Voltage � High Voltage Y
(C11)
DE NDE
BN, BN_FD,
BN_FABN 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 6309 2Z C3
BN 180M 6210 2Z C3 6309 2Z C3 6309 2Z C3
BN 180L 6310 2Z C3 6310 2Z C3 6310 2Z C3
BN 200L 6312 2Z C3 6310 2Z C3 6310 2Z C3
3.4 ELECTRICAL
CHARACTERISTICS
Voltage
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.
(C9)
(C10)
Rated horsepower
Motor outputs shown in this catalogue are based on
continuous operation at 40 °C [100 °F] ambient temper-
ature 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.
Should a derating factor higher than 15% apply, contact
our Technical Service.
Insulation class
Bonfiglioli motors use class F insulating materials
(enamelled wire, insulators, impregnation resins) as
compared to the standard motor.
Ambient
temperature [°F]100 115 120 130 140
Power output as a
% of rated power100% 95% 90% 85% 80%
(C12)
CL F
206
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 vi-
bration.
For applications involving the presence of aggressive
chemicals or high humidity, contact Bonfiglioli Engi-
neering for assistance with product selection.
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 sin-
gle speed motors.
fm =P (S2...S8)
P (S1)
* Cycle duration must, in any event, be equal to or less than 10 min-utes; if this time is exceeded, please contact our Technical Service.
Cycle duration factor:
I =t
t t
f
f rx 100
tf = operating time at constant load
tr = rest time
Limited duration duty S2
This type of duty is characterized by operation at con-
stant 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 tem-
perature in the motor.
Periodical intermittent duty S3
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 signifi-
cantly influence overtemperature.
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 enam-
CL H
��������
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� �������������� ���
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���������������������
(C14)
Duty
S2 S3 * S4 - S8
Cycle duration(min)
Cyclic durationfactor (I)
Consultfactory10 30 60 25% 40% 60%
fm 1.35 1.15 1.05 1.25 1.15 1.1
(C13)
207
elled wire and class H impregnation resins (1600V
peak-to-peak voltage pulse capacity and rise edge ts >
0.1µs at motor terminals). Table (C15) 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 al-
lowed overloading must be reduced progressively.
Table (C16) reports the mechanical limit speed for mo-
tor operation above rated frequency:
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 me-
chanical 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 character-
ized 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 =Z x K x K
K
0 c d
J
where:
K =J + J
JJ
m c
m
=inertia factor
K =T - T
Tc
a L
a
= torque factor
Kd = load factor (see table C16)
��
�
���
���
���
��
�� �� � �� �� �� �� �� �� �� ���
����
��
����
��� ��������� ����������
(C15)
(C16)
(C17)
208
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).
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,
meaning that they are applied by spring-action in the
event of a power failure.
Key:
�brake disc
�disc carrier
�pressure plate
�brake coil
�motor rear shield
�brake springs
When power is disconnected, the springs push the ar-
mature 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
• High braking torques (normally Tb � 2 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
(C18)
209
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 corre-
sponding 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 re-
lease lever with automatic return (R) or system for hold-
ing 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 con-
nection options available.
(C19)
IP 54 (DEFAULT FOR BRAKE MOTORS) IP 55 (OPTIONAL ON BRAKE MOTORS)
3.6 DC BRAKE MOTORS TYPE BN_FD
Frame sizes: BN 63 … BN 200L
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
� 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 mo-
tor terminal board.
Rectifier standard power supply voltage VB is as indi-
cated in the following table (C20), regardless of mains
frequency:
210
The diode half-wave rectifier (Vdc � 0,45 x Vac) is avail-
able in versions NB, SB, NBR e SBR, as detailed in the
table (C21). Rectifier SB with electronic energizing con-
trol 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 re-
leased.
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
2, 4, 6 P 1 speed
BN_FD / M_FD
brake connected to terminalboard power supply
separate powersupply
Vmot ± 10%
3 ~
VB ± 10%
1 ~
BN 63…BN 200 M05...M5 230/460 V – 60 Hz 230 V standard specify VBSA or VBSD
Rectifiers NBR or SBR are available for applications re-
quiring 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 con-
tacts.
Optimum performance of rectifiers NBR and SBR is
achieved with separate brake power supply.
Available voltages: 230V ± 10%.
(C20)
(C21)
��� � ��� � � �
��� � � �
��� �
�� � � �
�� �
(*) t2c < t2r < t2
Brake
Standard At request
BN 63 M05 FD 02
NB
SB,
SBR,
NBR
BN 71 M1
FD 03
FD 53
BN 80 M2 FD 04
BN 90S — FD 14
BN 90L — FD 05
BN 100
M3
FD 15
— FD 55
SB SBR
BN 112 — FD 06S
BN 132...160MR M4 FD 56
BN 160L - BN 180M M5 FD 06
BN 180L - NM 200L — FD 07
211
BrakeBrake torqueTb [lb·in]
Release BrakingWmax per each brake
operationW P
Springs t1 t1s t2 t2c [lb·ft]
6 4 2 [ms] [ms] [ms] [ms] 10 s/h 100 s/h 1000 s/h [lb·ftx106] [W]
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
FD04
133 88 44 80 35 140 15 7400 2300 260 27 33
FD14
FD05 354 230 115 130 65 170 20
13300 3300 370 37 45FD15 354 230 115 130 65 170 20
FD55 487 327 159 — 65 170 20
FD06S 831 354 177 — 80 220 25 15000 3500 400 52 55
FD56
—
664 327
—
90 150 20
21500 5500 600 59 65
FD06 885 443 100 150 20
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
(C22)
Key:
t1 = brake release time with half-wave rectifier
t1s = brake release time with over-energizing rectifier
t2 = brake engagement time with AC line disconnect
and separate power supply
t2c = brake engagement time with AC and DC line
disconnect.
Values for t1, t1s, t2, t2c indicated in the tab. (C23)
are referred to brake set at maximum torque,
medium air gap and rated voltage
Wmax = max energy per each brake operation
W = braking energy between two successive
air gap adjustments
Pb = brake power absorption at normal ambient
temperature
Tb = static braking torque (±15%)
[s/h] = starts per hour
� brake torque values obtained with 9, 7 and 6 springs,
respectively
�� brake torque values obtained with 12, 9 and 6
springs, respectively
FD brake technical specifications
The table (C22) shows the technical specifications of DC brakes type FD.
212
(C23) (C24) (C25) (C26)
Brake supply from motor
terminals and A.C. line dis-
connect. Longer stop time
t2, dependent on motor
time constants. Use when
no particular braking per-
formance is required.
Separate power supply to
brake coil and A.C. line
disconnect.
Stopping time is independ-
ent on motor. See table
C22
Brake coil energized from
motor terminals, both A.C.
and D.C. line switch off.
Rapid stopping time, t2c.
See table C22
Separate power supply to
brake coil. Both A.C. and
D.C. line disconnect.
Rapid stopping time to t2cvalue, see table C22
CoilCoil Coil Coil
FD brake connections
On standard single-speed motors, the rectifier is con-
nected to the motor terminal board at the factory.
Because the load is of the inductive type, brake con-
trol and DC line switch must use contacts from the
usage class AC-3 to IEC 60947-4-1.
213
Frame sizes: BN 63 … BN 180M
Electromagnetic brake operates from three-phase alter-
nated 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 corre-
sponding 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 applica-
tions 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.
(C27)
IP 54 IP 55
Degree of protection
Standard degree of protection is IP54.
Brake motor BN_FA is also available with degree of pro-
tection IP 55, which incorporates the following variants:
- V-ring at N.D.E. of motor shaft
- water-proof rubber grommet
- O-ring
3.7 AC BRAKE MOTORS TYPE BN_FA
214
Key:
Tb = max static braking torque (±15%)
t1 = brake release time
t2 = brake engagement time
Wmax = max energy per brake operation (brake thermalcapacity)
W = braking energy between two successive air gapadjustments
Brake Brake torque Release Braking Wmax W Pb
Tb t1 t2 [lb·ft]
[lb·in] [ms] [ms] 10 s/h 100 s/h 1000 s/h [lb·ftx106] [VA]
FA 02 31 4 20 4500 1400 180 15 60
FA 03 66 4 40 7000 1900 230 25 80
FA 04133 6 60 10000 3100 350 30 110
FA 14
FA 05354 8 90 18000 4500 500 50 250
FA 15
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
(C29)
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 ratedtorque, medium air gap and rated voltage.
Technical specifications of FA brakes
Depending on motor voltage the brake may require the
supply voltage to be specified, or not, as detailed in the
(C28)
Motor voltage - Vmot Brake voltage - VB Specify Brake wiring scherme
230/460 V YY/Y
60 Hz
230 � - 60 Hz 230SA � Connected
460 Y - 60 Hz 460SA Y Connected
330/575 V �/Y
60 Hz
330/575 V �/Y
60 Hz
not
required
����
����
����
���
��
���
��
����
����
���
��
����
����
��
��
����
� ��
��
��
����
����
��
�� �� �
����
���
����
����
����
����
�� �� �
��
����
� ��
��
���������������� �����
����
����
����
����
���
����
Motor terminal board Auxiliary terminal board
diagram below. Special voltages in the 24...690 V range
may be available on request.
FA brake power supply
215
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 be-
fore servicing any machine or plant parts operated by
the motor.
A return spring brings the release lever back in the origi-
nal position.
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.
R(C30)
RM(C31)
The availability for the two lever options is charted here
below:
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
n.a.
M_FA M 05...M 5
Release lever arrangement
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:
Fly-wheel data (F1)
The table below shows values of weight and inertia of
flywheel (option F1). Overall dimensions of motors re-
main unchanged. The option is available for DC
brake-motors only.
(C33)
AA
AC
AD
(C32)
216
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 90BN 90 L
– 1.14 22.3
BN 100 M3 1.58 35.4
BN 112 – 2.19 62.4
BN 132 SBN 132 M
M4 2.81 108.6
3.9 - OPTIONS
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).
Thermistors
These are semi-conductors having rapid resistance vari-
ation when they are close to the rated switch off temper-
ature.
Variations of the R = f(T) characteristic are specified
under DIN 44081, IEC 34-11 Standards.
These elements feature several advantages: compact di-
mensions, 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-
tervene on currents of energizing coils, and must there-
fore be connected to a special control unit (triggering
apparatus) to be interfaced with the external connec-
tions.
Thus protected, three PTCs connected in series are in-
stalled 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 automati-
cally return to rest position.
Three bimetallic thermostates connected in series are
usually employed, with normally closed contacts. The ter-
minals are located in an auxiliary terminal-board.
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:
H1
1~ 230V ± 10%
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 – 50
Warning!
Always disconnect power supply to the anti-
condensante heater before operating the motor.
E3
H1
(C34)
(C35)
217
Second shaft extension
This option is not compatible with variants RC, TC, U1,
U2, EN1, EN2, EN3. For shaft dimensions please see
motor dimensions tables.
Backstop device
For applications where backdriving must be avoided, a
backstop device on the motor itself is available for
gearmotors with integral M Series motors.
While allowing rotation in the direction required, this de-
vice 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, Table (C37) shows the di-
rection of free rotation of the gearbox, on the basis of
which the correct option must be selected.
Never use the anti run-back device to prevent reverse ro-
tation caused by faulty electrical connection.
Table (C38) shows rated and maximum locking torques
for the anti run-back devices.
A diagram of the device can be seen in Table (C39).
Overall dimensions are same as the corresponding
brake motor.
PS
AR
(C39)
Rated lockingtorque
Max. lockingtorque
Releasespeed
[lb·in] [lb·in] [rpm]
M1 53 90 750
M2 140 240 650
M3 480 815 520
M4 970 1815 430
(C38)
AL
PS
(C36)
(C37)
218
Ventilation
Motors are cooled through outer air blow (IC 411 ac-
cording 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 ser-
vicing 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 ex-
cluded.
Power supply
V a.c.
± 10%Hz P [W] I [A]
BN 71 M1
1~ 230
50 / 60
22 0.12
BN 80 M2 22 0.12
BN 90 – 40 0.30
BN 100 (*) M3 50 0.25
BN 112 –
3~ 230 � /400Y
50 0.26 / 0.15
BN 132S M4S
110 0.38 / 0.22BN 132M...BN160MR
M4L
BN 160...BN 180M
M5 3~460 60 210 1.25 / 0.72
This variant features two options, designated U1 and
U2, having the same length overall.
Longer side of fan cover (�L) is specified for both mod-
els in the table below. Overall dimension can be reck-
oned from motor size table.
(C40)
(C41)
Extra length for servoventilated motors [in]
� L1add for standard motor
� L2add for brakemotor
BN 71 M1 3.66 1.26
BN 80 M2 5.00 2.17
BN 90 – 5.16 1.89
BN 100 M3 4.69 1.10
BN 112 – 5.12 1.22
BN 132S M4S 6.34 2.01
BN 132M M4L 6.34 2.01
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.
Fan terminals are wired in the motor terminal box.
The U2 option does not apply to motors BN 160 through
BN 200L, with the only exception of motor BN 160MR
for which the option is available instead and to motors
with option CUS (compliant to norms CSA and UL)..
(*)
V a.c. ± 10% HzP[W]
I[A]
BN 100_U2 M33~ 230 �
��Y50/60 40 0.12 / 0.09
U2
U1
(C42)
219
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 (C43). The drip cover is not compatible with
variants PS, EN1, EN2, EN3.
AQ �V
[in] [in]
BN 63 M05 4.65 0.95
BN 71 M1 5.28 1.06
BN 80 M2 5.98 0.98
BN 90 – 6.61 1.18
BN 100 M3 7.48 1.10
BN 112 – 8.31 1.26
BN 132...BN 160MR M4 10.00 1.26
BN 160M...BN 180M M5 11.89 1.42
BN 180L...BN 200L – 13.39 1.42
Textile canopy
Option TC is a cover variant for textile industry environ-
ments, 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.
(C43)
(C44)
RC 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.
Incremental encoder, VIN= 5 V, line-driver output RS
422.
Incremental encoder, VIN=10-30 V, line-driver output RS
422.
Incremental encoder, VIN=12-30 V, push-pull output
12-30 V.
EN1 EN2 EN3
Interface RS 422 RS 422 push-pull
Power supply voltage [V] 4...6 10...30 12...30
Output voltage [V] 5 5 12...30
No-load operating current [mA] 120 100 100
No. of pulses per revolution 1024
No. of signals 6 (A, B, C + inverted signals)
Max. output frequency [kHz] 300 300 200
Max. speed [rpm] 600 (900 rpm x 10s)
Temperature range [°C] -20...+70
Protection class IP 65
TC
EN3
EN2
EN1
(C45)
220
If the encoder device (options EN1, EN2, EN3) is speci-
fied on motors BN71...BN160MR and M1...M4, along
with the independent fan cooling (options U1, U2), the
extra length of motor is coincident with that of the corre-
spondent U1 and U2 execution.
EN1, EN2, EN3
BN 63...BN 200L M05...M5
BN 63_FD...BN 200L_FD M05_FD...M5_FD
BN 63_FA...BN 200L_FA M05_FA...M5_FA
(C46)
EN_ + U1
L3
BN 160M...BN 180M M5 2.835
BN 180L...BN 200L - 3.228
BN 160M_FD...BN 180M_FD M5_FD 1.378
BN 180L_FD...BN 200L_FD - 1.614
(C47)
221
3.10
COMPACTMOTORRATINGCHARTS
2POLE-3600rpm
-S1
60Hz
0.25
0.18
M05A
23380
4.7
60
0.74
0.53
4.1
3.0
3.2
0.0048
0.0062
7.1
FD02
15
2700
3300
10.8
FA02
15
3300
10.4
0.33
0.25
M05B
23400
6.1
65
0.75
0.63
4.9
3.2
3.3
0.0055
0.0071
7.9
FD02
15
2700
3300
11.7
FA02
15
3300
11.2
0.5
0.37
M05C
23420
9.2
69
0.76
0.89
5.5
3.3
3.5
0.0062
0.0078
10.6
FD02
30
2500
3000
14.3
FA02
30
3000
13.9
0.75
0.55
M1SD
23450
13.7
76
0.75
1.23
6.2
3.4
3.9
0.0097
0.0126
12.8
FD03
44
2200
2700
18.7
FA03
44
2700
18.1
10.75
M1LA
23440
18.3
77
0.75
1.62
6.2
3.8
4.1
0.0119
0.0145
15.2
FD03
44
1500
2100
21
FA03
44
2100
21
1.5
1.1
M2SA
23430
27.6
77
0.76
2.40
6.2
3.8
3.9
0.0214
0.0252
19.4
FD04
88
1200
1600
28
FA04
88
1600
28
21.5
M2SB
23420
36.8
80
0.81
2.89
6.0
3.3
3.5
0.0271
0.0309
23
FD04
133
1000
1300
32
FA04
133
1300
32
32.2
M3SA
23430
55
81
0.83
4.2
6.0
2.4
2.5
0.0570
0.0665
34
FD15
230
800
1000
49
FA15
230
1000
51
53.7
M3LB
23490
92
84
0.83
6.7
6.7
2.9
3.2
0.0926
0.102
49
FD15
354
360
500
62
FA15
354
500
64
7.5
5.5
M4SA
23490
135
83
0.86
9.8
6.4
2.7
3.0
0.240
0.266
72
FD06
440
400
101
FA06
440
400
104
10
7.5
M4SB
23490
181
82
0.88
13.0
6.2
2.8
3.2
0.318
0.344
88
FD06
440
350
117
FA06
440
350
143
15
11
M4LC
23510
271
87
0.88
18.3
6.9
2.7
3.0
0.499
132
20
15
M5SB
23510
359
86
0.90
24.2
6.0
2.5
2.7
0.808
154
25
18.5
M5SC
23520
449
88
0.91
29.2
6.9
2.8
3.0
0.998
183
30
22
M5LA
23520
537
88
0.91
35.1
6.9
2.8
3.1
1.164
209
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Weight
lbs
Brake
type
Tb
Zo
1/h
Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
1)
withoutbrake
2)
withbrake
222
4POLE-1800rpm
-S1
60Hz
0.12
0.09
M0B
41670
4.5
59
0.52
0.37
2.8
2.9
2.9
0.0036
6.4
0.16
0.12
M05A
41690
6.0
60
0.57
0.44
3.3
2.4
2.5
0.0048
0.0062
7.1
FD02
15
7000
9000
10.8
FA02
15
9000
10.4
0.25
0.18
M05B
41670
9.4
58
0.60
0.65
3.2
2.8
2.9
0.0055
0.0071
7.9
FD02
30
7000
9000
11.7
FA02
30
9000
11.2
0.33
0.25
M05C
41670
12.4
64
0.64
0.77
3.3
2.5
2.6
0.0078
0.0093
10.6
FD02
30
6000
8000
14.3
FA02
30
8000
13.9
0.50
0.37
M1SD
41700
18.5
66
0.73
0.96
4.5
2.6
2.8
0.0164
0.0190
12.1
FD03
44
4800
7500
18.1
FA03
44
7500
17.4
0.75
0.55
M1LA
41710
27.6
72
0.70
1.37
4.9
3.0
3.1
0.0216
0.0242
15.2
FD53
66
3400
7000
21
FA53
66
7000
21
10.75
M2SA
41720
36.6
78
0.75
1.61
6.2
3.4
3.5
0.0482
0.0523
20
FD04
133
3000
6000
29
FA04
133
6000
29
1.5
1.1
M2SB
41720
55
78
0.76
2.33
6.3
3.4
3.5
0.0594
0.0641
23
FD04
133
2000
4200
32
FA04
133
4200
32
21.5
M3SA
41720
73
82
0.73
3.15
5.7
2.9
3.3
0.0808
0.0903
34
FD15
230
1500
3000
49
FA15
230
3000
51
32.2
M3LA
41720
110
81
0.73
4.67
5.5
2.7
2.9
0.0960
0.105
37
FD15
354
1000
2700
53
FA15
354
2700
53
53.7
M3LC
41730
182
84
0.74
7.5
5.6
2.8
3.1
0.145
0.154
51
FD55
480
1200
64
FA55
480
1200
66
7.5
5.5
M4SA
41730
273
84
0.84
9.8
6.3
2.9
3.1
0.506
0.530
93
FD56
664
850
121
FA06
664
850
124
10
7.5
M4LA
41740
362
85
0.84
13.2
6.1
2.9
3.0
0.641
0.665
112
FD06
885
700
141
FA06
885
700
143
15
11
M4LC
41740
543
88
0.81
19.4
6.5
3.1
3.2
0.855
0.907
143
FD07
1328
600
179
FA07
1328
600
183
20
15
M5SB
41750
720
90
0.84
24.9
5.8
2.3
2.7
1.544
1.781
187
FD08
1770
400
254
FA08
1770
400
251
25
18.5
M5LA
41760
895
90
0.83
31.1
5.8
2.5
3.1
1.876
2.054
223
FD08
2210
300
289
FA08
2210
300
287
1)
withoutbrake
2)
withbrake
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Weight
lbs
Brake
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Tb
Zo
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Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
223
6POLE-1200rpm
-S1
60Hz
0.12
0.09
M05A
61100
6.9
47
0.46
0.52
2.4
2.9
2.9
0.0081
0.0095
9.5
FD02
30
7000
10000
13.2
FA02
30
10000
12.8
0.16
0.12
M05B
61100
9.2
49
0.54
0.57
2.3
2.4
2.4
0.0088
0.0102
10.1
FD02
30
7000
10000
13.9
FA02
30
10000
13.4
0.25
0.18
M1SC
61100
14.3
61
0.65
0.57
3.3
2.6
2.8
0.0200
0.0226
11.2
FD03
44
6500
10000
17.2
FA03
44
10000
16.5
0.33
0.25
M1SD
61100
18.9
64
0.65
0.75
3.2
2.6
2.7
0.0259
0.0290
13.9
FD03
44
6200
8000
19.8
FA03
44
8000
19.2
0.50
0.37
M1LA
61100
28.6
66
0.65
1.08
3.3
2.6
2.7
0.0306
0.0330
16.1
FD53
66
4000
7000
22
FA03
66
7000
21
0.75
0.55
M2SA
61140
41.4
76
0.66
1.38
4.9
3.2
3.4
0.0594
0.0641
23
FD04
133
3800
5000
32
FA04
133
5000
32
10.75
M2SB
61140
55
76
0.61
2.03
4.4
2.8
3.0
0.0665
0.0713
25
FD04
133
2700
5000
34
FA04
133
5000
34
1.5
1.1
M3SA
61140
83
74
0.68
2.74
4.4
2.4
2.8
0.147
0.157
37
FD15
230
2300
4500
51
FA15
230
4500
53
21.5
M3LA
61140
111
76
0.66
3.75
4.5
2.4
2.8
0.195
0.204
46
FD15
354
1500
3000
60
FA15
354
3000
62
32.2
M3LC
61140
166
77
0.68
5.3
5.1
2.6
2.9
0.226
0.235
51
FD55
480
1500
64
FA15
480
1500
66
53.7
M4LA
61150
274
80
0.79
7.3
6.1
2.5
3.1
0.701
0.724
95
FD06
885
900
123
FA06
885
900
126
7.5
5.5
M4LB
61140
414
82
0.75
11.2
5.4
2.7
2.9
0.910
0.964
119
FD07
1328
800
154
FA07
1328
800
159
10
7.5
M5SA
61160
543
85
0.82
13.5
5.8
2.3
2.8
1.758
1.936
152
FD08
1500
550
216
FA08
1500
550
216
15
11
M5SB
61160
815
84
0.83
19.8
5.8
2.5
2.9
2.304
2.482
196
FD08
1770
400
262
FA08
1770
400
260
1)
withoutbrake
2)
withbrake
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Weight
lbs
Brake
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Tb
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Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
224
2POLE-3000rpm
-S1
50Hz
0.25
0.18
M05A
22730
5.6
60
0.77
0.56
3.0
2.1
2.0
0.00480.0062
7.1
FD02
15
3900
4800
10.8
FA02
15
4800
10.4
0.33
0.25
M05B
22740
7.7
66
0.76
0.72
3.3
2.3
2.3
0.00550.0071
7.9
FD02
15
3900
4800
11.7
FA02
15
4800
11.2
0.5
0.37
M05C
22800
11.2
69
0.78
0.99
3.9
2.6
2.6
0.00620.0078
10.6
FD02
30
3600
4500
14.3
FA02
30
4500
13.9
0.75
0.55
M1SD
22820
16.5
76
0.76
1.37
5.0
2.9
2.8
0.00970.0126
12.8
FD03
44
2900
4200
18.7
FA03
44
4200
18.1
10.75
M1LA
22810
23.0
77
0.76
1.86
5.1
3.1
2.8
0.01190.0145
15.2
FD03
44
1900
3300
21
FA03
44
3300
21
1.5
1.1
M2SA
22800
33.6
76
0.81
2.57
4.8
2.8
2.4
0.02140.0252
19.4
FD04
88
1500
3000
26
FA04
88
3000
28
21.5
M2SB
22800
45
79
0.81
3.4
4.9
2.7
2.4
0.02710.0309
23
FD04
133
1300
2600
22
FA04
133
2600
32
32.2
M3SA
22850
65
80
0.78
5.1
5.2
2.1
1.8
0.05700.0665
34
FD15
230
1100
2400
49
FA15
230
2400
51
5.5
4M3LB
22870
118
84
0.8
8.6
5.9
2.7
2.5
0.0926
0.102
49
FD15
354
450
900
62
FA15
354
900
64
7.5
5.5
M4SA
22890
161
86
0.84
11.0
6.0
2.6
2.2
0.240
0.266
73
FD06
440
600
101
FA06
440
600
104
10
7.5
M4SB
22900
221
87
0.85
14.6
6.4
2.6
2.2
0.318
0.344
88
FD06
440
550
117
FA06
440
550
119
15
11
M4LC
22920
319
89
0.88
20.2
7.0
2.9
2.5
0.499
132
20
15
M5SB
22930
434
90
0.86
28.1
7.1
2.6
2.3
0.808
154
25
18.5
M5SC
22930
531
90
0.86
34
7.6
2.7
2.3
0.998
183
30
22
M5LA
22930
637
91
0.88
40
7.8
2.6
2.4
1.164
209
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1/h
rectifier
Weight
lbs
Brake
type
Tb
Zo
1/h
Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
1)
withoutbrake
2)
withbrake
225
4POLE-1500rpm
-S1
50Hz
0.12
0.09
M0B
41350
5.7
52
0.60
0.42
2.6
2.5
2.4
0.0036
6.4
0.16
0.12
M05A
41350
7.5
60
0.62
0.47
2.6
1.9
1.8
0.00480.0062
7.1
FD02
15.5
10000
13000
10.8
FA02
15.5
13000
10.4
0.25
0.18
M05B
41320
11.5
55
0.67
0.71
2.6
2.2
2.0
0.00550.0071
7.9
FD02
31.0
10000
13000
11.7
FA02
31.0
13000
11.2
0.33
0.25
M05C
41340
15.8
65
0.69
0.80
2.7
2.1
1.9
0.00780.0093
10.6
FD02
31.0
7800
10000
14.3
FA02
31.0
10000
13.9
0.50
0.37
M1SD
41370
23.0
67
0.76
1.05
3.7
21.9
0.01640.0190
12.1
FD03
44.3
6000
9400
18.1
FA03
44.3
9400
17.4
0.75
0.55
M1LA
41380
33.6
69
0.74
1.55
4.1
2.3
2.3
0.02160.0242
15.2
FD53
66
4300
8700
21
FA03
66
8700
21
10.75
M2SA
41400
45.1
75
0.78
1.85
4.9
2.7
2.5
0.04820.0523
20
FD04
133
4100
7800
29
FA04
133
7800
29
1.5
1.1
M2SB
41400
66
76
0.78
2.66
5.1
2.8
2.5
0.05940.0641
23
FD04
133
2600
5300
32
FA04
133
5300
32
21.5
M3SA
41410
90
80
0.77
3.5
4.6
2.1
2.1
0.08080.0903
34
FD15
230
2800
4900
49
FA15
230
4900
51
32.2
M3LA
41410
132
81
0.75
5.2
4.5
2.2
2.0
0.0960
0.105
37
FD15
354
2600
4700
53
FA15
354
4700
53
5.5
4M3LC
41400
239
83
0.78
9.0
4.7
2.3
2.2
0.145
0.154
51
FD55
487
1300
64
FA15
487
1300
66
7.5
5.5
M4SA
41440
319
86
0.80
11.5
5.5
2.3
2.2
0.506
0.530
93
FD56
664
1050
121
FA06
664
1050
123
10
7.5
M4LA
41440
443
87
0.80
15.6
5.7
2.5
2.4
0.641
0.665
112
FD06
885
950
141
FA07
885
950
143
15
11
M4LC
41440
646
88
0.81
22.2
5.9
2.7
2.5
0.855
0.907
143
FD07
1328
850
179
FA07
1328
850
183
20
15
M5SB
41460
867
90
0.81
29.7
5.9
2.3
2.1
1.544
1.781
187
FD08
1770
750
254
FA08
1770
750
251
25
18.5
M5LA
41460
1071
90
0.81
37
6.2
2.6
2.5
1.876
2.054
223
FD08
2213
700
289
FA08
2213
700
287
1)
withoutbrake
2)
withbrake
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1/h
rectifier
Weight
lbs
Brake
type
Tb
Zo
1/h
Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
226
6POLE-1000rpm
-S1
50Hz
0.12
0.09
M05A
6880
8.7
41
0.53
0.60
2.1
2.1
1.8
0.0081
0.0095
9.5
FD02
31.0
9000
14000
13.2
FA02
31.0
14000
12.8
0.16
0.12
M05B
6870
11.7
45
0.60
0.64
2.1
1.9
1.7
0.0088
0.0102
10.1
FD02
31.0
9000
14000
13.9
FA02
31.0
14000
13.4
0.25
0.18
M1SC
6900
16.9
56
0.69
0.67
2.6
1.9
1.7
0.0200
0.0226
11.2
FD03
44.3
8100
13500
17.2
FA03
44.3
13500
16.5
0.33
0.25
M1SD
6900
23.9
62
0.71
0.82
2.6
1.9
1.7
0.0259
0.0290
13.9
FD03
44.3
7800
13000
19.8
FA03
44.3
13000
19.2
0.50
0.37
M1LA
6910
34.5
66
0.69
1.17
3.0
2.4
2.0
0.0306
0.0330
16.1
FD53
66
5100
9500
22
FA03
66
9500
21
0.75
0.55
M2SA
6920
50
70
0.69
1.64
3.9
2.6
2.2
0.0594
0.0641
23
FD04
133
4800
7200
32
FA04
133
7200
32
10.75
M2SB
6920
69
70
0.65
2.38
3.8
2.5
2.2
0.0665
0.0713
25
FD04
133
3400
6400
34
FA04
133
6400
34
1.5
1.1
M3SA
6920
101
72
0.69
3.2
3.9
2.3
2.0
0.147
0.157
37
FD15
230
2700
5000
51
FA15
230
5000
53
21.5
M3LA
6940
135
73
0.72
4.1
4.0
2.1
2.0
0.195
0.204
46
FD15
354
1900
4100
60
FA15
354
4100
62
32.2
M3LC
6930
204
75
0.71
64.6
2.0
1.9
0.226
0.235
51
FD55
487
1900
64
FA15
487
1900
66
54
M4LA
6950
354
78
0.77
9.6
5.5
2.0
1.8
0.701
0.724
95
FD06
885
1200
123
FA07
885
1200
126
7.5
5.5
M4LB
6945
496
80
0.78
12.7
5.9
2.1
1.9
0.910
0.964
119
FD07
1328
1050
154
FA07
1328
1050
159
10
7.5
M5SA
6955
664
84
0.81
15.9
5.9
2.2
2.0
1.758
1.936
152
FD08
1505
900
216
FA08
1505
900
216
15
11
M5SB
6960
965
87
0.81
22.5
6.5
2.5
2.3
2.304
2.482
196
FD08
1770
800
262
FA08
1770
800
260
1)
withoutbrake
2)
withbrake
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Weight
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Brake
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Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
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lb�in
NB
SB
2)
lb�in
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227
2POLE-3600rpm
-S1
60Hz
0.25
0.18
BN63A
23360
4.7
58
0.74
0.55
3.7
2.9
3.0
0.0048
0.0062
7.7
FD02
15
2700
3300
10.7
FA02
15
3300
11.0
0.33
0.25
BN63B
23370
6.2
61
0.73
0.69
4.2
2.9
3.0
0.0055
0.0071
8.6
FD02
15
2700
3300
11.5
FA02
15
3300
11.9
0.5
0.37
BN71A
23420
9.2
71
0.77
0.86
5.8
3.3
3.8
0.0082
0.0109
11.9
FD03
30
2400
3200
16.6
FA03
30
3200
17.2
0.75
0.55
BN71B
23450
13.7
76
0.75
1.23
6.2
3.4
3.9
0.0097
0.0126
13.7
FD03
44
2200
2700
18.2
FA03
44
2700
19.0
10.75
BN80A
23440
18.3
76
0.76
1.62
5.9
3.1
3.7
0.0185
0.0223
19.0
FD04
44
1400
1700
26
FA04
44
1700
27
1.5
1.1
BN80B
23430
27.6
77
0.76
2.40
6.2
3.8
3.9
0.0214
0.0252
21
FD04
88
1200
1600
27
FA04
88
1600
29
21.5
BN90SA
23480
36.2
79
0.78
3.04
7.3
3.6
3.8
0.0297
0.0335
27
FD14
133
750
1000
34
FA14
133
1000
36
32.2
BN90L
23490
54
81
0.79
4.4
7.3
3.8
3.9
0.0397
0.0435
31
FD05
230
750
1000
41
FA05
230
1000
46
53.7
BN100LB
23490
90
84
0.83
6.7
6.7
2.9
3.2
0.0926
0.102
51
FD15
354
360
500
59
FA15
354
500
66
7.5
5.5
BN132SA
23490
135
83
0.86
9.8
6.4
2.7
3.0
0.240
0.266
77
FD06
440
400
98
FA06
440
400
108
10
7.5
BN132SB
23490
181
82
0.88
13.0
6.2
2.8
3.2
0.318
0.344
93
FD06
440
350
113
FA06
440
350
123
15
11
BN160MR
23510
271
87
0.88
18.3
6.9
2.7
3.0
0.499
143
20
15
BN160MB
23510
359
86
0.90
24.2
6.0
2.5
2.7
0.808
185
25
18.5
BN160L
23520
449
88
0.91
29.2
6.9
2.8
3.0
0.998
214
30
22
BN180M
23520
537
88
0.91
35.1
6.9
2.8
3.1
1.164
240
40
30
BN200L
23530
716
89
0.91
46.2
6.9
2.6
3.0
1.829
309
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228
4POLE-1800rpm
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0.08
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BN56A
41670
3.0
53
0.55
0.26
2.9
3.1
3.1
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6.8
0.12
0.09
BN56B
41670
4.5
59
0.52
0.37
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2.9
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6.8
0.16
0.12
BN63A
41650
6.1
55
0.64
0.43
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2.5
0.0048
0.0062
7.7
FD02
15
7000
9000
11.5
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15
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11.0
0.25
0.18
BN63B
41670
9.4
58
0.59
0.68
3.1
2.8
2.9
0.0055
0.0071
8.6
FD02
30
7000
9000
12.3
FA02
30
9000
11.9
0.33
0.25
BN71A
41700
12.2
64
0.74
0.65
4.3
2.6
2.7
0.0138
0.0164
11.2
FD03
30
6000
8500
17.2
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30
8500
16.5
0.50
0.37
BN71B
41700
18.5
66
0.73
0.97
4.5
2.6
2.8
0.0164
0.0190
13.0
FD03
44
4800
7500
19.0
FA03
44
7500
18.3
0.75
0.55
BN80A
41710
27.6
73
0.75
1.28
4.9
3.0
3.0
0.0356
0.0394
18.1
FD04
89
3400
7000
27
FA04
89
7000
26
10.75
BN80B
41720
36.6
78
0.75
1.60
6.2
3.4
3.5
0.0482
0.0523
22
FD04
133
3000
6000
30
FA04
133
6000
30
1.5
1.1
BN90S
41720
55
78
0.74
2.43
5.7
3.1
3.4
0.0499
0.0546
27
FD14
133
3000
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36
FA14
133
7000
36
21.5
BN90LA
41720
73
81
0.74
3.12
6.6
3.3
3.6
0.0665
0.0760
30
FD05
230
2200
4700
43
FA05
230
4700
45
32.2
BN100LA
41720
110
81
0.73
4.8
5.5
2.7
2.9
0.0960
0.105
40
FD15
354
1000
2700
55
FA15
354
2700
55
53.7
BN100LC
41730
182
84
0.74
7.5
5.6
2.8
3.1
0.145
0.154
55
FD55
480
1200
66
FA15
480
1200
64
5.5
4BN112M
41730
200
85
0.76
8.0
7.0
3.1
3.4
0.233
0.254
66
FD06S
530
850
88
FA06S
530
850
93
7.5
5.5
BN132S
41730
273
84
0.84
10.0
6.3
2.9
3.1
0.506
0.530
97
FD56
664
850
126
FA06
664
850
128
10
7.5
BN132MA
41740
362
85
0.84
13.1
6.1
2.9
3.0
0.641
0.665
117
FD06
885
700
146
FA07
885
700
157
15
11
BN160MR
41740
543
88
0.81
19.4
6.5
3.1
3.2
0.855
0.907
154
FD07
1328
600
190
FA07
1328
600
194
20
15
BN160L
41750
720
90
0.84
24.8
5.8
2.3
2.7
1.544
1.722
218
FD08
1770
400
284
FA08
1770
400
282
25
18.5
BN180M
41760
895
90
0.83
31.3
5.8
2.5
3.1
1.876
2.054
254
FD08
2210
300
320
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2210
300
317
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229
6POLE-1200rpm
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BN63A
61100
6.9
47
0.50
0.48
2.8
2.9
2.9
0.0081
0.0095
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10000
13.9
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13.4
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61100
9.2
50
0.55
0.55
2.4
2.4
2.7
0.0088
0.0102
10.8
FD02
30
7000
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14.6
FA02
30
10000
14.1
0.25
0.18
BN71A
61100
14.3
61
0.65
0.57
3.3
2.6
2.8
0.0200
0.0226
12.1
FD03
44
6500
10000
18.1
FA03
44
10000
17.4
0.33
0.25
BN71B
61100
18.9
64
0.65
0.75
3.2
2.6
2.7
0.0259
0.0285
14.8
FD03
44
6200
8000
21
FA03
44
8000
20
0.50
0.37
BN80A
61130
27.9
67
0.65
1.07
3.9
2.6
2.8
0.0499
0.0546
22
FD04
88
4100
5500
30
FA04
88
5500
30
0.75
0.55
BN80B
61140
41.4
76
0.66
1.38
4.9
3.2
3.4
0.0594
0.0641
25
FD04
133
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34
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133
5000
33
10.75
BN90S
61140
55
73
0.63
2.05
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2.9
3.1
0.0618
0.0665
29
FD14
133
2700
4000
37
FA14
133
4000
37
1.5
1.1
BN90L
61140
83
75
0.65
2.83
4.3
2.8
2.9
0.0784
0.0879
33
FD05
230
2000
3500
46
FA05
230
3500
49
21.5
BN100LA
61140
111
76
0.66
3.75
4.5
2.4
2.8
0.195
0.204
49
FD15
354
1500
3000
62
FA15
354
3000
64
32.2
BN112M
61150
164
81
0.69
4.9
5.5
2.8
2.9
0.400
0.420
71
FD06S
530
1250
93
FA06S
530
1250
97
53.7
BN132MA
61150
274
80
0.79
7.3
6.1
2.5
3.1
0.701
0.724
97
FD06
885
900
128
FA07
885
900
139
7.5
5.5
BN132MB
61140
414
82
0.75
11.2
5.4
2.7
2.9
0.910
0.964
123
FD07
1328
800
159
FA07
1328
800
163
10
7.5
BN160M
61160
543
85
0.82
13.5
5.8
2.3
2.8
1.758
1.936
183
FD08
1500
550
247
FA08
1500
550
249
15
11
BN160L
61160
815
84
0.83
19.8
5.8
2.5
2.9
2.304
2.482
227
FD08
1770
400
293
FA08
1770
400
293
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230
2POLE-3000rpm
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0.25
0.18
BN63A
22730
5.6
59.9
0.77
0.56
3.0
2.1
2.0
0.00480.0062
7.7
FD02
15
3900
4800
11.5
FA02
15
4800
11.0
0.33
0.25
BN63B
22740
7.7
66.0
0.76
0.72
3.3
2.3
2.3
0.00550.0071
8.6
FD02
15
3900
4800
12.3
FA02
15
4800
11.9
0.5
0.37
BN71A
22820
11.1
73.8
0.76
0.95
4.8
2.8
2.6
0.00820.0109
11.9
FD03
30
3000
4100
17.9
FA03
30
4200
17.2
0.75
0.55
BN71B
22820
16.5
76.0
0.76
1.37
5.0
2.9
2.8
0.00970.0126
13.7
FD03
44
2900
4200
19.6
FA03
44
4200
19.0
10.75
BN80A
22810
23.0
76.2
0.81
1.75
4.8
2.6
2.2
0.01850.0223
19.0
FD04
44
1700
3200
28
FA04
44
3200
27
1.5
1.1
BN80B
22800
33.6
76.4
0.81
2.57
4.8
2.8
2.4
0.02140.0252
21
FD04
88
1500
3000
30
FA04
88
3000
29
21.5
BN90SA
22870
44
82.0
0.80
3.3
5.9
2.7
2.6
0.02970.0335
27
FD14
133
900
2200
36
FA14
133
2200
36
32.2
BN90L
22880
65
82.7
0.80
4.8
6.3
2.9
2.7
0.03970.0435
31
FD05
230
900
2200
44
FA05
230
2200
46
5.5
4BN100LB
22870
118
84.3
0.80
8.6
5.9
2.7
2.5
0.0926
0.102
51
FD15
354
450
900
64
FA15
354
1000
66
7.50
5.5
BN132SA
22890
161
86.1
0.84
11.0
6.0
2.6
2.2
0.240
0.266
77
FD06
440
600
106
FA06
440
600
108
10
7.5
BN132SB
22900
221
87.2
0.85
14.6
6.4
2.6
2.2
0.318
0.344
93
FD06
440
550
121
FA06
440
550
123
15
11
BN160MR
22920
319
89.1
0.88
20.2
7.0
2.9
2.5
0.499
143
20
15
BN160MB
22930
434
89.6
0.86
28.1
7.1
2.6
2.3
0.808
185
25
18.5
BN160L
22930
531
90.4
0.86
34
7.6
2.7
2.3
0.998
214
30
22
BN180M
22930
637
91.3
0.88
40
7.8
2.6
2.4
1.164
240
40
30
BN200L
22930
867
91.9
0.89
53
7.9
2.7
2.9
1.829
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Weight
lbs
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Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
231
4POLE-1500rpm
-S1
50Hz
0.08
0.06
BN56A
41340
3.8
46.8
0.65
0.28
2.6
2.3
2.0
0.0036
6.8
0.12
0.09
BN56B
41350
5.7
51.7
0.60
0.42
2.6
2.5
2.4
0.0036
6.8
0.16
0.12
BN63A
41350
7.5
59.8
0.62
0.47
2.6
1.9
1.8
0.00480.0062
7.7
FD02
15
10000
13000
11.5
FA02
15
13000
11.0
0.25
0.18
BN63B
41320
11.5
54.8
0.67
0.71
2.6
2.2
2.0
0.00550.0071
8.6
FD02
30
10000
13000
12.3
FA02
30
13000
11.9
0.33
0.25
BN71A
41380
15.3
63.7
0.73
0.78
3.3
1.9
1.7
0.01380.0164
11.2
FD03
30
7700
11000
17.2
FA03
30
11000
16.5
0.50
0.37
BN71B
41370
23.0
66.8
0.76
1.05
3.7
2.0
1.9
0.01640.0190
13.0
FD03
44
6000
9400
19.0
FA03
44
9400
18.3
0.75
0.55
BN80A
41390
33.6
72.0
0.77
1.43
4.1
2.3
2.0
0.03560.0394
18.1
FD04
89
4100
8000
27
FA04
89
8000
26
10.75
BN80B
41400
45
75.0
0.78
1.85
4.9
2.7
2.5
0.04820.0523
22
FD04
133
4100
7800
30
FA04
133
7800
30
1.5
1.1
BN90S
41400
66
76.5
0.77
2.70
4.6
2.6
2.2
0.04990.0546
27
FD14
133
4800
8000
36
FA14
133
8000
36
21.5
BN90LA
41390
91
78.7
0.77
3.6
5.3
2.8
2.4
0.06650.0760
30
FD05
230
3400
6000
43
FA05
230
6000
45
32.2
BN100LA
41410
132
81.1
0.75
5.2
4.5
2.2
2.0
0.0960
0.105
40
FD15
354
2600
4700
55
FA15
354
4700
55
43
BN100LB
41410
177
82.6
0.77
6.8
52.3
2.2
0.128
0.154
49
FD15
354
2400
4400
62
FA15
354
4400
64
5.5
4BN112M
41430
239
84.4
0.81
8.4
5.6
2.7
2.5
0.233
0.254
66
FD06S
530
—1400
88
FA06S
530
2100
93
7.5
5.5
BN132S
41440
319
86.3
0.80
11.5
5.5
2.3
2.2
0.506
0.530
97
FD56
664
—1050
126
FA06
664
1200
128
10
7.5
BN132MA
41440
443
87.0
0.80
15.6
5.7
2.5
2.4
0.641
0.665
117
FD06
885
—950
146
FA07
885
1000
157
15
11
BN160MR
41440
646
88.4
0.81
22.2
5.9
2.7
2.5
0.855
0.907
154
FD07
1328
—850
190
FA07
1328
850
194
20
15
BN160L
41460
867
89.9
0.81
29.7
5.9
2.3
2.1
1.544
1.722
218
FD08
1770
—750
284
FA08
1770
750
282
25
18.5
BN180M
41460
1071
90.0
0.81
37
6.2
2.6
2.5
1.876
2.054
254
FD08
2210
—700
320
FA08
2210
700
317
1)
withoutbrake
2)
withbrake
Pn
nTn
�cos
�I n
at400V
I Is n
T T
s n
T T
k n
Jm
lb�ft2
Weight
lbs
Brake
type
Tb
Zo
1/h
rectifier
Weight
lbs
Brake
type
Tb
Zo
1/h
Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
232
6POLE-1000rpm
-S1
50Hz
0.12
0.09
BN63A
6880
8.7
41
0.53
0.60
2.1
2.1
1.8
0.0081
0.0095
4.6
FD02
30
9000
14000
6.3
FA02
30
14000
6.1
0.16
0.12
BN63B
6870
11.7
45
0.60
0.64
2.1
1.9
1.7
0.0088
0.0102
4.9
FD02
30
9000
14000
6.6
FA02
30
14000
6.4
0.25
0.18
BN71A
6900
16.9
56
0.69
0.67
2.6
1.9
1.7
0.0200
0.0226
5.5
FD03
44
8100
13500
8.2
FA03
44
13500
7.9
0.33
0.25
BN71B
6900
23.9
62
0.71
0.82
2.6
1.9
1.7
0.0259
0.0285
6.7
FD03
44
7800
13000
9.4
FA03
44
13000
9.1
0.50
0.37
BN80A
6910
34.5
68
0.68
1.15
3.2
2.2
2.0
0.0499
0.0546
9.9
FD04
88
5200
8500
13.8
FA04
88
8500
13.7
0.75
0.55
BN80B
6920
50
70
0.69
1.64
3.9
2.6
2.2
0.0594
0.0641
11.3
FD04
133
4800
7200
15.2
FA04
133
7200
15.1
10.75
BN90S
6920
69
69
0.68
2.31
3.8
2.4
2.2
0.0618
0.0665
12.6
FD14
133
3400
6500
16.8
FA14
133
6500
16.7
1.5
1.1
BN90L
6920
101
72
0.69
3.2
3.9
2.3
2.0
0.0784
0.0879
15
FD05
230
2700
5000
21
FA05
230
5000
22
21.5
BN100LA
6940
135
73
0.72
4.1
42.1
2.0
0.195
0.204
22
FD15
354
1900
4100
28
FA15
354
4100
29
32.2
BN112M
6940
195
78
0.73
5.6
4.8
2.2
2.0
0.400
0.420
32
FD06S
530
—2100
42
FA06S
530
2100
44
5.5
4BN132MA
6950
354
78
0.77
9.6
5.5
2.0
1.8
0.701
0.724
45
FD06
885
—1200
58
FA07
885
1200
63
7.5
5.5
BN132MB
6945
496
80
0.78
12.7
5.9
2.1
1.9
0.910
0.964
56
FD07
1328
—1050
72
FA07
1328
1050
74
10
7.5
BN160M
6955
664
84
0.81
15.9
5.9
2.2
2.0
1.758
1.936
83
FD08
1500
—900
112
FA08
1500
900
113
15
11
BN160L
6960
965
87
0.81
22.5
6.5
2.5
2.3
2.304
2.482
103
FD08
1770
—800
133
FA08
1770
800
133
1)
withoutbrake
2)
withbrake
Pn
nTn
�cos
�I n
at400V
I Is n
T T
s n
T T
k n
Jm
lb�ft2
Weight
lbs
Brake
type
Tb
Zo
1/h
rectifier
Weight
lbs
Brake
type
Tb
Zo
1/h
Weight
lbs
hp
kW
rpm
lb�in
%A
1)
2)
1)
lb�in
NB
SB
2)
lb�in
2)
233
M
3.12 DIMENSIONS
Rear shaft end Motor
DA EA DB FA GC AC LB LC AF LL J AD
M 00.35 0.79
M30.12 0.40 4.33 5.24 6.10 2.91 3.15 1.65 3.58
9 20 3 10.2 110 133 155 74 80 42 91
M 050.43 0.91
M40.16 0.49 4.76 6.50 7.52 2.91 3.15 1.89 3.74
11 23 4 12.5 121 165 191 74 80 48 95
M 10.55 1.18
M50.20 0.63 5.43 7.36 8.62 2.91 3.15 1.77 4.25
14 30 5 16 138 187 219 74 80 45 108
M 2 S0.75 1.57
M60.24 0.85 6.14 7.95 9.65 2.91 3.15 1.73 4.69
19 40 6 21.5 156 202 245 74 80 44 119
M 3 S1.10 2.36
M100.31 1.22 7.68 9.06 11.54 3.86 3.86 2.11 5.59
28 60 8 31 195 230 293 98 98 53.5 142
M 3 L1.10 2.36
M100.31 1.22 7.68 10.31 12.80 3.86 3.86 2.11 5.59
28 60 8 31 195 262 325 98 98 53.5 142
M 41.50 3.15
M120.39 1.61 10.16 14.21 17.48 4.65 4.65 2.54 7.60
38 80 10 41 258 361 444 118 118 64.5 193
M 4 LC1.50 3.15
M120.39 1.61 10.16 15.59 18.86 4.65 4.65 2.54 7.60
38 80 10 41 258 396 479 118 118 64.5 193
M 5 S1.50 3.15
M120.39 1.61 12.20 16.46 19.76 7.36 7.36 3.03 9.65
38 80 10 41 310 418 502 187 187 77 245
M 5 L1.50 3.15
M120.39 1.61 12.20 18.19 21.50 7.36 7.36 3.03 9.65
38 80 10 41 310 462 546 187 187 77 245
Dimensions areinch
mm
234
M_FD
Dimensions areinch
mm
Rear shaft end Motor
DA EA DB FA GC AC LB LC AF LL J AD R ES
M 050.43 0.91
M40.16 0.49 4.76 9.09 10.08 3.86 5.24 1.89 4.69 3.78 0.20
11 23 4 12.5 121 231 256 98 133 48 119 96 5
M 10.55 1.18
M50.20 0.63 5.43 9.76 11.02 3.86 5.24 2.87 5.20 4.06 0.20
14 30 5 16 138 248 280 98 133 73 132 103 5
M 2 S0.75 1.57
M60.24 0.85 6.14 10.71 12.36 3.86 5.24 3.46 5.63 5.08 0.20
19 40 6 21.5 156 272 314 98 133 88 143 129 5
M 3 S1.10 2.36
M100.31 1.22 7.68 12.83 15.31 4.33 6.50 4.90 6.10 6.30 0.24
28 60 8 31 195 326 389 110 165 124.5 155 160 6
M 3 L1.10 2.36
M100.31 1.22 7.68 13.90 16.38 4.33 6.50 4.90 6.10 6.30 0.24
28 60 8 31 195 353 416 110 165 124.5 155 160 6
M 41.50 3.15
M120.39 1.61 10.16 18.50 21.77 5.51 7.40 7.30 8.27 8.03 0.24
38 80 10 41 258 470 553 140 188 185.5 210 204 (1) 6
M 4 LC1.50 3.15
M120.39 1.61 10.16 19.49 22.76 5.51 7.40 2.54 8.27 8.90 0.24
38 80 10 41 258 495 578 140 188 64.5 210 226 6
M 5 S1.50 3.15
M120.39 1.61 12.20 21.97 25.28 7.36 7.36 3.03 9.65 10.47
—38 80 10 41 310 558 642 187 187 77 245 266
M 5 L1.50 3.15
M120.39 1.61 12.20 23.70 27.01 7.36 7.36 3.03 9.65 10.47
—38 80 10 41 310 602 686 187 187 77 245 266
1) For FD07 brake value R=226 ES hexagon is not supplied with PS option
235
M_FA
Dimensions areinch
mm
Rear shaft end Motor
DA EA DB FA GC AC LB LC AF LL J AD R ES
M 050.43 0.91
M40.16 0.49 4.76 9.09 10.08 2.91 3.15 1.89 3.74 4.57 0.20
11 23 4 12.5 121 231 256 74 80 48 95 116 5
M 10.55 1.18
M50.20 0.63 5.43 9.76 11.02 2.91 3.15 2.87 4.25 4.88 0.20
14 30 5 16 138 248 280 74 80 73 108 124 5
M 2 S0.75 1.57
M60.24 0.85 6.14 10.71 12.36 2.91 3.15 3.46 4.69 5.28 0.20
19 40 6 21.5 156 272 314 74 80 88 119 134 5
M 3 S1.10 2.36
M100.31 1.22 7.68 12.83 15.31 3.86 3.86 4.90 5.59 6.30 0.24
28 60 8 31 195 326 389 98 98 124.5 142 160 6
M 3 L1.10 2.36
M100.31 1.22 7.68 13.90 16.38 3.86 3.86 4.90 5.59 6.30 0.24
28 60 8 31 195 353 416 98 98 124.5 142 160 6
M 41.50 3.15
M140.39 1.61 10.16 18.50 21.77 4.65 4.65 7.30 7.60 7.87 0.24
38 80 10 41 258 470 553 118 118 185.5 193 200 (1) 6
M 4 LC1.50 3.15
M140.39 1.61 10.16 19.49 22.76 4.65 4.65 2.54 7.60 8.54 0.24
38 80 10 41 258 495 578 118 118 64.5 193 217 6
M 5 S1.50 3.15
M120.39 1.61 12.20 21.97 25.28 7.36 7.36 3.03 9.65 9.72
—38 80 10 41 310 558 642 187 187 77 245 247
M 5 L1.50 3.15
M120.39 1.61 12.20 23.70 27.01 7.36 7.36 3.03 9.65 9.72
—38 80 10 41 310 602 686 187 187 77 245 247
1) For FD07 brake value R=226 ES hexagon is not supplied with PS option
236
Shaft Flange Motor
D
DA
E
EADB
GA
GC
F
FAM N P S T AC L LB LC AD AF LL V
BN 560.35 0.79
M30.40 0.12 2.56 1.97 3.15
M50.10 4.33 7.28 6.50 8.15 3.58 2.91 3.15 1.34
9 20 10.2 3 65 50 80 2.5 110 185 165 207 91 74 80 34
BN 630.43 0.91
M40.49 0.16 2.95 2.36 3.54
M50.10 4.76 8.15 7.24 9.13 3.74 2.91 3.15 1.02
11 23 12.5 4 75 60 90 2.5 121 207 184 232 95 74 80 26
BN 710.55 1.18
M50.63 0.20 3.35 2.76 4.13
M60.10 5.43 9.80 8.62 11.06 4.25 2.91 3.15 1.46
14 30 16 5 85 70 105 2.5 138 249 219 281 108 74 80 37
BN 800.75 1.57
M60.85 0.24 3.94 3.15 4.72
M60.12 6.14 10.79 9.21 12.40 4.69 2.91 3.15 1.50
19 40 21.5 6 100 80 120 3 156 274 234 315 119 74 80 38
BN 900.94 1.97
M81.06 0.31 4.53 3.74 5.51
M80.12 6.93 12.83 10.87 14.88 5.24 3.86 3.86 1.73
24 50 27 8 115 95 140 3 176 326 276 378 133 98 98 44
BN 1001.10 2.36
M101.22 0.31 5.12 4.33 6.30
M80.14 7.68 14.41 12.05 16.89 5.59 3.86 3.86 1.97
28 60 31 8 130 110 160 3.5 195 366 306 429 142 98 98 50
BN 1121.10 2.36
M101.22 0.31 5.12 4.33 6.30
M80.14 8.62 15.16 12.80 17.64 6.18 3.86 3.86 2.05
28 60 31 8 130 110 160 3.5 219 385 325 448 157 98 98 52
BN 1321.50 3.15
M121.61 0.39 6.50 5.12 7.87
M100.16 10.16 19.41 16.26 22.68 7.60 4.65 4.65 2.28
38 80 41 10 165 130 200 4 258 493 413 576 193 118 118 58
Dimensions areinch
mm
BNIM B14
237
Shaft Flange Motor
D
DA
E
EADB
GA
GC
F
FAM N P S T LA AC L LB LC AD AF LL V
BN 560.35 0.79
M30.40 0.12 3.94 3.15 4.72 0.28 0.12 0.31 4.33 7.28 6.50 8.15 3.58 2.91 3.15 1.34
9 20 10.2 3 100 80 120 7 3 8 110 185 165 207 91 74 80 34
BN 630.43 0.91
M40.49 0.16 4.53 3.74 5.51 0.37 0.12 0.39 4.76 8.15 7.24 9.13 3.74 2.91 3.15 1.02
11 23 12.5 4 115 95 140 9.5 3 10 121 207 184 232 95 74 80 26
BN 710.55 1.18
M50.63 0.20 5.12 4.33 6.30 0.37 0.12 0.39 5.43 9.80 8.62 11.06 4.25 2.91 3.15 1.46
14 30 16 5 130 110 160 9.5 3 10 138 249 219 281 108 74 80 37
BN 800.75 1.57
M60.85 0.24 6.50 5.12 7.87 0.45 0.14 0.45 6.14 10.79 9.21 12.40 4.69 2.91 3.15 1.50
19 40 21.5 6 165 130 200 11.5 3.5 11.5 156 274 234 315 119 74 80 38
BN 900.94 1.97
M81.06 0.31 6.50 5.12 7.87 0.45 0.14 0.45 6.93 12.83 10.87 14.88 5.24 3.86 3.86 1.73
24 50 27 8 165 130 200 11.5 3.5 11.5 176 326 276 378 133 98 98 44
BN 1001.10 2.36
M101.22 0.31 8.46 7.09 9.84 0.55 0.16 0.55 7.68 14.45 12.09 16.89 5.59 3.86 3.86 1.97
28 60 31 8 215 180 250 14 4 14 195 367 307 429 142 98 98 50
BN 1121.10 2.36
M101.22 0.31 8.46 7.09 9.84 0.55 0.16 0.59 8.62 15.16 12.80 17.64 6.18 3.86 3.86 2.05
28 60 31 8 215 180 250 14 4 15 219 385 325 448 157 98 98 52
BN 1321.49 3.14
M121.61 0.39 10.43 9.05 11.81 0.55 0.15 0.79 10.15 19.40 16.25 22.67 7.59 4.64 4.64 2.28
38 80 41 10 265 230 300 14 4 20 258 493 413 576 193 118 118 58
BN 160 MR
1.65 4.33M16
1.77 0.47
11.81 9.84 13.77 0.72 0.19 0.59 10.15 22.12 17.79 25.39 7.59 4.64 4.64 8.5842 110 45 12
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 258 562 452 645 193 118 118 218
38 (1) 80 (1) 41 (1) 10 (1)
BN 160 MBN 160 L
1.65 4.33M16
1.77 0.47
11.81 9.84 13.77 0.72 0.19 0.59 1.22 23.46 19.13 26.77 9.64 7.36 7.36 2.0042 110 45 12
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 310 596 486 680 245 187 187 51
38(1) 80 (1) 41 (1) 10 (1)
BN 180 M
1.88 4.33M16
2.02 0.55
11.81 9.84 13.77 0.72 0.19 0.59 1.22 25.19 20.86 28.50 9.64 7.36 7.36 2.0048 110 51.5 14
1.49 4.33M12 (1)
1.61 0.39 300 250 350 18.5 5 15 310 640 530 724 245 187 187 51
38 (1) 110 (1) 41 (1) 10 (1)
BN 180 L
1.88 4.33M16
2.02 0.55
11.81 9.84 13.77 0.72 0.19 0.70 13.70 27.87 23.54 32.40 10.27 7.36 7.36 2.0448 110 51.5 14
1.65 4.33M16 (1)
1.77 0.47 300 250 350 18.5 5 18 348 708 598 823 261 187 187 52
42 (1) 110 (1) 45 (1) 12 (1)
BN 200 L
2.16 4.33M20
2.32 0.62
13.77 11.81 15.74 0.72 0.19 0.70 13.70 28.42 24.09 32.95 10.27 7.36 7.36 2.5955 110 59 16
1.65 4.33M16 (1)
1.77 0.47 350 300 400 18.5 5 18 348 722 612 837 261 187 187 66
42 (1) 110 (1) 45 (1) 12 (1)
Dimensions areinch
mm
BN IM B5
1) These values refer to the rear shaft end.
BN_FD
238
1) For FD07 brake value R=226 ES hexagon is not supplied with PS option
Shaft Flange Motor
D
DA
E
EADB
GA
GC
F
FAM N P S T AC L LB LC AD AF LL V R ES
BN 630.43 0.91
M40.49 0.16 2.95 2.36 3.54
M50.10 4.76 10.71 9.80 11.69 4.69 3.86 5.24 0.55 3.78 0.20
11 23 12.5 4 75 60 90 2.5 121 272 249 297 119 98 133 14 96 5
BN 710.55 1.18
M50.63 0.20 3.35 2.76 4.13
M60.10 5.43 12.20 11.02 13.46 5.20 3.86 5.24 0.98 4.06 0.20
14 30 16 5 85 70 105 2.5 138 310 280 342 132 98 133 25 103 5
BN 800.75 1.57
M60.85 0.24 3.94 3.15 4.72
M60.12 6.14 13.62 12.05 15.28 5.63 3.86 5.24 1.61 5.08 0.20
19 40 21.5 6 100 80 120 3 156 346 306 388 143 98 133 41 129 5
BN 90 S0.94 1.97
M81.06 0.31 4.53 3.74 5.51
M80.12 6.93 16.10 14.13 18.15 5.75 4.33 6.50 1.54 5.08 0.24
24 50 27 8 115 95 140 3 176 409 359 461 146 110 165 39 129 6
BN 90 L0.94 1.97
M81.06 0.31 4.53 3.74 5.51
M80.12 6.93 16.10 14.13 18.15 5.75 4.33 6.50 1.54 6.30 0.24
24 50 27 8 115 95 140 3 176 409 359 461 146 110 165 39 160 6
BN 1001.10 2.36
M101.22 0.31 5.12 4.33 6.30
M80.14 7.68 18.03 15.67 20.51 6.10 4.33 6.50 2.44 6.30 0.24
28 60 31 8 130 110 160 3.5 195 458 398 521 155 110 165 62 160 6
BN 1121.10 2.36
M101.22 0.31 5.12 4.33 6.30
M80.14 8.62 19.06 16.69 21.54 6.69 4.33 6.50 2.87 7.83 0.24
28 60 31 8 130 110 160 3.5 219 484 424 547 170 110 165 73 199 6
BN 1321.50 3.15
M121.61 0.39 6.50 5.12 7.87
M100.16 10.16 23.74 20.59 27.01 8.27 5.51 7.40 4.80 8.03 0.24
38 80 41 10 165 130 200 4 258 603 523 686 210 140 188 122 204 (1) 6
Dimensions areinch
mm
IM B14
239
Shaft Flange Motor
DDA
EEA
DBGAGC
FFA
M N P S T LA AC L LB LC AD AF LL V R ES
BN 630.43 0.91
M40.49 0.16 4.53 3.74 5.51 0.37 0.12 0.39 4.76 10.71 9.80 11.69 4.69 3.86 5.24 0.55 3.78 0.20
11 23 12.5 4 115 95 140 9.5 3 10 121 272 249 297 119 98 133 14 96 5
BN 710.55 1.18
M50.63 0.20 5.12 4.33 6.30 0.37 0.14 0.39 5.43 12.20 11.02 13.46 5.20 3.86 5.24 0.98 4.06 0.20
14 30 16 5 130 110 160 9.5 3.5 10 138 310 280 342 132 98 133 25 103 5
BN 800.75 1.57
M60.85 0.24 6.50 5.12 7.87 0.45 0.14 0.45 6.14 13.62 12.05 15.28 5.63 3.86 5.24 1.61 5.08 0.20
19 40 21.5 6 165 130 200 11.5 3.5 11.5 156 346 306 388 143 98 133 41 129 5
BN 90 S0.94 1.97
M81.06 0.31 6.50 5.12 7.87 0.45 0.14 0.45 6.93 16.10 14.13 18.15 5.75 4.33 6.50 1.54 5.08 0.24
24 50 27 8 165 130 200 11.5 3.5 11.5 176 409 359 461 146 110 165 39 129 6
BN 90 L0.94 1.97
M81.06 0.31 6.50 5.12 7.87 0.45 0.14 0.45 6.93 16.10 14.13 18.15 5.75 4.33 6.50 1.54 6.30 0.24
24 50 27 8 165 130 200 11.5 3.5 11.5 176 409 359 461 146 110 165 39 160 6
BN 1001.10 2.36
M101.22 0.31 8.46 7.09 9.84 0.55 0.16 0.55 7.68 18.03 15.67 20.51 6.10 4.33 6.50 2.44 6.30 0.24
28 60 31 8 215 180 250 14 4 14 195 458 398 521 155 110 165 62 160 6
BN 1121.10 2.36
M101.22 0.31 8.46 7.09 9.84 0.55 0.16 0.59 8.62 19.06 16.69 21.54 6.69 4.33 6.50 2.87 7.83 0.24
28 60 31 8 215 180 250 14 4 15 219 484 424 547 170 110 165 73 199 6
BN 1321.49 3.14
M121.61 0.39 10.43 9.05 11.81 0.55 0.15 0.79 10.15 23.74 20.59 27.00 8.27 5.51 7.40 4.80 8.03 0.23
38 80 41 10 265 230 300 14 4 20 258 603 523 686 210 140 188 122 204 (2) 6
BN160MR
1.65 4.33M16
1.77 0.47
11.81 9.84 13.77 0.72 0.19 0.59 10.15 26.45 22.12 29.72 8.27 5.51 7.40 6.34 8.89 0.2342 110 45 12
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 258 672 562 755 210 140 188 161 226 6
38 (1) 80 (1) 41 (1) 10 (1)
BN 160 MBN 160 L
1.65 4.33M16
1.77 0.47
11.81 9.84 13.77 0.72 0.19 0.59 1.22 28.97 24.64 32.28 9.64 7.36 7.36 2.00 8.89—
42 110 45 12
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 310 736 626 820 245 187 187 51 226
38 (1) 80 (1) 41 (1) 10 (1)
BN 180 M
1.88 4.33M16
2.02 0.55
11.81 9.84 13.77 0.72 0.19 0.59 1.22 30.70 26.37 34.01 9.64 7.36 7.36 2.00 8.89—
48 110 51.5 14
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 310 780 670 864 245 187 187 51 226
38 (1) 80 (1) 41 (1) 10 (1)
BN 180 L
1.88 4.33M16
2.02 0.55
11.81 9.84 13.77 0.72 0.19 0.70 13.70 34.09 29.76 38.62 10.27 7.36 7.36 2.04 12.00—
48 110 51.5 14
1.65 4.33M16 (1)
1.77 0.47 300 250 350 18.5 5 18 348 866 756 981 261 187 187 52 305
42 (1) 110 (1) 45 (1) 12 (1)
BN 200 L
2.16 4.33M20
2.32 0.62
13.77 11.81 15.74 0.72 0.19 0.70 13.70 34.56 30.23 39.09 10.27 7.36 7.36 2.51 12.00—
55 110 59 16
1.65 4.33M16 (1)
1.77 0.47 350 300 400 18.5 5 18 348 878 768 993 261 187 187 64 305
42 (1) 110 (1) 45 (1) 12 (1)
Dimensions areinch
mm
BN_FD IM B5
1) These values refer to the rear shaft end.
2) For FD07 brake value R=226
ES hexagon is not supplied with PS option
240
1) 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.
Shaft Flange Motor
D
DA
E
EADB
GA
GC
F
FAM N P S T AC L LB LC AD AF LL V R ES
BN 630.43 0.91
M40.49 0.16 2.95 2.36 3.54
M50.10 4.76 10.71 9.80 4.69 3.74 2.91 3.15 1.02 4.57 0.20
11 23 12.5 4 75 60 90 2.5 121 272 249 119 95 74 80 26 116 5
BN 710.55 1.18
M50.63 0.20 3.35 2.76 4.13
M60.10 5.43 12.20 11.02 13.46 4.25 2.91 3.15 2.68 4.88 0.20
14 30 16 5 85 70 105 2.5 138 310 280 342 108 74 80 68 124 5
BN 800.75 1.57
M60.85 0.24 3.94 3.15 4.72
M60.12 6.14 13.62 12.05 15.28 4.69 2.91 3.15 3.27 5.28 0.20
19 40 21.5 6 100 80 120 3 156 346 306 388 119 74 80 83 134 5
BN 900.94 1.97
M81.06 0.31 4.53 3.74 5.51
M80.12 6.93 16.10 14.13 18.15 5.24 3.86 3.86 3.74 6.30 0.24
24 50 27 8 115 95 140 3 176 409 359 461 133 98 98 95 160 6
BN 1001.10 2.36
M101.22 0.31 5.12 4.33 6.30
M80.14 7.68 18.03 15.67 20.51 5.59 3.86 3.86 4.69 6.30 0.24
28 60 31 8 130 110 160 3.5 195 458 398 521 142 98 98 119 160 6
BN 1121.10 2.36
M101.22 0.31 5.12 4.33 6.30
M80.14 8.62 19.06 16.69 21.54 6.18 3.86 3.86 5.04 7.80 0.24
28 60 31 8 130 110 160 3.5 219 484 424 547 157 98 98 128 198 6
BN 1321.50 3.15
M121.61 0.39 6.50 5.12 7.87
M100.16 10.16 23.74 20.59 27.01 7.60 4.65 4.65 7.09 7.87 0.24
38 80 41 10 165 130 200 4 258 603 523 686 193 118 118 180 200 (1) 6
Dimensions areinch
mm
BN_FAIM B14
241
Shaft Flange Motor
D
DA
E
EADB
GA
GC
F
FAM N P S T LA AC L LB LC AD AF LL V R ES
BN 630.43 0.91
M40.49 0.16 4.53 3.74 5.51 0.37 0.12 0.39 4.76 10.71 9.80 11.69 3.74 2.91 3.15 1.02 4.57 0.20
11 23 12.5 4 115 95 140 9.5 3 10 121 272 249 297 95 74 80 26 116 5
BN 710.55 1.18
M50.63 0.20 5.12 4.33 6.30 0.37 0.14 0.39 5.43 12.20 11.02 13.46 4.25 2.91 3.15 2.68 4.88 0.20
14 30 16 5 130 110 160 9.5 3.5 10 138 310 280 342 108 74 80 68 124 5
BN 800.75 1.57
M60.85 0.24 6.50 5.12 7.87 0.45 0.14 0.45 6.14 13.62 12.05 15.28 4.69 2.91 3.15 3.27 5.28 0.20
19 40 21.5 6 165 130 200 11.5 3.5 11.5 156 346 306 388 119 74 80 83 134 5
BN 900.94 1.97
M81.06 0.31 6.50 5.12 7.87 0.45 0.14 0.45 6.93 16.10 14.13 18.15 5.24 3.86 3.86 3.74 6.30 0.24
24 50 27 8 165 130 200 11.5 3.5 11.5 176 409 359 461 133 98 98 95 160 6
BN 1001.10 2.36
M101.22 0.31 8.46 7.09 9.84 0.55 0.16 0.55 7.68 18.03 15.67 20.51 5.59 3.86 3.86 4.69 6.30 0.24
28 60 31 8 215 180 250 14 4 14 195 458 398 521 142 98 98 119 160 6
BN 1121.10 2.36
M101.22 0.31 8.46 7.09 9.84 0.55 0.16 0.59 8.62 19.06 16.69 21.54 6.18 3.86 3.86 5.04 7.80 0.24
28 60 31 8 215 180 250 14 4 15 219 484 424 547 157 98 98 128 198 6
BN 1321.49 3.14
M121.61 0.39 10.43 9.05 11.81 0.55 0.15 0.79 10.15 23.74 20.59 27.00 7.59 4.64 4.64 7.08 7.87 0.23
38 80 41 10 265 230 300 14 4 20 258 603 523 686 193 118 118 180 200 (2) 6
BN160MR
1.65 4.33M16
1.77 0.47
11.81 9.84 13.77 0.72 0.19 0.59 10.15 26.45 22.12 29.72 7.59 4.64 4.64 8.58 8.54 0.2342 110 45 12
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 258 672 562 755 193 118 118 218 217 6
38 (1) 80 (1) 41 (1) 10 (1)
BN 160 M
BN 160 L
1.65 4.33M16
1.77 0.47
11.81 9.84 13.77 0.72 0.19 0.59 1.22 28.97 24.64 32.28 9.64 7.36 7.36 2.00 9.72—
42 110 45 12
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 310 736 626 820 245 187 187 51 247
38 (1) 80 (1) 41 (1) 10 (1)
BN 180 M
1.88 4.33M16
2.02 0.55
11.81 9.84 13.77 0.72 0.19 0.59 1.22 30.70 26.37 34.01 9.64 7.36 7.36 2.00 9.72—
48 110 51.5 14
1.49 3.14M12 (1)
1.61 0.39 300 250 350 18.5 5 15 310 780 670 864 245 187 187 51 247
38 (1) 80 (1) 41 (1) 10 (1)
Dimensions areinch
mm
BN_FA IM B5
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 AD, AF, LL and V, relevant to terminal box of mo-
tors BN…FA featuring the separate brake supply (option SA),
are coincident with corresponding dimensions of same-size
BN…FD motors.
242242
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.
COD. 1823 R2
120628
R2
Description
24 Application of backstop device to F 31 4, F 41 2 and F 41 4 gearboxes corrected
85 Nema motor provision on F 20 3 gearboxes corrected