cgie/a - bharatbijlee.com · introduction global warming is a reality and world over people are...
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Introduction Global warming is a reality and world over people are working towards reduction in carbon foot print.
Electric motor applications, in Indian industry, consume about seventy percent of the generated electrical energy. Improving efficiency of the motor is therefore a major concern in energy-efficiency efforts.
Electric motors with improved efficiency, in combination with frequency converters can save about 7% of the total worldwide electrical energy. Roughly one quarter to one third of these savings come from the improved efficiency of the motor.
A need was felt amongst users, consultants and manufacturers in India to revise existing BIS standard IS 12615:2004 to harmonize with the international standards. This will lead us to be in line with international code of standards and practices. This will also result in having uniform test procedures to facilitate the end user to compare the performance and energy efficiency of motors.
Motors from 0.37kW to 375kW make up the vast majority (approximately 90%) of installed motor population and are covered by the standard IS 12615:2011. This fulfills the need of the manufacturers to design motor for a global market. This standard defines four efficiency classes for nominal frequency 50Hz.
Salient features of BIS standard IS 12615:2011 (second revision)This standard is primarily based on IEC 60034-30:2008 issued by the International Electrotechnical Commission except that additional performance parameters other than efficiency values have also been included.
The efficiency levels in IS 12615:2011 are based on test methods specified in IS 15999 (Part 2/sec 1):2011 / IEC 60034-2-1:2007. The standard specifies methods used to determine losses and efficiency, with the objective to calculate efficiency values more accurately.
New IE efficiency classes are as given below
Efficiency Class Description
IE1 Standard efficiency Comparable to eff2
IE2
IE3
IE4
High efficiency Comparable to eff1
Premium Premium
Super premium Super premium
As per the standard, efficiency class of IE4 is under consideration and would be incorporated later. The standard IS 12615:2011 covers low voltage, AC three phase squirrel cage, single speed induction motors for• Rated voltage <= 1000V
• Rated frequency 50Hz
• Rated output between 0.37kW to 375kW
• 2P, 4P & 6P
• Rated on the basis of continuous duty (S1) or intermittent periodic duty (S3) with 80% or higher cyclic duration factor
• Capable of operating direct on line
• Rated for ambient temperature of 40 deg centigrade & altitude not exceeding 1000m
• Degree of protection IP44 or superior
• Method of cooling IC 411
• Fixing dimensions as per IS 1231 & IS 2223
• Determination of total losses with PLL determination from residual losses
This standard does not cover• 8P motors
• Pole changing motors ( multispeed motors)
• Motors made exclusively for converter duty application
• Motors completely integrated into the machine. (for example, pumps, compressors that cannot be tested separately from the machine )
• Crane & hoist duty motors
Highlights• Efficiency values of different manufacturers are comparable only if they are measured by the same method as per IS 15999 (Part 2/sec 1):2011 / IEC 60034-2-1:2007.
• IE Class efficiencies are subject to tolerance as per IEC 60034-1
• For conditions of limitations on grid supply (e.g. limiting starting current, high tolerances of voltage and/or frequency), it may not be possible to achieve the same IE efficiency class.
• Energy efficient cage-induction motors are typically built with more active material to achieve higher efficiency and hence the starting performance of these motors differ somewhat from motors with a lower efficiency. The locked rotor current increases approximately by 10 to 15 percent for increase in each level of efficiency for the same output power. For replacing existing motors, this should be checked by the user with manufacturer for proper sizing of the protective devices.
• Old efficiency levels were Eff2 and Eff1 (as per CEMEP). For calculation of these efficiencies, fixed stray load losses (0.5% of motor output) were assumed. Now IS 12615:2011 refers to IS 15999 (Part 2/sec 1):2011 / IEC 60034-2-1:2007 for calculation of efficiency. This calculation is based on the new methods of stray load loss measurement specified in the standard. The effect is in the reduction of efficiency as compared to the earlier values.
Energy Efficient Induction Motors(Three phase squirrel cage induction motors)
Bharat Bijlee has introduced a complete range of IE2 High efficiency motors
Product Range
Type Frame Size kW range
2H - IE2 High efficiency 71 TO 355L 0.37 TO 355*
Standards All motors comply with following Indian & International standards
National/International Standards
IS : 325 Three Phase Induction motors specifications.
IS/IEC 60034-1 Rotating electric machines: Part 1 Rating and Performance
IS : 900 Code of practice for installation & maintenance of induction motors.
IS : 1231 Dimensions of foot mounted A.C Induction motors
IS : 2223 Dimensions of Flange mounted A.C Induction motors
IS 15999 part 2 Rotating Electrical Machines - section 1 Standard Methods for determining /IEC 60034-2-1 losses and efficiency from tests
IS /IEC 60034-5 Degree of protection provided by the integral design of Rotating Electrical Machines (IP code) : classification
IS : 6362 / Designation of methods of coolingIEC 60034-6 for Rotating Electrical Machines
IS : 12065 / Permissible Limits of noise levelIEC 60034-14 for Rotating Electrical Machines
IS : 12075 Mechanical Vibration of Rotating Electrical Machines
IS : 12615:2011 Energy Efficient Induction Motors Three phase Squirrel Cage.
IEC 60072 Dimension & Output rating of Rotating Electrical machines.
CE MARKAll motors have CE mark on the nameplate
ELECTRICAL FEATURESStandard Operating conditionSupply Conditions (Voltage & Frequency)Voltage� � : � 415 V ± 10%Frequncy�� :� 50Hz ± 5%Combined variation� :� ± 10%
Ambient oMotors are designed for ambient temperature of 50 C
Altitude Motors are designed for an altitude up to 1000m above mean sea level.
Re-rating factorsThe re-rating applicable under different conditions of supply voltage, frequency, ambient & altitude are obtained by multiplying following factors.
Variation in supply Voltage & Frequency
± 10 ± 5 ± 10 100± 12.5 ± 5 ± 12.5 95± 15 ± 5 ± 15 90
Voltage Variation %
Frequency Variation %
Combined Voltage & Frequency Variation %
Permissible output as %
of rated value
*Note : Motors above 355kW & up to 1250kW areavailable in frame size 355, 400 & 450 with doubleventilated cooling system. Please contact our Sales.
Variation in Ambient Temperature & Altitude
Method of starting Our motors are suitable for following method of starting
kW rating Method of starting No. of leadsUpto & including 1.5 kW DOL 6 415V - Star 240V - Delta
Above 1.5 kW DOL or Star / Delta 6
All Bharat Bijlee motors are suitable for inverter duty application. (Refer page 5)
Starting Time and Duty CycleMotors are designed for continuous (S1) Duty. Other type of duty (S2 to S9) can be offered on request. The motors can safely withstand 3 consecutive starts from cold condition & 2 consecutive starts from hot conditions. In applications where more severe starting conditions are encountered, a special enquiry should be made e.g.
• Drives with high inertia e.g flywheel drives, eccentric presses, large fans etc.
• Drives involving intermittent duty of motors with frequent starts e.g. rolling mills, centrifuges and conveyor motors, etc.
The enquiry should be accompanied with following information.
2• GD and relevant speed of driven equipment
• Duty cycle/sequence of operation/no. starts/hours
• Speed-Torque diagram of driven equipment
• Method of braking (Electrical or Mechanical)
Insulation and EnduranceThe Motors are provided with class F insulation scheme with temperature rise limited to class B. These motors can be used
0either at ambient temperature of 55 C or overloaded continuously by 10% (service factor = 1.1). The temperature rise will be still within limits of class F.
The slot insulation consists of Nomex-polyster-Nomex (NPN). All insulation materials used are adequately resistant to the action of microbes and fungi.
Winding & Insulation for Inverter Duty Motors• The stators are wound with polysteremide coated with polyamide-imide top coat, (dual coated) wires as per IS 13730 : part 13, grade -II thermal class 200 copper wires.
• Vacuum Pressure Impregnation (VPI) is provided to windings.
Depending on the voltage wave rise time (dv/dt) and the
maximum peak to peak voltage at the motor terminals, suitable insulation schemes are provided.
On customer's demand, insulated bearings are offered from frame size 132 and onwards on the NDE side of the motor.
OptionsMotors with class 'H' insulation can be offered on request.
Thermal Protection (For Winding & Bearing)PTC Thermisters / thermostats. RTD etc. can be embedded in stator winding on request. In case of frame sizes 250M & above Bearing Temperature Detectors (BTD) can be supplied on request.
Earthing Terminals Two earthing terminals are provided on the body and one terminal is provided in the terminal box.
Anti-condensation MethodIn order to avoid condensation of water inside the motors, they can be heated up by connecting a voltage 4 to 10% of rated voltage to the motor terminals. Adequate heating is obtained with current equal to 20-25% of rated motor current. Alternatively any of the methods indicated in IS : 900 for heating stator winding could be adopted.
Motors can also be offered with built in space heaters in frame size 90 and above.
MECHANICAL FEATURES Enclosures: ( Material & Terminal box location)Motors are offered with following enclosure
Frame Size Enclosure
Materials Standards Option Available
63-80 Aluminum TOP ----
90S-112M Aluminum TOP ----
Cast Iron RHS TOP & LHS
132S & 132M Aluminum TOP -
132S-225M Cast Iron RHS TOP & LHS
250M-355L Cast Iron TOP RHS & LHS
Terminals Box Location
Degree Protection All motors have IP55 degree of protection as per IS/IEC 60034-5. Higher degree of protection such as IP56, IP66 can be provided on request. All flanged motors are additionally provided with oil tight shaft protection on driving end side.
Table 2
Cooling Type Cooling Code
TEFC IC 411 Standard
TENV IC 410 On Demand
FORCED COOLED IC 416 On Demand
All foot mounted motors are with integral feet construction. All motors up to 280 frame are with integral bearing covers and motors in frame 315 and above are with separate bearing covers.
CoolingAll motors are totally enclosed Fan Cooled (TEFC) The cooling is effected by self driven, bi-directional centrifugal fan protected by fan cover. The Type of cooling is as per IS 6362 / IEC 60034-6. Forced cooing arrangement can be provided for frame 132S and above.
Altitude Permissibleabove output as %
sea level m of rated value
1000 1001500 97
2000 942500 903000 863500 82
4000 77
PermissibleAmb.
output as %Temp. °C
of rated value
<30 107
30-45 103
50 100
55 96
60 92
Bearing & Terminals Box Details
Note: L10 bearing life is 50,000 hours for directly coupled loads
through flexible couplings only
Roller Bearing and Insulated Bearing Alternatively motors with insulated bearing on NDE side can be offered from frame size 132S & above on request at extra price.
Motors can also be offered with cylindrical roller bearing (NU) on DE side for frame sizes 132S and above at extra price.
GreaseSealed for life bearing (2Z) are filled with grease Unirex N3-of ESSO. Others are filled with LGMT3 of SKF make. Special high temperature grease can be provided on request.
On line Re-Greasing On line re-greasing arrangement is provided in frame sizes 225S and above. For frame size 180M, 180L and 200L it can be provided on request.
RotorEntire range of motors is fitted with dynamically balanced aluminum pressure die cast squirrel cage rotors.
ShaftAll motors are provided with single shaft extension in accordance with IS : 1231. The Shaft material is C40 (EN8) Steel. However any special shaft extension and / or special shaft material e.g. EN24 or stainless steel grades are also provided on request.
Balancing & Vibration Rotors are dynamically balanced with a half key in the shaft extension. Vibration grade is 'reduced grade' conforming to IS: 12075. Other grades as per IS 12075 or IEC 60034-14 can be provided on request.
Noise LevelMotors are designed for noise level well below the limits specified in IS: 12065
Paint All motors are painted with acrylic paint in Blue colour, RAL shade No. 5000. Motors used in corrosive atmosphere are painted with Epoxy base paint. Any other shade or material (e.g. polyurethane paint) can be offered on request.
PackingMotors up to 132M frame are packed in thermacol / corrugated boxes. Wooden packing boxes are provided for higher frame size. Export worthy packing is also available on request.
Frame Size
Bearing nos. C3 Clearance
Terminals Box Type / Location
Terminals No. & size of cable
entries
Max. Cond. Cross Sec. area mm
DE NDE No.
Size
63 6201 2Z 6201 2Z
gk030/
Top
6
M4
1×3/4“
4
71 6202 2Z 6202 2Z
80 6004 2Z 6004 2Z
90S,90L 6205 2Z 6205 2Z gk130/Top
6 6
100L 6206 2Z 6205 2Z gk230/
Top
6
2×1’’
10
112M 6206 2Z 6205 2Z
132S,132M 6208 2Z 6208 2Z gk330/Top
gk330/RHS
6 M5
160M,160L 6309 2Z 6209 2Z 16
180M,180L 6310 2Z 6210 2ZgK430/
RHS
6 M6
2×
1-1/2’’
50
200L 6312
6212 TB 225/RHS
6
M8
2 × 2’’
70
225S, 225 6313
6213
250M 6315
6215TB280/
Top6
M10
150280S/M
2P 6316
6316
4, 6& 8P
6317 6316
315 S/M
6319 6319TB315/
Top6
M122 × 2’’
240
315L2 ×
2 1/2’’
355L 6322 6322 TB355/Top 6 M16 2 × 3’’ 300
6319 6319
Bharat Bijlee IE2 motors suitable to run with VFDs Bharat Bijlee offers the entire range of motors suitable to run with VFDs.
Motors are suitable for :• Constant torque application like crane, hoist, reciprocating compressor etc.
• Variable torque application like centrifugal pump, fan, blowers etc.
• Constant power application like metal cutting lathes, wire winding machines etc. and are custom built to suit customer's requirements.
Motors for constant torque application suitable for speed range of 1:10, 1:5, 1:2 etc can be provided. Depending on the speed range, motors can be offered with forced cooling (IC416) or in higher frame sizes 132S and above. Please
check with our sales office, for motors to be operated above
1.5 times the synchronous speed.
PWM, IGBT devices operate at very high frequencies (2 kHz to 15 kHz) and have very short rises times leading to high dv/dt.
Longer cable lengths also contribute to higher voltages at the motors terminals due to standing wave phenomenon. These stress the insulation of the motors. Bharat Bijlee motors are provided with special impregnation system /vacuum pressure impregnation and dual coated winding wire to take care of these stresses. This insulation conforms to the requirements given in IEC 60034-18-41. For voltage higher than 500 V, refer to our sales office.
All the motors are provided with six terminals in the terminal box. Shaft induced voltage occurs due to the use of VFD. This causes flow of currents through bearing which can lead to premature bearing failure. Insulated bearings can be provided in frames from 132S onwards on request.
In closed loop system operations, speed feedback is obtained through encoder mounted on the shaft of the motors. We provide encoder mounting arrangements on Non Drive End side shaft of the motors on request.
For further details and technical offer, please refer to our Sales office in your area.
Payback Calculations: Effect of additional stray load losses for efficiency determination as per IS 12615-2011The new standard follows IS 15999 / IEC 60034-2-1 for arriving at the stray load losses. These losses can vary from 2.5% in small motors to 0.5% in higher ratings up to 1MW. The earlier standard IS 12615-2004 used for eff1 motors assumed stray losses as 0.5% of output. Hence the efficiency values tested by the earlier standard would be 0.5% to 1.5% higher than the new standard for the same motor.
Example is as given below
Rating 4 Pole
11kW
55kW
Eff1 specified inIS 12615-2004 (%)
91.0
94.2
IE2 specified inIS 12615-2011 (%)
89.8
93.5
Reduction in efficiency from eff1Due to additional stray losses (%)
1.2
0.7
When comparing eff1 motor & IE2 motor, it is necessary to note the difference in testing methods. The standard has reduced the efficiency value to take care of this. At first glance a customer would feel that an IE2 motor is inferior to an Eff1 motor though both might be identical.
Hence for any comparison, it is necessary to use the same method of loss calculation. The worked out example shown below gives the energy savings per year (for 8000 hours running) of a Bharat Bijlee IE2 motor (normalized for 0.5% stray loss) over a Bharat Bijlee standard IS 325 motor
Rating kW
BBL IS325 Catalogue
(eff%)
IE2 Catalogue
(eff%)
Input Power( kW)
Additional Stray losses
(kW)
Nomalized IE2 Eff with 0.5% Stray
losses assumed
IS 325 losses (kW)
IE2 losses (kW)
Saving (kW)
Saving in kW/Year
@8000 Hrs running
11
55
89.0
93.8
89.8
93.5
12.249
58.824
0.187(0.2424-0.0550)
0.684 (0.959-0.275)
91.2
94.6
1.360
3.636
1.062
3.140
0.298
0.496
2380
3968
Tab
le s
ho
wn
be
low
giv
es
the
en
erg
y sa
vin
gs p
er
year
(fo
r 8
000
ho
urs
ru
nn
ing)
of
a B
har
at B
ijle
e IE
2 m
oto
r (n
orm
aliz
ed
fo
r 0
.5%
str
ay lo
ss)
ove
r a
Bh
arat
Bij
lee
sta
nd
ard
IS 3
25
mo
tor
Rat
ing
kW
BB
L IS
325
C
atal
ogu
e (E
ff%
)
IE2
C
atal
ogu
e (E
ff%
)
No
rmal
ized
IE
2 E
ff w
ith
0
.5%
Str
ay
loss
es
Savi
ng
in
kW/Y
ear
@8
000
Hrs
ru
nn
ing
BB
L IS
32
5
Cat
alo
gue
(Eff
%)
IE2
C
atal
ogu
e (E
ff%
)
0.3
77
17
2.2
73
.81
57
71
70
.10
.55
74
74
.87
6.4
18
87
47
5.1
0.7
57
77
7.4
79
.02
01
77
79
.61
.17
97
9.6
81
.23
03
78
81
.4
1.5
80
.68
1.3
82
.94
12
80
82
.82
.28
2.5
83
.28
4.8
57
08
28
4.3
3.7
85
85
.58
7.0
80
58
58
6.3
5.5
86
87
88
.51
42
68
68
7.7
7.5
87
88
.18
9.5
19
44
87
88
.79
.38
88
8.8
90
.22
05
68
88
9.3
11
89
89
.49
0.8
19
27
89
89
.8
15
89
.59
0.3
91
.63
10
19
0.2
90
.61
8.5
90
.59
0.9
92
.22
98
99
1.2
91
.22
29
1.5
91
.39
2.6
21
90
91
.89
1.6
30
92
.69
29
3.2
16
55
92
92
.3
37
93
92
.59
3.7
22
43
93
92
.74
59
3.5
92
.99
4.0
21
43
93
.29
3.1
55
93
.39
3.2
94
.34
92
39
3.8
93
.57
59
49
3.8
94
.85
54
99
4.2
94
90
94
94
.19
5.1
87
56
94
.79
4.2
2 P
ole
4 P
ole
No
rmal
ized
IE
2 E
ff w
ith
0
.5%
Str
ay
loss
es
Savi
ng
in
kWh
/Yea
r @
800
0 H
rs
run
nin
g
BB
L IS
325
C
atal
ogu
e (E
ff%
)
IE2
C
atal
ogu
e (E
ff%
)
No
rmal
ized
IE
2 E
ff w
ith
0
.5%
Str
ay
loss
es
Savi
ng
in
kWh
/Yea
r @
800
0 H
rs
run
nin
g
71
.63
76
86
97
0.0
12
27
6.7
21
26
97
2.9
74
.04
29
81
.34
13
73
75
.97
7.1
43
48
3.1
69
57
67
8.1
79
.85
50
84
.57
97
77
79
.88
1.4
85
08
5.9
98
48
08
1.8
83
.48
95
87
.91
13
78
58
4.3
85
.83
34
89
.21
84
08
58
68
7.5
14
62
90
.22
41
78
88
7.2
88
.64
73
90
.72
53
88
88
88
9.4
13
07
91
.22
38
08
8.5
88
.79
0.1
17
26
91
.92
52
09
08
9.7
91
.01
48
99
2.5
22
89
91
90
.49
1.7
12
06
92
.92
21
59
1.2
90
.99
2.1
19
89
93
.54
22
89
1.8
91
.79
2.9
30
80
93
.92
96
99
2.5
92
.29
3.4
29
40
94
.24
25
69
3.5
92
.79
3.8
13
20
94
.63
96
89
3.5
93
.19
4.2
34
23
95
.05
61
89
5.2
40
04
6 P
ole
Ener
gy S
avin
g C
alcu
lati
on
s:
Perf
orm
ance
Tab
le F
or
2-
Pole
Mo
tors
TEF
C 3
Ph
ase
Sq
uir
rel C
age
Ind
uct
ion
Mo
tors
- F
ram
e si
ze 7
1 to
35
5LV
olt
age
:
41
5V
+/-1
0%
Am
bie
nt:
: 5
0 O
CIn
s. C
lass
:
F
Freq
uen
cy
:
50
Hz+
/-5
%
D
uty
: S1
(Co
nti
nu
ou
s)Te
mp
. Ris
e :
B
Co
mb
ined
Var
iati
on
: +/
-10
% P
rote
ctio
n
: IP
55
3
00
0 r
pm
( 2
-Po
le)
R
ate
d O
utp
ut
Fram
eTy
pe
Op
erat
ing
Ch
arac
teri
stic
s at
Rat
ed o
utp
ut
Wit
h D
OL
Star
tin
g
size
Re
f.R
ated
Spee
d
Cu
rre
nt
Rat
ed
Pow
er
Fac
tor
% E
ffic
ien
cy
Star
tin
g St
arti
ng
Pu
llou
tR
oto
rN
et
Torq
ue
Cu
rre
nt
Torq
ue
Torq
ue
GD
²W
eigh
t
to R
ate
dto
Rat
ed
to R
ate
dB
3
KW
HP
IEC
B
3R
PM
Am
ps.
Kg.
mFL
3/4
L1
/2L
FL3
/4L
1/2
LC
urr
en
tTo
rqu
eTo
rqu
eC
on
stn
.
Co
nst
ruct
ion
Rat
ioR
atio
Rat
iokg
m²
Kg
0.3
70
.50
71
2H
07
12
A3
28
00
0.9
60
.13
00
.74
0.6
80
.60
72
.27
2.2
66
.05
.02
.63
.00
.00
19
7
0.5
50
.75
71
2H
07
12
33
28
05
1.2
90
.19
00
.79
0.7
20
.58
74
.87
4.0
70
.05
.02
.73
.00
.00
19
7
0.7
51
.08
02
H0
80
21
32
83
01
.64
0.2
56
0.8
20
.74
0.6
27
7.4
76
.57
3.5
5.0
2.5
2.8
0.0
03
71
0
1.1
1.5
80
2H
08
02
33
28
30
2.3
40
.38
00
.82
0.7
50
.63
79
.67
9.6
75
.56
.02
.73
.00
.00
51
11
1.5
2.0
90
S2
H0
9S2
43
28
40
3.1
30
.51
40
.82
0.7
80
.68
81
.38
1.3
78
.06
.53
.33
.00
.00
91
17
2.2
3.0
90
L2
H0
9L2
73
28
40
4.4
90
.75
50
.82
0.7
80
.68
83
.28
3.2
81
.76
.53
.33
.00
.01
13
20
3.7
5.0
10
0L
2H
10
L23
32
89
07
.00
1.2
40
.86
0.8
40
.76
85
.58
5.5
83
.57
.03
.03
.00
.02
12
26
5.5
7.5
13
2S
2H
13
S2G
32
93
09
.91
.83
0.8
90
.85
0.7
78
7.0
86
.08
2.0
7.0
2.5
3.0
0.0
82
05
1
7.5
10
.01
32
S2
H1
3S2
N3
29
30
13
.32
.49
0.8
90
.85
0.7
78
8.1
87
.08
3.0
7.0
2.5
3.0
0.0
98
05
7
9.3
12
.51
60
M2
H1
6M
23
32
93
01
6.4
3.0
90
.89
0.8
60
.82
88
.88
8.6
84
.57
.02
.32
.80
.15
00
10
5
11
15
.01
60
M2
H1
6M
25
32
93
01
9.2
3.6
60
.89
0.8
60
.82
89
.48
9.4
86
.57
.02
.33
.00
.17
11
12
15
20
.01
60
M2
H1
6M
26
32
93
02
6.0
4.9
90
.89
0.8
80
.82
90
.39
0.2
87
.07
.02
.32
.80
.20
31
20
18
.52
5.0
16
0L
2H
16
L29
32
93
03
1.5
6.1
50
.90
0.8
90
.86
90
.99
0.7
88
.87
.02
.43
.00
.26
81
37
22
30
.01
80
M2
H1
8M
23
32
93
53
7.7
7.3
00
.89
0.8
70
.83
91
.39
1.0
88
.87
.02
.42
.70
.34
11
7
30
40
.02
00
L2
H2
0L2
A3
29
50
51
.09
.89
0.8
90
.86
0.8
09
2.0
92
.08
9.5
7.0
2.5
2.6
0.6
12
74
37
50
.02
00
L2
H2
0L2
53
29
50
62
.51
2.2
0.8
90
.86
0.8
09
2.5
92
.09
0.0
7.0
2.4
2.5
0.6
12
74
45
60
.02
25
M2
H2
2M
25
32
96
57
6.6
14
.80
.88
0.8
50
.78
92
.99
2.7
91
.07
.02
.52
.51
.13
35
3
55
75
.02
50
M2
H2
5M
23
32
96
58
9.2
18
.10
.92
0.9
10
.86
93
.29
2.7
90
.07
.02
.32
.72
.60
55
0
75
10
02
80
S2
H2
8S2
33
29
70
12
42
4.6
0.9
00
.88
0.8
39
3.8
93
.69
2.0
7.0
2.2
2.8
3.0
16
69
90
12
02
80
M2
H2
8M
25
32
97
01
46
29
.50
.91
0.8
90
.87
94
.19
3.9
90
.97
.02
.22
.83
.42
75
0
11
01
50
31
5S
2H
31
S23
32
98
21
80
35
.90
.90
0.8
60
.78
94
.39
4.1
91
.57
.02
.02
.55
.08
98
12
51
70
31
5M
2H
31
M2
A3
29
82
20
74
0.8
0.8
90
.85
0.7
69
4.5
93
.59
1.5
7.0
2.2
2.6
5.0
94
0
13
21
80
31
5M
2H
31
M2
33
29
82
21
64
3.1
0.9
00
.86
0.7
89
4.6
93
.69
1.3
7.0
2.0
2.5
5.0
94
0
15
02
00
31
5L
2H
31
L2A
32
98
22
48
49
.00
.89
0.8
40
.76
94
.79
3.7
92
.27
.02
.02
.56
.21
10
0
16
02
15
31
5L
2H
31
L25
32
98
22
61
52
.30
.90
0.8
50
.77
94
.89
4.1
93
.07
.02
.02
.56
.21
10
0
18
02
40
31
5L
2H
31
L2B
32
98
23
00
58
.80
0.8
80
.82
0.7
59
4.9
94
.19
3.0
7.0
2.0
2.5
7.7
13
90
*20
02
70
31
5L
2H
31
L27
32
98
23
25
65
.30
0.9
00
.85
0.7
79
59
4.5
93
.37
.02
.02
.57
.71
39
0
*25
03
35
35
5L
2H
35
L21
32
98
54
07
81
.60
0.9
00
.88
0.8
49
5.0
94
.59
2.8
7.0
1.6
2.4
12
.01
68
0
*31
54
25
35
5L
2H
35
L23
32
98
55
13
10
2.8
00
.90
0.8
80
.84
95
94
.59
3.0
7.0
1.6
2.4
14
.71
87
0
IE2
Note
:A
ll perf
orm
ance
valu
es
are
subje
ct t
o t
ole
rance
as
per
IS/I
EC
60
03
4-1
Effic
iency
measu
rem
ents
are
with
out
seals
.0
*- T
hese
ratin
gs
are
suita
ble
for
am
bie
nt
tem
pera
ture
45
C
Perf
orm
ance
Tab
le F
or
4-
Pole
Mo
tors
TEF
C 3
Ph
ase
Sq
uir
rel C
age
Ind
uct
ion
Mo
tors
- F
ram
e si
ze 7
1 to
35
5LV
olt
age
:
41
5V
+/-1
0%
Am
bie
nt:
: 5
0 O
CIn
s. C
lass
:
F
Freq
uen
cy
:
50
Hz+
/-5
%
D
uty
: S1
(Co
nti
nu
ou
s)Te
mp
. Ris
e :
B
Co
mb
ined
Var
iati
on
: +/
-10
% P
rote
ctio
n
: IP
55
1
50
0 r
pm
( 4
-Po
le)
R
ate
d O
utp
ut
Fram
eTy
pe
Op
erat
ing
Ch
arac
teri
stic
s at
Rat
ed o
utp
ut
Wit
h D
OL
Star
tin
g
size
Re
f.R
ated
Sp
eed
Cu
rre
nt
Rat
ed
Pow
er
Fac
tor
% E
ffic
ien
cy
Star
tin
g St
arti
ng
Pu
llou
tR
oto
rN
et
Torq
ue
Cu
rre
nt
Torq
ue
Torq
ue
GD
²W
eigh
t
to R
ate
dto
Rat
ed
to R
ate
dB
3
KW
HP
IEC
B
3R
PM
Am
ps.
Kg.
mFL
3/4
L1
/2L
FL3
/4L
1/2
LC
urr
en
tTo
rqu
eTo
rqu
eC
on
stn
.
Co
nst
ruct
ion
Rat
ioR
atio
Rat
iokg
m²
Kg
0.3
70
.50
71
2H
07
14
33
13
80
1.0
30
.26
0.7
10
.62
0.5
07
0.1
70
.16
5.0
3.4
2.3
2.5
0.0
03
37
0.5
50
.75
80
2H
08
04
33
14
20
1.3
80
.37
70
.74
0.6
40
.50
75
.17
5.1
68
.05
.02
.83
.00
.00
72
11
0.7
51
.08
02
H0
80
45
31
41
01
.75
0.5
18
0.7
50
.66
0.5
37
9.6
79
.67
4.0
5.0
2.8
3.0
0.0
08
21
2
1.1
1.5
90
S2
H0
9S4
23
14
30
2.4
40
.75
0.7
70
.70
0.5
78
1.4
81
.47
7.5
6.0
2.4
2.8
0.0
15
15
1.5
2.0
90
L2
H0
9L4
73
14
30
3.2
71
.02
0.7
70
.70
0.5
78
2.8
82
.87
8.8
6.0
2.7
3.0
0.0
19
19
2.2
3.0
10
0L
2H
10
L47
31
43
54
.48
1.4
90
.81
0.7
30
.59
84
.38
4.3
81
.56
.02
.63
.00
.02
82
6
3.7
5.0
11
2M
2H
11
M4
73
14
45
7.2
72
.49
0.8
20
.78
0.6
38
6.3
86
.38
3.8
6.5
2.7
3.0
0.0
66
36
5.5
7.5
13
2S
2H
13
S4K
31
45
51
0.2
3.6
80
.85
0.8
00
.70
87
.78
7.4
86
.07
.02
.63
.00
.12
65
0
7.5
10
13
2M
2H
13
M4
T31
45
51
3.8
5.0
20
.86
0.8
30
.76
88
.78
8.4
86
.87
.02
.63
.20
.16
35
6
9.3
12
.51
60
M2
H1
6M
4C
31
46
01
7.2
6.2
00
.84
0.8
20
.73
89
.38
9.3
86
.57
.02
.52
.80
.17
71
05
11
15
.01
60
M2
H1
6M
4K
31
46
02
0.0
7.3
40
.85
0.8
20
.76
89
.88
9.8
87
.57
.02
.72
.90
.22
91
15
15
20
.01
60
L2
H1
6L4
T31
46
52
7.1
9.9
70
.85
0.8
00
.70
90
.69
0.6
89
.47
.02
.42
.70
.30
01
28
18
.52
5.0
18
0M
2H
18
M4
73
14
70
33
.21
2.2
50
.85
0.8
20
.76
91
.29
1.2
89
.57
.02
.72
.90
.54
01
88
22
30
18
0L
2H
18
L48
31
47
03
9.3
14
.60
0.8
50
.80
0.7
29
1.6
91
.68
9.8
7.0
2.6
3.0
0.6
12
00
30
40
20
0L
2H
20
L45
31
47
05
2.6
19
.88
0.8
60
.82
0.7
89
2.3
92
.09
0.0
7.0
2.6
2.6
0.9
32
75
37
50
22
5S
2H
22
S43
31
47
06
3.8
24
.50
0.8
70
.85
0.7
79
2.7
92
.59
0.5
7.0
2.6
2.6
1.6
03
62
45
60
22
5M
2H
22
M4
53
14
70
77
.32
9.8
20
.87
0.8
50
.77
93
.19
2.8
90
.87
.02
.62
.61
.85
37
7
55
75
25
0M
2H
25
M4
33
14
80
95
.23
6.2
00
.86
0.8
40
.76
93
.59
3.0
91
.07
.02
.52
.63
.06
50
0
75
10
02
80
S2
H2
8S4
23
14
80
12
64
9.4
00
.88
0.8
60
.80
94
.09
3.5
92
.07
.02
.22
.55
.53
67
0
90
12
02
80
M2
H2
8M
45
31
48
01
51
59
.20
0.8
80
.86
0.8
09
4.2
94
.09
2.0
7.0
2.2
2.5
6.3
67
35
11
01
50
31
5S
2H
31
S41
31
48
51
88
72
.10
0.8
60
.83
0.7
79
4.5
94
.39
2.3
7.0
2.1
2.5
8.7
09
02
12
51
70
31
5M
2H
31
M4
A3
14
86
21
48
1.9
00
.86
0.8
30
.77
94
.69
4.3
92
.77
.02
.22
.51
0.2
01
01
0
13
21
80
31
5M
2H
31
M4
33
14
86
22
38
6.5
00
.87
0.8
50
.78
94
.79
4.5
93
.07
.02
.12
.51
0.2
01
01
0
15
02
00
31
5L
2H
31
L4A
31
48
72
56
98
.30
0.8
60
.83
0.7
79
4.7
94
.49
2.8
7.0
2.2
2.5
12
.20
11
85
16
02
15
31
5L
2H
31
L45
31
48
62
70
10
4.8
0.8
70
.86
0.7
89
4.9
94
.69
3.1
7.0
2.1
2.5
12
.20
11
85
18
02
40
31
5L
2H
31
L46
31
48
73
03
11
7.9
0.8
70
.86
0.7
89
5.0
94
.79
3.2
7.0
2.1
2.5
13
.40
12
62
*20
02
70
31
5L
2H
31
L47
31
48
73
36
13
1.0
0.8
70
.86
0.7
89
5.1
94
.89
3.3
7.0
2.2
2.5
14
.60
13
05
*25
03
35
35
5L
2H
35
L41
31
48
84
16
16
3.6
0.8
80
.85
0.7
59
5.1
94
.99
3.5
7.0
2.2
2.5
23
.30
16
80
*31
54
22
35
5L
2H
35
L43
31
48
85
24
20
6.2
0.8
80
.85
0.7
59
5.1
94
.89
3.5
7.0
2.2
2.5
32
.70
18
55
**3
55
47
53
55
L2
H3
5L4
53
14
88
59
02
32
.40
.88
0.8
50
.75
95
.19
4.9
93
.57
.02
.22
.53
7.9
02
02
5
IE2
Note
:A
ll perf
orm
ance
valu
es
are
subje
ct t
o t
ole
rance
as
per
IS/I
EC
60
03
4-1
Effic
iency
measu
rem
ents
are
with
out
seals
.0
*- T
hese
ratin
gs
are
suita
ble
for
am
bie
nt
tem
pera
ture
45
C 0**
- T
hese
ratin
gs
are
suita
ble
for
am
bie
nt
tem
pera
ture
40
C
Perf
orm
ance
Tab
le F
or
6-
Pole
Mo
tors
TEF
C 3
Ph
ase
Sq
uir
rel C
age
Ind
uct
ion
Mo
tors
- F
ram
e si
ze 8
0 to
35
5LV
olt
age
:
41
5V
+/-1
0%
Am
bie
nt:
: 5
0 O
CIn
s. C
lass
:
F
Freq
uen
cy
:
50
Hz+
/-5
%
D
uty
: S1
(Co
nti
nu
ou
s)Te
mp
. Ris
e :
B
Co
mb
ined
Var
iati
on
: +/
-10
% P
rote
ctio
n
: IP
55
1
00
0 r
pm
( 6
-Po
le)
R
ate
d O
utp
ut
Fram
eTy
pe
Op
erat
ing
Ch
arac
teri
stic
s at
Rat
ed o
utp
ut
Wit
h D
OL
Star
tin
g
size
Re
f.R
ated
Sp
eed
Cu
rre
nt
Rat
ed
Pow
er
Fac
tor
% E
ffic
ien
cy
Star
tin
g St
arti
ng
Pu
llou
tR
oto
rN
et
Torq
ue
Cu
rre
nt
Torq
ue
Torq
ue
GD
²W
eigh
t
to R
ate
dto
Rat
ed
to R
ate
dB
3
KW
HP
IEC
B
3R
PM
Am
ps.
Kg.
mFL
3/4
L1
/2L
FL3
/4L
1/2
LC
urr
en
tTo
rqu
eTo
rqu
eC
on
stn
.
Co
nst
ruct
ion
Rat
ioR
atio
Rat
iokg
m²
Kg
0.3
70
.58
02
H0
80
61
39
10
1.0
70
.39
60
.70
0.6
00
.48
69
.06
9.0
67
.03
.02
.12
.30
.00
60
10
0.5
50
.75
80
2H
08
06
33
91
51
.48
0.5
90
.71
0.6
20
.48
72
.97
2.9
68
.54
.02
.22
.50
.00
84
11
0.7
51
.09
0S
2H
09
S63
39
25
1.9
10
.79
0.7
20
.61
0.5
07
5.9
75
.97
2.3
4.0
2.0
2.5
0.0
12
21
4
1.1
1.5
90
L2
H0
9L6
53
93
02
.72
1.1
50
.72
0.6
10
.50
78
.17
8.1
74
.04
.02
.02
.60
.01
60
17
1.5
2.0
10
0L
2H
10
L63
39
35
3.6
31
.56
0.7
20
.60
0.5
27
9.8
79
.67
5.0
4.5
2.0
2.5
0.0
25
02
2
2.2
3.0
11
2M
2H
11
M6
53
94
04
.99
2.2
80
.75
0.6
50
.58
81
.88
1.8
79
.85
.02
.12
.50
.06
53
3
3.7
5.0
13
2S
2H
13
S6G
39
60
8.0
03
.75
0.7
60
.65
0.5
78
4.3
83
.08
1.5
5.5
2.0
2.5
0.1
30
48
5.5
7.5
13
2M
2H
13
M6
T39
60
11
.45
.58
0.7
80
.68
0.6
08
6.0
84
.58
2.0
6.0
2.5
2.5
00
.19
35
5
7.5
10
16
0M
2H
16
M6
33
96
01
5.0
7.6
10
.80
0.7
40
.64
87
.28
7.2
85
.25
.52
.02
.50
.27
61
03
9.3
12
.51
60
L2
H1
6L6
63
96
01
8.4
9.4
40
.80
0.7
40
.64
88
.08
8.0
86
.75
.52
.12
.50
.34
11
3
11
15
16
0L
2H
16
L67
39
65
21
.61
1.1
0.8
00
.77
0.6
68
8.7
88
.78
7.0
6.0
2.0
2.5
0.4
01
23
15
20
18
0L
2H
18
L63
39
65
29
.11
5.1
0.8
00
.75
0.6
28
9.7
89
.78
7.2
5.5
2.6
2.3
0.8
22
00
18
.52
52
00
L2
H2
0L6
33
97
53
4.7
18
.50
.82
0.7
70
.69
90
.49
0.4
88
.35
.52
.62
.31
.20
25
4
22
30
20
0L
2H
20
L65
39
75
41
.12
2.0
0.8
20
.77
0.6
99
0.9
90
.98
8.8
6.0
2.6
2.3
1.3
72
70
30
40
22
5M
2H
22
M6
43
97
55
2.9
30
.00
.86
0.8
40
.76
91
.79
1.2
88
.77
.02
.52
.22
.41
35
8
37
50
25
0M
2H
25
M6
33
98
06
3.4
36
.80
.88
0.8
50
.82
92
.29
2.2
91
.06
.02
.52
.33
.72
52
8
45
60
28
0S
2H
28
S61
39
80
81
.44
4.7
0.8
30
.80
0.7
09
2.7
92
.79
1.2
6.0
2.5
2.4
5.1
15
73
55
75
28
0M
2H
28
M6
33
98
09
6.7
54
.70
.85
0.8
30
.73
93
.19
3.1
91
.06
.02
.42
.46
.16
62
0
75
10
03
15
S2
H3
1S6
13
98
51
31
74
.10
.85
0.8
20
.75
93
.79
3.7
92
.56
.02
.42
.51
0.7
83
0
90
12
03
15
M2
H3
1M
63
39
87
15
98
8.8
0.8
40
.81
0.7
29
4.0
93
.99
2.5
6.0
2.3
2.5
12
.49
12
11
01
50
31
5M
2H
31
M6
53
98
81
91
10
8.4
0.8
50
.82
0.7
39
4.3
94
.39
3.3
6.0
2.3
2.5
15
.51
01
0
12
51
70
31
5L
2H
31
L6A
39
88
21
91
23
.20
.84
0.8
00
.71
94
.49
4.4
93
.06
.02
.32
.51
8.0
11
75
13
21
80
31
5L
2H
31
L67
39
88
22
81
30
.00
.85
0.8
20
.73
94
.69
4.3
92
.86
.02
.32
.51
8.0
11
75
15
02
00
31
5L
2H
31
L6B
39
88
26
51
47
.80
.83
0.8
00
.70
94
.79
4.4
92
.86
.02
.32
.52
1.5
12
31
16
02
15
31
5L
2H
31
L69
39
88
27
61
58
.00
.85
0.8
20
.73
94
.89
4.6
93
.06
.02
.32
.52
1.5
12
31
18
02
40
35
5L
2H
35
L6A
39
90
32
21
77
.00
.82
0.7
70
.65
94
.99
4.6
93
.36
.02
.02
.52
8.7
16
70
20
02
70
35
5L
2H
35
L61
39
90
34
91
96
.70
.84
0.8
00
.79
5.0
94
.79
3.5
6.0
2.0
2.5
28
.71
67
0
25
03
35
35
5L
2H
35
L63
39
90
43
62
46
0.8
40
.80
0.7
95
.09
4.7
93
.46
.02
.02
.53
5.5
17
80
eff1
IE2
Note
:A
ll perf
orm
ance
valu
es
are
subje
ct t
o t
ole
rance
as
per
IS/I
EC
60
03
4-1
Effic
iency
measu
rem
ents
are
with
out
seals
.
Special Design Features Offered
Electrical
Non standard Voltage 42 TO 700V
Non standard Frequency 50/ 60 Hz with efficiency class as per IEC 60034-30
Motor for wide variation* Voltage variation >10%
Frequency Variation >5%
Motors with higher ambient temperatures
>50 °C
Polarities higher than 8 pole
10pole, 12pole etc
Dual Voltage motors In ratio 1:v3. 1:2
Multi Speed motors 2 / 3 speeds Class H Insulation Scheme Motors with Thermal protection
PTC Thermisters, Thermostat, RTD, BTD etc.
Space heaters 90 Frame onwards Motors with starting current Limitations
e.g. <600% inclusive of tolerance
Motors with intermittent duties Motors with flying leads
* motor performance may vary from the catalogue performance.
Please ask for data sheet for non standard motor.
Product Range
Motor used in Hazardous Area •Flame proof motors-Ex’d’ ( IS/IEC:60079-1)
Frame 80 to 315L (MD)
• Increased Safety –Ex’e’ (IS/IEC 60079-7)
Frame 63 to 355L (ME)
• Non sparking-Ex’n’ (IS/IEC 60079-15)
Frame 63 to 355L (MN)
Brake Motors Frame 71 to 132L (MB)
Slip ring Motors Frame 100 to 160L (MP)
Roller table motors As per Requirement Crane Duty Motors Frame 63 to 355L (MC) Railway motors (Auxiliary drives)
Frame 180M TO 225M
Cane unloader motors Frame 160L TO 225M Marine duty motors Frame 63 to 355L
Mechanical
Special Mounting Non Standard mounting
dimensions
Cable entries Metric equivalent
Non Standards shaft materials
e.g. EN 24
Non Standards shaft extension dimension
Non standards cable entries Cable spreader box 180 Frame onwards
Motors with cable glands Single/Double compression
Motors with separate T.Box for space heater,thermister
200L frame and above
Low vibration motors Reduced or special class as per IS : 12075 or vibration
grade B as per IEC 60037-14
Non standards paint type Paint shade e.g. Shade no. 632 RAL
7030 etc
Forced cooling arrangement (IC416)
(132 frame onwards)
Surface cooled motors ( IC410) Motors for brake fitment Motors with clean flow cowl arrangement Motors with C.I Fan up to 225 Frame 56 Frame motors in B5 AND B14 Mounting construction
ED
1012
Continuous process of product development/updation entitles us to change the specification in this booklet without prior notice. For latest information, please contact our Sales Office
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JAIPUR
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REGISTERED OFFICE
DELHI