3.3.5 Balance
The FCM 106 is balanced to class R according to ISO 8821
(reduced balance). For critical applications, especially at
high speed (>4000 RPM), special balance (class S) may be
required.
3.3.6 Output Shafts
Output shafts are manufactured from 35/40 Ton (460/540
MN/m
2
) tensile steel. Drive end shafts are provided with a
tapped hole to DIN 332 Form D and a closed profile
keyway as standard.
3.3.7 FCM 106 Inertia
Inertia J
FCM 106
1)
Asynchronous motor
PM motor
[kW]
3000 RPM
1500 RPM
3000 RPM
1500 RPM
0.55
–
–
–
0.00047
0.75
0.0007
0.0025
0.00047
0.0007
1.1
0.00089
0.00373
0.00047
0.00091
1.5
0.00156
0.00373
0.0007
0.0011
2.2
0.0018
0.00558
0.00091
0.00082
3.0
0.00405
0.00703
0.00082
0.00104
4.0
0.00648
0.0133
0.00107
0.00131
5.5
0.014
0.03
0.00131
0.0136
7.5
0.016
0.036
0.0136
0.0206
Table 3.10 Inertia [kgm
2
]
1) Power ratings relate to NO, see chapter 6.2 Electrical Data.
3.3.8 FCM 106 Motor Frame Size
Power size
1)
Asynchronous motor
PM motor
[kW]
1500 RPM 3000 RPM 1500 RPM 3000 RPM
0.55
–
–
71
–
0.75
80
71
71
71
1.1
90
80
71
71
1.5
90
80
71
71
2.2
100
90
90
71
3
100
90
90
90
4
112
100
90
90
5.5
112
112
112
90
7.5
132
112
112
112
Table 3.11 FCM 106 - Motor Frame Size for PM and
Asynchronous Motors
1) Power ratings relate to NO, see chapter 6.2 Electrical Data.
3.3.9 Motor Thermal Protection
Motor overload protection can be implemented using a
range of techniques:
•
Electronic thermal relay (ETR).
•
Thermistor sensor placed between motor
windings.
•
Mechanical thermal switch.
3.3.9.1 Electronic Thermal Relay
ETR is functional for asynchronous motors only. The ETR
protection comprises simulation of a bimetal relay based
on internal frequency converter measurements of the
actual current and speed. The characteristic is shown in
195NA497.10
1.2
1.0
1.4
30
10
20
100
60
40
50
1.8
1.6
2.0
2000
500
200
400
300
1000
600
t [s]
f
OUT
= 2 x f
M,N
f
OUT
= 0.1 x f
M,N
f
OUT
= 1 x f
M,N
(par. 1-23)
I
MN
(par. 1-24)
I
M
Illustration 3.5 ETR Protection Characteristic
The X-axis shows the ratio between I
motor
and I
motor
nominal. The Y-axis shows the time in seconds before the
ETR cuts off and trips the frequency converter. The curves
show the characteristic nominal speed at twice the
nominal speed, and at 0.1 x the nominal speed.
It is clear that at lower speed, the ETR cuts off at lower
heat, due to less cooling of the motor. In that way, the
motor is protected from overheating, even at low speed.
Summary
ETR is functional for asynchronous motors only. The ETR
protects the motor against overheating, and no further
motor overload protection is required. When the motor is
heated up, the ETR timer controls the duration of running
at high temperature, before stopping the motor to prevent
overheating.
When the motor is overloaded before reaching the
temperature where the ETR shuts off the motor, the
current limit protects the motor and application against
overload. In this case, ETR does not activate and therefore
a different method of thermal protection is required.
System Integration
Design Guide
MG03M202
Danfoss A/S © 06/2016 All rights reserved.
37
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