Cabinet design and EMC Booksize
12.12 Power losses of the components
12.12.10
Typical power losses for Motor Modules
The information on the power losses in the previous chapters are maximum values, which
occur in the most unfavorable case. For typical applications, the losses are lower.
The following applies as typical application:
● Maximum motor cable length, 30 m
● 4 kHz pulse frequency
● DC link voltage 540 V - 600 V
The power loss for typical applications can be calculated using the following formula:
P
[W] = a + S
V
a
S
, S
1
I
1
I
2
Overview of required coefficients
Table 12- 43
Motor Module
Single Motor Module 3 A
Single Motor Module 5 A
Single Motor Module 9 A
Single Motor Module 18 A
Single Motor Module 30 A
Single Motor Module 45 A
Single Motor Module 60 A
Single Motor Module 85 A
Single Motor Module 132 A
Single Motor Module 200 A
Double Motor Module 3 A
Double Motor Module 5 A
Double Motor Module 9 A
Double Motor Module 18 A
768
• (I
+ I
) + S
1
1
2
Electronics losses of the Motor Module
Coefficients to calculate power loss
2
Current (arithmetic mean value) of the 1st axis
Current (arithmetic mean value) of the 2nd axis
Coefficients to calculate the power loss in the control cabinet for internally cooled Mo-
tor Modules for typical applications
• (I
+ I
)
1 2
2 2
2
a [W]
14
14
14
14
20
25
25
36
150
150
19
19
19
22
S
[W/A]
1
3.29
3.29
3.29
3.29
4,71
5,50
5,50
6,11
6,01
6,01
5,20
5,20
5,18
5,57
Booksize Power Units
Manual, (GH2), 07/2016, 6SL3097-4AC00-0BP8
S
[W/A
]
2
2
0.205
0.205
0.205
0.205
0,113
0,054
0,054
0,030
0,018
0,017
0,200
0,200
0,247
0,091