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DIPIPM+ Series Application note
3.3.3 Static electricity withstand capability
Typical static electricity withstand capability by Machine Model(R=0Ω, C=200pF) is described as follows and the
result is described as following Table 3-3-1 and 2.
Conditions: Surge voltage increases by degree and one surge pulse is impressed at each surge voltage.
(Limit voltage of surge simulator: ±4.0kV, Judged by change in V-I characteristic)
R
C
Fig.3-3-3 Surge test circuit example (V
Table 3-3-1 PSSxxxC1Fx Typical ESD capability (MM)
[Control part for Inverter]
Evaluated terminals
V
-V
UFB
UFS,
UP, VP, WP-V
UN, VN, WN-V
[Power part for Inverter]
Evaluated terminals
U-NU, V-NV, W-NW
[Power part for Converter]
Evaluated terminals
Table 3-3-2 PSSxxMC1Fx Typical ESD capability (MM)
[Control part for Brake]
Evaluated terminals
[Power part for Brake]
Evaluated terminals
Publication Date: September 2016
LVIC
V
N1
U
N
V
N
W
N
V
NC
terminal)
N1
V
-V
,V
-V
VFB
VFS
WFB
WFS
NC
V
-V
P1
NC(PC)
NC
V
-V
N1
NC
Fo-V
NC
CIN-V
NC
V
-V
OT
NC
CFo-V
NC
P-NU,NV,NW
P1-N1
R, S, T-N1
V
-V
P1
NC
AIN-V
NC
P-N(B)
B-N(B)
P-B
R
C
Fig.3-3-4 Surge test circuit example (V
+ Polarity
- Polarity
2.7
0.7
3.0
0.8
4.0 or more
4.0 or more
0.8
0.8
0.9
1.1
+ Polarity
- Polarity
4.0 or more
4.0 or more
4.0 or more
4.0 or more
+ Polarity
- Polarity
4.0 or more
4.0 or more
4.0 or more
4.0 or more
+ Polarity
- Polarity
3.0
0.8
+ Polarity
- Polarity
4.0 or more
4.0 or more
4.0 or more
4.0 or more
2.7
4.0 or more
47
HVIC
V
V
P1
UFB
U
Ho
P
V
V
NC
UFS
terminal)
P1
Unit
2.7
0.9
3.5
0.8
kV
1.2
1.0
1.4
1.2
Unit
kV
Unit
kV
Unit
3.5
kV
0.8
Unit
kV