IPB031NE7N3 G Data Sheet (216 KB, EN)

IPB031NE7N3 G
TM
"%&$!"# 3 Power-Transistor
Product Summary
Features
Q ( @D9=9J54 D53 8>? <? 7I 6? BCI>3 8B? >? EC B53 D9
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Package
E=%ID*.+%+
Marking
(+)C;/C
Maximum ratings, 1DT V T E><5CC ? D85BG9C5 C@53 9
6954
Parameter
Symbol Conditions
? >D
9>E? EC 4B
19> 3 EBB5>D
I9
T 8 T
*#
Value
)((
T 8 T
)((
Unit
6
) E<C54 4B19> 3 EBB5>D*#
I 9$\aX_Q
T 8 T
,((
F1<1>3 85 5>5B7I C9
>7<5 @E<C5+#
E 6H
I 9 R =H "
.,(
Y@
!1D5 C? EB35 F? <D175
V =H
q*(
J
) ? G5B49CC9@1D9? >
P `[`
*),
K
( @5B1D9>7 1>4 CD? B
175 D5=@5B1DEB5
T V T _`S
T
T 8 T
# 3 <9=1D
93 3 1D57? BI #' # )#
$ , - 1>4 $ , , 55 697EB
5 6? B=? B
5 45D
19<54 9
>6? B
=1D9? >
+#
, 55 697EB
5 6? B=? B
5 45D
19<54 9>6? B
=1D
9? Z
*#
+ 5F
@175 IPB031NE7N3 G
Parameter
Values
Symbol Conditions
Unit
min.
typ.
max.
%
%
(&/
=9>9
=1<6? ? D@B9>D
3 = * 3 ? ? <9
>7 1B51,#
%
%
,(
/-
%
%
Thermal characteristics
-85B=1<B5C9
CD1>3 5 :E>3 D9
? > 3 1C5
R `T@8
-85B=1<B5C9
CD1>3 5
R `T@6
:E>3 D
9? > 1=2 9
5>D
A'K
Electrical characteristics, 1DT V T E><5CC ? D85BG9C5 C@53 96954
Static characteristics
B19>C? EB35 2 B51;4? G> F? <D175
V "7G#9HH V =H . I 9 =
!1D5 D8B5C8? <4 F? <D175
V =H"`T#
V 9H4V =H I 9 V *&+
+&)
+&0
05B? 71D5 F? <D175 4B
19> 3 EBB5>D
I 9HH
V 9H . V =H . T V T
%
(&)
)
V 9H . V =H . T V T
%
)(
)((
J
r6
!1D5C? EB35 <51;175 3 EBB5>D
I =HH
V =H . V 9H .
%
)
)((
Z6
B19>C? EB35 ? >CD1D5 B5C9CD1>3 5
R 9H"[Z#
V =H . I 9 %
*&/
+&)
Y"
!1D5 B5C9CD
1>3 5
R=
%
)&1
%
"
I^MZ_O[ZPaO`MZOQ
g R_
/-
)-(
%
H
,#
5F935 ? > == H == H == 5@? HI ) 3 ? >>53 D
9? >
) 9C F5B
D931<9> CD
9<<19B
+ 5F
gV 9Hg5*gI 9gR 9H"[Z#YMd
I 9 + G9D8 3 =* ? >5 <1I5B
V=D
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51 6? B4B
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@175 IPB031NE7N3 G
Parameter
Values
Symbol Conditions
Unit
min.
typ.
max.
%
.))(
0)+(
%
)+0(
)0,(
Dynamic characteristics
#>@ED3 1@13 9D1>3 5
C U__
V =H . V 9H . f & " J
\<
( ED@ED3 1@13 9
D1>3 5
C [__
+ 5F5BC5 DB1>C65B3 1@13 9D1>3 5
C ^__
%
..
11
-EB>? > 45<1I D9=5
t P"[Z#
%
).
%
+ 9C5 D9
=5
t^
%
0-
%
-EB>? 6645<1I D9=5
t P"[RR#
%
,(
%
tR
%
)(
%
!1D5 D? C? EB35 3 81B75
Q S_
%
+*
%
!1D5 D? 4B19> 3 81B75
Q SP
%
)0
%
, G9D389
>7 3 81B75
Q _c
%
+)
%
!1D5 3 81B75 D? D
1<
QS
%
00
))/
!1D5 @<1D51E F? <D
175
V \XM`QMa
%
-&+
%
( ED@ED3 81B75
Q [__
%
1)
)*)
Z8
%
%
)((
6
%
%
,((
%
)&(
)&*
J
%
-(
%
Z_
%
/.
%
Z8
1<<D9
=5
V 99 . V =H . I 9 R = "
Z_
!1D5 81BS5 81B13 D5B9
CD
93C-#
V 99 . I 9 V =H D? .
V 99 . V =H .
Z8
J
Reverse Diode
9? 45 3 ? >D9>? EC 6? BG1B4 3 EBB
5>D
IH
9? 45 @E<C5 3 EBB
5>D
I H$\aX_Q
9? 45 6? BG1B4 F? <D175
V H9
+ 5F5BC5 B53 ? F5BI D9
=5
t ^^
+ 5F5BC5 B53 ? F5BI 3 81B
75
Q ^^
-#
+ 5F
T 8 T
V =H . I < T V T
V G . I <4I H
Pi <'Pt V C
, 55 697EB
5 6? B71D5 3 81B
75 @1B1=5D5B4569>9D
9? >
@175 IPB031NE7N3 G
1 Power dissipation
2 Drain current
P `[`4R"T 8#
I 94R"T 8 V =H" .
250
120
100
200
80
I D [A]
P tot [W]
150
60
100
40
50
20
0
0
0
50
100
150
200
0
50
T C [°C]
100
150
200
T C [°C]
3 Safe operating area
4 Max. transient thermal impedance
I 94R"V 9H T 8 T D 4(
Z `T@84R"t \#
@1B1=5D5B t \
@1B1=5D5B
D 4t \'T
103
100
<9=9D54 2 I ? >CD1D
5
^Q_U_`MZOQ
VC
VC
(&-
Z thJC [K/W]
V C
102
I D [A]
=C
=C
(&*
10
-1
(&)
(&(-
98
101
(&(*
(&()
C9>7<5 @E<C5
100
10
10-2
-1
10
0
10
1
10
2
V DS [V]
+ 5F
10-5
10-4
10-3
10-2
10-1
100
t p [s]
@175 IPB031NE7N3 G
5 Typ. output characteristics
6 Typ. drain-source on resistance
I 94R"V 9H T V T
R 9H"[Z#4R"I 9 T V T
@1B
1=5D5B V =H
@1B1=5D5B
V =H
400
8
. .
7
300
6
R DS(on) [m ]
250
I D [A]
.
200
150
.
.
.
350
5
4
.
3
.
.
100
2
.
50
1
.
0
0
0
1
2
3
4
5
0
100
200
V DS [V]
300
400
I D [A]
7 Typ. transfer characteristics
8 Typ. forward transconductance
I 94R"V =H K
V 9Hg5*gI 9gR 9H"[Z#YMd
g R_4R"I 9 T V T
@1B
1=5D5B T V
400
200
350
300
150
g fs [S]
I D [A]
250
200
100
150
100
50
50
T
T
0
0
0
2
4
6
8
+ 5F
0
50
100
150
I D [A]
V GS [V]
@175 IPB031NE7N3 G
9 Drain-source on-state resistance
10 Typ. gate threshold voltage
R 9H"[Z#4R"T V I 9 V =H .
V =H"`T#4R"T V V =H4V 9H
@1B1=5D5B
I9
8
4
7
3.5
6
3
V 2.5
V GS(th) [V]
R DS(on) [m ]
V 5
4
YMd
`e\
3
2
1.5
2
1
1
0.5
0
0
-60
-20
20
60
100
140
180
-60
-20
20
60
100
140
180
T j [°C]
T j [°C]
11 Typ. capacitances
12 Forward characteristics of reverse diode
C 4R"V 9H V =H . f & " J
I <4R"V H9#
@1B1=5D5B
TV
105
103
104
T =1H
8U__
T
102
T
I F [A]
C [pF]
8[__
103
T =1H
10
8^__
10
2
10
1
100
(
*(
,(
.(
0(
V DS [V]
+ 5F
1
0
0.5
1
1.5
2
V SD [V]
@175 IPB031NE7N3 G
13 Avalanche characteristics
14 Typ. gate charge
I 6H4R"t 6J R =H "
V =H4R"Q SM`Q I 9 @E<C54
@1B
1=5D5B T V"_`M^`#
@1B1=5D5B
V 99
1000
12
.
10
.
V GS [V]
8
I AV [A]
100
.
T T
T
10
6
4
2
1
0
0.1
1
10
100
1000
10000
0
20
t AV [µs]
40
60
80
100
Q gate [nC]
15 Drain-source breakdown voltage
16 Gate charge waveforms
V 7G"9HH#4R"T V I 9 =
90
V =H
Qg
V BR(DSS) [V]
80
V S _"`T#
70
Q S "`T#
Q _c
Q S_
60
-60
-20
20
60
100
140
Q g ate
Q SP
180
T j [°C]
+ 5F
@175 IPB031NE7N3 G
PG-TO263-3 (D²-Pak)
+ 5F
@175 IPB031NE7N3 G
Published by
Infineon Technologies AG
81726 Munich, Germany
© 2009 Infineon Technologies AG
All Rights Reserved.
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values stated herein and/or any information regarding the application of the device,
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or other persons may be endangered.
+ 5F
@175