Document
SKiiP 28AHB16V1
MiniSKiiP® 2
3-phase bridge rectifier + brake chopper
SKiiP 28AHB16V1
Features
!
"
# $%&'&( Typical Applications* !
)
! &*
+,
Remarks ,$ - , . ! ) )
Absolute Maximum Ratings
Symbol Conditions
IGBT - Chopper
,$0 9 ,$0
. (' 5627 / ! : 1 4
<
Diode - Chopper
9
. (' 5627 / ! : 1 4
<
Diode / Thyristor - Rectifier
,9 @ 09 @ 09 A
<
. 62 ! . 12 4- 182 /! . 12 4- 182 /B
< . (' / < . (' /
<
90
!
!
4 5(2 @ !
7 ! :
,
- 1 4 #
Characteristics
Symbol Conditions
IGBT - Chopper
,$ ,$57 ,$5 C7
4 . 12' - < . (' 51('7 / ,$ . ,$- . & 4
< . (' 51('7 / < . (' 51('7 / ,$ . (' ,- ,$ . 2 ,- . 1 9 E ,$ . (' ,- ,$ . 2 ,- . 1 9 E ,$ . (' ,- ,$ . 2 ,- . 1 9 E
5<=7
!
5 7
57 $
, . %22 ,- ,$ . ; 1' , 4 . 12' - < . 1(' / . . '-' D )
$
Diode - Chopper
, . ,$ ,5 C7
4 . 12' - < . (' 51('7 / < . (' 51('7 / < . (' 51('7 /
5<=7
!
9 I
$
4 . 12' - , . %22 , ,$ . 2 ,- < . 1(' /
@ . '>22 @J
. (' /-
!
Values
Units
1(22
,
118 5887
(12
; (2
,
= >2 ### ? 1'2
/
118 5887
(12
= >2 ### ? 1'2
/
1%22
,
8(
1222
''22
A
= >2 ### ? 1'2
/
= >2 ### ? 1('
/
1(2
= >2 ### ? 1('
/
('22
,
. (' /-
!
min.
typ.
max. Units
1-6 5(7 (-1 5(->7
,
'
'-8
%-'
,
1 52-*7 1-( 51-17
,
%-6 5127 8-% 51(7 4D
8->
1-'
1-1
2->
F@G
%'
&2
>12
122
1>->
4H
1&-&
4H
1-% 51-%7 1-8 51-87
,
1 52-87 1-1 52-*7
,
'-6 56-%7 %-6 58-%7 4D
2-''
F@G
1%2
(%
J
12-8
4H
AHB
1
13-02-2009 LAN
© by SEMIKRON
SKiiP 28AHB16V1
Characteristics
Symbol Conditions
Diode - Rectifier
, ,5 C7
4 . 6' < . 1'2 / < . 1'2 /
5<=7
!
< . (' /
Thyristor - Rectifier
,
, 5 C7
,
)@5
7 @5
7
4 . 1(2 < . 1(' / < . 1(' / < . (' / < . (' / < . (' / < . (' / < . 1(' / < . 1(' /
5<=7
!
< . (' 51('7 /
Temperature Sensor
& K-
. (' 51227 /
Mechanical Data
9
9
L
. (' /-
!
min.
typ.
max. Units
1-(
,
2-8
,
6
4D
2-6
F@G
1-8 51-67
,
1-1
,
'
4D
&
,
1'2
4
(22
4
>22
4
1222
,@J
'2
@J
2-%'
F@G
122251%627
D
%'
(
(-'
M4
2
13-02-2009 LAN
© by SEMIKRON
SKiiP 28AHB16V1
Fig. 1 Typ. output characteristic
Fig. 2 Typ. rated current vs. temperature
Fig. 3 Typ. transfer characteristic
Fig. 4 Reverse bias safe operating area
Fig. 5 Typ. Turn-on /-off energy = f (IC)
.