SPB03N60C3 Data Sheet (484 KB, EN)

63%1&
&RRO026Π3RZHU7UDQVLVWRU
)HDWXUH
VDS#Tjmax
9
5'6RQ
Ω
,'
$
• 1HZUHYROXWLRQDU\KLJKYROWDJHWHFKQRORJ\
•8OWUDORZJDWHFKDUJH
• 3HULRGLFDYDODQFKHUDWHG
3G72
•([WUHPHGYGWUDWHG
• +LJKSHDNFXUUHQWFDSDELOLW\
• ,PSURYHGWUDQVFRQGXFWDQFH
7\SH
3DFNDJH
2UGHULQJ&RGH
0DUNLQJ
63%1&
3G72
46
1&
0D[LPXP5DWLQJV
3DUDPHWHU
6\PERO
9DOXH
8QLW
63%
&RQWLQXRXVGUDLQFXUUHQW
,'
$
TC ƒ&
TC ƒ&
3XOVHGGUDLQFXUUHQWtpOLPLWHGE\Tjmax
,'SXOV
$
$YDODQFKHHQHUJ\VLQJOHSXOVH
($6
P-
EAR
$YDODQFKHFXUUHQWUHSHWLWLYHW$5OLPLWHGE\Tjmax
,$5
$
Gate source voltage static
VGS
“
9
*DWHVRXUFHYROWDJH$&I!+]
VGS
±
Power dissipation, TC = 25°C
Ptot
2SHUDWLQJDQGVWRUDJHWHPSHUDWXUH
7M7VWJ
Reverse diode dv/dt 7)
dv/dt
,' $VDD 9
$YDODQFKHHQHUJ\UHSHWLWLYHW$5OLPLWHGE\Tjmax
,' $VDD 9
Rev. 2.5
PDJH
:
ƒ&
15
V/ns
72-14
63%1&
0D[LPXP5DWLQJV
3DUDPHWHU
6\PERO
'UDLQ6RXUFHYROWDJHVORSH
GYGW
9DOXH
8QLW
9QV
9DOXHV
8QLW
V DS 9, ' $Tj ƒ&
7KHUPDO&KDUDFWHULVWLFV
6\PERO
3DUDPHWHU
PLQ
W\S
PD[
7KHUPDOUHVLVWDQFHMXQFWLRQFDVH
RthJC
7KHUPDOUHVLVWDQFHMXQFWLRQFDVH)XOO3$.
5WK-&B)3
7KHUPDOUHVLVWDQFHMXQFWLRQDPELHQWOHDGHG
RthJA
7KHUPDOUHVLVWDQFHMXQFWLRQDPELHQW)XOO3$.
5WK-$B)3
60'YHUVLRQGHYLFHRQ3&%
5WK-$
#PLQIRRWSULQW
#FP FRROLQJDUHD
6
6ROGHULQJWHPSHUDWXUH reflow soldering, MSL1
7VROG
.:
ƒ&
PPLQIURPFDVHIRUV (OHFWULFDO&KDUDFWHULVWLFVDW7 M ƒ&XQOHVVRWKHUZLVHVSHFLILHG
3DUDPHWHU
6\PERO
&RQGLWLRQV
'UDLQVRXUFHEUHDNGRZQYROWDJH V(BR)DSS V GS 9,' P$
'UDLQ6RXUFHDYDODQFKH
9%5'6 V GS 9,' $
9DOXHV
8QLW
PLQ
W\S
PD[
9
EUHDNGRZQYROWDJH
*DWHWKUHVKROGYROWDJH
9*6WK
,' µ$9*6 9'6
=HURJDWHYROWDJHGUDLQFXUUHQW
, '66
V DS 9VGS 9
Tj ƒ&
Tj ƒ&
V GS 9VDS 9
Q$
V GS 9,' $
Ω
Tj ƒ&
Tj ƒ&
I 0+]RSHQGUDLQ
*DWHVRXUFHOHDNDJHFXUUHQW
, *66
'UDLQVRXUFHRQVWDWHUHVLVWDQFH 5'6RQ
*DWHLQSXWUHVLVWDQFH
Rev. 2.5
RG
PDJH
—$
72-14
63%1&
(OHFWULFDO&KDUDFWHULVWLFV
3DUDPHWHU
Transconductance
6\PERO
g fs
&RQGLWLRQV
V DS≥, '5'6RQPD[
9DOXHV
8QLW
PLQ
W\S
PD[
6
S)
,' $
Input capacitance
Ciss
V GS 9V DS 9
Output capacitance
Coss
f 0+]
Reverse transfer capacitance
Crss
(IIHFWLYHRXWSXWFDSDFLWDQFH &RHU
V GS 9
HQHUJ\UHODWHG
V DS 9WR9
(IIHFWLYHRXWSXWFDSDFLWDQFH &RWU
WLPHUHODWHG
Turn-on delay time
td(on)
V DD 9V GS 9
Rise time
tr
,' $
Turn-off delay time
td(off)
RG Ω
Fall time
tf
QV
*DWH&KDUJH&KDUDFWHULVWLFV
Gate to source charge
Qgs
Gate to drain charge
Qgd
*DWHFKDUJHWRWDO
4J
V DD 9,' $
V DD 9,' $
Q&
V GS WR9
*DWHSODWHDXYROWDJH
9SODWHDX V DD 9,' $
9
/LPLWHGRQO\E\PD[LPXPWHPSHUDWXUH
5HSHWLWYHDYDODQFKHFDXVHVDGGLWLRQDOSRZHUORVVHVWKDWFDQEHFDOFXODWHGDV3$9 EARf
'HYLFHRQPPPPPPHSR[\3&%)5ZLWKFPðRQHOD\HU—PWKLFNFRSSHUDUHDIRUGUDLQ
FRQQHFWLRQ3&%LVYHUWLFDOZLWKRXWEORZQDLU
4&
RHULVDIL[HGFDSDFLWDQFHWKDWJLYHVWKHVDPHVWRUHGHQHUJ\DVCoss ZKLOHVDS LVULVLQJIURPWR9 '66
5& LVDIL[HGFDSDFLWDQFHWKDWJLYHVWKHVDPHFKDUJLQJWLPHDVCoss ZKLOHVDSLVULVLQJIURPWR9
RWU
'66
6I <=I , di/dt<=400A/us, V
SD
D
DClink=400V, Vpeak<VBR, DSS, Tj<Tj,max.
Identical low-side and high-side switch.
Rev. 2.5
PDJH
7-2-14
63%1&
(OHFWULFDO&KDUDFWHULVWLFV
3DUDPHWHU
6\PERO
,QYHUVHGLRGHFRQWLQXRXV
,6
&RQGLWLRQV
9DOXHV
8QLW
PLQ
W\S
PD[
TC ƒ&
$
IRUZDUGFXUUHQW
Inverse diode direct current,
I SM
pulsed
,QYHUVHGLRGHIRUZDUGYROWDJH
96'
VGS 9, ) ,6
9
Reverse recovery time
t rr
VR 9,) ,6
QV
Reverse recovery charge
Q rr
diF/dt $—V
—&
Peak reverse recovery current
I rrm
$
3HDNUDWHRIIDOORIUHYHUVH
GL UUGW
$—V
Tj ƒ&
UHFRYHU\FXUUHQW
7\SLFDO7UDQVLHQW7KHUPDO&KDUDFWHULVWLFV
9DOXH
6\PERO
8QLW
6\PERO
9DOXH
63%
5WK
5WK
8QLW
63%
.:
&WK
&WK
5WK
&WK
5WK
&WK
5WK
&WK
5WK
&WK
7M
5 WK
5 WKQ
7 FDVH
:V.
( [WHUQDO+ HDWVLQN
3 WRW W
& WK
& WK
& WKQ
7 DP E
Rev. 2.5
PDJH
72-14
63%1&
3RZHUGLVVLSDWLRQ
3RZHUGLVVLSDWLRQ)XOO3$.
3WRW ITC
Ptot ITC
6331&
:
:
Ptot
Ptot
ƒ&
TC
6DIHRSHUDWLQJDUHD
6DIHRSHUDWLQJDUHD)XOO3$.
,' I9 '6
SDUDPHWHU' TC ƒ&
,' IVDS
SDUDPHWHU' TC ƒ&
$
$
,'
,'
ƒ& TC
Rev. 2.5
WS PV
WS PV
WS PV
WS PV
'&
9
VDS
PDJH
WS PV
WS PV
WS PV
WS PV
WS PV
'&
9
VDS
72-14
63%1&
7UDQVLHQWWKHUPDOLPSHGDQFH
7UDQVLHQWWKHUPDOLPSHGDQFH)XOO3$.
=WK-& IW S
SDUDPHWHU' WS7
=WK-& It p
SDUDPHWHU' tpW
.:
.:
=WK-&
=WK-&
' ' ' ' ' ' VLQJOHSXOVH
V
tp
' ' ' ' ' ' VLQJOHSXOVH
7\SRXWSXWFKDUDFWHULVWLF
7\SRXWSXWFKDUDFWHULVWLF
,' IVDSTj ƒ&
SDUDPHWHUWS —VVGS
,' IVDSTj ƒ&
SDUDPHWHUWS —VVGS
V t p
$
,'
,'
$
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
VDS
Rev. 2.5
9
VDS
PDJH
72-14
63%1&
7\SGUDLQVRXUFHRQUHVLVWDQFH
'UDLQVRXUFHRQVWDWHUHVLVWDQFH
5'6RQ f,'
SDUDPHWHUTj ƒ&VGS
5'6RQ I7M
SDUDPHWHU,' $VGS 9
Ω
5'6RQ
5'6RQ
Ω
9
9
9
9
9
9
9
9
6331&
W\S
$
,'
ƒ&
Tj
7\SWUDQVIHUFKDUDFWHULVWLFV
7\SJDWHFKDUJH
,' I9*69'6≥[,'[5'6RQPD[
SDUDPHWHUWS —V
VGS I4 *DWH
SDUDPHWHU,' $SXOVHG
$
6331&
9
ƒ&
VGS
,'
ƒ&
9'6PD[
9'6PD[
Rev. 2.5
9 VGS
Q&
4 *DWH
PDJH
72-14
63%1&
)RUZDUGFKDUDFWHULVWLFVRIERG\GLRGH
7\SVZLWFKLQJWLPH
,) I96'
SDUDPHWHU7MWS —V
W I,'LQGXFWLYHORDGT j ƒ&
SDUV DS 9VGS 9R G Ω
6331&
QV
$
W
IF
WGRII
WI
WGRQ
WU
7M ƒ&W\S
7M ƒ&W\S
7M ƒ&
7M ƒ&
9
96'
$
, '
7\SVZLWFKLQJWLPH
7\SGUDLQFXUUHQWVORSH
W IRG LQGXFWLYHORDGTj ƒ&
di/dt IR GLQGXFWLYHORDGTj ƒ&
SDUV DS 9VGS 9,' $
SDUVDS 9VGS 9,' $
$—V
di/dt
W
QV
WGRII
WI
WGRQ
WU
GLGWRQ
Rev. 2.5
Ω RG
PDJH
GLGWRII
Ω
R G
7-02-14
63%1&
7\SGUDLQVRXUFHYROWDJHVORSH
7\SVZLWFKLQJORVVHV
dv/dt IRGLQGXFWLYHORDGTj ƒ&
SDUVDS 9VGS 9,' $
( I,'LQGXFWLYHORDGTj ƒ&
SDUV DS 9VGS 9R G Ω
P:V
9QV
GLRGHFRPPXWDWLRQORVVHV
(
dv/dt
( RQLQFOXGHV6'36
(RQ
GYGWRQ
(RII
GYGWRII
Ω RG
7\SVZLWFKLQJORVVHV
$YDODQFKH62$
( IRGLQGXFWLYHORDGTj ƒ&
SDUVDS 9VGS 9,' $
,$5 IW$5
SDUTj≤ƒ&
P:V
(RQ LQFOXGHV6'36
GLRGHFRPPXWDWLRQORVVHV
$
7 M67$57 ƒ&
(RII
,$5
(
$
, '
(RQ
7
M67$57 ƒ&
Rev. 2.5
Ω
RG
PDJH
—V W $5
72-14
63%1&
$YDODQFKHHQHUJ\
'UDLQVRXUFHEUHDNGRZQYROWDJH
($6 ITj
SDU,' $V DD 9
V(BR)DSS ITj
6331&
9
V(BR)DSS
($6
P-
ƒ&
ƒ&
Tj
Tj
$YDODQFKHSRZHUORVVHV
7\SFDSDFLWDQFHV
3$5 If
& IVDS
SDUDPHWHUV GS 9I 0+]
SDUDPHWHUE AR P-
:
S)
&LVV
&
3$5
&RVV
&UVV
+]
9
VDS
f
Rev. 2.5
PDJH
72-14
63%1&
7\SC ossVWRUHGHQHUJ\
(RVV fVDS
(RVV
—-
9
VDS
'HILQLWLRQRIGLRGHVVZLWFKLQJFKDUDFWHULVWLFV
Rev. 2.5
PDJH
72-14
63%316&
PG-TO263-3-2/ PG-TO263-3-5/ PG-TO263-3-22
Rev. 2.5
PDJH2
72-14
63%1&
3XEOLVKHGE\
,QILQHRQ7HFKQRORJLHV$*
81726 München
Germany
‹,QILQHRQ7HFKQRORJLHV$*2006
$OO5LJKWV5HVHUYHG
$WWHQWLRQSOHDVH
7KHLQIRUPDWLRQKHUHLQLVJLYHQWRGHVFULEHFHUWDLQFRPSRQHQWVDQGVKDOOQRWEHFRQVLGHUHGDVZDUUDQWHG
FKDUDFWHULVWLFV
7HUPVRIGHOLYHU\DQGULJKWVWRWHFKQLFDOFKDQJHUHVHUYHG
:HKHUHE\GLVFODLPDQ\DQGDOOZDUUDQWLHVLQFOXGLQJEXWQRWOLPLWHGWRZDUUDQWLHVRIQRQLQIULQJHPHQW
UHJDUGLQJFLUFXLWVGHVFULSWLRQVDQGFKDUWVVWDWHGKHUHLQ
,QILQHRQ7HFKQRORJLHVLVDQDSSURYHG&(&&PDQXIDFWXUHU
,QIRUPDWLRQ
)RUIXUWKHULQIRUPDWLRQRQWHFKQRORJ\GHOLYHU\WHUPVDQGFRQGLWLRQVDQGSULFHVSOHDVHFRQWDFW\RXUQHDUHVW
,QILQHRQ7HFKQRORJLHV2IILFHLQ*HUPDQ\RURXU,QILQHRQ7HFKQRORJLHV5HSUHQVDWLYHVZRUOGZLGHVHHDGGUHVVOLVW
:DUQLQJV
'XHWRWHFKQLFDOUHTXLUHPHQWVFRPSRQHQWVPD\FRQWDLQGDQJHURXVVXEVWDQFHV
)RULQIRUPDWLRQRQWKHW\SHVLQTXHVWLRQSOHDVHFRQWDFW\RXUQHDUHVW,QILQHRQ7HFKQRORJLHV2IILFH
,QILQHRQ7HFKQRORJLHV&RPSRQHQWVPD\RQO\EHXVHGLQOLIHVXSSRUWGHYLFHVRUV\VWHPVZLWKWKHH[SUHVV
ZULWWHQDSSURYDORI,QILQHRQ7HFKQRORJLHVLIDIDLOXUHRIVXFKFRPSRQHQWVFDQUHDVRQDEO\EHH[SHFWHGWR
FDXVHWKHIDLOXUHRIWKDWOLIHVXSSRUWGHYLFHRUV\VWHPRUWRDIIHFWWKHVDIHW\RUHIIHFWLYHQHVVRIWKDWGHYLFH
RUV\VWHP/LIHVXSSRUWGHYLFHVRUV\VWHPVDUHLQWHQGHGWREHLPSODQWHGLQWKHKXPDQERG\RUWRVXSSRUW
DQGRUPDLQWDLQDQGVXVWDLQDQGRUSURWHFWKXPDQOLIH,IWKH\IDLOLWLVUHDVRQDEOHWRDVVXPHWKDWWKHKHDOWK
RIWKHXVHURURWKHUSHUVRQVPD\EHHQGDQJHUHG
Rev. 2.5
PDJH3
72-14