63'1& 6381& &RRO026 3RZHU7UDQVLVWRU )HDWXUH • 1HZUHYROXWLRQDU\KLJKYROWDJHWHFKQRORJ\ •8OWUDORZJDWHFKDUJH VDS#Tjmax 9 5'6RQ Ω ,' $ 3G72 • 3HULRGLFDYDODQFKHUDWHG 3G72 •([WUHPHGYGWUDWHG • +LJKSHDNFXUUHQWFDSDELOLW\ • ,PSURYHGWUDQVFRQGXFWDQFH ; available in Halogen free mold compounda) 7\SH 3DFNDJH 0DUNLQJ 63'1& 3G72 1& 6381& 3G72 1& 0D[LPXP5DWLQJV 3DUDPHWHU 6\PERO &RQWLQXRXVGUDLQFXUUHQW ,' 9DOXH TC & TC & 3XOVHGGUDLQFXUUHQWtpOLPLWHGE\Tjmax , 'SXOV $YDODQFKHHQHUJ\VLQJOHSXOVH ($6 $YDODQFKHHQHUJ\UHSHWLWLYHW$5OLPLWHGE\Tjmax EAR 8QLW $ P- , ' $VDD 9 , ' $VDD 9 $YDODQFKHFXUUHQWUHSHWLWLYHW$5OLPLWHGE\Tjmax , $5 Gate source voltage static VGS $ 9 *DWHVRXUFHYROWDJH$&I!+] VGS ± 3RZHUGLVVLSDWLRQ7 & & Ptot : 2SHUDWLQJDQGVWRUDJHWHPSHUDWXUH 7 M7 VWJ & Reverse diode dv/dt 5) dv/dt 15 V/ns a) except PG-TO251, non-Halogen free (SPD04N60C3BT); Halogen free (SPD04N60C3AT) Rev. 2.6 2.5 PDJH 804-08 2013-07-31 63'1& 6381& 0D[LPXP5DWLQJV 3DUDPHWHU 6\PERO 'UDLQ6RXUFHYROWDJHVORSH GYGW 9DOXH 8QLW 9QV 9DOXHV 8QLW V DS 9, ' $Tj & 7KHUPDO&KDUDFWHULVWLFV 6\PERO 3DUDPHWHU PLQ W\S PD[ 7KHUPDOUHVLVWDQFHMXQFWLRQFDVH RthJC 7KHUPDOUHVLVWDQFHMXQFWLRQDPELHQWOHDGHG RthJA 60'YHUVLRQGHYLFHRQ3&% 5WK-$ #PLQIRRWSULQW #FP FRROLQJDUHD 6ROGHULQJWHPSHUDWXUH*) 7VROG .: & PPLQIURPFDVHIRUV (OHFWULFDO&KDUDFWHULVWLFVDW7M &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 ,' µΑVGS VDS =HURJDWHYROWDJHGUDLQFXUUHQW , '66 V DS 9VGS 9 Tj & Tj & V GS 9VDS 9 Q$ V GS 9,' $ Ω Tj & Tj & I 0+]RSHQ'UDLQ *DWHVRXUFHOHDNDJHFXUUHQW , *66 'UDLQVRXUFHRQVWDWHUHVLVWDQFH 5'6RQ *DWHLQSXWUHVLVWDQFH RG $ *) TO252: reflow soldering, MSL1; TO251: wavesoldering Rev. 2.6 2.5 PDJH 804-08 2013-07-31 63'1& 6381& (OHFWULFDO&KDUDFWHULVWLFVDWTj &XQOHVVRWKHUZLVHVSHFLILHG 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 S) WLPHUHODWHG Turn-on delay time td(on) V DD 9V GS 9 Rise time tr ,' $RG Ω Turn-off delay time td(off) 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 5HSHWLWYHDYDODQFKHFDXVHVDGGLWLRQDOSRZHUORVVHVWKDWFDQEHFDOFXODWHGDV3 $9 EARf 'HYLFHRQPPPPPPHSR[\3&%)5ZLWKFPðRQHOD\HUPWKLFNFRSSHUDUHDIRUGUDLQ FRQQHFWLRQ3&%LVYHUWLFDOZLWKRXWEORZQDLU & LVDIL[HGFDSDFLWDQFHWKDWJLYHVWKHVDPHVWRUHGHQHUJ\DVCoss ZKLOHVDS LVULVLQJIURPWR9 RHU '66 & RWULVDIL[HGFDSDFLWDQFHWKDWJLYHVWKHVDPHFKDUJLQJWLPHDVCoss ZKLOHVDSLVULVLQJIURPWR9 '66 5I <=I , di/dt<=400A/us, V SD D DClink=400V, Vpeak<VBR, DSS, Tj<Tj,max. Identical low-side and high-side switch. Rev. 2.6 2.5 PDJH 804-08 2013-07-31 63'1& 6381& (OHFWULFDO&KDUDFWHULVWLFVDWTj &XQOHVVRWKHUZLVHVSHFLILHG 3DUDPHWHU 6\PERO ,QYHUVHGLRGHFRQWLQXRXV ,6 &RQGLWLRQV TC & 9DOXHV 8QLW PLQ W\S PD[ $ 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 UHFRYHU\FXUUHQW 7\SLFDO7UDQVLHQW7KHUPDO&KDUDFWHULVWLFV 9DOXH 6\PERO 8QLW 6\PERO 9DOXH W\S 8QLW W\S 7KHUPDOUHVLVWDQFH 7KHUPDOFDSDFLWDQFH 5WK 5WK &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. 2.6 2.5 PDJH 804-08 2013-07-31 63'1& 6381& 3RZHUGLVVLSDWLRQ 6DIHRSHUDWLQJDUHD 3WRW ITC ,' I9 '6 SDUDPHWHU' T C & 63'1& : $ ,' Ptot WS PV WS PV WS PV WS PV '& & 9 VDS TC 7UDQVLHQWWKHUPDOLPSHGDQFH 7\SRXWSXWFKDUDFWHULVWLF =WK-& IW S SDUDPHWHU' WS7 ,' IVDSTj & SDUDPHWHUWS VVGS .: $ 9 9 9 9 ,' =WK-& 9 ' ' ' ' ' ' VLQJOHSXOVH 9 9 9 9 Rev. 2.6 2.5 V tp 9 VDS PDJH 804-08 2013-07-31 63'1& 6381& 7\SRXWSXWFKDUDFWHULVWLF 7\SGUDLQVRXUFHRQUHVLVWDQFH ,' IVDSTj & SDUDPHWHUWS VVGS 5'6RQ f,' SDUDPHWHUTj &V GS Ω 9 9 9 9 9 ,' 9 9 9 9 9 9 9 9 9 5'6RQ $ 9 9 9 9 9 VDS $ , ' 'UDLQVRXUFHRQVWDWHUHVLVWDQFH 7\SWUDQVIHUFKDUDFWHULVWLFV 5'6RQ I7M SDUDPHWHU,' $VGS 9 ,' I9*69 '6≥[,'[5'6RQPD[ SDUDPHWHUWS V 63'1& Ω $ & ,' 5'6RQ & W\S & Tj Rev. 2.6 2.5 PDJH 9 VGS 804-08 2013-07-31 63'1& 6381& 7\SJDWHFKDUJH )RUZDUGFKDUDFWHULVWLFVRIERG\GLRGH VGS I4*DWH ,) I96' SDUDPHWHU7MWS V SDUDPHWHU,' $SXOVHG 63'1& 63'1& 9 $ VDS max VDS max IF VGS 7M &W\S 7M &W\S 7M & 7M & Q& 9 4*DWH 96' 7\SGUDLQFXUUHQWVORSH 7\SVZLWFKLQJWLPH di/dt IR GLQGXFWLYHORDGTj & SDUVDS 9VGS 9,' $ W IRG LQGXFWLYHORDGT j & SDUV DS 9VGS 9,' $ QV $V W di/dt WGRII WI WGRQ WU GLGWRQ GLGWRII 2.6 Rev. 2.5 Ω RG Ω R G PDJH 804-08 2013-07-31 63'1& 6381& 7\SVZLWFKLQJWLPH 7\SGUDLQVRXUFHYROWDJHVORSH W I,'LQGXFWLYHORDGT j & SDUVDS 9VGS 9RG Ω dv/dt IRGLQGXFWLYHORDGTj & SDUV DS 9VGS 9,' $ 9QV QV W dv/dt WGRII WI WGRQ WU GYGWRQ $ ,' GYGWRII Ω R G 7\SVZLWFKLQJORVVHV 7\SVZLWFKLQJORVVHV ( I,'LQGXFWLYHORDGTj & SDUVDS 9VGS 9RG Ω ( IRGLQGXFWLYHORDGTj & SDUV DS 9VGS 9,' $ P:V (RQ LQFOXGHV6'36 GLRGHFRPPXWDWLRQORVVHV P:V ( RQLQFOXGHV6'36 GLRGHFRPPXWDWLRQORVVHV ( ( (RII (RII (RQ (RQ Rev. 2.6 2.5 $ ,' PDJH Ω R G 804-08 2013-07-31 63'1& 6381& $YDODQFKH62$ $YDODQFKHHQHUJ\ ,$5 IW$5 SDUTj≤& ($6 ITj SDU,' $V DD 9 $ P 7M67$57 & ($6 ,$5 7M67$57 & V W$5 & Tj 'UDLQVRXUFHEUHDNGRZQYROWDJH $YDODQFKHSRZHUORVVHV V(BR)DSS ITj 3$5 If SDUDPHWHUE AR P- 63'1& : 3$5 V(BR)DSS 9 & +] f Tj Rev. 2.6 2.5 PDJH 804-08 2013-07-31 63'1& 6381& 7\SFDSDFLWDQFHV 7\SCossVWRUHGHQHUJ\ & IVDS SDUDPHWHUV GS 9I 0+] (RVV fVDS S) - Ciss & (RVV Coss Crss 9 VDS 9 VDS 'HILQLWLRQRIGLRGHVVZLWFKLQJFKDUDFWHULVWLFV Rev. 2.6 2.5 PDJH10 2013-07-31 804-08 SPD04N60C3 SPU04N60C3 PG-TO252-3 Rev. 2.6 2.5 Page 11 2013-07-31 2008-04-08 SPD04N60C3 SPU04N60C3 PG-TO251-3 Rev. 2.6 2.5 Page 12 2013-07-31 2008-04-08 SPD04N60C3 SPU04N60C3 2.6 Rev. 2.5 PDJH3 2013-07-31 804-08