MOSFETs / Junction FETs: SEMICONDUCTOR GENERAL CATALOG

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1 SEMICONDUCTOR GENERAL CATALOG 半導体製品総覧表 08 年 7 月版 MOSFETs / Junction FETs MOSFET / 接合形 FET Low Voltage MOSFETs / 低耐圧 MOSFET Mid-High Voltage MOSFETs / 中高耐圧 MOSFET Automotive MOSFETs / 車載 MOSFET Junction FETs / 接合形 FET SiC MOSFETs / SiC MOSFET Radio-Frequency MOSFETs / 高周波 MOSFET SCA0004N

2 Low Voltage MOSFETs / MOSFET High-Speed Switching / (Single N-Channel) / N.8.6 VS-6 VDSS VGSS ID (A) TPC6008 -H TPC6009 -H PD VGS = VGS = (W) 0 V 4.5 V Ciss Crss Coss Qg (nc). () U-MOSVI-H. () U-MOSVI-H (6A).4 (/5) TPC600 -H () U-MOSVI-H PS TPCP8007 -H () U-MOSVI-H (8A).4.9 TPCC8067 -H U-MOSVII-H TPCC8066 -H U-MOSVII-H TPCC8065 -H U-MOSVII-H TPCC8068 -H U-MOSVII-H TPCC8064 -H U-MOSVII-H TPCC806 -H U-MOSVII-H TPN00 NL () U-MOSVIII-H 0 TPN8R90 NL 7 () U-MOSVIII-H TPN6R00 NL 56 () U-MOSVIII-H TPN4R0 NL 6 () U-MOSVIII-H TPN5R0 PL 76 () U-MOSIX-H TPNR70 NL 90 () U-MOSVIII-H TPNR90 PL () U-MOSIX-H TPNR60 PL 88 () U-MOSIX-H TSON Advance TPN7R504 PL 68 () U-MOSIX-H (8A) TPNR704 PL 40 9 () U-MOSIX-H TPNR04 PL 00 () U-MOSIX-H. 5 TPNR805 PL 45 9 () U-MOSIX-H. TPN006 NH () U-MOSVIII-H TPN4006 NH () U-MOSVIII-H TPN006 NL 7 () U-MOSVIII-H TPN7R506 NH 60 5 () U-MOSVIII-H TPN006 PL 54 () U-MOSIX-H TPN7R006 PL 76 () U-MOSIX-H TPN4R806 PL 05 () U-MOSIX-H TPN0008 NH () U-MOSVIII-H 80 TPN008 NH 40 () U-MOSVIII-H TPN00 ANH () U-MOSVIII-H TPN600 ANH 00 6 () U-MOSVIII-H TPN00 APL * 66 () U-MOSIX-H (8B) TPN5900 CNH 50 8 () U-MOSVIII-H TPN0 ENH 00 () U-MOSVIII-H (8A) TPN00 FNH () U-MOSVIII-H.. Note (): ID (DC) (Silicon Limit) (): Device mounted on a glass board. t = 5 seconds. / t = Top View (6A) (8A) (8B) 6 4 4

3 (Single N-Channel) / N DSOP Advance 5.0 Note (): ID (DC) (Silicon Limit) VDSS VGSS ID (A) PD VGS = VGS = (W) 0 V 4.5 V Ciss Crss Coss Qg (nc) TPWR850 NL 00 () U-MOSVIII-H 0 TPWR600 PL 4 () U-MOSIX-H TPWR8004 PL () U-MOSIX-H TPWR005 PL () U-MOSIX-H TPWR06 PL () U-MOSIX-H TPWR508 NH () U-MOSVIII-H TPW4R008 NH U-MOSVIII-H TPW4R50 ANH U-MOSVIII-H 00 TPWR70 APL * 50 () U-MOSIX-H TPW500 CNH () U-MOSVIII-H TPW900 ENH 00 6 () U-MOSVIII-H TPW500 FNH 50 7 () U-MOSVIII-H TPCA8068 -H U-MOSVII-H TPCA8065 -H U-MOSVII-H TPCA8064 -H U-MOSVII-H TPCA806 -H U-MOSVII-H TPCA806 -H U-MOSVII-H TPCA8059 -H U-MOSVII-H TPH00 NL () U-MOSVIII-H TPCA809 -H U-MOSVII-H TPCA8058 -H U-MOSVII-H TPH8R90 NL 8 () U-MOSVIII-H TPCA8057 -H U-MOSVII-H TPCA8056 -H U-MOSVII-H 0 TPCA8055 -H U-MOSVII-H TPH6R00 NL 57 () U-MOSVIII-H SOP Advance TPH4R00 NL 68 () U-MOSVIII-H TPHR0 NL 84 () U-MOSVIII-H TPH4R80 PL * 90 () U-MOSIX-H TPHR90 PL 4 () U-MOSIX-H TPHR00 PL 4 () U-MOSIX-H TPHR40 NL 50 () U-MOSVIII-H TPHR00 PL 80 () U-MOSIX-H TPHR900 NL 0 () U-MOSVIII-H TPHR90 PL 80 () U-MOSIX-H TPHR650 PL 9 () U-MOSIX-H TPCA805 -H U-MOSVI-H TPCA8047 -H U-MOSVI-H TPCA8046 -H U-MOSVI-H TPCA8045 -H U-MOSVI-H TPH7R04 PL 7 () U-MOSIX-H TPH6R004 PL 87 () U-MOSIX-H 40 TPHR704 PL U-MOSIX-H TPHR704 PC 8 () U-MOSIX-H TPHR04 PL 80 () U-MOSIX-H TPHR04 PB 40 () U-MOSIX-H TPHR04 PL 46 () U-MOSIX-H (Continued on next page) TPHR8504 PL 40 () U-MOSIX-H (8A) (8A) (/5).45 Top View (8A) 4

4 (Single N-Channel) / N Note (): ID (DC) (Silicon Limit) VDSS VGSS ID (A) PD VGS = VGS = (W) 0 V 4.5 V Ciss Crss Coss Qg (nc) (Continued from previous page) TPHR805 PL 50 () U-MOSIX-H TPHR405 PL 45 () U-MOSIX-H TPHR005 PL 80 () U-MOSIX-H TPCA805 -H U-MOSVI-H TPCA8049 -H U-MOSVI-H TPH4006 NH 4 () U-MOSVIII-H TPCA8048 -H U-MOSVI-H TPH006 NL 40 () U-MOSVIII-H TPH7R506 NH 55 () U-MOSVIII-H TPH9R506 PL 68 () U-MOSIX-H TPH5R906 NH 60 7 () U-MOSVIII-H TPH7R006 PL 79 () U-MOSIX-H TPH4R606 NH 85 () U-MOSVIII-H (8A) TPHR06 NH 0 () U-MOSVIII-H TPHR506 PL 5 () U-MOSIX-H TPHR506 PL 60 () U-MOSIX-H SOP Advance TPHR06 PL 60 () U-MOSIX-H TPHR06 P * 60 () U-MOSIX-H TPHR608 NH () U-MOSVIII-H TPCA805 -H U-MOSVI-H TPH008 NH U-MOSVIII-H 5.0 TPH8R008 NH 6 () U-MOSVIII-H 5. TPH4R008 NH 00 () U-MOSVIII-H TPH400 ANH 4 () U-MOSVIII-H TPH8R80 ANH 59 () U-MOSVIII-H TPH6R0 ANL 66 () U-MOSVIII-H (8B) TPH4R0 ANL 00 9 () U-MOSVIII-H TPH4R50 ANH 9 () U-MOSVIII-H (8A) TPH5R60 APL * 06 () U-MOSIX-H (8B) TPHR70 APL * 50 () U-MOSIX-H TPH5900 CNH 8 () U-MOSVIII-H TPH00 CNH 50 9 () U-MOSVIII-H TPH500 CNH 50 () U-MOSVIII-H TPH0 ENH () U-MOSVIII-H TPH6400 ENH 00 () U-MOSVIII-H TPH900 ENH 6 () U-MOSVIII-H TPH00 FNH 0 () U-MOSVIII-H TPH0 FNH 50 5 () U-MOSVIII-H TPH500 FNH 7 () U-MOSVIII-H TPC8067 -H U-MOSVII-H TPC8066 -H U-MOSVII-H SOP-8 TPC8065 -H U-MOSVII-H TP89R0 NL U-MOSVIII-H TPC8064 -H U-MOSVII-H TPC806 -H U-MOSVII-H 0 TPC8055 -H U-MOSVII-H TPC8056 -H U-MOSVII-H TPC8057 -H U-MOSVII-H TPC8058 -H U-MOSVII-H TPC8059 -H U-MOSVII-H (Continued on next page) TPC806 -H U-MOSVII-H (8A) (8A) (/5).45.0 Top View (8A) (8B) 4 4 4

5 (Single N-Channel) / N VDSS VGSS ID (A) PD VGS = VGS = (W) 0 V 4.5 V Ciss Crss Coss Qg (nc) (Continued from previous page) TP86R0 NL 0 9 () U-MOSVIII-H SOP DPAK+ TPC8089 -H U-MOSVI-H TPC805 -H U-MOSVI-H TPC8047 -H U-MOSVI-H TPC8045 -H U-MOSVI-H TPC8046 -H U-MOSVI-H TPC805 -H U-MOSVI-H TPC8050 -H U-MOSVI-H 60 TPC8049 -H U-MOSVI-H TPC8048 -H U-MOSVI-H TPC805 -H U-MOSVI-H (8A) (4/5) TKS0N H U-MOSVIII-H (B) DPAK 6.6 TK40P0M U-MOSVI-H TK45P0M U-MOSVI-H TK50P0M U-MOSVI-H TK0P04M U-MOSVI-H TK40P04M U-MOSVI-H 40 TK50P04M U-MOSVI-H TKRP04 PL * 0 () U-MOSIX-H TK6R7P06 PL * 74 () U-MOSIX-H 60 TK4R4P06 PL * 06 () U-MOSIX-H TK0P0 PL * 60 () U-MOSIX-H 00 TK7R7P0 PL * 79 () U-MOSIX-H.7 (A) DPAK TK65G0N 00 6 () U-MOSVIII-H (A) TKRA04 PL U-MOSIX-H TO-0SIS TK0A06N 4 () U-MOSVIII-H 0.0 TK8RA06 PL U-MOSIX-H TK40A06N 60 () U-MOSVIII-H TK5RA06 PL * 6 () U-MOSIX-H 60 TK4RA06 PL U-MOSIX-H TKRA06 PL * 88 () U-MOSIX-H TK58A06N 05 () U-MOSVIII-H TK00A06N 6 () U-MOSVIII-H (Continued on next page) TK5A08N () U-MOSVIII-H Note (): ID (DC) (Silicon Limit) (A_I) (A) (A_I) (B) (8A) Source Source 4 Source 5

6 (Single N-Channel) / N Note (): ID (DC) (Silicon Limit) VDSS VGSS ID (A) PD VGS = VGS = (W) 0 V 4.5 V Ciss Crss Coss Qg (nc) (Continued from previous page) TK46A08N 80 () U-MOSVIII-H TK7A08N () U-MOSVIII-H TK00A08N 4 () U-MOSVIII-H TK0A0 PL * 4 () U-MOSIX-H TK7R4A0 PL * U-MOSIX-H TO-0SIS TKA0N 5 () U-MOSVIII-H 0.0 TK6R7A0 PL * U-MOSIX-H TK4A0N 75 () U-MOSVIII-H 00 TK4RA0 PL * 85 () U-MOSIX-H TK40A0N 90 () U-MOSVIII-H TKRA0 PL * 06 () U-MOSIX-H TK65A0N 48 () U-MOSVIII-H TK00A0N 07 () U-MOSVIII-H TO-0 TKAN 60 () U-MOSVIII-H TK4AN 88 () U-MOSVIII-H 0 TK56AN () U-MOSVIII-H TK7AN 79 () U-MOSVIII-H TKRE0 GL 0 47 () U-MOSVII-H TKRE04 PL 40 8 () U-MOSIX-H TK0E06N 4 () U-MOSVIII-H TK40E06N 60 () U-MOSVIII-H (A) TKRE06 PL * 60 () U-MOSIX-H TK8RE06 PL 75 () U-MOSIX-H 60 TK5RE06 PL * 98 () U-MOSIX-H (A_I) TK58E06N 05 () U-MOSVIII-H TK4RE06 PL 06 () U-MOSIX-H TK00E06N 6 () U-MOSVIII-H TK5E08N U-MOSVIII-H TK46E08N U-MOSVIII-H 80 TK7E08N 57 () U-MOSVIII-H (A) TK00E08N 4 () U-MOSVIII-H TKE0N U-MOSVIII-H TK0E0 PL * 64 () U-MOSIX-H TK4E0N U-MOSVIII-H TK40E0N U-MOSVIII-H TK7RE0 PL * 94 () U-MOSIX-H 00 TK6R4E0 PL * U-MOSIX-H (A_I) TK65E0N 48 () U-MOSVIII-H (A) TKR9E0 PL * 80 () U-MOSIX-H (A_I) TK00E0N 07 () U-MOSVIII-H (A) TKR9A0 PL * 40 () U-MOSIX-H (A_I) TKEN U-MOSVIII-H TK4EN U-MOSVIII-H 0 TK56EN () U-MOSVIII-H (A) TK7EN 79 () U-MOSVIII-H (A_I) (5/5) (A) (A_I) Source Source 6

7 (Dual Channel) / VDSS VGSS ID (A) PD VGS = VGS = (W) 0 V 4.5 V Ciss Crss Coss Qg (nc) PS TPCP805 -H () U-MOSVI-H (8AA).4.9 SOP-8 TPC84 -H U-MOSVII-H 0 TPC8 -H U-MOSVII-H TPC87 -H U-MOSVI-H (8AA) TPC88 -H U-MOSVI-H TPC89 -H U-MOSVI-H.7 Note (): Device mounted on a glass board. t = 5 seconds. / t = 5 Top View (8AA) 4 x (Built-in schottky Barrier Diode) / SBD VDSS VGSS ID (A) PD VGS = VGS = (W) 0 V 4.5 V Ciss Crss Coss Qg (nc) SOP Advance TPCA8A -H U-MOSVII-H TPCA8A0 -H U-MOSVII-H (8D) TPCA8A09 -H U-MOSVII-H.7.45 Top View (8D) 4 + SBD 7

8 Low On-Resistance / (Single N-Channel) / N VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) (/4).0 UDFN6B SSM6K504 NU U-MOSVII-H (6B) 0 SSM6K5 NU * U-MOSIX-H (6A) SSM6K54 NU * U-MOSIX-H SSM6K4 NU * U-MOSVIII-H SSM6K6 NU * U-MOSVIII-H (6B) 5 VS-8 TPCF () U-MOSIV.9.5 (8A_V).5.9 TPCF () U-MOSVII VS-6 TPC () U-MOSIV (6A) TPC () U-MOSVII PS-8.9 TSON Advance.. 5 Note (): Device mounted on a glass board. t = 5 seconds. / t = 5 (): ID (DC) (Silicon Limit) TPCP80 5 TPCP TPCP TPCP TPCP () U-MOSIV.96 () U-MOSIV.0 () U-MOSIV.96 () U-MOSIV.0 () U-MOSIV TPCC U-MOSVII TPCC U-MOSVII TPCC U-MOSVII TPN6R0 NC 4 () U-MOSVIII TPN4R0 NC 0 5 () U-MOSVIII TPNR50 NC 85 () U-MOSVIII TPNR0 NC 00 () U-MOSVIII TPCC U-MOSVII TPCC U-MOSVII (8B) (8A) (8B) Top View (6A) (6B) (8A) (8A_V) (8B)

9 (Single N-Channel) / N VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) (/4) SOP Advance SOP DPAK Note (): ID (DC) (Silicon Limit) TPCA U-MOSVII TPCA U-MOSVII TPCA U-MOSVII TPCA U-MOSVII TPCA U-MOSVII TPHR900 NC 0 () U-MOSVIII TPCA U-MOSVII TPCA U-MOSVII TPC U-MOSVII TPC U-MOSVII TPC U-MOSVII (8B) TPC U-MOSVII TPC U-MOSVII 0 TPC U-MOSVII TPC U-MOSVII TPC U-MOSVII (8B) TPC U-MOSVII TPC U-MOSVII TPC U-MOSVII (8B) TPC U-MOSVII (8A) TPC U-MOSVII (8B) TPC U-MOSVII (8A) TK8P5 DA π-mosvii TKP5 D π-mosvii (8A) (8A) (8A) (8A) (A) (A) (8A) (8B) 4 4 Source 9

10 (Single N-Channel) / N VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) (/4) DPAK+ 6.5 TK0S04K L U-MOSIV TK5S04N L U-MOSVIII-H TK0S04K L U-MOSIV TK5S04K L U-MOSIV (B) TK50S04K L U-MOSIV 40 TK65S04K L U-MOSIV TK65S04N L U-MOSVIII-H TK80S04K L U-MOSIV TK00S04N L U-MOSVIII-H TKR4S04 PB U-MOSIX-H (A) TK8S06K L U-MOSIV TK0S06K L U-MOSIV TK5S06N L U-MOSVIII-H TK0S06K L U-MOSIV (B) TK40S06N L U-MOSVIII-H TK45S06K L U-MOSIV TK60S06K L U-MOSIV TK80S06K L U-MOSIV TK90S06N L U-MOSVIII-H (A) TK7S0N Z U-MOSVIII-H TKS0N L * U-MOSVIII-H TKS0N L U-MOSVIII-H (B) 00 TKS0N Z U-MOSVIII-H TK40S0K Z U-MOSIV TK55S0N U-MOSVIII-H (A) (A) (B) Source Source 0

11 (Single N-Channel) / N VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) (4/4) TO-0SIS TK50A04K U-MOSIV (A_I) 40 TK80A04K L U-MOSIV (B_I) TK80A08K U-MOSIV TK9A0 DA π-mosvii TK5A0 D π-mosvii 00 TK0A0 D π-mosvii TK5A0 D π-mosvii TK8A5 DA π-mosvii (A_I) TKA5 D π-mosvii 50 TK7A5 D π-mosvii TK0A5 D π-mosvii TK8A0 D π-mosvii TO-0 TK8E0K U-MOSIV 5. (A).9.85 TKE5 D π-mosvii TO-P(N) 5.5 Heat Sink Anode Anode Cathode TK70J04K Z U-MOSIV 40 TK75J04K Z U-MOSIV SK L -π-mosv 60 TK70J06K U-MOSIV TK40J0 D π-mosvii 00 TK70J0 D π-mosvii TK0J5 D π-mosvii 50 TK60J5 D π-mosvii TK50J0 D π-mosvii (B) (A) (A) (A_I) (B) (B_I) Source Source Source Source

12 (Single P-Channel) / P VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) (/4) UDFN6B.0 5 VS-8.9 VS-6.9 PS SSM6J5 NU * SSM6J505 NU U-MOSVI Note (): Device mounted on a glass board. t = 5 seconds. / t = U-MOSVII SSM6J5 NU * U-MOSVII SSM6J50 NU U-MOSVI SSM6J50 NU U-MOSVI SSM6J50 NU U-MOSVI SSM6J507 NU * 0 +0/ 5 TPCF805 6 TPCF808 7 TPCF / 5 TPC U-MOSVI 6 TPC6 5.5 () U-MOSVI.5 () U-MOSVI.5 () U-MOSVI.8. () U-MOSVI. () U-MOSVI TPC () U-MOSV (6b) TPC / () U-MOSVI (6a) TPCP () U-MOSVI (8b) TPCP / () U-MOSVI (8a) TPCP809 TPCP807 TPCP8 TPCP / () U-MOSVI +0/ +0/ +0/ () U-MOSVI.96 () U-MOSVI.0 () U-MOSVI (6b) (8a_V) (6a) (8b) Top View (6a) (6b) (8a) (8a_V) (8b) Pch Pch Pch Pch Pch

13 (Single P-Channel) / P VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) (/4) TPCC U-MOSVI.. TSON Advance.. 5 TPCC U-MOSVI TPCC U-MOSVI TPN4R7 MD U-MOSVI TPCC8 +0/ U-MOSVI TPCC U-MOSV TPCC / U-MOSVI TPCC805 +0/ U-MOSVI (8a) SOP Advance TPHR7 MD U-MOSVI TPCA8 TPCA809 TPCA88 TPCA / 5 +0/ 5 +0/ 5 +0/ U-MOSVI U-MOSVI U-MOSVI U-MOSVI (8a) Top View (8a) 4 Pch

14 (Single P-Channel) / P (/4) VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) TPC89 +0/ U-MOSVI TPC85 +0/ U-MOSVI TPC8 +0/ U-MOSVI SOP-8 TPC86 TPC / U-MOSVI +0/ U-MOSVI TPC88 +0/ U-MOSVI (8a) TPC80 TPC84 +0/ 5 +0/ U-MOSVI U-MOSVI.7 TPC8 TPC / 5 +0/ U-MOSVI U-MOSVI TPC84 +0/ U-MOSVI TJ0S04M L +0/ U-MOSVI TJ0S04M L +0/ U-MOSVI TJ40S04M L 40 +0/ U-MOSVI DPAK TJ60S04M L TJ80S04M L TJ8S06M L TJ5S06M L TJ0S06M L 60 +0/ +0/ +0/ +0/ +0/ U-MOSVI U-MOSVI U-MOSVI U-MOSVI U-MOSVI (b) TJ50S06M L +0/ U-MOSVI TJ60S06M L +0/ U-MOSVI TJ5S0M 00 +0/ U-MOSVI (a) (a) (b) (8a) 4 Source Source Pch Pch Pch 4

15 (Single P-Channel) / P VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) (4/4) DPAK TJ5P04M U-MOSVI (a) TO-0SIS 0.0 TJ9A0M U-MOSVI (a_i).0.0 TJA0M U-MOSVI (a) (a_i) Source Source Pch Pch 5

16 (Dual Channel / Complementary) / / Polarity VDSS VGSS VGS = 0 V VGS = 6 V VGS =.5 V VGS =.8 V Ciss Crss Coss Qg (nc) VS-8 TPCF U-MOSVI.9.5 P-ch x (8aa).5.9 TPCF / U-MOSVI 5 N-ch x TPCP TPCP () U-MOSVII.48 () U-MOSIV (8AA) TPCP () U-MOSIV (8BB) TPCP () U-MOSV (8bb) PS-8 P-ch x TPCP806 4 TPCP () U-MOSVI.48 () U-MOSVI (8aa) N-ch + P-ch TPCP8404 TPCP8405 TPCP8407 TPCP / () U-MOSIV.48 () U-MOSV.48 () U-MOSVI-H.48 () U-MOSVI.77 () U-MOSIV.77 () U-MOSVI.48 () U-MOSVI-H.48 () U-MOSVI (8Aa) (8Bb) (8Aa) SOP N-ch + P-ch TPC8407 TPC U-MOSVII-H U-MOSVI U-MOSVI-H U-MOSVI (8Aa) Note (): Device mounted on a glass board. t = 5 seconds. / t = 5 Top View (8AA) (8BB) (8aa) (8bb) (8Aa) x x Pch x Pch x + Pch (8Bb) 4 + Pch 6

17 Small- / (Semi-Power Type : Single N-Channel) / : N (/) VDSS VGSS VGS = 0 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc).0 CST SOT SSMK56 CT U-MOSVII-H 0 SSMK56 ACT U-MOSVII-H (B_S) CSTB. 8 SSMK59 CTB * U-MOSVII-H (B_S) VESM SOT-7. SSMK56 MFV U-MOSVII-H (B_S) WCSP6C.5 SSM6K78 G * U-MOSVII-H (6A_W) 0.5 SSM SOT-46.6 SSMK56 FS * U-MOSVII-H (B_S) ES6 SOT-56 SSM6K04 FE U-MOSIII 0 SSM6K FE U-MOSIII SSM6K08 FE U-MOSIII 0 SSM6K0 FE U-MOSIII SSM6K7 FE U-MOSVII-H (6B).5 Top View (B_S) (6A_W) (6B) A B C 6 A B C 7

18 (Semi-Power Type : Single N-Channel) / : N (/) VDSS VGSS VGS = 0 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) UDFN6B SSM6K504 NU U-MOSVII-H (6B) 0 SSM6K5 NU * U-MOSIX-H (6A) SSM6K54 NU * U-MOSIX-H.0 5 SSM6K4 NU * U-MOSVIII-H (6B) SSM6K6 NU * U-MOSVIII-H SSMK6 TU * U-MOSVII-H (C_S) SSMK TU U-MOSIII 0 SSMK TU U-MOSIII UFM.0 UF6.0 SOT-F.9 TSOP6F SSMK TU U-MOSIII SSMK7 TU U-MOSIII SSMK6 TU U-MOSIII 0 SSMK9 TU U-MOSIII SSMK TU U-MOSIV (A_S) SSMK65 TU * π-mosv (C_S) 60 SSMK4 TU * U-MOSVIII-H (B_S) SSMK6 TU * U-MOSVIII-H SSM6K40 TU U-MOSIII SSM6K404 TU U-MOSIII SSM6K405 TU U-MOSIII SSM6K406 TU U-MOSIV SSM6K407 TU π-mosv SSMK44 R * U-MOSVII-H 0 SSMK45 R * U-MOSVI SSMK6 R * U-MOSVII-H SSMK9 R U-MOSIII SSMK4 R U-MOSVII-H SSMK R U-MOSVII-H (A_S) SSMK5 R U-MOSVII-H (B_S) SSMK7 R * U-MOSIV (ZC_) SSMK9 R * U-MOSVII-H (B_S) SSMK65 R SSMK8 R U-MOSIV (B_S) (6B) (B_S) π-mosv (C_S) SSMK4 R * U-MOSVIII-H SSMK6 R * U-MOSVIII-H SSM6K809 R ** U-MOSVIII-H (B_S) (6B) SSM6K80 R ** U-MOSVIII-H **: Under Development / Top View (A_S) (B_S) (C_S) (6A) (6B) (ZC_) ZD 8

19 (Semi-Power Type : Single P-Channel) / : P (/) VDSS VGSS VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) CSTC SSMJ64 CTC * U-MOSVII SSMJ65 CTC * U-MOSVII (c_s) CST SOT SSMJ56 ACT U-MOSVI (c_s) CSTB. 8 SSMJ46 CTB U-MOSVI (b_s) VESM SOT-7. SSMJ56 MFV U-MOSVI (b_s) WCSP6C.5 SSM6J77 G U-MOSVI (6a_W) ES6 SOT-56.6 UDFN6B SSM6J6 FE U-MOSVI SSM6J FE U-MOSVI SSM6J5 FE U-MOSVI SSM6J FE U-MOSVI SSM6J07 FE U-MOSII 0 SSM6J4 FE U-MOSVI SSM6J5 NU * U-MOSVII SSM6J505 NU U-MOSVI SSM6J5 NU * U-MOSVII SSM6J50 NU U-MOSVI SSM6J50 NU U-MOSVI SSM6J50 NU U-MOSVI SSM6J507 NU * 0 +0/ U-MOSVI (6b) (6b) Top View (b_s) (c_s) (6a_W) (6b) A B C 6 A B C Pch Pch Pch Pch 9

20 (Semi-Power Type : Single P-Channel) / : P (/) VDSS VGSS VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc).. UFM.0 UF6.0 USM SOT- SSMJ TU U-MOSVI SSMJ5 TU U-MOSVI SSMJ4 TU U-MOSVI SSMJ0 TU U-MOSVI SSMJ TU U-MOSVI SSM6J50 TU U-MOSIV SSM6J4 TU U-MOSVI SSM6J44 TU U-MOSVI SSM6J40 TU U-MOSII SSM6J40 TU U-MOSIII SSM6J40 TU U-MOSIII SSMJ TU U-MOSII (b_s) (6b) SSMJ8 TU U-MOSII (b_s).9 SSMJ7 TU U-MOSII.4.5 SOT-F.9 S-Mini SOT-46 SSMJ8 R U-MOSVII SSMJ7 R U-MOSVI SSMJ R U-MOSVI SSMJ8 R U-MOSVI SSMJ55 R * U-MOSVII SSMJ58 R * U-MOSVII SSMJ4 R SSMJ40 R U-MOSVI +0/ U-MOSVI SSMJ R U-MOSVI SSMJ56 R * SSMJ5 R * SSMJ5 F 60 +0/ U-MOSVI +0/ U-MOSVI U-MOSVI SSMJ5 F * U-MOSVI (b_s) (b_s) SSMJ5 F * 0 +0/ U-MOSVI.8. TSOP6F SSM6J80 R * +6/ U-MOSVI (6b).5.9 SSM6J808 R ** 40 +0/ U-MOSVI (6a) **: Under Development / Top View (b_s) (6a) (6b) 6 6 Pch Pch Pch 0

21 (Semi-Power Type: Dual Channel/Complementary) / : / Polarity VDSS VGSS VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) ES6 SOT-56 N-ch x SSM6N56 FE U-MOSVII-H (6BB) P-ch x SSM6P4 FE U-MOSV (6bb) N-ch + P-ch SSM6L4 FE U-MOSIII U-MOSV (6Cb).5.0 UDFN6 SOT-8 SSM6N6 NU * U-MOSVII-H SSM6N55 NU U-MOSVII-H N-ch x SSM6N57 NU U-MOSVII-H SSM6N58 NU U-MOSVII-H P-ch x SSM6P47 NU U-MOSVI SSM6P49 NU U-MOSVI (6BB) (6bb) UF6.0 N-ch + P-ch N-ch x P-ch x N-ch + P-ch SSM6L6 NU 0 4 SSM6L6 NU ** U-MOSVII-H U-MOSVI 48 () 80 () U-MOSVII-H U-MOSVII-H SSM6N6 TU U-MOSVII-H 0 SSM6N9 TU U-MOSIII SSM6N40 TU U-MOSIII SSM6P54 TU U-MOSIV SSM6P9 TU U-MOSIII SSM6P40 TU U-MOSIII SSM6L9 TU SSM6L TU U-MOSIII U-MOSIII U-MOSIII U-MOSIII (6Bb) (6Cc) (6BB) (6bb) (6Bb) (6Cc) SSM6L40 TU U-MOSIII U-MOSIII (6Bb) TSOP6F SSM6N8 R * U-MOSVIII-H (6CC).8. N-ch x SSM6N85 R * U-MOSVIII-H (6BB) **: Under Development / 6 Top View (6BB) (6CC) (6bb) (6Bb) (6Cc) (6Cb) Q Q Q Q Q Q Q Q Q Q Q Q x x Pch x + Pch + Pch + Pch

22 (Semi-Power Type: Built-in Diode) / : Polarity VDSS VGSS VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) UDFN6 SOT-8 N-ch + SBD SSM6H9 NU U-MOSVII-H (6SB) P-ch + SBD SSM6G8 NU U-MOSVI (6Sb). UFV.0 SSM5H08 TU U-MOSIII N-ch + SSM5H0 TU U-MOSIII SBD SSM5H TU U-MOSIII (5BS) SSM5H6 TU U-MOSIII SSM5G0 TU P-ch U-MOSII SBD SSM5G09 TU U-MOSIII SSM5G TU U-MOSIII (5bS) N-ch + Switching SSM5H90 ATU U-MOSVII-H (5BW) Diode Top View (5BS) (5bS) (5BW) (6SB) (6Sb) SBD Pch + SBD + Switching Diode + SBD Pch + SBD

23 (Semi-Power Type: Built-in Zener Diode) / : ZD Polarity VDSS VGSS VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) UFM..0 N-ch + Zener SSMH7 TU * U-MOSIV (ZC_).9 Top View (ZC_) + ZD

24 (Small-Signal Type: Single N-Channel) / : N (/) VDSS VGSS (Ω) VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc).0..6 CSTC CST SOT VESM SOT-7. SSM SOT SSMK6 CTC * U-MOSIII 0 SSMK5 CTC U-MOSIII (C_S) SSMK5 ACTC * U-MOSIII SSMK7 CTC * U-MOSVII-H SSMK6 CT π-mosvi SSMK5 CT π-mosvi SSMK7 CT U-MOSIII (C_S) SSMK5 ACT U-MOSIII SSMK7 KCT * U-MOSVII-H SSMK6 FV π-mosvi SSMK5 MFV π-mosvi SSMK5 AMFV * U-MOSIII (C_S) 0 SSMK7 MFV U-MOSIII SSMK6 MFV U-MOSIII SSMK56 MFV U-MOSVII-H (B_S) SSMK5 AMFV U-MOSIII 0 SSMK44 MFV π-mosvi (C_S) SSMK6 FS π-mosvi SSMK5 FS π-mosvi SSMK7 FS U-MOSIII (C_S) 0 SSMK5 AFS * U-MOSIII SSMK6 FS U-MOSIII SSMK56 FS U-MOSVII-H (B_S) SSMK5 AFS U-MOSIII 0 SSMK44 FS π-mosvi SSMK7 CFS * 0..7 U-MOSVII-H 60 SSMK7 KFS * U-MOSVII-H (C_S) Top View (B_S) (C_S) 4

25 (Small-Signal Type: Single N-Channel) / : N (/) VDSS VGSS (Ω) VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) ES6 SOT SSM6K4 FE U-MOSIII (6B) UFM. SSMK6 TU U-MOSIII (C_S).9.0. USM SOT- SSMK6 FU π-mosvi SSMK5 AFU U-MOSIII SSMK48 FU U-MOSIII SSMK09 FU π-mosvi SSMK7 FU π-mosv SSMK700 CFU * 0..7 U-MOSVII-H 60 SSMK700 KFU * U-MOSVII-H (C_S).9.0 SOT TN700 AK * U-MOSVII-H.4 60 (C_S).0.9 TN700 BK * U-MOSVII-H S-Mini SOT-46 SSMK5 F π-mosvi.5 (C_S) SSMK700 KF * U-MOSVII-H Top View (C_S) (6B) 6 5

26 (Small-Signal Type: Single P-Channel) / : P VDSS VGSS (Ω) VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) CSTC SSMJ5 CTC * U-MOSVII (c_s) CST SOT SSMJ5 CT π-mosvi SSMJ5 CT π-mosvi (c_s) VESM SOT-7. SSM SOT-46.6 UFM 5 SSMJ6 FV π-mosvi SSMJ5 MFV π-mosvi (c_s) SSMJ5 AMFV * U-MOSVII SSMJ56 MFV U-MOSVI (b_s) SSMJ5 FV π-mosvi (c_s) SSMJ5 FS π-mosvi SSMJ5 AFS * U-MOSVII (c_s) SSMJ6 FS U-MOSIII SSMJ5 FS π-mosvi SSMJ6 TU U-MOSIII (c_s).9.0 USM SOT- SSMJ6 FU π-mosvi. S-Mini SOT-46 SSMJ5 FU π-mosvi 0 SSMJ09 FU π-mosvi SSMJ5 F π-mosvi (c_s) (c_s).9.5 SJ SSMJ68 F * 60 (b_s) +0/ U-MOSVI Top View (b_s) (c_s) Pch Pch 6

27 (Small-Signal Type: Dual Channel/Complementary) / : / (/) Polarity VDSS VGSS (Ω) VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc).6 ESV SOT-55 N-ch x SSM5N6 FE π-mosvi SSM5N5 FE π-mosvi (5CC) ES6 SOT P-ch x SSM5P6 FE π-mosvi (5cc) SSM6N6 FE π-mosvi SSM6N5 FE π-mosvi SSM6N5 AFE * U-MOSIII 0 SSM6N7 FE U-MOSIII N-ch x SSM6N6 FE U-MOSIII SSM6N56 FE * U-MOSVII-H (6BB) SSM6N5 AFE U-MOSIII 0 SSM6N44 FE π-mosvi SSM6N700 BFE U-MOSIV SSM6P5 AFE * U-MOSVII P-ch x SSM6P6 FE U-MOSIII N-ch + P-ch SSM6P5 FE π-mosvi SSM6P5 FE π-mosvi SSM6L5 FE SSM6L6 FE π-mosvi π-mosvi U-MOSIII U-MOSIII (6CC) (6CC) (6cc) (6Cc) USV SOT-5 N-ch x SSM5N6 FU π-mosvi SSM5N5 FU π-mosvi (5CC).9 P-ch x SSM5P5 FU π-mosvi (5cc) Top View (5CC) (5cc) (6BB) (6CC) (6cc) Q Q Q Q Q Q Q Q Q Q x Pch x x x x (6Cc) 6 Q Q + Pch 7

28 (Small-Signal Type: Dual Channel/Complementary) / : / (/) Polarity VDSS VGSS (Ω) VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc).. UF6.0 US6 SOT-6 N-ch x SSM6N6 TU U-MOSIII (6CC) 0 SSM6N6 TU U-MOSVII-H (6BB) SSM6N4 TU U-MOSIII P-ch x SSM6P6 TU U-MOSIII (6cc) U-MOSIII SSM6L TU N-ch U-MOSIII P-ch U-MOSIII SSM6L6 TU U-MOSIII (6Cc) SSM6N6 FU π-mosvi SSM6N5 FU π-mosvi SSM6N5 AFU * U-MOSIII SSM6N7 FU U-MOSIII SSM6N4 FU π-mosvi SSM6N5 AFU U-MOSIII N-ch x (6CC) SSM6N44 FU π-mosvi 0 SSM6N48 FU U-MOSIII SSM6N09 FU π-mosvi SSM6N7 FU π-mosv SSM6N700 CFU * U-MOSVII-H 60 SSM6N700 KFU * U-MOSVII-H SSM6P5 FU π-mosvi P-ch x SSM6P5 AFU * U-MOSVII (6cc) N-ch + P-ch SSM6P5 FU π-mosvi SSM6L09 FU SSM6L5 FU π-mosvi π-mosvi π-mosvi π-mosvi (6Cc) Top View (6BB) (6CC) (6cc) (6Cc) Q Q Q Q Q Q Q Q x x x x Pch 8

29 Mid-High Voltage MOSFETs / MOSFET DTMOS / DTMOS (Single N-Channel) / N (/5) DFN8x DPAK TK0V60 W VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) DTMOSIV TKV60 W DTMOSIV TK6V60 W DTMOSIV TK6V60W DTMOSIV(HSD) TK0V60 W DTMOSIV TK0V60W DTMOSIV(HSD) TK5V60 X DTMOSIV-H TK5V60X DTMOSIV-H(HSD) TKV60 W DTMOSIV TKV60W DTMOSIV(HSD) TKV60 X DTMOSIV-H TK4V65 W DTMOSIV TK7V65 W DTMOSIV TKV65X DTMOSIV-H(HSD) TK8V65 W DTMOSIV TK8V65W DTMOSIV(HSD) TK0P50 W DTMOSIV 500 TKP50 W DTMOSIV TK5P60W DTMOSIV(HSD) TK5P60 W DTMOSIV TK6P60 W DTMOSIV TK560P60 Y DTMOSV TK7P60 W DTMOSIV TK7P60W DTMOSIV(HSD) 600 TK8P60 W DTMOSIV TK8P60W DTMOSIV(HSD) TK0P60 W DTMOSIV TK80P60 Y DTMOSV TKP60 W DTMOSIV TK90P60 Y DTMOSV TK5P65 W DTMOSIV TK6P65 W DTMOSIV TK7P65 W DTMOSIV TK560P65 Y DTMOSV TK8P65 W DTMOSIV TK9P65 W DTMOSIV TK80P65 Y DTMOSV TKP65 W DTMOSIV TK90P65 Y DTMOSV (5A) (A) (A) (5A) * 5 Source Source Source,4 (*) Notice : Please use the source pin for gate input signal return. Make sure that the main current flows into the source pins. (*) 9

30 (Single N-Channel) / N DPAK 0.5 IPAK 6.65 TO-0SIS TK6G60 W VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) DTMOSIV TK6G60W DTMOSIV(HSD) TK0G60 W DTMOSIV TK4G65 W DTMOSIV 650 TK4G65W DTMOSIV(HSD) TK5Q60 W DTMOSIV TK6Q60 W DTMOSIV TK7Q60 W DTMOSIV 600 TK8Q60 W DTMOSIV TK0Q60 W DTMOSIV TKQ60 W DTMOSIV TK5Q65 W DTMOSIV TK6Q65 W DTMOSIV TK7Q65 W DTMOSIV 650 TK8Q65 W DTMOSIV TK9Q65 W DTMOSIV TKQ65 W DTMOSIV TK0A50 W DTMOSIV TKA50 W DTMOSIV TK9A50 W DTMOSIV TK5A60W DTMOSIV(HSD) TK5A60 W DTMOSIV TK6A60 W DTMOSIV TK560A60 Y DTMOSV TK7A60 W DTMOSIV TK7A60W DTMOSIV(HSD) TK8A60 W DTMOSIV TK8A60W DTMOSIV(HSD) TK0A60 W DTMOSIV TK0A60W DTMOSIV(HSD) TK80A60 Y DTMOSV TKA60 W DTMOSIV TK90A60 Y DTMOSV TK6A60 W DTMOSIV TK6A60W DTMOSIV(HSD) TK0A60 W DTMOSIV TK0A60W DTMOSIV(HSD) TK5A60 X DTMOSIV-H TK5A60X DTMOSIV-H(HSD) TKA60 W DTMOSIV (Continued on next page) TK9A60 W DTMOSIV (A) (A) (A_I) (/5) (A) (A_I) Source Source 0

31 (Single N-Channel) / N (/5) (Continued from previous page) TO-0SIS TO-0 TK5A65 W VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) DTMOSIV TK6A65 W DTMOSIV TK7A65 W DTMOSIV TK560A65 Y DTMOSV TK8A65 W DTMOSIV TK9A65 W DTMOSIV TK80A65 Y DTMOSV TKA65 W DTMOSIV TK90A65 Y DTMOSV 650 TK4A65 W DTMOSIV TK4A65W DTMOSIV(HSD) TK7A65 W DTMOSIV TK7A65W DTMOSIV(HSD) TKA65 X DTMOSIV-H TKA65X DTMOSIV-H(HSD) TK8A65 W DTMOSIV TK5A65 W DTMOSIV TK5A65W DTMOSIV(HSD) TK7A80 W DTMOSIV TK0A80 W DTMOSIV 800 TKA80 W DTMOSIV TK7A80 W DTMOSIV TK0E60 W DTMOSIV TKE60 W DTMOSIV TK6E60 W DTMOSIV TK6E60W DTMOSIV(HSD) TK0E60 W DTMOSIV 600 TK0E60W DTMOSIV(HSD) TK5E60 X DTMOSIV-H TK5E60X DTMOSIV-H(HSD) TKE60 W DTMOSIV TKE60 X DTMOSIV-H TK4E65 W DTMOSIV TK4E65W DTMOSIV(HSD) 650 TK7E65 W DTMOSIV TK8E65 W DTMOSIV TK7E80 W DTMOSIV TK0E80 W DTMOSIV 800 TKE80 W DTMOSIV TK7E80 W DTMOSIV (A_I) (A) (A) (A_I) Source Source

32 (Single N-Channel) / N (4/5) TO-P(N) 5.5 Anode Anode Cathode 0.07 TO Heat Sink TKJ60 W VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) DTMOSIV TK6J60 W DTMOSIV TK6J60W DTMOSIV(HSD) TK0J60 W DTMOSIV TK0J60W DTMOSIV(HSD) TKJ60 W DTMOSIV TKJ60W DTMOSIV(HSD) TK9J60 W DTMOSIV TK9J60W DTMOSIV(HSD) TK6J60 W DTMOSIV TK6J60W DTMOSIV(HSD) TK6N60 W DTMOSIV TK6N60W DTMOSIV(HSD) TK0N60 W DTMOSIV TK0N60W DTMOSIV(HSD) TK5N60 X DTMOSIV-H TK5N60X DTMOSIV-H(HSD) TKN60 W DTMOSIV TKN60W DTMOSIV(HSD) TKN60 X DTMOSIV-H TK9N60 W DTMOSIV TK9N60W DTMOSIV(HSD) TK9N60 X DTMOSIV-H TK6N60 W DTMOSIV TK6N60W DTMOSIV(HSD) TK6N60 X DTMOSIV-H TK4N65 W DTMOSIV TK4N65W DTMOSIV(HSD) TK7N65 W DTMOSIV TK8N65 W DTMOSIV TK8N65W DTMOSIV(HSD) 650 TK5N65 W DTMOSIV TK5N65W DTMOSIV(HSD) TK49N65 W DTMOSIV TK49N65W DTMOSIV(HSD) TK040N65 Z * DTMOSVI (A) (A) (A) Source

33 (Single N-Channel) / N (5/5) VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) TO-47-4L 5.94 TK5Z60 X DTMOSIV-H TKZ60 X DTMOSIV-H 600 (4A) TK9Z60 X DTMOSIV-H TK6Z60 X DTMOSIV-H TO-P(L) TK00L60 W DTMOSIV (A) (A) (4A) * 4 Source Source Source (*) Notice : Please use the source pin for gate input signal return. Make sure that the main current flows into the source pins. (*)

34 π-mos / π-mos (Single N-Channel) / N (/4) VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) New PW-Mold TK5P50D π-mosvii (HSD) TKP60 D π-mosvii (A) TKP90 A π-mosiv (B) TKP50 D π-mosvii DPAK TK4P50 D π-mosvii 500 TK5P50 D π-mosvii TK7P50 D π-mosvii TK5P5 D π-mosvii 55 TK6P5 D π-mosvii TK4P55 DA π-mosvii 550 TK4P55 D π-mosvii TK4P60 DA π-mosvii TK4P60 DB π-mosvii TK4P60 D π-mosvii TKP80 E π-mosviii TKP90 E π-mosviii (A) New PW-Mold 6.5 TKQ60 D π-mosvii 600 (A) 7.0 TK4Q60 DA π-mosvii TKQ90 A π-mosiv (B) (A) (B) Source Source 4

35 (Single N-Channel) / N TO-0SIS TK5A45 DA VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) π-mosvii TK6A45 DA π-mosvii TK7A45 DA π-mosvii TK8A45 D π-mosvii TK9A45 D π-mosvii TKA45 D π-mosvii TKA45 D π-mosvii TKA45 D π-mosvii TK9A45 D π-mosvii TK4A50 D π-mosvii TK5A50 D π-mosvii TK5A50D π-mosvii (HSD) TK6A50 D π-mosvii TK7A50 D π-mosvii TK7A50D π-mosvii (HSD) TK8A50 DA π-mosvii TK8A50 D π-mosvii 500 TK0A50 D π-mosvii TKA50 D π-mosvii TKA50 D π-mosvii TKA50D π-mosvii (HSD) TKA50 DA π-mosvii TKA50 D π-mosvii TK5A50 D π-mosvii TK8A50 D π-mosvii TK4A5 D π-mosvii TK5A5 D π-mosvii 55 TK6A5 D π-mosvii TKA5 D π-mosvii TK4A55 DA π-mosvii TK4A55 D π-mosvii TK5A55 D π-mosvii TK6A55 DA π-mosvii TK7A55 D π-mosvii TK8A55 DA π-mosvii TK9A55 DA π-mosvii TK0A55 D π-mosvii TKA55 D π-mosvii TKA55 D π-mosvii TKA55 DA π-mosvii TK4A55 D π-mosvii (Continued on next page) TK6A55 D π-mosvii (A_I) (/4) (A_I) Source 5

36 (Single N-Channel) / N (/4) (Continued from previous page) TK4KA60 F ** TO-0SIS VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) π-mosix TKA60 DA π-mosvii TK4A60 DA π-mosvii TKKA60 F ** π-mosix TK4A60 DB π-mosvii TKK9A60 F * π-mosix TK4A60 D π-mosvii TKK7A60 F ** π-mosix TK5A60 D π-mosvii TK6A60 D π-mosvii TKKA60 F * π-mosix 600 TK8A60 DA π-mosvii TKK0A60 F ** π-mosix TK9A60 D π-mosvii TK0A60 D π-mosvii TK0A60D π-mosvii (HSD) TK750A60 F * π-mosix TKA60 D π-mosvii TK650A60 F * π-mosix TKA60 D π-mosvii TKA60 D π-mosvii TK5A60 D π-mosvii TKA65 D π-mosvii TKA65 DA π-mosvii TKA65 D π-mosvii TK4A65 DA π-mosvii TK5A65 DA π-mosvii TK5A65 D π-mosvii 650 TK6A65 D π-mosvii TK7A65 D π-mosvii TK8A65 D π-mosvii TKA65 D π-mosvii TKA65 D π-mosvii TKA65 D π-mosvii TK4A80 E π-mosviii TK5A80 E π-mosviii SK π-mosiv (B_I) TK6A80 E π-mosviii (Continued on next page) TK0A80 E π-mosviii (A_I) (A_I) **: Under Development / (A_I) (B_I) Source Source 6

37 (Single N-Channel) / N (4/4) (Continued from previous page) TO-0SIS TO-P(N) 5.5 Heat Sink Anode Anode Cathode SK566 VDSS VGSS ID (A) PD (W) RDS(ON) max (Ω) VGS = 0 V Ciss Crss Coss Qg (nc) SK π-mosiv π-mosiv (B_I) TKA90 E π-mosviii (A_I) SK π-mosiv SK π-mosiv TK5A90 E π-mosviii (A_I) SK π-mosiv SK π-mosiv TK7A90 E π-mosviii (A_I) SK π-mosiv (B_I) TK9A90 E π-mosviii (A_I) TK5J50 D π-mosvii 500 TK0J50 D π-mosvii TKJ55 D π-mosvii TK6J55 D π-mosvii TK9J55 D π-mosvii SK π-mosiv (B_I) 800 TK0J80 E π-mosviii (A) SK π-mosiv SK π-mosiv TK7J90 E π-mosviii TK9J90 E π-mosviii SK π-mosiv (B_I) (B_I) (B_I) (A) (B_I) (A) (A) (A_I) (B_I) Source Source Source 7

38 Automotive MOSFETs / MOSFET Automotive Power MOSFETs / MOSFET (Single N-Channel) / N DPAK VDSS VGSS ID (A) PD (W) Tch ( C) VGS = 0 V VGS = 6 V VGS = 4.5 V Ciss Crss Coss Qg (nc) TK5S04N L U-MOSVIII-H TK5S04K L U-MOSIV TK65S04N L U-MOSVIII-H TK00S04N L U-MOSVIII-H TKR4S04 PB U-MOSIX-H TK8S06K L U-MOSIV TK0S06K L U-MOSIV TK5S06N L U-MOSVIII-H TK0S06K L U-MOSIV TK40S06N L U-MOSVIII-H TK60S06K L U-MOSIV TK90S06N L U-MOSVIII-H (A) TK7S0N Z U-MOSVIII-H TKS0N L * U-MOSVIII-H TKS0N L U-MOSVIII-H 00 TKS0N Z U-MOSVIII-H TK55S0N U-MOSVIII-H TK60S0N L U-MOSVIII-H (B) (A) (B) (B) (A) (A) (B) Source Source 8

39 (Single P-Channel) / P DPAK TJ0S04M L TJ0S04M L TJ40S04M L TJ60S04M L TJ80S04M L TJ90S04M L TJ8S06M L TJ5S06M L TJ0S06M L TJ50S06M L TJ60S06M L TJ5S0M VDSS VGSS +0/ +0/ +0/ +0/ +0/ +0/ +0/ +0/ +0/ +0/ +0/ +0/ ID (A) PD (W) Tch ( C) VGS = 0 V VGS = 6 V VGS = 4.5 V Ciss Crss Coss Qg (nc) U-MOSVI U-MOSVI U-MOSVI U-MOSVI U-MOSVI U-MOSVI (a) U-MOSVI U-MOSVI U-MOSVI U-MOSVI U-MOSVI U-MOSVI (a) (b) (b) (a) (b) Source Source Pch Pch 9

40 Automotive Small- / (Single N-Channel) / N (/) VDSS VGSS Tch ( C) VGS = 0 V VGS = 6 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc). VESM SOT-7 SSMK5 MFV π-mosvi (C_S) 0 SSMK56 MFV U-MOSVII-H (B_S).5 5. SSMK44 MFV π-mosvi (C_S) 5.6 SSM SOT SSMK5 FS π-mosvi (C_S) 0 SSMK56 FS U-MOSVII-H (B_S) SSMK44 FS π-mosvi SSMK7 KFS * U-MOSVII-H (C_S).4 UDFN6B UFM.0 SSM6K504 NU U-MOSVII-H (6B) SSMK6 TU * U-MOSVII-H (C_S) SSMK TU U-MOSIII 0 SSMK TU U-MOSIII SSMK TU U-MOSIII SSMK7 TU U-MOSIII SSMK6 TU U-MOSIII SSMK TU U-MOSIV (A_S) SSMK65 TU * π-mosv (C_S) 60 SSMK4 TU * U-MOSVIII-H (B_S) SSMK6 TU * U-MOSVIII-H (B_S) USM SOT- SSMK5 FU π-mosvi.0. (C_S).9 SSMK700 KFU * U-MOSVII-H. UF6.0 SSM6K404 TU U-MOSIII 0 SSM6K40 TU U-MOSIII SSM6K406 TU U-MOSIV SSM6K407 TU π-mosv (6B).9 5 Top View (A_S) (B_S) (C_S) (6B) 6 40

41 (Single N-Channel) / N (/) VDSS VGSS Tch ( C) VGS = 0 V VGS = 6 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) SSMK6 R * U-MOSVII-H.4 SOT-F.9 S-Mini SOT-46 SSMK9 R U-MOSIII SSMK76 R 0 +/ U-MOSVII-H SSMK R U-MOSVII-H (A_S) SSMK5 R U-MOSVII-H (B_S) SSMK65 R SSMK8 R U-MOSIV (B_S) π-mosv (C_S) SSMK4 R * U-MOSVIII-H SSMK6 R * U-MOSVIII-H (C_S) SSMK5 F π-mosvi (B_S) (C_S) SSMK700 KF * U-MOSVII-H.8.4 PS-8.9 TPCP () TPCP () TPCP () TPCP () 60 TPCP () U-MOSIV U-MOSIV U-MOSIV U-MOSIV U-MOSIV (8B).4 SOP Advance (WF) TPH4R04 NC U-MOSVIII-H TPHR04 PB * U-MOSIX-H (8B) TPHR7904 PB * U-MOSIX-H.7.45 Note (): Device mounted on a glass board. t = 5 seconds. / t = 5 Top View (A_S) (B_S) (C_S) (8B) 4 4

42 (Single P-Channel) / P (/) VDSS VGSS Tch ( C) VGS = 0 V VGS = 6 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc). VESM SOT-7. SSMJ5 MFV SSMJ66 MFV π-mosvi (c_s) +6/ U-MOSVI (b_s) SSMJ6 MFV U-MOSIII SSMJ5 FV π-mosvi (c_s) SSM SOT-46 SSMJ5 FS π-mosvi SSMJ6 FS U-MOSIII (c_s) SSMJ5 FS π-mosvi. UFM.0 SSMJ45 TU SSMJ44 TU SSMJ40 TU SSMJ4 TU SSMJ TU +6/ 8 +6/ 8 +6/ 8 +6/ U-MOSVI U-MOSVI U-MOSVI U-MOSVI U-MOSII (b_s).9 USM SOT- SSMJ8 TU U-MOSII SSMJ7 TU U-MOSII SSMJ6 TU U-MOSIII.0. (c_s).9 SSMJ5 FU π-mosvi SSM6J50 TU U-MOSIV. UF6.0 SSM6J44 TU SSM6J4 TU SSM6J40 TU +6/ 8 +6/ U-MOSVI U-MOSVI U-MOSII SSM6J40 TU U-MOSIII (6b).9 5 SSM6J40 TU U-MOSIII Top View (b_s) (c_s) (6b) 6 Pch Pch Pch 4

43 (Single P-Channel) / P (/) VDSS VGSS Tch ( C) VGS = 0 V VGS = 6 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc).4 SOT-F.9 SSMJ77 R SSMJ7 R SSMJ78 R SSMJ74 R SSMJ7 R SSMJ56 R * SSMJ5 R * / 8 +6/ 8 +6/ U-MOSVI U-MOSVI U-MOSVI +0/ U-MOSVI +6/ U-MOSVI +0/ U-MOSVI +0/ U-MOSVI (b_s). 0.9 S-Mini SOT-46 SSMJ75 F +6/ U-MOSVI (b_s).5 SSMJ5 F π-mosvi (c_s) PS-8.9 SSMJ68 F * 60 +0/ U-MOSVI (b_s) TPCP809 TPCP807 TPCP8 TPCP80 Note (): Device mounted on a glass board. t = 5 seconds. / t = / () U-MOSVI +0/ +0/ +0/ 8.0 () U-MOSVI.96 () U-MOSVI 5.0 () U-MOSVI (8b).4 Top View (b_s) (c_s) (8b) 4 Pch Pch Pch 4

44 (Dual Channel/Complementary) / / (/) Polarity VDSS VGSS Tch ( C) VGS = 0 V VGS = 6 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc).6 ES6 SOT SSM6N5 FE π-mosvi (6CC) 0 N-ch x SSM6N56 FE U-MOSVII-H (6BB) SSM6N44 FE π-mosvi (6CC) SSM6P5 FE π-mosvi P-ch x SSM6P6 FE U-MOSIII (6cc) N-ch + P-ch SSM6P5 FE π-mosvi SSM6L5 FE SSM6L6 FE π-mosvi π-mosvi U-MOSIII U-MOSIII (6Cc) UDFN6 SOT UF6.0 SSM6N6 NU * U-MOSVII-H SSM6N55 NU N-ch x SSM6N67 NU SSM6N68 NU U-MOSVII-H +/ 8 +/ 8 P-ch x SSM6P69 NU +6/ U-MOSVII-H U-MOSVII-H (6BB) U-MOSVI (6bb) SSM6N6 TU U-MOSVII-H 0 SSM6N9 TU U-MOSIII N-ch x SSM6N4 TU U-MOSIII 0 SSM6N40 TU U-MOSIII SSM6P54 TU U-MOSIV P-ch x SSM6P9 TU U-MOSIII (6bb) N-ch + P-ch SSM6P40 TU U-MOSIII SSM6L TU SSM6L9 TU SSM6L40 TU U-MOSIII U-MOSIII U-MOSIII U-MOSIII U-MOSIII U-MOSIII (6BB) (6Cc) (6Bb) Top View (6BB) (6CC) (6bb) (6cc) (6Bb) (6Cc) Q Q Q Q Q Q Q Q Q Q Q Q x x Pch x Pch x + Pch + Pch 44

45 (Dual Channel/Complementary) / / (/) Polarity VDSS VGSS Tch ( C) VGS = 0 V VGS = 6 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc)..8.4 US6 SOT-6 PS-8.9 TSOP6F SSM6N5 FU π-mosvi 0 SSM6N4 FU π-mosvi N-ch x SSM6N44 FU π-mosvi SSM6N700 KFU * U-MOSVII-H P-ch x SSM6P6 TU U-MOSIII N-ch + P-ch SSM6P5 FU π-mosvi SSM6P5 FU π-mosvi SSM6L5 FU SSM6L6 TU N-ch x TPCP N-ch + P-ch TPCP π-mosvi π-mosvi U-MOSIII U-MOSIII / (6CC) (6cc) (6Cc).77 () U-MOSIV (8BB).77 () U-MOSIV 4.77 () U-MOSVI SSM6N57 R * π-mosv (6DD) (8Bb) N-ch x.9 SSM6N8 R U-MOSVIII-H (6CC) Note (): Device mounted on a glass board. t = 5 seconds. / t = 5 6 Top View (6CC) (6cc) (6Cc) (6DD) (8BB) 6 6 Q Q Q Q Q Q 4 x Pch x + Pch x x (8Bb) 4 + Pch 45

46 (Semi-Power Type: Built-in Zener Diode) / : ZD Polarity VDSS VGSS Tch ( C) VGS = 0 V VGS = 6 V VGS = 4 V VGS =.5 V VGS =.8 V VGS =.5 V Ciss Crss Coss Qg (nc) UFM..0 N-ch + Zener SSMH7 TU * U-MOSIV (ZC_).9 SOT-F SSMK7 R * U-MOSIV (ZC_).4 N-ch + Zener SSMK47 R * U-MOSIV (ZC_) SSMK57 R π-mosv (ZC_4) PS N-ch + Zener TPCP8R π-mosv (8ZB).4.9 Top View (ZC_) (ZC_) (ZC_) (ZC_4) (8ZB) 4 + ZD + ZD + ZD + ZD + ZD 46

47 Junction FETs / FET (Single Type) / Classification General-purpose VGDS IG(mA) Yfs (ms) S-MINI (SC-59) USM (SC-70) IDSS(mA) Max Max Min Pch Pch to 6.5. SK08 SK to 4 4 SK09 SK880 (Dual Type) / Classification VGDS IG(mA) IDSS(mA) Yfs (ms) Min SMV USV x Pch x x Pch x General-purpose to 4 4 SK45 SK0 Q Q Lineup / S-MINI (SC-59) USM (SC-70).9.0 SMV.9 USV SiC MOSFETs / SiC MOSFET SiC MOSFETs / SiC MOSFET Circuit Configuration VDS Absolute Maximum ratings ID (A) Typ. Electrical Characteristics (Ta = 5 C) RDS(ON) Qg (nc) TO-P(N) 5.5 Heat Sink Source Single 00 (6) 70 (0) (6) (50) TW070J0B ** VGS ID (A) **: Under development / 47

48 Radio-Frequency MOSFETs / MOSFET Radio-Frequency Small-Signal MOSFETs / MOSFET Applications VDS Electrical Characteristics (Ta = 5 C) ID (ma) PD (mw) IDSS (ma) Yfs (ms) Typ. Marking Equivalent Product (Leaded Type) SK9 SMQ.9 UHF-band radio-frequency amps to 0. 6 UF.9.5 SK9 VHF/UHF-band radiofrequency amps to 0..5 UV SK9 USQ.0 UHF-band radio-frequency amps to 0. 6 UF SK94..5 VHF/UHF-band radiofrequency amps to 0..5 UV Radio-Frequency Power MOSFETs / MOSFET Applications (Ta = 5 C) VDSS PD (W) ID (A) Min VDS Po (W) Test Conditions RFM08U9 X PW-X SK075 PW-X SK074 PW-MINI RFMU7 X PW-X RFM07U7 X PW-X UHF/VHF Professional radios to 50 RFM06U X * PW-X RFM0U7 P PW-MINI SK476 PW-X SK475 PW-MINI RFM04U6P PW-MINI GMRS SK407 PW-X SK854 PW-MINI UHF and VHF radio SK079 A PW-X SK756 PW-MINI FRS/GMRS SK078 A PW-MINI f (MHz) SK078 PW-MINI SK077 USQ Driver RFM0U P PW-MINI GMRS RFM00U7 U USQ Driver Pi (W) *: New product / 48

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