NPN GENERAL PURPOSE TABLE 1 NPN SILICON PLANAR GENERAL PURPOSE TRANSISTORS The devices shown in this table are general purpose transistors designed for smalland medium signal amplification from d.c. to radio frequencies. Typical application areas include: AUDIO FREQUENCY AMPLIFIERS, DRIVERS and OUTPUT STAGES, OSCILLATORS, and GENERAL PURPOSE SWITCHES. The transistors are listed in order of decreasing breakdown voltages (Vcgo and Vceg), then in order of decreasing collector current (I<), power dissipation (Prot) etc. Max Vee(sat) hee Min fy Prot Max at at at at c ' Type Vv, V, I Tamb omplement cB) CEO! UC tc | tp |Min|Max| Ic le |(=35C Vv Vie{[mA;y V [mA] mA mA |MHz) mA | mW ZTX453 120} 100 /1000} 0-71150)] 15 | 40 | 200; 150/150) 50 | 1000 _ ZTX452 100}; 80 |1000) 0-7/150] 15 | 40 | 150/150}150] 50 | 1000 _ MPSAO6 80 | 80 |500/0-25) 100] 10 | 50 | - | 100;100} 10 | 750 MPSA56 BC546P 80 | 65 |200/0-25) 10 |0-5} 75 | 200) 2 |300*/ 10 | 500 BC556P ZTX451 80 | 60 {1000/0 -35) 150; 15 | 50 |} 150) 150/150) 50 | 1000 | ZTX551 BFS61 80 | 60 |1000/0 35) 150} 15 | 40 | 160) 150)150) 50 | 500 BFS98 MPS2222A| 75 | 45 | 800)1-0); 500} 50 | 100/] 300; 150! 300] 20 | 500 MPS2907A ZTX304 70 | 70 |500/0-35; 50} 5 |} 50 | 300} 10 1150) 10 | 300 ZTX504 MPSAO05 60 | 60 | 500)0-25| 100} 10 | 50 | |100;100) 10 | 750 _ BCY65EP 60 | 60 |100/0-35] 10 /0-25}120) 460; 2 |125] 10 |1000;| BCY77P BC182P 60 | 50 | 200/0-25| 10 |}0-5)100} 480! 2 ;150) 10 | 300 BC212P ZTX107 60 | 50 }100)/0-1*; 10] 1 |125}500!] 2 1350*| 10 | 300 ZTX212 ZTX450 60 | 45 |1000/0-25) 150] 15 | 100} 300} 150/150] 50 | 1000 | ZTX550 MPS6565 60 | 45 |200/0:4| 10} 1 40 |160] 10 | - | |} 500 _ MPS6566 60 | 45 | 200;0-4) 10] 1 |100; 400) 10} - | | 500 _ BrS6O 60 | 40 |1000/0 25) 150} 15 | 100] 300| 150/150] 50 | 500 ort o3 z1X4401 60 | 40 | 600) 0-4/ 150] 15 | 100] 300} 150] 250) 20 |} 500 Z1X4403 N44 * 7TX4400 60 | 40 | 600) 0-4;150| 15 | 50 1150] 150) 200] 20 | 500 2TX4402 MPS6531 60 | 40 |600;0-3/100}] 10 | 90 | 270| 100/390; 50 | 500 MPS6534 M Pee 60 | 40 | 600)0-5|100! 10 | 40 | 120/100] 390] 50 | 500 fr M Pee 88 N 4 4 2N 6 Z1X3904 60 | 40 | 200/0-2/ 10 | 1 | 100; 300] 10 | 300] 10} 500 \21x3906 7TX3903 60 | 40 |200/0-2; 10] 1 50 | 150] 10 | 250] 10 | 500 2TX3905 BFS59 60 | 30 |1000/0-35)150/ 15 | 40 | 300; 150/150| 50 | 500 BFS96 MPS2222 60 |} 30 | 800| 1-6; 500) 50 | 100] 300} 150) 250} 20 | 500 MPS2907 MPS3416 50 | 50 |500;0-3) 50; 3 | 75 |225| 2 | |] J] 500 _ MPS3417 50; 50 |500/0-3) 50} 3 |180; 540} 2 | |- | 500 _ BC547P 50 | 45 | 200/0-25) 10 |0-5] 75 ; 450; 2 |300*| 10 | 500 BC557P ZTX382 50 | 45 | 200/0-25) 10 |}0-5/100) 850! 2 |150) 10] 350 _ BC107P 50 | 45 | 200/0-2| 10 |0-5/120/460] 2 |150] 10 | 300 BC177P BC237P 50 | 45 {200)0-2| 10 |0-5/120/ 460} 2 |150]} 10} 300 BC307P ZTX237 50 | 45 | 200/0-25) 10 |0-5/120/ 460! 2 |150] 10} 300 ZTX212 ZTX223 50] 30 | 800) 0-3} 100] 10 | 100/450; 50 | 100)*50 | 500 _ Typical tat Tease = 45CPNP GENERAL PURPOSE TABLE 2 continued Max Vekisat) hee Min fr Prot Max at at at at Type McgolVceo} Ic Tamb | Complement Ie | Ip | Min|]Max] Ie le |=25C Vv VeimAl V | mA|mA mA |MHz| mA | mW ZTX531 45 | 45 |500/0-7] 10 |0-5} 40 |120;0-01; 30 |0-5| 250 ZTX331 BCY79P 45 | 45 | 2000-25) 10 10-25)120) 460| 2 |180*| 10 | 1000+] BCY59P ZTX213 45 | 30 | 200/0-25) 10 |0-5| 80 | 550} 2 | 200) 10 | 500 ZTX108 BC213P 45 | 30 | 200|/0-6;/100) 5 | 80|}600} 2 | 200; 10 |) 300 BC183P 2N4403 \! 40 | 40 | 600|0-4/150] 15 | 100| 300/150] 200] 20 | soo |4 2N4401 ZTX4403 ZTX4401 2N4402 2N4400 7TX4402 40 | 40 | 600] 0-4] 150) 15 | 50 | 150; 150] 150) 20 | 500 2TX4400 MPS6534 | 40 | 40 | 600/0-3) 100) 10 | 90 | 270; 100) 260/ 50 | 500 MPS6531 MPS6533 | 40] 40 | 600/0-5)100; 10 ; 40 }120|100) 260) 50} 500 MPS6530 2N3906 40 | 40 |20010-25| 10 | 1 |100|300] 10 | 250] 10 | 500 |J 2N3904 ZTX3906 ZTX3904 2N3905 2N33903 Z2TX3905 40 | 40 | 200/0-25} 10] 1 | 50 |150}) 10 | 200) 10 |) 500 2TX3903 MPS3702 4 MPS3706 2TX3702 40 | 25 |500/0-25) 50 | 5 | 60 | 300) 50 | 100] 50 | 500 ZTX3706 ZTX502 35 | 35 |500/0-25) 50 | 5 | 100/300) 10 |150] 10 | 300 ZTX302 ZTX501 35 | 35 |500/0-25! 50 | 5 | 50 | 300) 10 | 150/ 10} 300 ZTX301 BCY78P 32 | 32 | 200/0-25) 10 |0-25}120/630 | 2 (180%) 10 | 1000+} BCYS58P MPS6535 | 30} 30 |600/0-5)100|] 10 | 30 | | 100] 260] 50; 500 MPS6532 ZTX530 30 | 30 | 500/0-7| 10 |0-5| 100; 400/0-1]) 30 |0-5) 250 ZTX330 BC558P 30 | 30 | 200j0-25| 10 | 0-5) 75 | 800 2N4125 30 | 30 | 200/0-4) 50 | 5 | 50} 150 BC178P 30 | 25 | 200/0-:2} 10 |0-5/ 120] 800 BC308P 30 | 25 |200}0-2| 10 , 0-51 120] 800 ZTX500 25 | 25 |500/0-35) 50 | 5 | 50 | 300 2N4126 25 | 25 | 200/0-4| 50; 5& | 120) 360 10, 500 BC548P 200} 10 | 500 2N4123 130) 10 } 300 BC108P 130*| 10 | 300 BC238P 150} 10 | 300 ZTX300 250/ 10 |} 500 2N4124 My Nh a oO * = wv GO NN Typical Tat Toase = 45C 1NPN SWITCHING TABLE 3 ~ NPN SILICON PLANAR SWITCHING TRANSISTORS The transistors in this table are characterised for general medium/high speed switching applications and they may also be used in other application areas. The devices are listed in order of decreasing collector/emitter breakdown voltage (Vcgo). then in order of decreasing collector current (Ic) etc. Max. V h Min. f Max. CE(sat) FE qT Switching Times Max at at at at Type Veeo| Ic Complement Ic Ip | Min}Max] Ie le | ton { torr le VoeiEmA|] V | mA|mA mA IMHz! mA | ns | ns mA BCY65EP 60 | 100|0-35) 10 |0-25)120/ 460] 2 |125)} 10 }150] 800] 10 BCY77P MPS3642 45 | 500/0-22)150/ 15 | 40 | 120/150] | j 14} 80 | 300 _ BCY59P 45 | 200 /0-35) 10 |0-25)120/630| 2 |125] 10 |150{ 800} 10 BCY79P MPS2222A | 40 | 800|1-0/500} 50 | 100] 300] 150] 300} 20 | 35 | 285 | 150 | MPS2907A 2N4401 2N4403 7TX4401 40 | 600/ 0-4) 150] 15 | 100] 300| 150/ 250] 20 | 35 | 255 | 150 Z1X4403 2N4400 2 7TX4400 40 | 600/0-4/ 150] 15 | 50 | 150) 150] 200] 20 | 35 | 255 | 150 ZTX4402 2N3904 2N3906 ZTX3904 40 |200/0-2]/ 10 | 1 |100/ 300] 10 | 300] 10 | 70 | 250] 10 Z1X3906 2N3903 N3 27X3903 40 |200)0-2} 10 | 1 | 50/150] 10 | 250] 10 | 70 |} 225] 10 Z7TX3905 BCY58P 32 | 200/0-35) 10 |0-25/120] 630} 2 | 125] 10 | 150] 800 10 BCY78P MPS2222 30 | 800} 1-6} 500} 50 | 100] 300| 150] 250] 20 | 35 | 285 | 150 | MPS2907 MPS3641 30 | 5000-22; 150] 15 | 40 | 120} 150) | | 14 | 80 300 2N4123 30 | 200/0-3; 50] 5 | 50 |150] 2 | 250] 10 |37*|136*} 10 2N4125 2N4124 25 |200/0-3; 50] 5 |120)360| 2 | 300] 10 |37*|136*} 10 2N4126 MPS706A 20 }200/0-6] 10] 1 | 20 | 60 | 10 | 200] 10 | 40 | 75 10 MPS706 20 |200)/0-6; 10 | 1 | 20 |50*| 10 | 200] 10 | 40} 75 10 MPS2713 18 |200)/0-3| 50} 3 | 30] 90; 2 |250*) 10/13) 21 10 MPS2714 18 |200)/0-3| 50; 3 | 75 |225} 2 |250*| 10/13] 21 10 _ ZTX314 15 |500)/0-2) 10] 1 | 40 |120] 10 | 500} 10/12] 18 10 _ ZTX313 15 |500/0-24, 10} 1 | 40/120] 10 |500} 10} 12] 18 10 ZTX311 15 |}500} ; | | 50 | 200] 10 | 200] 10 (note 1}) _ MPS2369 15 | 2000-25) 10; 1 | 40 |120) 10 | | |12] 18 10 ZTX312 12 |500)0-24| 10 1} 40 | | 10 | 400} 10} 15 | 20 10 2ZTX310 12 |}500;0-6; 10 | 71 | 20 | | 10 | 200| 10 (jnote 2}) _ Typical Note 1: tug = 60 ns. Note 2: tog = 25 ns. 12applications and they may also be used in other application areas. PNP SWITCHING TABLE 4 PNP SILICON PLANAR SWITCHING TRANSISTORS The transistors in this table ar characterised for general medium/high speed switching The devices are listed in order of decreasing collector/emitter breakdown voltage (VceEo), then in order of decreasing collector current (I) etc. Max. V h Min. f. Max. CE(sat) re T Switching Times Max at at at at Type Veco] Ic Complement lo | Ip | Min]Max] Ic lo | ton | tore le Voe{[mA| V | mA|]mA mA |MHz! mA] ns | ns mA MPS2907A | 60 |600/1-6| 500] 50 | 100} 300/150) 200| 50 | 50 | 110 | 150 | MPS2222A MPS3645 60 |500/0-4| 150] 15 | 100} 300/150; | | 40 ; 100 | 300 BCY77P 60 | 100/0-25| 10 |0-25}120/ 460} 2 |180*| 10] 85 | 150] 10 BCY65EP MPS3644 45 |50010-4)150| 15 | 100! 300/} 150} | | 40 | 100 | 300 BCY79P 45 |200|0-25| 10 |0-25/120| 460} 2 (180) 10 | 85 | 150] 10 BCYS9P 2N4403 . 2N4401 7TX4403 40 | 6001 0-4/150} 15 | 100! 300/150} 200; 20 | 35 | 255 | 150 FTX4401 2N4402 2N4400 FTX4402 - 40 | 600/0-4/150] 15 | 50 | 150) 150) 150; 20 | 35 | 255 | 150 7TX4400 MPS2907 40 | 600}1-6|500| 50 | 100} 300} 150) 200} 15 | 50 | 110 | 150 | MPS2222 2N3906 2N3904 2TX3906 40 | 200|0-25) 10 41 | 100] 300] 10 | 250] 10 | 70 |} 300 10 7TX3904 2N3905 2N3903 7TX3905 40 |200|0-25| 10) 1 | 50 |150| 10 | 200! 10 | 70 | 260) 10 5TX3903 BCY78P 32 | 200/0-25| 10 |0-25!120/630| 2 1180*| 10 | 85 | 150 10 BCY58P 2N4125 30 |200/0-4| 50] 5 | 50/150] 2 | 200] 10 | 43} 155) 10 2N4123 MPS3638A | 25 {| 500] 1 |300] 30 |100| | 50/150; 15 | 75 | 170 | 300 _ MPS3638 25 |500] 1 | 300] 30 | 30 | - | 50 |100| 15 | 75 | 170 | 300 _ 2N4126 25 |200}0-4| 50 | 5 1120}360| 2 | 250/ 10 | 43*| 155*| 10 2N4124 ZTX510 12 |200/0-:2| 30] 3 | 40/150] 30 | 400] 30 | 60 | 90 30 "Typical 13