ELECTRICAL CHARACTERISTICS (a) TRANSISTOR ELECTRICAL CHARACTERISTICS P.N.P. SMALL SIGNAL TRANSISTORS Veceo] Vceo} Icso < hee > Veeisat) fr | Cobo . Min.| Min.| Max. atVcp @ Ie | Vce le lg | Min. |Max. Dice Type - Geometry Vv Vil nA] V [| Min.| Max.) mA | Vo [Max.] mA | mA |MHz]} pF BC556A | 80 | 65] 15] 30 | 110) 220] 2 5 /0.3 | 10 |0.5 |150 | 4.58 G2 BC556B 80} 65 | 15 | 30 | 200] 450| 2 5 10.3 | 10 |0.5 |150 | 4.58 G2 BCY77A 60 | 60 | 20*) 50*/ 120} 220} 2 5 10.25] 10 |0.25/1808) 7 G2 BCY77B | 60 | 60] 20*| 50*{| 180) 310} 2 5 | 0.25] 10 | 0.25)1808| 7 G2 BCY77C | 60 | 60] 20*| 50* | 250) 460; 2 5 |0.25] 10 | 0.25/}1808} 7 G2 BC212A | 60} 50] 15 | 30 | 100) 300] 2 5 |0.07| 10 |0.5 |200 | 58 G2 BC212B 60 | 50] 15 | 30 | 200) 400] 2 5 |0.07] 10 |}0.5 |200 | 5 G2 BC307A | 50] 45 | 100*| 50* | 120!) 220] 2 5 |0.2 | 10 |0.5 |1308;} 6 G2 BC307B 50 | 45 | 100*} 50* | 180; 460] 2 5 10.2 ; 10 |0.5 11308] 6 G2 BC557A | 50 | 45] 15] 30 | 110] 220) 2 5 |0.3 | 10 (0.5 |150 | 4.58 G2 BC557B 50 | 45 | 15 | 30 | 200] 450| 2 5 |0.3 | 10 }0.5 |150 | 4.58 G2 BCY70 50 | 40 |500 ; 50 | 100; 1 1 |0.25] 10 |} 1.0 |250 | 6 G3 BCY79A | 45 | 45] 20*] 35* | 120] 220) 2 5 |0.25] 10 | 0.25)1808} 7 G2 BCY79B | 45 | 45; 20*; 35* | 180] 310) 2 5 |0.25| 10 |0.25)1808} 7 G2 BCY79C | 45 | 45; 20*| 35* | 250] 460) 2 5 |0.25] 10 |0.25)1808| 7 G2 BCY71 45} 45 |500 | 45 | 100] 1 1 10.25] 10 }1.0 |250 | 6 G3 2N3905 40 | 40 | 50T| 307| 40) 1 1 10.25] 10 | 1.0 |200 |4.5 G3 2N3906 40} 40 | 50f; 307| 80) 1 1 {0.25| 10 {1.0 |250 [4.5 G3 BC213A | 45 | 30 | 15 | 30 | 100} 300] 2 5 |0.07| 10 |0.5 |200 | 58 G2 BC213B 45 | 30 | 15 | 30 | 200) 400] 2 5 |0.07}| 10 |0.5 |200 | 58 G2 BC213C 45 | 30] 15 | 30 | 350) 600; 2 5 |0.07| 10 |0.5 {200 | 58 G2 BC214B 45} 30 | 15 | 30 | 200} 600/ 2 5 |0.07] 10 |0.5 1200 58 G2 BC214C 45} 30 | 15 | 30 | 350} 400; 2 5 |0.07] 10 |0.5 |200 5 G2 BCY78A | 32 | 32 | 20*| 25* | 120| 220} 2 5 |0.25] 10 | 0.25)1808) 7 G2 BCY78B | 32] 32 | 20*| 25* | 180; 310] 2 5 |0.25] 10 | 0.25)1808| 7 G2 BCY78C | 32] 32] 20*| 25* | 250; 460; 2 5 |0.25] 10 | 0.25/1808| 7 G2 BCY78D | 32 | 32 | 20*| 25* | 380} 630] 2 5 | 0.25] 10 | 0.25)1808} 7 G2 BC558A 30 | 30 15 | 30 110| 220) 2 5 ;0.3 10 | 0.5 | 1508 | 4.58 G2 BC558B 30 | 30 | 15 | 30 | 200; 450] 2 5 10.3 | 10 | 0.5 | 1508 | 4.58 G2 BCS558C 30 | 30 | 15 | 30 | 420; 800; 2 5 |0.3 | 10 | 0.5 | 1508 | 4.58 G2 BC559B 30 | 30 | 15} 30 | 200; 450) 2 5 |0.3 | 10 | 0.5 | 3008 | 4.58 G2 BC559C 30 | 30 | 15 | 30 | 420] 800] 2 5 |0.3 | 10 |0.5 | 3008 | 4.5 G2 BCY72 30 | 25 {500 | 30 | 100; 1 1 10.25} 10 |1.0 {250 | 6 G3 BC308A | 30 | 25/100 | 20 | 120) 220; 2 5 10.2 | 10 |0.5 | 1308] 6 G2 BC308B 30 | 25 | 100 | 20 | 180} 460; 2 5 |0.2 | 10 |0.5 {1308} 6 G2 BC308C 30 | 25 | 100 | 20 | 380} 800] 2 5 10.2 | 10 |0.5 |1308] 6 G2 | BC309B 25 |} 20 | 100 |.20 | 180] 460] 2 5 10.2 | 10 |0.5 ;130 | 6 G2 BC309C 25 | 20 | 100 | 20 | 380} 800| 2 5 10.2 | 20 |0.5 [130 | 6 G2 Vceisaty, fr and Cop9 are parameters which are assembly dependent and figures quoted are those typically achieved on Ferranti assembly lines. Ices at Vces_ Icex at Vce = 8 Typical SD9