ELECTRICAL CHARACTERISTICS N.P.N. SMALL SIGNAL TRANSISTORS Veso} Vceo| Icao < hee > Vcetsat) fr | Cobo Dice Type Min.} Min. |Max. at Veg @ Ie | Vee le lg | Min. |Max. Geometry Vv v [nA V [Min.|Max.} mA] V |[Max.! mA | mA |MHz! pF BC546A 80 | 65}15 30 | 110] 220) 2 5 | 0.25] 10 |0.5 |3008) 4.5 G1 BC546B 80 | 65115 30 | 200) 450| 2 5 | 0.25] 10 |0.5 {3008} 4.5 G1 BCY65EA | 60 | 60 | 10* 32* | 120) 220) 2 5 | 0.35] 10 /0.25| 125) 6 G1 BC182 60 | 50 | 15 50 | 100/] 480; 2 5 |0.25} 10 |}0.5 | 150] 5 G1 2N3903 60 | 40 | 50f 307 | 50] 150] 10 1 /0.2 | 10 [1.0 | 250) 4 G3 2N3904 60 | 40 | 50f 307 | 100] 300 | 10 1 |0.2 | 10 11.0 | 300) 4 G3 BC107A 50 | 45] 15* 50* |] 120) 220; 2 5 10.2 10 |0.5 | 150] 6 G1 BC107B 50 | 45 | 15* 50* |] 180| 460} 2 5 10.2 10 |0.5 | 150] 6 G1 BC237A 50 | 45 | 15* 50* |] 120) 220; 2 5 10.2 10 /0.5 | 150] 4.5 G1 BC237B 50 | 45 |} 15* 50* |] 180; 460; 2 5 10.2 10 |0.5 | 150] 4.5 G1 BC547A 50 | 45/15 30 | 110; 220; 2 5 |0.25) 10 |0.5 | 3008) 4.5 G1 BC547B 50] 45 | 15 30 | 200/ 450; 2 5 | 0.25} 10 |0.5 | 3008) 4.5 G1 BC550B 50 | 45115 30 | 200} 450; 2 5 | 0.25} 10 |0.5 | 3008) 4.5 G1 BC550C 50 | 45115 30 | 420) 800|] 2 5 |0.25} 10 |0.5 | 3008) 4.5 G1 BCY59A 45 | 45 | 10* 45* | 120} 220; 2 5 | 0.35; 10 |0.25| 125) 6 G1 BCY59B 45 | 45] 10* 45*| 180] 310) 2 5 | 0.35} 10 |0.25) 125) 6 G1 BCY59C 45 | 45 | 10* 45* | 250] 460/ 2 5 | 0.35! 10 |0.25] 125) 6 Gi BCY59D 45 | 45 10* 45* | 380] 630 | 2 5 | 0.35] 10 |0.25| 125] 6 GI 2N930 45 | 45 | 10* 45*| 100) 300/] 0.1] 5 | 1.0 | 10 |0.5 | 300] 8 G1 BC183 45 | 30/15 30 | 100) 850] 2 5 | 0.25] 10 |0.5 | 150] 5 G1 BC184 45 | 30/15 30 | 250; 2 5 |0.25] 10 10.5 | 150/ 5 G1 BCY58A 32 | 32 | 10* 32*| 120] 220| 2 5 |0.35] 10 |0.25| 125; 6 G1 BCY58B 32 | 32 | 10* 32*| 180) 310] 2 5 | 0.35] 10 |0.25] 125) 6 G1 BCY58C 32 | 32 | 10* 32* | 250| 460 | 2 5 | 0.35] 10 |0.25] 125) 6 G1 BCY58D | 32 | 32 | 10* 32* | 380) 630] 2 5 | 0.35] 10 |0.25] 125] 6 G1 BC548A 30 | 30/15 30 | 110] 220) 2 5 10.25) 10 |0.5 | 3008! 4.5 G1 BC548B 30 | 30 | 15 30 | 200] 450/ 2 5 | 0.25) 10 |0.5 | 3008] 4.5 G1 BC548C 30 | 30/15 30 | 420) 800) 2 5 10.25) 10 |0.5 | 3008 4.5 G1 BC549B 30 |} 30 | 15 30 | 200| 450) 2 5 |0.25); 10 |0.5 | 3008 4.5 G1 BC549C 30 | 30/15 30 | 420) 880) 2 5 |0.25} 10 |0.5 | 3008 4.5 G1 BC108A 30 | 20 | 15* 30* | 120) 220) 2 5 10.2 10 10.5 | 150) 6 G1 BC108B 30 | 20 | 15* 30*| 180] 460] 2 5 10.2 |} 10 |0.5 | 150} 6 G1 BC108C 30 | 20 | 15* 30* | 380) 800) 2 5 10.2 10 |0.5 | 150; 6 G1 BC109B 30 | 20 | 15* 30*| 180] 460) 2 5 | 0.2 10 |}0.5 | 150] 6 G1 BC109C 30 | 20 | 15* 30* | 380] 800) 2 5 | 0.2 10 |0.5 | 150] 6 G1 BC238A 30 | 20 | 15* 30* | 120] 220) 2 5 10.2 10 |0.5 | 150] 4.5 G1 BC238B 30 | 20 | 15* 30*| 180} 460) 2 5 10.2 10 |0.5 | 150; 4.5 G1 BC238C 30 } 20 | 15* 30* | 380! 800) 2 5 | 0.2 10 {0.5 | 150 | 4.5 G1 BC239B 30 | 20 | 15* 30*| 180) 460) 2 5 | 0:2 10 {0.5 | 150] 4.5 G1 BC239C 30 | 20 | 15* 30* | 380] 800} 2 5 | 0.2 10 10.5 | 150 | 4.5 G1 Vcetsat), fr and Cop. are parameters which are assembly dependent and figures quoted are those typically achieved on Ferranti assembly lines. Ices at Vces = TIcex at Vce = 8 Typical $D10