gs 2N4360 TO-106 | 20 10 10 15 0.7 10 -10 1 3 30 10 2 8 10 100 10 20 -10 oO 5 -10 Q 190 100 89 2N4381 TO-18 25 1 1 15 1 5 -15 1 3 12 15 2 6 15 75 15 20 15 QO 5 -15 0 20 4000 39 2N4382 TO-18 25 1 1 15 25 9 -15 1 10 30 15 4 8 15 100 15 20 15 0 5 ~15 Q 20 4000 88 2N5020 T0-18 25 1 1 45 03 1.5 -15 1 0.3 1.2 15 1 3.5 15 20 15 25 15 Oo 7 -15 G 30 1000 89 2N5021 TO-18 25 1 1 15 05 25 -15 1 1 3.5 15 15 65 15 20 15 25 -15 o 7 -15 Q 30 1000 89 2N5033 TO-106 | 20 10 10 15 03 2.5 -10 1 0.3 3.5 10 1 5 10 20 10 25 ~10 Q 7 -10 Go 100 1000 89 2N5460 TO-92 40 10 5 20 0.75 6 -15 1 1 5 15 1 4 15 50 18 7 -15 0 2 ~15 0 115 100 89 2N5461 TO-92 40 10 5 20 1 75 -15 1 2 9 15 15 5 15 50 15 7 15 0 2 -15 Qo 115 100 89 2N5462 TO-92 40 10 5 20 18 #9 -16 7 4 16 15 2 6 15 50 15 7 -15 0 2 -15 0 115 100 89 uc4so TO-18 25 1 0.25 20 5 10 -20 001) 25 75 20 10 10 20 25 -20 0 7 0 10 88 uc4s1 TO-18 25 1 0.25 20 1 6 ~20 001] 3.75 375 20 6 6 20 25 -20 0 7 0 10 88 Pro-Electron Series v Vv v t hee Veeisat) YBE(sat) Cob fy toft NF Test Type Case CBO cEO EBO cBO y * VBE(on!* Condition [ Process No. Style (vy) wy (v) ina) @ CB [hfe (TkHZ)* Vce (v} w) le (pF) (MHz) le | (ns) (dB) See No - )@ @ . . Min Min Min Max {v) Min Max (mA) (Vv) Max Min Max e (mA) Max Min Max (mA) | Max Max Note BC 107 TO-18 50 45 6 16 50 125 g900* 2 5 0.2 10 45 150 10 10 1 04 Ices 0.6 100 O55 0.7* 2 BC1I07A TO-18 50 45 6 16 50 125 260* 2 5 0.2 10 45 150 10 10 1 O4 Ices 0.6 100 0.55 0.7* 2 BC107B TO-18 50 45 6 15 50 240 500 2 5 0.2 10 45 150 10 10 1 a4 lcES 06 100 055 07+ 2 BC 108 TO-18 30 20 5 15 30 1125 goo" 2 5 0.2 io | 45 | 150 10 10 1 04 'CES 06 100 0.55 0.7* 2 BCiO8A TO-18 30 20 5 15 30 125 260" 2 5 0.2 10 45 150 10 10 1 04 lees 0.6 100 055 07" 2 BC108B 70-18 30 20 5 15 30 }240 500" 2 5 0.2 10 | 45 | 150 10 10 1 04 ICES 0.6 100 055 07* 2 BC 108C TO-18 30 20 5 15 30 450 900 2 5 0.2 10 45 +50 10 10 1 04 Ices 0.6 100 0.55 0.7* 2 BC109 TO-18 30 20 5 15 30 240 9007 2 5 0.2 10 45 150 10. 4 1 a4 Ices 06 100 0.55 0.7* 2 4 2 Test Conditions: 1. Ic = 200 uA, Vcg = SV. 4. I = 20 uA, Veg = 5, 7. I = 50 WA, Vee = 8V. 10. I = 10 pA, VE = BV. 13. ig = 10 mA, Igy =3.mA, 16. I = 150 mA, Vc_ = BV, 19. Veg = 20V, Ig = 100 mA Rg = 2k2, 2 1 kHz, Rg = 10k, f= 1 kHz, Rg = 10 k&2, BW = 10 Hz to Rg = 10k, WE Ig2=1 mA ta = Ig2 = 15 mA ig ='ga-=5 mA BW = 200 Hz BW = 150 Hz 15 kHz 2. I = 200 pA, VcE = 5V. &. Ig = 200HA, Vee = 5V. B. IC = SOKA, Vee = 5V, 11. 1g = 150 mA, Veg =10V, 14. 1. = 100 mA, Igy = 40 mA, 17. tg =10 mA, Igy = 1mA, Rg = 2k, WB Rig = 2k2, f = 20 Hz to Rg = 10kQ, f= 1 kHz, tpi = tga = 15 mA tga = 20 mA Ip2=-1mA 15 kHz BW = 200 Hz 3. Ic = 30.KA, Voce = BY, 6. I = 100 4A, Veg = SV. 9. Ic = 200A. Veg = 2V. 12. Ig = 150 mA, let = laa 15. Vc = 10V, Ic = 100 mA 18. I = 300 mA, Ig1 = IB2 Rg = 10k, f= 1 kHz, Rg = 2k, f = 10 Hz to Rg = 2k, f= 1 kHz, = 27.5 mA Ip1 = lg2=10mA = 30 mA, Ver = 25V BW = 200 Hz 10 kH2 BW = 200 Hz