L9 BFY50 TO-39 80 36 6 50 60 | 20 10 10 0.7 15 500 | 12 | 60 50 | 360 "1 14 500 80 | 30 150 10 0.1 1.2 10 20 500 10 0.2 13. 150 15 1A 10 1.0 20 1A BFYS1 T0-39 60 30 6 50 40 | 30 10 10 1.0 16 500 | 12. | 50 50 | 360 W 14 500 60 | 40 150 10 0.15 12 10 25 500 10 0.35 13 150 15 1A 10 1.6 2.0 1A BFY52 TO-39 40 20 6 50 30 | 30 10 10 1.0 15 500] 12 | 50 50 | 360 " 14 500 40 | 60 150 10 0.15 12 10 30 500 10 0.35 13 150 15 iA 10 16 20 1A BFY56 TO-39 80 45 5 50 5O | 15 01 10 0.3 15 150] 25 | 40 50 | 625 12 14 20 500 10 23 1.2 100 30 = 150 150 1 BFY72 TO-5 50 28 5 0.02 40 | 15 ot 100 0.25 12 150} 8 50 50 | 170 18 20 ICES 20 1 10 07 1.6 500 30 10 10 40 150 150 10 15 500 10 BEY76 TO-18 45 6 20 30] 80 sso 1 5 05 075 O11 6 24 0.05 4 10 o7 30 200 0.01 5 0.35 1 6 2 05 80 05 5 140 1 5 BSX21 70-18 120 80 5 500 50 | 20 4 3 09 4 60 4 07 0.04 120 BSX45-6 70-39 BYCES 40 7 10 60 | 40 100 100 1 1.0 500 | 20 | 60 50 | 650 12 14 80 IcES 2.0 1000 BSX45-10 0-39 BVCES 40 7 10 60 | 63 160 100 1 1.0 500 | 20 | 60 50 | 650 12 14 80 Ices 2.0 1A BSX45-16 T0-39 BYVCES 40 7 10 60 | 100 250 100 1 1.0 500 | 20 | 60 50 | 650 12 14 380 20 1A BSX46-6 T0-39 BVces 60 ? 10 60 | 40 100 100 1 1.0 500 | 25 | 60 50 | 650 12 14 100 20 1A BSX46-10 | TO-39 BVcES 60 7 10 60 | 63 160 100 1 1.0 500 | 25 | 60 50} 650 12 14 100 20 1A BSX46-16 70-39 8VcES 60 7 10 60 | 100 250 100 1 1.0 500 | 25 | 60 50 | 650 12 i4 100 20 1A BSX8s TO-18 46 15 5 28 20 is os8 1 a4 0.72 O8 190 300 10 1 75 13 21 30120 10 1 BSY38 TO-18 20 12 5 100 20 | 30 60 10 0.35 0.25 07 085 10 | 5 200 10 | 45 14 2 15 45 100 1 0.6 15 100 BSY39 T0-18 20 12 5 100 20 | 40 = 120 10 0.35 025 07 085 10 | 5 200 10 | 45 14 21 20 70 100 1 06 15 100 BSY51 TOS 60 25 5 100 30 | 40 = 120 450 10 1.0 13 150] 9 130 50 20 BSY52 TOS 60 25 5 100 30 | 100 300 150 10 1.0 13 150] 9 130 50 20 Test Conditions: 1. Iq = 200 uA, Voce = SV. 4 Ig = 20uA. Veg = 5V. 7. te = 50 uA, Veg = 5V, 10. Ic = 104A, Voce = 5V. 13. Iq = 10. mA, 1g, = 3 mA, 16. Ic = 150 mA, VE = BV, 19. Voc = 20V, Ic = 100 mA Rg =2kQ, f= t kHz, Rg = 10k, f= 1 kHz, Rg = 10 k&2, BW = 10 Hzto Rg = 10 k@, WB Ig2= 1 mA Igq = tga = 15 mA Ip1 =tp2=5mA BW = 200 Hz BW = 150 Hz 15 kHz 2. Ig = 200 nA, Veg = SV. 5. I = 200 uA, VE = 5V, B. tg = 50 uA, Vee = 5V, 11. Ig = 150 mA, Veg = 10V, 14. I = 100 mA, tg1 = 40 mA, 17, Iq * 10 mA, igy = 1 mA, Rg = 2k2, WE Rg = 2k, f= 20 Hz to Rg = 10k, f = 1 kHz, Igy =Ig2 = 15 mA Iga =20mA ip27-1mA 15 kHz BW = 200 Hz 3. te = 30uA, Vee = 5V, 6. Ic = 100 uA, Veg = BV, 9. Ig = 200 HA, Vee = 2V, 12. I = 150 mA, Igq = ig 18. Vc = 10V, Ic = 100 mA 18. 1 = 300 mA, Ig1 = lag Rg = 10k, f= 1 kHz, Rg = 2k2, f = 10 Hz to Rg = 2k, f= 1 kHz, =+7.5mA igi =ip2= iOma = SOMA, Voc = 25V BW = 200 Hz 10 kHz BW = 200 Hz