p: (B0] Power AF transistors Transistors AF de puissance NF-Leistungstransistoren RATINGS (at Tease = 25C, CHARACTERISTICS (at Tease = 25C, pl o unless otherwise stated) unless otherwise stated ol uv at at at L T A L TYPE VoRo Vero Vigo Te Prot Tease T; beg Vor To fo Vou Van qo I Ren R Tt NOTES *Vorr Von ly sat |sat jr-case i N Vv Vv Vv A W *c_ ([*c v A MHz Vv Vv A [ ma [ *c/w iy; s max | max |max | max [max max|min - max min |max [max max BDX45 60 4515 1 1,25) 25 150} 1500 10 0,5 1,6 1 4410 P 133 BDX46 80 60} 5 ! 1,25] 25 150} 1500 10 0,5 1,6 1 1110 P 133 BDX47 100 5 1 51100 150] 1500 10 0,5 1,6 1 4410 P 133 BDX50 160 140] 7 16 150} 25 200] 15- 60 4 8 1,4 8 N 127 |= 2N3773 BDX5 1 140 120] 7 10 120} 25 200] 15- 60 4 5 1 5 N 127 j= 2N4348 BDX53 45 4545 8 60} 25 150{ 750 3 3 2 2,5 43 12] 2,08 |N 160B |Complement BDX54 BDX53A 60 601 5 8 60} 25 150} 750 3 3 2 2,5 13 12] 2,08 |N 160B " BDX54A BDX53B 80 80} 5 8 60] 25 150} 750 3 3 2 2,5 13 32] 2,08 IN 1608 " BDX54B BDX53C ; 100 100; 5 8 60} 25 150] 750 3 3 2 2,5 43 12] 2,08 [N 160B " BDX54C BDX53H 60 60) 5 8 60} 25 150} 750 3 1,5 2 2,5 13 12) 2,08 JN 160B " BDX54H BDX54 45 45|5 8 60; 25 150] 750 3 3 2 2,5 |3 12] 2,08 |P 160B " BDX53 BDX54A 60 601 5 8 60; 25 150} 750 3 3 2 2,5 |3 12] 2,08 |P 160B " BDX53A BDX54B 80 80] 5 8 60} 25 150; 750 3 3 2 2,5 |3 12] 2,08 |P 160B " BDX53B BDX54C | 100 100} 5 8 60} 25 150} 750 3 3 2 2,5 |3 12] 2,08 |P 160B " BDX54C BDX54H 60 601 5 8 60] 25 150] 750 3 1,5 2 2,5 13 121 2,08 |P 160B " BDX54H BDX55 100 454 6 7 10} 25 200} 20 4 5 4 1 16 5 5000 N BDX56 120 60; 6 7 10} 25 200] 20 4 5 4 1 16 5 5000 N BDX57 140 80] 6 7 10} 25 200} 20 4 5 4 1 16 5 5000 N BDX60 100 80| 7 15 150{ 25 200{] 20-250 4 0,5 0,8 0,511,6 {4 400] 1,17 |N 127 BDX62 60 60; 5 8 90} 25 200| 1000 3 3 7* 2 3 124 1,9 P 127 {Darlington BDX62A 80 80) 5 8 90] 25 200; 1000 3 3 7" 2 3 12; 1,9 P 127 |Darlington BDX62B} 100 100;) 5 8 90] 25 200} 1000 3 3 7* 2 3 12] 1,94 |P 127 |Darlington BDX63 80 80; 5 8 90] 25 200} 1000 3 3 7" 2 3 12] 1,9 N 127 |Darlington BDX63A} 100 1001 5 8 90] 25 200} 1000 3 3 7" 2 3 12) 1,9 N 127 |Darlington BDX63B} 120 100} 5 8 90] 25 200} 1000 3 3 7" 2 3 12] 1,94 jN 127 |Darlington BDX64 60 60] 5 12 117} 25 200} 1000 3 5 7* 2,5 5 201 1,5 P 127 |Darlington BDX64A 80 BO] 5 12 1i7] 25 200; 1000 3 5 7 2,5 5 20] 1,5 P 127 {Darlington BDX64B]} 100 100] 5 12 T17] 25 200} 1000 3 5 7 2,5 5 20) 1,5 P 127 |Darlington BDX65 80 60] 5 12 117] 25 200} 1000 3 3 7" 2,5 5 20) 1,5 N 127 |Darlington BDX65A{ 100 80) 5 12 417] 25 200} 1000 3 5 7 2,5 5 20] 1,5 N 127 |Darlington BDX65B] 420 100] 5 12 117} 25 200} 1000 3 5 7 2,5 5 201 1,5 N 127 {Darlington BDX66 60 60 16 150} 25 1000 10 7' 2 10 P 127 |Darlington BDX66A 80 80 16 150) 25 1000 10 7" 2 10 P 127 |Darlington BDX66B | 100 100 16 150] 25 1000 10 7' 2 10 P 127 {Darlington BDX67 80 60 16 150 25 1000 10 7 2 10 N 127 {Darlington BDX67A| 100 80 16 150 25 1000 10 7' 2 10 N 127 |Darlington BDX67B] 120} 100 16 150 25 1000 10 7" 2 10 IN 127 {Darlington BDX70 70 60 8 10 75 25 J150] 20- 80 4 4 2,5 10 |2000} 1,67 |N 160A|= 2N6098 BDX7! 70 60} 8 10 75| 25 150}; 20- 80 4 4 2,5 10 |2000) 1,67 {N 160B(= 2N6099 BDX72 80 70} 8 10 75] 25 150] 20- 80 4 5 2,5 10 {2000] 1,67 IN 160A;= 2N6100 BDX73 80 70; 8 10 75} 25 150] 20- 80 4 5 2,5 10 |2000: 1,67 |N 160B}= 2N6101 BDX74 45 40] 5 16 75| 25 150] 15- 60 4 8 2,5 16 |3200; 1,67 |N 160A}= 2N6102 BDX75 45 40] 5 16 75) 25 150} 15- 60 4 8 2,5 16 13200] 1,67 |N 160B|/= 2N6103 BDX77 80 80/5 8 60] 25 150; 20 3 2 3 1 2 200] 2,08 |N|NSI52 BDX78 80 80/ 5 8 60; 25 150] 20 3 2 3 1 2 200] 2,08 |P|NS152 BDX83 40 401 5 10 125] 25 200] 750 3 1 2 5 10; 1,45 |N 127 |Darlington BDX83A 60 60) 5 10 125] 25 200]. 750 3 1 2 5 10} 1,45 |N 127 jDarlington BDX83B 80 80; 5 10 {25] 25 200} 750 3 1 2 5 10] 1,45 |N 127 |Darlington BDX83C} 100 100) 5 10 125) 25 200) 750 3 1 2 5 10] 1,45 |N 127 {Darlington BDX84 40 40/5 10 120] 25 200} 750 3 1 2 5 10; 1,45 |P 127 |Darlington BDX84A 60 60) 5 10 120] 25 200] 750 3 1 2 5 10/ 1,45 [P 127 |Darlington BDX84B 80 801 5 10 120| 25 200] 750 3 1 2 5 10] 1,45 |P 127 |Darlington BDX84C} 100 100} 5 10 120; 25 200] 750 3 1 2 5 10) 1,45 |P 127 |Darlington BDX87 45 45/5 12 117) 25 200; 750-18K| 3 6 3 12 120] 1,5 N 127 BDX87A 60 60] 5 12 117] 25 200| 750-18K) 3 6 3 12 120) 1,5 N 127 BDX87B 80 80; 5 12 EI7} 25 200] 750-18K} 3 6 3 12 120} 1,5 N 127 BDX87C | 100 100} 5 12 1i7| 25 200] 750-18K| 3 6 3 12 120] 1,5 N 127 BDX88 45 4515 12 Ti7{ 25 200| 750-18K| 3 6 3 12 120} 1,5 P 127 BDX88A 60 60| 5 12 117) 25 200] 750-18K| 3 6 3 12 120! 1,5 P 127 BDX88B 80 80; 5 12 117) 25 200| 750-18K] 3 6 3 12 120] 1,5 P 127 BDX88C | 100 100] 5 12 V17] 25 200] 750-18K| 3 6 3 12 120| 1,5 P 127 BDX91 60 60/ 5 8 90; 25 200; 20 2 3 4 0,871,5 3 300| 1,94 IN 127 {Complement BDX92 BDX92 60 60| 5 8 90; 25 200] 20 2 3 4 0,8/1,5 3 300; 1,94 jP 127 " BDX91 BDX93 80 80; 5 8 90; 25 200] 20 2 3 4 O,8)1,5 3 300) 1,94 IN 127 " BDX94 BDX94 80 80} 5 8 901 25 200] 20 2 3 4 0,811,5 3 300] 1,94 |P 127 " BDX93 BDX95 106 100) 5 8 90] 25 200] 20 2 3 4 0,811,5 3 300] 1,94 IN 127 " BDX96 () typical vatue (") minimum value (!) maximum value PRELIMINARY DATA