_ WBbI2UL ooo0293 Oo " discrete semitPon semiconbucrors devices Semitronics Corp. INTEX/ SEMITRONICS CORP ev7E D germanium transistors conta germanium power transistors Power Dissipation hre @ Ic Vee (sat) @ Ic @ 25C Ty BYeno BYce f Case Type Polarity (watts) (C) (volts) (volts) (Min.) (Max.) = (Amps) (volts) (Amps) hi (KHz) Style NOTE 1 NOTE 2 NOTE 3 NOTE 4 _ Fhe 2N155 PNP 1.5 (A) 85 20 ~ 24 0.5 0.65 0.5 _ 10-3 2N156 PNP 1.5 (A) 85 20 ~ 24 _ 0.5 0.6 1.0 45 (B)s-T0-13 2N158 Pp 1.5 (A) 85 60 21 0.5 0.75 1.0 _ 145 (B) = 70-13 2N15BA P 1.5 (A) 95 80 $0 (9) 21 0.5 0.75 1.0 _ 0 (E) 10-13 2N173 PNP 10 95 60 50 (S) 35 70 5.0 1.0 12.0 _ 10-36 2NI74 PNP 100 (C) 95 80 70 (S) 25 50 5.0 0.9 12.0 _ 10-36 2N176 PNP $0 {c} 80 40 30 (R) 25 _ 0.5 0.4 3.0 40 (E) 103 2N234A PNP 25 (6) 90 25 (R) ~ = ~_ _ 10-3 2N235A PNP 25 (C) $0 _ 40 (U) = 0.8 1.0 _ 30-3 2N2358 PNP 25 (C) 85 50 35 (R) ~ 0.8 1.0 _ 5.0 () 10-3 2N236A PNP 25 (C) 95 35 (R) _ 1.0 3.0 10-3 2N2368 PNP 25 5 50 35 (R) _ _ 1.0 3.0 _ 5.0 () 16-3 2N242 PNP 20 (C) 85 45 45 (R) _ _ _ 5.0 (B) 0-3 N250. - PNP 12 (C) 30 30 _ 0.5 _ _ 8.0 (E) 10-3 2N250A PNP 90 (C) 100 40 35 (V) 25 100 3.0 0.7 3.0 _ 200 ) = 70-3 N251 PNP 12 (C) 80 60 30 = 0.5 _ - _ 8.0 (E) 10-3 QN25IA PNP (Cc) 100 60 55 (V) 25 100 3.0 0.7 3.0 _ 200 {T) 10-3 2N255 PNP 1.5 (A) 85 15 _ _ _ 10-3 QN255A PNP 20 (C) 85 15 15 (R) _ a _ _ 10-3 2N256 PNP 1.5 (A) 85 x = _ ~ _ _ T0-3 2N256A PNP 20 (Cc) 85 30 25 (R) = _ ~ - _ 10-3 2N257 PNP 25 (0) 85 40 _ _ _ _ _ _ 70 10-3 N268 PNP 25 (C) 85 80 _ _ _ _ 60 10-3 2N268A PNP 10 (C) $0 80 60 (V) 20 _ 2.0 1.0 2.0 70-3 2N277 PNP 70 (C) 95 40 40 (8) 35 70 5.0 _ _ _ 10-36 2N278 PNP 70 (C) 95 50 45 (S) 35 70 5.0 1.0 12 _ _ 10-36 2N2B5A PNP 25 () 95 -- 35 (R) _ _ 0.5 1,0 - 10-3 2N285B PNP 25 (C) 95 35 (R) 0.5 1.0 10-3 2N296 PNP 20 (C) 85 60 19 1,0 1.0 1.0 40 (8) 103 2N297 PNP 35 (6) 95 60 50 (S) 40 200 0.5 10 2.0 5.0 (E) 10-3 2N2O7A PNP 35 (C) 95 60 50 (S) 40 100 0.5 1.0 2.0 _ 5.0 (E) T0-3 N301 PAP ik (a) 85 40 _ _ 10-41 1A PNP ti (A) 85 60 _ _ _ _ _ _ 10-41 2N307 PNP 25 (6) 75 3 35 (R) 20 0.2 1,0 0.2 3.0 (E) 70-3 2N307A PNP 25 (C) 75 35 35 (R) 20 ~_ 0.2 0.8 1.0 _ 3.5 () 10-3 2N350 PNP 10 (A) 100 50 (0) 20 60 0.7 _ _ _ T0-3 PNP 90 (J) 100 50 AO (8) 20 60 0.7 1,75 3.0 ~~ 5.0 (E) 10-3 2N351 PNP 10 (A) 100 50 (0) 25 90 0.7 10-3 2N351A PNP $0 U) 100 50 0 (S) 25 90 0.7 1.75 4.0 5.0 (E) 10-3 PNP 58 (C) 95 8 -60(S) 35 90 1.0 1.0 2.0 7.0 (E) 10-3 2N376 PNP 10 (A) 100 50 40 (0) 35 120 0.7 _ 10-3 QN376A PNP 90 U) 1 50 40 (S) 35 120 0.7 1.75 5.0 5.0 (E} 10-3 2N378 PNP 50 (C) 100 20 _ 40 80 2.0 1,0 2.0 5.0 (E) 10-3 2N379 PNP 50 (C) 100 40 _ 20 70 2.0 1.0 2.0 _ 5.0 {EF} 10-3 N PNP 50 (C) 100 30 _ 30 70 2.0 10 2.0 5.0 (E) 10-3 2N392 PNP 48 (6) 95 60 40 (R 60 150 3.0 0.5 3.0 _ T0-3 2N399 PNP 25 (0) 35th _ 1.0 1.2 10-3 2 PNP 35 (C) 95 25 20 (0) 40 300 0.5 08 1.0 25 () 30 (E) 0-3 PNP (C) = 35 (R) _ _ _ 1.0 1,2 ~ 10-3 aN418 PNP 25 (6) 100 100 75 (R) 40 _ 4.0 2.0 4.0 _ 10-3 2N419 PNP 35 (6) 95 5 20 (0 50 350 0.5 0.8 1.5 25 (E 0 TO- 2N420 PNP 25 (GC) 100 $8 40 40 4.0 2.0 4.0 of) 59) 103 a oe 68 BR OB Sh Be he eS 20 _ _ = 10. 2N442 PNP 50 (C) 95 50 45 (S) 20 40 5.0 _ _ _ _ TO.38 2N443 PNP 50 () 95 60 50 (S 20 40 5.0 1, 12 5 2N456 PNP 50 (Cc) 95 40 40 4% _ 10 5.0 Toa? aoe of 18 om RBBB ESRB = 5N457 PNP 5 95 6 =X) = 1.0 5.0 = 20 88 2N457A PNP 150 (C) 60 (0) 30 90 5.0 0.5 5.0 _ 40 ( T0-3 34578 ENE 150 (c) 199 89 40 (0) 30 90 5.0 9.5 59 _ 200 i 10-3 _ : : 0- 2N458A PNP 180 (C) 80 (0) 30 90 5.0 05 5.0 _ 4.0 (E) 103 2N458B PNP 150 (C} 100 80 45 (0) x 90 5.0 0.5 5.0 200 f) 10-3 2NSIi PNP 180 (c) ~~~ ~-40 20 60 10 0.5 10 260 10-4 QNSLIA PNP 150 (C) _ 60 _ 20 60 10 0.5 10 _ 260 f To-al 2NS11B PNP 150 (C) 80 = 20 60 10 0.5 10 _ 260 (1) = 10-41 2N512 PNP 150 (C) _ 40 60 15 0.75 is _ 260 (T) = To-41 2N512A PNP 150 (C) _ 60 20 60 15 0,75 15 _ 260 (7) = TO-41 2N512B PNP 150 (C) _ 80 ~ 20 60 15 0.5 10 _ 260 JO-41 2N513 PNP 150 (C) 40 _ 20 60 20 1.25 20 _ 560 MM 0-41 2N513A PNP 150 (C) _ 60 20 60 20 1.25 20 _ 260 (1) = TO-41 2N5138 PNP 150 (C) 80 20 60 20 0.5 10 _ 260 (7) 10-41 2N514 PNP 80 (C) 95 40 40 (X) 1,25 25 _ _ 10-41INTEX/ SEMITRONICS CORP e7E D MM 4Y8b5924b 0000294 2 mm eom | semitron hot line TOLL FREE NUMBER 800-777-3960 germanium transistors cont'd germanium power transistors (cont'd) discrete devices J- 33-0! Power Dissipation hre @ Ic Vee sat) @ Ic - @ 25 Ts BYcao BYce - t Case Type Polarity (watts) (C) (voits) (volts) (Min.) (Max.) = (Amps) (volts) (Amps) hfi (KHz) Style - NOTE 1 NOTE 2 NOTE 3 NOTE 4 ~ QNSI4A PNP 80 (C) 95 60 60 (X) _ = _ 1.25 25 _ _ 10-41 2N5]46 PNP 80 (C) 95 80 80 (X) _ _ _ 1,25 25 10-41 bien OND sii CO = = trae 2N539 PNP 34) 95 80 55 75 2.0 0.6 2.0 _ _ MT-36 2N539A PNP 11 95 80 55 30 75 2.0 0.6 2.0 _ _ MT-36 N5S40 PNP 34 } 95 80 55 45 113 2.0 0.6 2.0 _ _ MT-36 2N540A PNP 34) 95 80 55 45 113 2.0 0.6 2.0 _ _ MT-36 2N553 PNP 35 (C) 95 80 - 40 80 0.5 0.9 3.0 _ - 10-3 2N554 PNP 40 0) 90 - _ _ 10-3 2N555 PNP 10 () 90 40 _ _ _ _ _ _ _ 5.0 (B) T0-3 P (A) 100 80 50 (0) 20 50 4.0 _ _ _ T0-3 2N574 PNP 180 (J) 100 60 55 (0) 9.0 22 1 0.2 10 _ _ MT-7 2NS74A PNP 1 J) 100 80 60 (0) 9.0 22 10 0.2 10 - _ MI-7 PNP 180 U) 100 60 50 (0) 19 10 0.5. 25 _ _- MT-7 2N618 PNP 90 (C) 95 80 60 (S) 60 140 1.0 0.8 2.0 _ 5.0 (E) T0-3 2N627 PNP 90 (C) 100 40 30 (S) 10 10 1.0 10 _ 5.0 (E) 10-3 2N628 PNP 90 (C) 100 60 45 (S) 10 30 10 1.0 10 _ 5.0 (E) TO-3 2N629 PNP 90 (C) 100 60 (S) 10 x 1 1.90 10 _ .0 (E) TQ-3 630 PNP 90 (C) 100 100 75 (S) 10 30 10 1.0 10 - 5.0 (E) T0-3 37 PNP 60 (C) 100 - 35 (R) 30 60 3.0 15 3.0 - _- T0-3 2N637A PNP 60 (C) 100 - 65 (R) 30 60 3.0 1.5 3.0 _ _ T0-3 2N637B PNP 60 (C) 100 _ 75 (R) 30 3.0 1.5 3.0 _ _ T0-3 2N638 PNP 60 (C) 100 _ 35 (R)} 20 40 3.0 2.0 3.0 _ TO-3 2N638A PNP 60 (C) 100 _ 65 (R) 20 40 3.0 2.0 3.0 _ _ T0-3 2N638B PNP 60 (C) 100 _ 75 (R) 20 40 3.0 2.0 3.0 _ - 10-3 2N663 PNP 35 tat 100 50 25 (0) 25 75 0.5 1.0 3.0 _ 15 (E) T0-3 2N665 PNP 35 (C) 95 80 40 (0) 40 0.5 0.9 3.0 _ 20 (E) TO-3 2N669 PNP 62.5 (C) 100 40 30 (S) _ 250 0.5 _ _ _ 3.0 () ~ 10-3 2N677 PNP (C) 100 50 30 (S) 20 60 10 10 10 _ _ T0-41 2N677A PNP 90 (C) 100 60 40 (S) 20 60 10 1.0 10 _- _ TO-41 2N6778 PNP 90 (C) 100 90 70 (S) 20 60 10 1.0 10 _ _ TO-41 2N677C PNP 90 (Cc) 100 100 80 (S) 20 60 10 1.0 10 _ _ TO-41 7 PNP 90 (C) 100 50 20 (0) 50 100 10 1.0 10 _ _ T0-41 2N678A PNP 90 (C) 100 60 30 (0) 50 100 10 1.0 10 ~ T0-41 2N678B PNP 90 (C) 100 90 60 (0) 50 100 10 10 10 _ _ TO-41 2N678C PNP 90 (C) 100 100 70 (0) 50 100 10 1.0 10 _ _ TO-41 2N1011 PNP 35 (C) 95 80 80 (S) 30 75 3.0 1.5 3.0 20 (E) 5.0* (E) 10-3 1021 PNP (C) 5S 100 100 (X) 23 70 1.0 1.0 5.0 _ _ TO0-3 2N1023A PNP 150 (C) 100 100 50 (0) 30 90 5.0 0.5 5.0 200 = (1) T0-3 2N1022 PNP 50 (CG) 95 120 120 (x) 23 70 5.0 1.0 5,0 _ _ T0-3 2N1022A PNP 150 (C) 100 12 55 (0) 30 90 5.0 05 5.0 _ 200 70-3 a PNP 90 (C) 100 30 (S) 20 60 10 1.0 10 YO (E) 2.0 (E T0-41 2N1031A PNP $0 (C) 100 60 40 (S) 60 10 1.0 10 10 (E) 2.0 (E) TO-41 2N1031B PNP 90 (C) 100 $0 70 (8) 10 1.0 10 10 (E) 2.0 (E) 10-41 2N1031C PNP 90 (C) 100 100 80 (S) 20 60 10 1,0 10 10 (E) 2.0 (E 10-41 2N1032 PNP 90 (C) 100 50 30 (S 50 10 10 1.0 10 25 (E) 2.0 (E) TO-41 2N1032A PNP (C) 100 60 40 (S) 50 100 10 1.0 10 25 (E) 2.0 (E) TO-41 2810328 PNP 90 (C) 100 90 70 (S$) 50 100 10 1.0 10 25 (E) 2.0 (E) TO-41 2N1032 PNP 90 (G) 1 100 80 (S) 50 100 10 10 10 25 (E) 2.0 () 70-41 1038 PNP 20 (C) 95 40 40 (V) 20 60 1.0 0.25 1.0 18 (E) 8.0 (E) 10-5 2N1099 PNP 50 (C) 95 70 (S) 35 70 5.0 0.7 12 _ T0-36 1100 PNP 50 (C) 95 100 65 (0) 25 50 5.0 0.7 12 _ 10-36 2N1120 PNP 45 (C) 95 70 (S) 20 10 1.0 10 30 (E) 3.0 (E) 0-41 281136 PNP _ 100 60 35 (R) 50 100 3.0 1.0 3.0 4.0 (E) T0-3 2N1136A PNP _ 100 90 35 (R) 50 100 3.0 1.0 3.0 _ 4,0 (E) T0-3 2N1136B PNP _ 100 100 75 (R) 50 100 3.0 1.0 3.0 _ 4.0 (E) TQ-3 2N1137 PNP _ 100 25 (0) 75 150 3.0 1.0 3.0 _ _ T0-3 2N1137A PNP _ 100 90 55 (0) 75 150 3.0 1,0 3.0 _ _ TO-3 2N1137B PNP - 100 100 65 (0) 75 150 3.0 16 3.0 - _ 0-3 2N1138 PNP _ 100 60 25 (Q) 100 200 3.0 1,0 3.0 _ _ TO-3 2N1138A PNP _ 100 90 55 (0) 100 200 3.0 1.0 3.0 _ T0-3 2N1138B PNP 100 100 65 (0) 100 200 3.0 1.0 3.0 _ T0-3 2N1146 PNP 87 (C) 95 40 20 (0) 60 150 5.0 1.0 15 - 0,15*(E) T0-3 2N1146A, PNP 87 (0) 95 60 30 (0) 60 150 5.0 1,0 15 _ 0.15*(E) TO-3 2N1146B PNP 87 (CG) 95 80 40 (0) 60 150 5.0 1.0 15 0.15*(E) TQ-3 2N1146C PNP 87 (C) 95 100 50 (0} 60 150 5.0 10 15 _ 0.15*(E) 70-3 -2N1147 PNP 87 (C) 95 40 20 (0) 60 150 5.0 10 15 _ 0.15*(E) T0-41 2NLI47A PNP 87 (C)} 95 60 30 (0) 60 150 5.0 1.0 15 _ 0.15*(E) TO-41 2N11478 PNP 87 (C) 95. 80 40 (0) 60 150 5.0 1.0 15 _ 0.15*(E) T0-41 2N1147C PNP 87 (C) 95 100 50 (0) 60 150 5,0 1.0 15 ~ 0.15 (E) TO-41 2N1157 PNP 187 Q) 100 60 45 (0) 38 10 0.8 40 _ 75 MT-7 2NLI57A PNP 187. () 100 80 50 (0) 38 84 10 0.8 40 _ 75 {T) MT:7 i PNP 35 = (C) 95 80 (0) 30 75 3.0 1.0 3.0 _ 10-3 2N1160 PNP 35 (6) 95 80 60 (0) 20 5.0 10 5.0 - 70-3 * MHz INTEX/ SEMITRONICS CORP 27E D MM 486524 0000255 4 mm SeMIPON semiconpuctors uscrete Semitronics Corp. T- 33-o/ germanium transistors conta germanium power transistors (cont'd) Power Dissipation hre @ Ic Vee (sar) @ le @ 25 ty BYcs0 BYce- Case Type Polarity (watts) (C) (volts) (volts) (Min) = (Max.) (Amps) (volts) (Amps) hf (KHz) Style NOTE 7 NOTE 2 NOTE 3 NOTE 4 . ey 2N1162 PNP 9 (C 100 50 35 (S' 15 65 25 0.8 25 0 (E) 0-3 ante PAP a0 {6 100 50 a2 Ag 15 65 25 08 25 3.0 (E}) 10- me om 8G @ 8 88 B 8 B 8 B = Be Re 2N1164 PNP 80 ) 100 80 8} 15 65 25 0.8 a5 lo () 10-3 2N1164A PNP 90 (C 100 0 60 (S 15 65 25 0.8 25 3.0 (E) 10-3 QN1165 PNP $0 { 100 80 & {3} 15 65 25 0.8 25 1.0 fe 10-41 2N1IG5A = PNP 90 (C) 100 80 60 (8) 15 65 25 0.8 25 3.0 (E} 10-41 2N1166 PNP $0 () 100 100 7319 15 65 25 0.8 25 10 (E} 10-3 2N1166A = PNP $0 () 100 160 75 (S) 15 65 25 0.8 25 3.0 (E) 10-3 2N1167 PAP $0 (Cc) 100 100 75 (8 15 85 25 0.8 25 _ 1.0 (e) 70-41 2NLIG7A = PNP 80 (c 100 =: 100 75(S 15 65 25 0.8 25 3.0 (2) To-41 2N1168 PNP 45 (C 95 50 30 (R = a 10-3 2N1202 PNP 34 95 80 80 (9) 40 120 0.5 0.3 0.5 200 @ MT-36 N1203 PNP 34 95 120 70 (0) 25 75 2.0 0.6 2.0 2 MT-36 2N1227 PNP 50 (Cc) 95 35 20 (0) 50 350 0.5 08 15 25 (E) 3.0 (E) 10-3 QN1261 PNP 34 0) 95 80 40 20 50 20 0.6 20 200 ) MT-36 2N1262 PNP 35} 95 80 45 (0 30 75 2.0 0.6 2.0 200 (1) = MT-36 2N1263 PNP 34 0) 95 80 a3 0 45 113 20 0.6 2.0 200 (1) = MT-36 1388 PAP 90 95 80 40 (0) 40 80 1.2 0.7 2 _ 100 (8) = 70-36 2N1359 PNP 9 100 50 40 (8 35 90 1.0 0.1 2.0 ~ 5.0 (E) 10-3 1360 PNP $0 U 100 50 ras 60 149 Lo 10 2.0 5.0 3 10-3 9N1362 PNP 90 100 = 100 758 35 90 1.0 1.0 20 - 5.0 (E) 10-3 2N1369 PNP 9 0 100 =. 100 75 (8 60 140 1.0 1:0 2.0 5.0 (E) 10-3 N1364 PNP 90 0) 100120100 (8} 35 90 1.0 1.0 20 _ 5.0 (E) 10-3 N1365 PNP 9 0) 100-120-1005 60 149 1.0 1.0 2.0 5.0 (E) 10-3 9N1412 PNP 70 (C) 95 100 65 (0 25 50 5.0 0.7 12 _ 10-36 N1S501 PNP 34 Ui) 95 60 40 25 100 20 0.6 2.0 200 (~~ MT-36 2N1502 PNP 34) 95 40 40 25 100 20 06 2:0 200 (1) = MT-36 2N1529 PNP 80 (C) 100 40 30 (S) 20 40 3.0 1:5 3.0 10-3 2N1529A PNP 30 (Cc) = 100 40 20 (0) 20 40 0 1,5 3.0 _ 5.0 (EL) 10-3 2N1530 PNP $0 (Cc) 100 60 45 8} 20 40 0 1,5 3.0 10-3 2N1530A PNP $0 (c 100 60 30 (0 20 40 0 15 30 5.0 (E) 70-3 QN1531 PNP 90 ( 100 80 (S) 20 40 0 1:5 3.0 70-3 2N1531A = PNP 90 (C 100 80 40 (0) 20 40 3.0 15 3.0 5.0 (E) 10-3 2N1532 PNP 90 (Cc) 100 100 75 (s} 20 40 0 1.5 3.0 0-3 2N1532A = PNP 9 ( 100 =: 100 50 (0) 20 40 0 1.5 3.0 5.0 (EL) 10-3 2N1533 PNP 90 (C 100 = 120 80 (S) 20 40 0 15 3.0 10-3 2N PNP 90 (C 100 40 (S) 35 70 3.0 1.2 3.0 70-3 2N1534A = PNP 90 (6 100 40 20 (0) 35 70 3.0 1.2 3.0 5.0 (EL) 10-3 2N1535 PNP 90 (Cc 100 60 45 (5) 45 70 0 1.2 3.0 10-3 2N1535A 0 PNP $0 (C 100 60 30 9) 35 70 3.0 1:2 3.0 0 (E) 70-3 QN1536 PNP $0 (C 100 80 69 (s 35 70 0 1.2 3.0 10-3 2NI536A PNP 9 (Cc 100 80 40 (0} 35 70 0 12 3.0 5.0 (E) 10-3 2N1537 PNP 9% (C 100 39-100 75 (8) 35 70 0 1.2 3.0 10-3 2N1537A PNP $0 (c) 100 100 50 (0) 35 70 3.0 1.2 3.0 ~ 50 (E) 10-3 2N1538 PNP 90 (Cc 100 8= 120 90 (S) 35 70 0 12 3.0 _ 10-3 2N1539 PNP $0 (c 100 40 30 (S) 50 100 0 03 3.0 10-3 2N1539A 9 PNP 90 ( 100 40 20 (0) 50 160 0 0.3 3.0 3.0 (E) 10-3 2N PNP 80 (6 100 60 45 (S) 50 100 0 0.3 3.0 _ _ 10-3 2NIS40A = PNP 90 (Cc 100 60 30 (0 50 100 / 3 3.0 . 9N1541 PNP $0 100 80 8 (9) 50 100 0 o3 3.0 _ 30) Tos 2NI541A == PNP 90 (6 100 80 40 (0) 50 100 0 0.3 3.0 3.0 (E) 10-3 1542 PNP 90 (C 100 100 75 {S) 50 100 0 _ 03 3.0 10-3 2N1542A = PNP 0 iC: 100 = 100 50 (0) 50 100 0 0.3 3.0 3.0 (E) 10-3 2N1543 PNP 90 (Cc 100120 90 (S 50 100 0 0.3 , 1544 PNP 90 (c 100 40 30 (3) 75 150 0 0.2 33 1.0 () Tos 2N1544A = PNP 0 (Cc 100 40 30 (8) 75 0 0.2 3.0 3.0 (E) 10-3 2N1545 PNP $0 (Cc 100 60 45 iS} 75 150 3.0 0.2 3.0 1.0 {E) 10-3 2N1545A = PNP 90 (C 100 60 45 (8) 75 _ 3.0 0.2 3.0 3.0 (E) 10-3 2N1545 PNP 90 (C 100 = 0 60 ($ 25 3. . ; _ 2NI546A = PNP $0 (e 100 80 80 (s 180 0 03 30 30 fe Toa N1547 PNP 90 100 100 75 (8) 75 150 0 0.2 3.0 10 (2) 703 2N1547A = PNP 90 (C 100 100 75 (S) 75 0 0.2 3.0 3.0 () 10-3 2N1548 PNP $0 () 100 120 (s) 75 150 0 02 3.0 1.0 6 10-3 N1549 PNP so (Cc 100 40 30 (5 10 ~ 2N1549A = PNP 90 100 40 % 16 x 10 10 10 5.0 (E) t03 2N1550 PNP 9 (c 100 60 45 (5) 19 30 16 1.0 10 10-3 2NI550A = PNP 80 (Cc 100 60 45 (S) 10 30 10 1:0 10 _ 5.0 (6) 10-3 2N1551 PNP 80 (C 100 80 60 (8) 10 30 10 1.0 10 10-3 2NI55SIA = PNP 9 (C) 100 80 S 10 . dee me BE ee gee Bb Be > eee 0 1 10 _ 0 (E) 70-3 2Ni553 PNP 80 (c 100 40 S : 2N1553A PNP $0 () 100 40 20 3) 3 & io oe 1p 48 iB 183 20INTEX/ SEMITRONICS CORP 27E D MM 46b%24b OO002%b &b | en" | semitron hot line TOLL FREE NUMBER 800-777-3960 germanium transistors cont'd germanium power transistors (cont'd) discrete devices T- 33 -ol : Dissipation hre @ Ic Vee (sat) @ Ic case r (a Reec YW BVca0 OVce as Tyee Polarity (watts) (C) (volts) (volts) (Min.) (Max.) (Amps) (volts) (Amps) ht (KHz) Style _ WoTE 1 NOTE 2 NOTE 3 NOTE 4 554 PNP 90 (C 100 60 45 (S) 30 60 10 5 10 _ 31.0 (E) 10-3 Falssa Pup tw (0) 30 80 10 2 10 = 73H Tos mx retry ne 30 3 100 S 40 (0) 0 10 0:5 10 _ 3.0 (E) 0-3 15% PAP $0 (Cc 100-100 75 (8) 30 60 10 05 10 1.0 (E) 10-3 2N15' PP 90 (Cc 100 100 50 (0) 30 60 10 0.5 10 3.0 (E) 10-3 2H ttm PE $0 {ec 100 40 30 (S) 50 100 10 4 10 - 10 (6) 103 hen me BH me 6 BO 8 eR RUC UR BNESeA PNP 50 te 100 60 0 (0) 20 100 10 5 10 3.0 () 10-3 100 80 60 (S 50 100 10 4 10 1.0 (E) 10-3 an ie PAP 8 (c} 100 80 40 {3} 50 100 10 5 10 3.0 {E) 10-3 2N1560 PNP 90 (C. 100 100 75 (S) 50 100 10 4 10 1.0 (2) 103 QN1E60A = PNP 90 (C 100 100 50 (0) 50 100 10 0:5 10 30 (E) 10-3 2N1970 PHP = 150 (6. 100 =: 100 50 (B) 17 40 5 1 12 _ 5:0 (E) 10-36 Pp 100 80 40 (0 25 60 5 a 3.0 15 (E) =: T0-3 aN 30 PAP 170 cc 100 50 (3 50 100 5.0 05 5.0 3.0 {E} 10-36 ONi981 PNP 170 (C 100 70 40 (0) 50 100 5.0 "5 5.0 3:0 (E) 10-36 2N1982 PNP 170 (C i $0 56 (0) 50 100 5.0 5 5.0 3:0 () 70-36 22075 PNP 170 (C 110 80 80 (S) 20 40 5.0 7 12 _ 5.0 (E) T0-36 PNP) 170 (C' 110 79 70 (S 20 40 5.0 0.7 12 ~ 5.0 (E) 10-36 H2077 PNP 170 {c 110 50 20 {8} 20 40 5.0 0.9 12 - 5.0 (E) TO- 120 PNP 170 (C 110 40 a0 8) 20 40 5.0 0.9 12 5.0 (E) 10-36 N20 a PNP 170 (C 110 80 80 3} 35 70 5.0 0.7 12 5.0 (6) 10-36 2N20 PAP 170 (6. 110 70 70 (S 35 70 5.0 07 12 _ 5.0 (E) 70-36 262081 PNP -:170-(C 110 50 50 (S 35 70 5.0 0.9 12 _~ 5.0 () 10-36 2N2082 PNP = -170_(C 110 40 40 (s' 35 70 5.0 0.9 12 _ 5.0 (E) 10-36 QN2138 PNP 62.5(C 100 45 45 (S 30 60 0:5 0.5 2.0 _ 12, (E) 70-3 2N21 PNP 62.5 (C 1 60 60 {8 30 60 05 0.5 20 12 (E) 10-3 2N2140 PNP 62.5 (C. 100 75 75 (8) 30 60 0.5 05 2.0 12 (E) = 70-3 2N2141 PNP 62.5(C) 100 90 90 (8) 30 60 0.5 0.5 2.0 12 fe) 10-3 2N2142 PNP 62.5 (C 100 30 30 (S) 50 100 0.5 0.5 2.0 - 12 (} =0-3 QN2143 PNP 62.5 (C 100 45 45 (8) 50 100 05 0.5 2.0 12 (E) = 70-3 202148 PNP 62.5 (C 100 60 60 (S) 50 100 05 05 20 - 12 10-3 2N2145 PAP 62.5 (C 100 75 75 (8) 50 100 0.5 0:5 2.0 _ 12 (E) = 70-3 2N2148 PNP 62.5(C) 100 90 90 (8) 50 100 0.5 0.5 2.0 12. (E) 70-3 QN2158 PNP 170 110 75 75(S) 80 160 5.0 0.1 5.0 _ 2.0 B 10-36 2H2266 PNP 5 U 125 = 100 55 40 120 0.5 0.75 5.0 _ 200 (T) = MT-36 2N2267 PNP 50 1 120 55 40 120 05 0.75 5.0 200 (1) = MT-36 ., 2N2268 PNP 50 125 =: 100 55 40 120 0.5 0.75 5.0 200 (T)~sMT-36 . PNP 50 (i) 125120 55 40 120 0.5 0.75 5.0 0 MT-36 2N2445 PNP $0 (Cc 100 100 50 (0) 30 60 10 1.0 10 30 (E) 0.1" f 0-41 2N2730 PNP = 140 (C 110 80 60 (0) 30 120 25 0.25 25 } 10-36 2N2731 PNP = -140 (C' 110 60 45 (0) 30 120 25 0.25 25 200 (1) = T0-36 2N27; PNP 140 C 110 40 30 (0) 30 120 25 0.25 25 200 (tT) 70-36 22733 =. PNP 140 (C 110 80 60 (0) 30 120 25 0.25 25 MT-23 N78 PNP 140 (C 110 60 55 (0) 30 120 25 0.25 25 200 R MT-23 re PNP aD io =O) b2e Be = 200 (hh Miae 2N2737 PNP = 140 (c 110 60 45 (0) 30 120 25 0.25 25 - 00 | (T) ss MT-22 . 2N2738 PNP) 140 (C)s10 40 30 (0) 30 120 25 0.25 25 200 ) MT-22 BH2869 PNP 30 (Cc) 100 60 __50 (0) 50 165 1.0 0.75 io 200 f 10-3 2N3311 PHP = 170 (C)~ (110 30 30 (S 60 120 3.0 0.1 3.0 30 (E) 1.0 (E) 10-36 2N3312 PNP = s-170 (c 110 45 45 (Ss 60 120 3.0 0.1 3.0 30 (E) 1.0 (e 10-36 2N3319 PNP 170 (C 110 60 60 (S 60 120 3.0 0.1 3.0 30 (E) 1.0 () = T0-36 2N3314 PNP = -:170 (C 110 30 30(S) 100 200 3.0 0.1 3.0 40 (E 1,0 () 10-36 3915 PNP) = s-170 (C 110 45 45 (5) 100 3.0 0.1 3.0 40 (6) 1.0 3 10-36 atom ee 8 gs) m mB Be fe Be 8 Bs 2N3612 PNP 85 (c) 110 60 45 (8) 35 70 3.0 0.25 3.0 40 (6) 0.3* (1) =: T0-3 2N3613. PNP 85 (C) 110 40 30 (8) 60 120 3.0 0.25 3.0 60 (E 0.3* (ft) = -T0-3 ~ 2N3614 PNP 85 (C 110 60 45 60 120 3.0 0.25 3.0 eo (Ey 0.3* 7) =: T0-3 ee om ge mw 8 88 g 8 Boe Ro BE Eee RS aha PNP 85 (c) 110 80 60 (S) 45 90 3.0 0.25 3.0 60 (E) 0.3" (7) 70-3 2N3818 PNP 85 (Cc 110-100 75 (8) 45 3.0 0.25 3.0 60 (E) 0.3* 10-3 9 PNP 94 8 100 60 35 120 5.0 0.4 5.0 30 (E) 600 MT-70 ast PNP ogg tty OR 4M Bs % 40 20 ry 20 30(E 30 OOM - $52 PNP 84 (C)s(100 6 40 20 5.0 0.4 5.0 o) 300 MT-70 * MHz 21semitron semiconoucrons "scree devices Semitronics Corp. INTEX/ SEMITRONICS CORP To P/-220 case outline drawings Pea. pam pn TO1 | : | TO3 828 ool TOS 21308 TO -4 MAK. : s100 ; . sae vIn 60 AM ' 1416 Max, 2084 L +80, _geenina x . itt [SEATING PLANE 4 800 bo maT asd oe 1 1M. 050 MAX, , _ -j- 1,50HIH SEATING PLANE ' i attemn-E] i nase : 215 oF, sitom.ny 200 tm He ay ase pat. O21 HAX(DIM BY ain. tf. TO66 Ane 4 oe if sOSCHAX. oye 4B SEATING PLAHE = HO Hee a 050 rrp, com, Bl (PL ea + A oo NEE oe. ae Lesearne PLANE = A a it eee wy Le Fr geatine rane nores: . TERMS oa IK t : a8? sae 220/T0220 fe 4 TERM A 2, Refer to milse for dimension pdf dak T Trees oe itech inchuded in. ication Ho, 7% ve TT ~nores 2. Figure "AT , Axial Terminal sae Ta aw. os 1 { c tion, applicable went - 2 Eee Teurats tite 1 peat say, Temata | cH ity SH . murations allaed Habe se2 CPL | ream Rte tie ed ee tens . Contour epticnal within K and P, TEAM 3 y TERM 3 j = a6 fer eptional. ne 7, Position of lead to measured sas TEAM 1 T 5 ke Ao 1050 -,@55 below seating plane, . a c f ey Fouition of lead to be measured . 8 1250 -, Tom bottoe FIG. PA ie encRAL OIA: dinensicn . AXIAL (NOTE 2} (NOTE 3) SECTION X-x Ez C E E a ESAs yaaa 240 O48 2020 [032 [560] 300 eb 1.020 ape CIT mae a249 [199 [00] Sa 2 920AA 1.180 [070] -045 |1048 | 028 | 420 121012055 [1270] +118 3422 1147 | 430 ke 27 5AB 7 - SEO] 500] 050 uh 020 ; iO) Oi (hy Be 39 F709 3 og [Soa] coee [ : wf ss? MAX. A ree >| i Max. 1.p2SHIn. 4 Po 1218 ce .. re (ey a ae = ~~ TH - +e TERM. 2 ro 406 MAx.e] TERM. 1 i SEATING rane * MAK. ae. at HY I 448, 1 166 TERM. eC) 038 wae ru a fie] be in, / =: oe tha 14-28 = |) wen OTs .3 tT - =ey fi - -4 # \. on 19 SEATING PLANE ore a cL z Ss ur TH "hay Pee 1.008 Doz aay rae ae Late Sis MAXI waa +206) 01 . ; pux] "tax sai Pate Pais WS D FR SYMOOLT tg a eax fe Mie ae WOTES a o1a | 022 [ 8.6567 0.35: s 5 67, 2.36 | 2.70 a 3 5.88 | 7.62 1 n 548 t : ~ : i [ez] 7 Dez] 62559) 5 - 1265 ay L c- | J $0012 7} + = 1 z au pos 4d tN ; zm] Si PACED ON Saten, =P se 20015 L LEAos CENTERS LEADS is . Ry 992.D1A, ef oA On pos 3 REN ceaa Ro ry} tL 250 (6 43 io s.| 0 53] 6 a + w 150} 7 " 200 070 #4) DIMENSIONS IN INGHES Demansiona inches and frilbensters) AND SMILLIMETERS) rd bet F Cc ry 61