2N1383-2N1470 Numerical Index ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS Bs | c= | REPLACE- | PAGE Ph IBI th | Y, Ver |= tre @ Io v @l Bl - |S TYPE 2 3 MENT | NUMBER USE & cB | YCE 5 2 CEISAT) mn n_ |B -2lB =o @ 25C |B] C | (volts) | (volts) |S | (min) (max) 5} (volts) z 3 5/3 2N1383 G| P| 2N1192 6-30 | AFC] 250M/ A | 100 25 25 7R 27) 165 50M 1.0 100M 20/5 2N3384 1G} P HSS | 240M) A] 85 30 30} 0} 20 200M 20M | T 2N1385 |G] P RFA | 750M | A | 100 25 10} Of} LO 10M 250M | T 2N1386 | S| N | 2N2218 8-108] MSS 300M | Aj] 175 25 25] 0 301 90 10M 0.6] 5.0M 2N1L387 Sj} N} 2N2218 8-108) MSS 300M ) A) 175 30 30] 0] 207 40 10M 0.5 5.0M 2N1388 | S| Nj] 2N2218 8-108} RFA] 300M] A | 175 45 25/0] 15] 55 10M 30] E 50M | B 2N1389 S|] N]} 2N2218 8-108] VID 300M | Aj 175 50 50] 0 0.8 5.0M 24M | T 2N1390 |S) WN) 2N2218 8-108) RFA 300M } A} 175 20 20]0}] 307 150 10M 10] E 20M | B 2N1391 |G] N AFA| 150M] A | LOO 25 18} 0} 40] 160 20M 35 |E | 3.0M]E 2N1392 |G} P SPP 5soM|A| 85 20 20]R 2N1393 |G) P SPP 50M} Ay 85 20 1OYR 2n1394 |G] P SPP Som{A[ 85 10 | 6.0|R 2N1395 |G] P| 2N2955 8-173{ RFA| 120M/4|100/ 40} 40{0| 504,175| 1.5m 30m |B 2N1396 G| P | 2N3323 9-71 RFA 120M | A | 100 40 4010 50} 175 1.5M 30M | B 2N1397 G] P | 2N3323 9-71 | RFA 120M {| A | 100 40 40/0] 50] 175 1.5M 120M | B 2N1398 |G|P REC| 50M/A| 85 30 20|o0] 10 0.5M | 0.75 LOM 140M | t 2n1399 | cl] P RFC| 50M|A]| 85 30 20]0|3.5 O.5M | 0.75 LOM 140M | T 2n1400 | C|P REC 50M{ A] 85 30 20]0]5.0} 12] O.5M] 0.75 10M 100M | T 2N1401 | C] P RFC som (A | 85 30 20/0 15.0 0.5M | 0.75 LOM 120M | T 2N1402 G|P RFC 50M | A 85 30 20)0/3.5 12 1.5M | 0.75 LOM 100M | T 2N1403 |G] P RFA | 250M | A } 100 15 12]0] 25] 250] 7.0M] 0.75 LOM 200M | T 2N1404 G| FP MSS 150M {A 85 25 0.15 12M 4.0M |B 2N1404A | G} P Mss | 150m] A] 85 25 15 |o] 30] 200 12M | 0.15 12M 3.0M | T 2N1405 G{P RFA 75M | A | 100 30 20/0 10 | 200 2.0M 10 | E 250M |T an1406 | cl Pe REA 75M} A } 100 30 20)0) 10} 200) 2.0m 10} = ] 250M] 7 2N1407 {| G|P RFA 75M | A | 100 30 20/0} 10} 200] 2.0m 10 {E | 200M) T 2n1408 |G] P 6-32 | MSA| 150M]A|100] 50 50]s |} 10 1O | E 2N1409 Sj) N | 2N2537 8-151} HSS 600M } A | 200 30 25 | 0 15) 45 150M 200M | T 2N1409A | S| N | 2N2537 8-151] Hss | 800M] A } 200 30 25]o0] 15] 45] 150M 200M | T 2N1410 S]} Nj 2N2537 8-151) HSS 600M | A | 200 45 30 | 0 39 90 150M 130M | T 2N1410A |S) N ) 2N2537 8-151) HSS 800M }] A } 200 30 30) 0 30; 90 150M 130M | T 2N1411 G\ P | 2nN962 8-74 MSS 25M 1A 85 5.0 5.0/8 20 50M; 0.45 10M 25M | T 2n1412 |G] P 7-57 | PMS 7ow |c} 95} Loo 65/0} 25] 50] 5.0A 0.7 124 2N1413 |) G]P 6-33 } MSA 200M | A 85 35 25 ]R ]) 25 42 20M 20 |E 800K | B 2N1414 |G] P 6-33 MSA 200M | A 85 35 25 |R 34 65 20M 30 /E 1.0M | B 2N1415 Gi P. 6-33 | MSA 200M | A 85 35 25 1R | 53 90 20M 44 |E 1.3M |B 2n1416 |G] P | 2N1193 6-30 | AFC] 100M |A | 65 18 | U 39 JE 2NI417 {S| N AFA | 0.15W {A | 150 15 15 | 0 30 [E 2N1418 S{N AFA | 0.15W | A | 150 30 30 | 0 30 \E 2N1419 GI} P } 2Ni164 7-53 PMS 87W | C 95 80 40}0] 40}; 100 254 0.7 25A 2N1420 S|N 8-28 | RFA 600M | A | 175 60 30 | R } 100 | 300 150M 1.5 150M 50M | T 2N1420A [S| N | 2N2219 8-108 | RFA | 800M | A | 200 60 40 {R [100 | 300| 150M 1.5] 150M 60M | T 2N1421 |S]N HPA 30w | c | 200 60 60]s | 20] 80] 1.04 3.0] 1.0A 20]E 10M | T 2N1422 | S|N HPA 30w | c | 200 60 60 |s | 20} 80] 1.04 3.0] 1.04 20 |E LOM | T 2N1423 | S|N HPA 60W | C | 200 60 60 |S | 20] 80] 2.0A 5.0] 2.0A 20 |E 1oM | T 2N1424 S{N HPA 60W | C | 200 60 60], 5 20] 80 2.0A 5.0 2.04 20 ,E 10M | T 2n1425 |G] P AFC gom | Af 85 24 10M | B 2N1426 | c]P AFC| 80M |A | 85 24 17 {E 10M | B 2N1427 |G] P | 2N962 8-74 | HSS 25mfa]100] 6.0] 6.0]}s | 20 50M | 0.2 50M] 40 /E 50M | T 2N1428 |s|P MSA] 1OOM/]A[/140} 6,0] 6.0]0] 12 5.0M] 0.1] 5.0M] 25/8 16M | T 2n1429 |sS|P MsA | Loom{A |140 | 6.0 | 6.0 }a} 12 5.0M } O.1f 5.0m} 2545 16M } T 2n1430 | |P PMS 7oW {C]1LO} 120 | 100;0} 30] 90} 5.0A 0.4 10A 0.6M | T 2N1431 GIN AFA 180M | A 75 20 15 /R 75 | 150 35M 10K | E 2n1432 |G|P AFA| 1ooM|A [100 | 45 45 |R 30 JE 2N1433 | G|P LPA 95 80 50,0] 20] 50] 2.0A 1.5] 2.04 5.0K ]E 2N1434 |G] P LPA 95 80 50}0] 451115} 2.0A 1.0] 2.0A 5.0K | E 2N1435 G{P LPA 95 80 50 1a 30 75 2.04 0.6 2.04 5.0K) E 2N1436 |G|P HSS 50M | A | 100 15 12]s |] 20 10M | 0.2 10M 2N1437 [GIP LPA 23W yc] 95] 100 90 |S | 20 0.5A 1.0} 1.0A 4.0K | E 2N1438 GiP LPA 23w lc 95 100 90 1S 20 Q.54 1.0 1.04 4.OK | E 2N1439 S| P AFA 0.4W |] A | 200 50 50 |0 0.25 5.0M] 9.0 ]/E 0.5M/)B 2NL440 S| P AFA 0.4W [A | 200 60 50 [0 0.25 5.0M | 9.0 [E 1,0M (B 2N1441 }S]P APA 0.4w |] A | 200 50 35 | 0 0.25 5.0M 18 | E 1,0M {|B 2N1442 | S| P AFA] 0.4W | A | 200 50 30 | 0 0.251 5.0M} 30/E] 1.OM}B 2n1443 [S| P AFA | 0.4W | A {200 50 15 10 0.25/ 5.0m] S5O/E} l.om|.B 2n1444 | s] Nn HSS] 0.5W ]-A }150 60 20]0] 20 0.254 1.5 | 0.258 2N1445 {STN uPA} 4.0]c|200] 120] 120]/0] 20] 80] 200m] 4.0] 200M 75K | E 2N1446 |G] Pe | 2N1L191 6-30 | AFA| 0.2W {A { 85 45 25,0 | 16] 45 20M 16/E | 0.8M{B 2N1447 |G] P | 2N1191 6-30 ) AFA] O.2W A} 85 45 25 )0] 35] 65 20M 30} E | 1.5M]B 2n1448 |G] P | 2N1192 6-30 | AFA} 0.2W]A | 85 45 25/0} 50] 90 20M 45|E | 2.0M]B 2N1449 |G P | 2N1189 6-28 | AFA] 0.2W]A | 85 45 2510] 70 | 125 20M 60 /E | 2.5m] B 2N1450_ |G] P | 2N2955 8-173] MSS | O.12W }A |] 85 30 20] 0] 20 10M | 0,25 10M 2N1L451 G] P | 2N464 6-15 AFA O.2W A 85 45 20 |0 20 65 20M 2N1452 |G| P| 2N1191 6-30 | AFA| 0.2W [A | 85 45 2010 | 30.) 90 20M 2N1453 |G|P LPA 90 30 20/0] 40] 90] 1.0 1.0] 3.0A 5.0K] E 2N1454 |G] P LPA 90 30 20/0} 70]150] 1.04 1,0] 3.0A 5.0K} E 2N1455 G|P LPA 90 60 40 ;0 | 40] 90 1.0A 1.0 3.04 5.0K | E 2N1456 1G] P LPA 90 60 | 40]0]{ 70] 150] 1.0a 1.0] 3.04 5.0K | E 2N1457 |G] P LPA 90 80 60 }|o | 40] 90] 1.04 1.0] 3.04 5.0K | E 2N1458 |G] P LPA 90 80 60 10 | 701150 | 1.04 1.0 | 3.04 5.0K) E 2N146L |G] P LPA 90 30 20|0] 40] 90] 1.0 1.0] 3.04 5.0K | E 2N1462 | G{P LPA 90 30 20]o0] 70} 150] 1.0a 1,0} 3.04 5.0K | E 2N1463 | G|P LPA 90 60 4o{o] 40| 90] 1.04 1.0] 3.04 5.0K, E 2N1464 |G] P LPA 90 60 | 40]0] 70]150] 1.04 1,0} 3.04 5.0K | E 2N1465 |G] P LPA 2ow]c} 85} 120 70 |0 |} 20 0.54 | 0.75] 1.04 4.0K | E 2nN1466 | G{P LPA 20w jc | 85 | 120 70 40 | 20 0.54 | 0.75 | 1,04 4.0K | E 2N1469 |S} P AFA | 0.25W } A | 175 40 35 [U 36|E | 2.0M/B 2n1470 |S] N LPA 55w | c | 200 60 60 }s | 15 1.0A 3.0] 1.04 1-118Power Transistors Vos = 100V 2N1412(GeRMANIUM) 1 =15A 2N1412 JAN AVAILABLE P, = 150W 2N1412A PNP germanium power transistors for high-voltage power amplifier andswitching applications in military and industrial equipment. CASE 5 (TO-36) MAXIMUM RATINGS Rating Symbol Value Unit Collector-Base Voltage Vos 100 Vdc Collector-Emitter Voltage Vors 80 Vdc Collector-Emitter Voltage Voro 60 Vdc Emitter-Base Voltage Veep 60 Vde Emitter Current (Continuous) Ip 15 Amp Base Current (Continuous) I, 4 Amp Junction & Storage Temperature Tote -65 to +100 c Thermal Resistance 850 0.5 c/w SAFE OPERATING AREA POWER-TEMPERATURE DERATING CURVE 40 160 30 Sms sims 500 us 250 us ~ 150 20 Ee < 7 us = 120 LEss z a = 100 a 5 = 80 z / 2 3 a 5 3 = 2 3B 40 & S 1 a 20 g o 3 Os 0 04 0 20 40 60 80 100 03 19 200, Ba To, GASE TEMPERATURE (C) 0.2 ga oO ON MY The maximum continuous _ This curve has a yalue of power is related to maxi- 150 Watts at case tempera- (PULSE CURVES mum junction temperature tures of 25C and is 0 Watts by the thermal resistance at 100C with a linear rela- 0.1 - 010 20 30 40 $0 60 70 80 90 100 factor. tion between am COLLECTOR-EMITTER VOLTAGE (VOLTS) allowable Pp = Ae The Safe Operating Area Curves indicate Ic (Duty cycle of the excursions make no significant Vcr limits below which the device will not go into change in these safe areas.) To insure operation secondary breakdown. Collector load lines for spe- below the maximum Ts, the power-temperature cific circuits must fall within the applicable Safe derating curve must be observed for both steady Area to avoid causing a collector-emitter short. state and pulse power conditions. 7-572N1412 (continued) ELECTRICAL CHARACTERISTICS Power Transistors - Vop = 30 Vde In = 0 Characteristic Symbol Minimum Maximum Unit Emitter Cutoff Current IgBO - 200 pAdc Vep = ~2.0 Vde Io = 0 Emitter Cutoff Current IgBo 10 mAdc Vep = 60 Vde Ie = 0 Collector Cutoff Current IcBo 200 pAdc Vop = -2.0 Vde Ip = 0 Collector Cutoff Current IeBo _- 10 mAdc Vop = 100 Vde Ip = 0 Emitter-Base Voltage VEB 0.5 Vde Vor = 2.0 Vde Ig = -1.2 Adc Emitter-Base Voltage VeB 0.9 Vde Vcr = 2.0 Vde Ic = -5.0 Adc Floating Potential Vy 1.0 Vdc Vop = 100 Vde Ip = 0 (Voltmeter input resistance = 10 Megohm min) Collector-Emitter Saturation Voltage Vor(s AT) 0.7 Vdc Ig = 12 Ade Ip = 2.0 Adc Forward Current Transfer Ratio* hpp 10 _ _ Vor = 2.0 Vde Io = 15 Adc Forward Current Transfer Ratio hpg 25 50 _ Vor = -2.0 Vde Ic = 5.0 Adc Collector-Emitter Breakdown Voltage * BVcrO 60 _ Vdc Ic = -1 Adc Ip = 0 Collector-Emitter Breakdown Voltage * BVcEs 80 _ Vde Vep= 0 Ic = 300 mA Smali-Signal Short-Circuit Forward-Current fue & _ kHz Transfer Ratio Cutoff Frequency Vor = -12 Vde Io = -5.0 Adc High-Temperature Operation IEBO _ 6.0 mAdc Emitter Cutoff Current To = +71C min VB = ~30 Vde Collector Cutoff Current IcBo _ 6.0 mAdc *Test by sweep method with a short duty cycle (about 1%) to avoid excessive heating. 7-58Power Transistors 2N1412 (continued) INPUT CHARACTERISTICS CURRENT TRANSFER CHARACTERISTICS tn, BASE CURRENT (AMPERES) }., COLLECTOR CURRENT (AMPERES) 0 0.2 0.4 0.6 1.0 0 0.15 0.30 0.45 0.60 0.75 Veen, EMITTER-BASE VOLTAGE (VOLTS) li BASE CURRENT (AMPERES) TRANSCONDUCTANCE CHARACTERISTICS OUTPUT CHARACTERISTICS I, COLLECTOR CURRENT (AMPERES) i, COLLECTOR CURRENT (AMPERES) 0 0.2 0.4 0.6 0.8 1.0 0 10 20 30 40 50 60 70 80 90 100 View, EMITTER-BASE VOLTAGE (VOLTS) Vex, COLLECTOR-EMITTER VOLTAGE (VOLTS) 7-59