Numerical Index 2NT136B-2NI1201 =} MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS == = = = = |=) REPLACE | PAGE Po FS] To | Vee | Vee |= hee @ Io Veesat) @ le 2) foie Wee TES | ment | numper | USE z e] hw |BL W918 =o @25c | S| C | (volts) | (volts) 2 (min) (max) =| (volts) 5 3 5/3 2n1136B| G] P| 21543 | 7-64 | PA 100} ico} 75{R} 50] Loc] 3.0a] 2.0] 3.04 4.0K| E 2n1137 |G] P] 21544 | 7-64 | LPA 100! 60} 25] 0] 75] 150} 3.0a} L.0] 3.04 2n1137A| G| P| 21547 | 7-64 | LPA 100] 90] 5510} 75] 150] 3:0 1.0] 3.04 2N1137B| G] P} 21548 | 7-64 | LPA 100] 100] 65) of} 75] 150} 3:0a] ilo] 3.0a 2N1138 | G] P| 2N1545 | 7-64 | LPA 100} 60] 25} 0] 100] 200} 3.0a] 1.0] 3:04 2N1138A| G| P| 2N1547 | 7-64 | LPA 100] 906} 55] 0] 100] 200) 3:0a} i.o0] 3.0a 2N1138B{ G| P| 2N1548 | 7-64 | LPA 100} 100} 65} 0} 100] 200} 3:0a} 1.0] 3.0a 2n1139 | s| n| 2Ng35 8-54 | Hss} 6.6m; A] 175] i5| 15] 0] 20] 200] iom] 0:7; io 100M] T 2n1141 | G] P 9-19 | RFA] 750mi c| 100] 35 10 tom] 2.0] som| 12] 8 2N1141a | G] P RFA| 750M] C} 100] 35{ 25] $s] 15 1oM} 2.0] 5om]0.94)B{ 5oom|T 2n1142 | G| P 9-19 | RFA] 750M] C} 100] 30 10 rom} 2.0] S5om|o.98)3B{ 600m] B 2n11424 | Gl Pp RFA| 750m| ci too} 30} 25|s1/ 45 tor} 2:ol Somloio4| at 4oom| + 2n1143 | Gl P 9-19 | RFA] 75on] c] 100{ 25 10 1om| 2.0] 5om|o.98] 3B] 4gom/ B 211434 | G] P REA| 750M| c| 100; 30] 25] $} 15 10M) 2.0] 50M]0.94/ 8] 400m] T 2n1144 |G] P| 2N321 6-6 | arc] irsm] a] 85) 16] 16] R]| 34] 90} 20m 1.0M| B 2n1145 |G] Pp] 2ni414 | 6-33 | arc] i75u] A] 85] 16] 16}R] 25] 90] 20M 1.0M] B 2n1146 | G| P pus} s7y|c]| 95] 40| 20/0] 60] 150] 5.0A| 1.0] 154 0.15M} E 2n1146a | G| P pms| a7] c] 95] 60] 30]0] 60/ 150] S.0a] to] 15a 0.15M| 2N1146B | G| P pms| s77]c}] 95] 8o| 4o]o} 60] 150] Sioa] fof 15a O.15M| E 2n1146C | G| P pys| 877] c] 95] 100} 50] 0] 60) 150] Sioa] Ilo} 15a 0.15M| E 2N1147 | Gt P pus] 87] c}] 95{ 40] 20/0] 60] 150] Sioa] 1:0] 15a 0:15M| 2N1147A} G| P pms} sav|c] 95{ 60] 30/0] 60] 150] 5:0a| 1:0] 15a 0.15M| E 2N1147B | G| P ps; 87} c}] 95| 80] 40/0] 60] 150] 5:0a] 1.0] 15a 0. 15M| E oni147cl al e pms{ si} cl] 95} 100} solo} 60] 150] 5:08] 1:0] 154 O.15M| E 2m1l49 | s| x AFA; isoM/Al 175] 45 9.0| 20] 25m 0.9/8] 4.om| B 2ntiso | S| N AFA| 150M] A]175| 45 is} 40] 25M p.948]}B] 5.0m] B 2N1151 | S| N AFA! 150M] a] 175] 45 18} 90} 25m p.948] BR] 8.0m] B 2N1152 | 8] N ara] isom|a| 175] 45 36| 90] 25M p.9731B| 6.0M| 8 21153 | S| N AFA} 150M] A]175| 45 76| 333} 25M b.987| B| 7.0m] B 2n154 | s| N AFA} 750m] c] 150} 50 9.0 60M 0.9] B 2n1155 | s| Nn aFA| 750M/ Cc] 150] 80 9.0 50M 0.9] B 2n1156 | s| 8 AFA| 750M] c|150| 120 9.0 40M 0.9] 8B 21157 | G| P| MP5OL 7-210| pms} 1877] 3] 100] 60} 45]0] 38] 84] 10a) 0.8] 404 75K| T 2n11574 | G| P | MP502 7-210] pMs| 1s7v| a] 100} so] sojo] 38] 84] oa} o.8] 40a 75K | T 2N1158 P}2N1143 | 9-19 | RFA] 6om|A]100} 20] 20] 8 5.7/5 2n1158a | G| P| 2N1142_ | 9-19 | ReA| 75m{ali1o0} 20} 20] s 9.01 E 2n1is9 | c[ P| 2n3616 | 7-118] PMs] 35w{c] 95] 80] 60; of. 30) 75] 3.0a! 1.0] 3.0a 2N1160 | G| P| 2N3616 | 7-118] pMs| 35wic} 95) 80] 60/0] 20] 50] 5.0A] 1.0] 5.0a 21162 | Gl P 7-53 | pMS| 907} c}100] 50] 35/s] 15] 65] 25a} o18| 25a 1.0K] E 2n1162a | G| P 7-53 | pMS| gow} c}100} 50] 35]/s] 15] 65] 25a] 0.8] 258 3.0K /E 2n1163 | G| P 7-53 | pvs| gow] cli100] 50] 35/s| 15] 65] 25a] 0.8] 254 1.0K] E 2N1163A | G| P 7-53 | pMs| g907]c}ico| 50] 35]s] 15} 65) 25a} o.8| 25a 3.0K] E oni164 | Gl P 7-53 | pus| gow] c}100} 80] 60/8] 15] 65] 254] 0.8] 254 1.0K | E 2N1164A | G| P 7-53 | pMs| gow] c]}100| go] 6o}s] 15] 63} 25a! o18| 25a 3.0K | E 2n1165 | G| P 7-53 | pMs| gow] c}i100} so] 60s] is] 65] 25a} 0.8] 25a 1.0K | E 2N1165A | G| P 7-53 | pms| gow] c]}100| so} 6o;s] 15] 65) 25a] 0.8] 25a 3.0K| E 21166 |G] P 7-53 | pMs| 907] ec} 100] 100} 75/s] 15] 651 25a] o.8| 25a 1.0K | 2N1166a | G| P 7-53 | pMs| 9ow|c]} 100} too} 751s] 15] 65] 25a} 0.8) 25a 3.0K | E 2N1167 | Gl e 7-53 | pms| gow] c]ioo{ 100; 75[s] is} 65] 25a] 0.8] 25a 1.0K | E 2N1167A | G] P 7-53 | PMs| 90w|c]ioo} too} 75}$s] 15] 65] 25a] O.8] 25a 3.0K] E 2N1168 |G] P| 23614 | 7-118] LPA| 45w]c] 95] 50| 30!R 2N1169 | G] Ww BMs| 120N]A] 71] 40} 20}0] 20 zoom| 0.3] 200m 4.5M| B 2n1170 |G] ems} izom|a| 71} 40] 20/0] 20 200M} 0.3] 200M 4.5m] B 2n1171 [G] P mms| 170m/A|] 85| 30] 12/0] 30 30M 10M | B 2n1172 |G] P}2N2137 | 7-78 | PMs 95| 40] 30]0] 30] 90] 100m 2nN1173 |G] N Mss | 0.25w]/A]100} 35} 20/0] 50] 200] tom]o.075) om] 50] E 2n1174 |G] P Mss|0.25w/A|100| 35{ 20/0] 50]200) iom}0o.075) 1om| So/E 2N1175 |G] P 6-33 | AFA| 200m] A} 85] 35} 25/R |] 70) 140] 20M 1.5M] B 2N1176 |G} P/2N1189 | 6-28 | AFA] O.3w]c} 85} i0| io|R 0.3] ota] 20/8 2N1177 |G] P| 2N2957 | 8-173] RFA| som} a] 71] 30 2ni178 |G] Pp|2n2955 | 8-173] pFaA| gsom[a|] 71] 30 2n1179 |G] P| 2n2956 | 8-173} RFA| som|a] 71] 30 2N1180 |G] P| 2N2956 | 8-173] RFA| som|A| 71] 30 2ni182 |G|P|2n2140 | 7-78 | pms} 1o6w}c}i00] 50] 60]o] 30] 85] 0.54] 0.9] 2.04 5.0K|E 2N1183 || P| 2N2140 | 7-78 | PMS! 7.5w]c}100| 45] 20/0] 20} 60] 400m} 0:5] 400m 500K | B 2n1183A | G| P| 2n2140 | 7-78 | pms| 7.5wic}100| 60] 30/0] 20] 60] 4oom] 0.5] 4oom 500K | B 2N11838 |G} P| 2Nn2141 | 7-78 | PMs} 7.5w]c{100| 80] 40/0] 20] 60} 400m] 0:5] 400m 500K | B 21184 |G] P| 2N2144 | 7-78 | PMS| 7.5w}c|1oo| 45] 20/0] 40]120] 4oom] 0:51 400m 500K | B 2n1184A |G P| 2N2145 | 7-78 | PMs] 7.5w}c}100| 60] 30/0] 40] 120} 4oom] 0:5| 4oom 500K | B 211848 |G] P|] 2n2146 | 7-78 | PMS| 7.5wW}C}100| 80] 40/0] 40] 120] 400m] 0.5] 400m 500K | B 2N1185 |G} P 6-25 | AFA] 200m|A]100] 45] 30]R | 130 10M 190] Ee] 1.M] 3B 2ni1s6 |G| P 6-25 | aval 200om/A{i00| 60 | 45|R1} 33 LOM 30 | |o,75M| B 2n1is7 |G] P 6-25 | AFA| 200m} A/100] 60] 45|/R I 45 10M 50/E | 1.0M| B 2N1188 |G| P 6-25 | ara| 200M} a]100] 60] 45/R| 80 10M 100; E) 1.2m] B 2n1189 | G| P 6-28 | AFA| 200M|Aj100| 45] 30]R| 60 tom | 0.22] 5om| 75| |. 1.7m] B 2N1190 |G\P 6-28 | AFA] 200M|A|100} 45] 30]R | 100 tom | 0.22] Som] 125; 5 | 2.2m} B 2N1191 |G|P 6-30 | AFA] 200M/{A|100| 40] 25/R{ 20] 80] 10m 30 | E 2N1192 | G| P 6-30 | AFA] 200om|A]too} 40) 25|/R] 40/135] Tom 50|E 2N1193 |G] P 6-30 | AFA] 200m] A|100; 40] 25|/R} 70/300] tom 100 | E 2n1194 | G| P 6-30 | AFA] 200om]A|100! 40) 25|R]125]600| 10m 190 E 2N1195 |G| P 9-19 | RFA] 225M/A]100] 30 0.96| 8B | 400m] T 2N1196 | S| P RFA| 0.350 }A|200] 70] 70]0}5.0} 30] 2.0m 0.85 |B 2n1197 |s|P RFA|0.35W]A|200] 70] 70/0]5.0/ 30] 2:0m 0.85 | B 2nN1198 1G|N usa] 65m ]}a] 85] 25] 25/0] i7| 90] 8.0m p.952/B] 5.0M| 8 2ni199 |s| Nn | 2N835 8-54 | ss] 150m] ]150] 20] 15/0] 12} 60] 20m] 0.25] 10m 75M | T 2N1199a | 5 | | 2N835 8-54 | HSS} 150m]A]150{ 20] 15/0] 12] 60] 20m] 0.25] tom 75M | T 2n1200 | S| N RFA} 100M]A]150} 20] 15]0]7.0] 200] 1.5m 9.0] E 2n1201 | 5 RFA] 100M/A]150{ 20] 15/0 |7.0| 200} 1.5m 9.0 1-115 RF Transistors RF TRANSISTOR SELECTOR GUIDES SMALL-SIGNAL TRANSISTORS (Listed in order of operating test frequency and power gain) Min Gpe (dB) f Min Pout (mW)* Type Material Polarity MHz Typ Conversion Gain (dB)f 2N3324 Ge P 10 24 2N2273 Ge P 30 10 2N741, A Ge P 30 16 2N2929 Ge P 60 26 2N700 Ge P 70 20 2N700A Ge P 70 22 2N3323 Ge P 100 11 2N707, A Si N 100 200* 2N1562 Ge P 160 5,0 2N1693 Ge P 160 5.0 2N1561 Ge P 160 6.0 2N1692 Ge P 160 6.0 MM1941 si N 175 7.0 2N4072, 3 Si N 175 10 2N3286 Ge P 200 14 2N3294 Si N 200 14 2N918 Si N 200 15 2N2708 Si N 200 15 2N3281 Ge P 200 16 2N3282 Ge P 200 16 2N3283 Ge P 200 16 2N3284 Ge P 200 16 2N3291, 2 Si N 200 16 2N3127 Ge P 200 17 2N3279, 80 Ge P 200 17 2N3287 thru 90 Si N 200 17 2N3307, 8 Si P 200 17 2N3785 Ge Pp 200 18 2N3783, 4 Ge P 200 20 MM5002 Ge P 200 20 MM5001 Ge P 200 22 MM5000 Ge P 200 24 2N3137 Si N 250 6.0 MM1803 Si N 250 7.5 2N2857 Si N 450 12.5 2N3839 Si N 450 12.5 2N4959 Si P 450 15 2N4958 Si P 450 16 2N4957 Si P 450 17 2N1141, 2, 3 Ge P 500 10 typ 2N1195 Ge P 500 10 typ AF239 Ge P 800 11.2G 2N3544 Si N 1000 10* MM1501 Si N 1500 150* MM1500 Si N 1500 250* MM380 Ge P 1500 fax MM1139 Ge P 108 to 10.7 227 9-6I SE NEMO TTR TAFE: MEN NCR BSN RF Transistors 2N1 141 thru2N 1143 (Germanium) 2N1142 USN/JAN 2n1195 2N1195 JAN G, = 25 dB @ 70 MHz NF = 4-5 dB @ 100 MHz Py = 300 mw PNP germanium mesa transistors for amplifier, driver, oscillator and doubler applications. Collector connected to case CASE 31 (TO-5) MAXIMUM RATINGS Rating Symbol | 2N1141| 2N114212N1143| 2N1195) Unit Collector-Base Voltage Voz 35 30 25 30 Vde Emitter-Base Voltage EB 1.0 7 0.5 1.0 Vde Collector Current-Continuous In 100 100 100 40 mAdc Base Current Ib 50 50 50 - mAdc Emitter Current-Continuous Th 100 100 100 - mAdc Total Device Dissipation @ Ty = 25C Py 300 300 300 - mW Derate above 25C 4 4 4 - |mw/c Total Device Dissipation @ To = 25C Py 750 750 750 - mW Derate above 25C 10 10 10 - |Imw/%c Collector Dissipation @ T, = 25C Po - - - 225 | mW Derate above 25C - - - 3 jmw/c Operating and Storage Junction Temperature Range Ty T ste -65 to +100 Cc 9-19- RF Transistors 2N1141-2N1143, 2N1195 (continued) TRANSISTOR SELECTION CHART Minimum BY... Typical 100mc Noise Figure @ Vee = 10Vde, |, = 1mAde @ |, = 10mAde, V., = Minimum h,, TYPE @I, = -100y Ade, i, 0 R, = 75Q 10Vde, f 100 MHz 35Vde | 30 Vde 25 Vde 4.0 db 4.5 db 5.0 db 12 db 10 db 8 db 2N1141 | uw iw 2N1142 uw al uw 2N1143 uw uw al 2N1195 uw uw a ELECTRICAL CHARACTERISTICS (ta = 25C unless otherwise noted) Characteristic Symbol | Min | Typ | Max | Unit OFF CHARACTERISTICS Collector-Base Breakdown Voltage BVap oO Vdc (I, = 100 uAdc, I,, = 0) 2N1141 35 45 - 2N1142 30 45 - 2N1143 25 45 - 2N1195 30 45 - Emitter~Base Breakdown Voltage BVEBO Vdc ap = 100 wAdc, Io = 0) 2N1141 1.0 1.3 - 2N1142 0.7 1.3 - 2N1143 0.5 1.3 - 2N1195 1.0 1.3 - Collector Cutoff Current Ia BO Adc (Vop = 15 Vdc, I, = 0) - 0.5 5 Vop = 20 Vdc, ly = 0) - 0.5 5 Emitter Cutoff Current 1RO uAdcC (Vpp = 0-5 Vde, 1, = 0) - 0.2 - ON CHARACTERISTICS DC Current Gain hop - t, = 10 mAdc, Vor = 10 Vdc} 2N1141, 2N1142, 2N1143 10 25 - (i, = 10 mAde, VQ, = 10 Vde) 2N1195 - 25 - Collector-Emiitter Saturation Voltage Vor (sat) Vde (I, = 50 mAde, I,, = 10 mAdc) 2N1141, 2N1142, 2N1143 sal - 0.185 2 Ml = 50 mAdc, I, = 10 mAdc) 2N1195 ~ 0.185 - 9-20~ RF Transistors 2N1141-2N1143, 2N1195 (continued) Characteristic Symbol |} Min | Typ | Max | Unit SMALL-SIGNAL CHARACTERISTICS Common-Base Cutoff Frequency fyb MHz Oo = 10 mAdc, Vor = 10 Vdc) All Types - 1000 - Collector Transition Capacitance Coe pF (Von = 10 Vac, I, =0, f= 1 MHz) 2N1141 - 1.1 1.5 2N1142, 2N1143, 2N1195 - 1.1 - Emitter Transition Capacitance Cre pF Vir = 0.5 Vde, Io = 0, f = 1 MHz) All Types - 2.5 - Small-Signal Current Gain hee, fo = 10 mAdc, Vor = 10 Vdc, f = 100 MHz) 2N1141, 2N1195 12 18 - - 2N1142 10 18 - 2N1143 8 18 - Small-Signal Current Gain hey - Ml = 10 mAdc, Vor = 10 Vdc, f = 1 kHz) 2N1141, 2N1142, 2N1143 - 0. 98 - 2N1195 0. 96 0. 98 0,995 Output Admittance Hob umhos Me = 10 mAde, Vag = 10 Vdc, f = 1 kHz) 2N1141, 2N1142, 2N1143 - 10 - 2N1195 - 10 20 Input Impedance hy Ohms fl, = 10 mAdc, Von = 10 Vde, f = 1 kHz) 2N1141, 2N1142, 2N1143 - 3.6 - 2N1195 - 3.6 10 Voltage Feedback Ratio ho - (lg = 10 mAdc, Vo, = 10 Vde, f = 1 kHz) 2N1141, 2N1142, 2N1143 - 0.0013 - 2N1195 - 0.0013] 0.003 Collector-Base Time Constant re c ps (lp = 3 mAdc, Vay = 10 Vde, f = 30 MHz) All Types - 23 - Extrinsic Base Resistance r! Ohms We = 10 mAdc, Vor = 10 Vdc, f = 250 MHz) 2N1141 - 65 70 2N1142 - 80 - 2N1143 - 110 - 2N1195 - 65 80 Collector Series Resistance re Ohms lp = 10 mAdc, Voz = 10 Vde) All Types - 2 - Noise Figure NF dB Cp = 0.8 mAdc, Var = 5 Vde, Rg = 300 ohms, f =4.5 MHz) | 2N1141, 2N1195 - 3.0 - 2N1142 - 3.5 - 2N1143 - 4.0 - fp =1 mAde, Vor = 10 Vdc, Rg = 75 ohms, f = 100 MHz) 2N1141 - 4.0 - 2N1142,2N1195 - 4.5 - 2N1143 - 5.0 - (lL, = 1 mAdc, V, = 10 Vdc, R, = 50 ohms, f = 200 MHz) E "CE 7S "2Nn1141" - 5.5 - 2N1142, 2N1195 - 6.0 - 2N1143 - 6.5 - Oscillator Efficiency n % Vor = 20 Vde, Io = 10 mAdc, f = 400 MHz) 2N1141 - 20 - 2N1142 - 18 - 2N1143 - 12 - 2N1195 - 18 - 9-21- RF Transistors 2N1141-2N1143, 2N1195 (continued) POWER-TEMPERATURE COLLECTOR CHARACTERISTICS, DERATING CURVE COMMON EMITTER 2N1141, 2N1142, [ ani (INFINITE HEAT SINK 50 600 45 e || \ ge S N = 35 = 450 5 = | \ 2 3 8 = S 2N1141, 2N1142, 2N1143 5 95 g 300 } + \ = 0 05 ops (ANUS, ~ 3 . n |o4 & Q * 150 | SS 3 ost. SI = 10 FREE AIR 5 | Ima |, 0 0 - 6 0 2 (50 75 100 0 5 10 15 2 2 30 40 50 T., AMBIENT TEMPERATURE (C) Vee, COLLECTOR-EMITTER VOLTAGE (Vdc) BASE CHARACTERISTICS, COLLECTOR CUTOFF CURRENT COMMON EMITTER versus JUNCTION TEMPERATURE 100 | 20 T= 25C Vy V; 3 @ / yj 3 5.0 Z V// g 0 = h = 10 30 3 s 60 95 7 05 oe ~ So 3 20 5 oe ~| S 02 S 4 E18 & 2 7 V 19 & Ol 2 i, = 5mAdc S 0.05 S 8 5 20 > VY 3 0.02 LLL. s 0 0.005 0.40 045 050 055 060 065 0.70 ~1IS 30 2 0 2% 50 7% 100 Vue, BASE-EMITTER VOLTAGE (Vdc) T, JUNCTION TEMPERATURE (" C) COLLECTOR SATURATION COLLECTOR INPUT ANO OUTPUT CAPACITANCE CHARACTERISTICS versus VOLTAGE 20 TL=BC f = 100 kHz 3 z ' = & 6 : y= 2mAdc 8 5 3 5 4 a & 3 Oo co ~ 2 0 0 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0. 1 0.30 O40 01 02 05 10 2 5 10 20 50 Vestue COLLECTOR SATURATION VOLTAGE (Vdc) REVERSE BIAS VOLTAGE (VOLTS) 9-22 RF Transistors 2N1141-2N1143, 2N1195 (continued) POWER GAIN AND NOISE FIGURE POWER GAIN AND NOISE FIGURE versus COLLECTOR-BASE VOLTAGE versus EMITTER CURRENT 28 10 28 26 POWER GAIN vs. V.] 8 6 POWER GAIN vs. I, _ l, == 10 mAde ~ = Veg = 10 Vde 3 4 g 3 a z 24 6 wy z 24 wi 5 3 & a oe = S = se 22 NOISE FIGURE vs. Ve 4 = 2 eI a =) Ss a > Ne Oo =& = 10 made Ss Vern 10 Vdc 20 70 MC NEUTRALIZED & MATCHED 2 20 T,2C 70 MC | | T, == 26C 0 ! | 0 0 0 0 2 4 6 8 10 12 #14) (16 0 2 4 6 8 lo. 12 WW 16 Ves, COLLECTOR BASE VOLTAGE (Vdc} {,, EMITTER CURRENT (mAdc) COMMON EMITTER POWER GAIN, hte, AND NOISE FIGURE versus FREQUENCY a a g S 2 = 2 S 3 s Ss = = 1 2 5 10 20 50 100200 500 1000 FREQUENCY (} riz) SMALL SIGNAL CURRENT GAIN (he) NORMALIZED hee versus COLLECTOR CURRENT versus AMBIENT TEMPERATURE Ver == 10 Vae Wa | T hee NORMALIZED TO 25C a Vee == 5 Vdc Ver = 10 Vde / : 11 F\, = 10 made z e 7 = 8 = 10 5 Z z S 5 Vee =: 2 Vde 5 09 / 5 : a 3 08 LO 07 0 2 4 6 8 10 12014 16 15 80 2 0 25 50 5 100 te, COLLECTOR CURRENT (mAdc) T,, AMBIENT TEMPERATURE (C) 9-23