2N1049-2N1136A Numerical Index ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS =|5 ~ = ~ 5) =| REPLACE. | PAGE Po |B) Ts | Vea | Vce_ |= fre @ Ie Voesat) @ Ie 2 fh |< TE {ETS | ment | number | USE = 5 ep AN eel TB) el B =/< @25C | B] C | (volts) | (volts) |= | (min) (max) =| (volts) 5 3 SIs 2NL049 S|N LPA 40W | c | 200 80 30 90 500M 7.5 500M 2N1049A | S| N tpa}| 4ow]c]200] so} solo] 30] 90] soom| 7.5] 500m 75K ]E 2N1049B | S| N tPA; 4ow|c]200} 80] 80/0] 30] 90] Soom} 2:0] Soom 125K | E 2n1049c | s | N tPA] 4ow}c]200{ 80] 80]o] 30] 90} Soom] 1.0] 500m 125K | E 2n1050 |s|N LPA| 40W} Cc] 200] 120 30] 90] 500M] 7.5] Soom 2n1050A | S| N LPA} 40W|C}200] 120] 120/0] 30} 90} Soom] 7.5} 500M PSK }E 2NL050B|S|N LPA 40W | c | 200 120 120 )0 30 90 500M 2.0 500M L25K | E 2n1050c | s | N wPA| 4ow|c]}200{ 120| solo] 30] 90] S500m| 1:0] Soom 125K | E 2N1051 S{[N RFA o.5W] A} 150 40 40/0 25 50M 3.0 50M 30 ]/E 80M | T 2N1052 |S] N RFA} 6.0M/A} 200] 200] 200]v| 20} Ba] 0.24] 5.0] 0.24 2n1054 |s|N vi} o.8w]a|200] 125] 115;0] 20 0.24 15,E | 8.om |r 2N1L055 SUN RFA 5.5M 1A | 200 190 100 [90 20 80 50M 2.0 50M 3.0M {TT 2N1056 G| P | 2N2043 6-39 AFA 240M | A | 100 70 50]R 18 43 20M 0.13 20M 500K |B 2n1057 |G| P| 2n1924 | 6-37 | ara] 240m]a]1oo] 45] 45]v | 34} 90] 20m} 0.13} 20M 500K | B 2n1058 |G|N 50M 75{ 20| 20]R ro |e | 4.om|p 2n1L059 |G|N ara | 180M 7 | 40] 157R 10M 10K {E 2n1060 |S] N|]2n2501 | 8-148] Hss]o.25w{a]1so] 40] 40]0] 17 5.0M}] 0.3] 5.0M 2n1065 |G|P AFA|0.12W{A] 85] 40} 20/0] 20] 80 0.25] om Lom | T 2ntoes || p{2n3s23 | 9-71 | RFA} i2om|Ajico} 40] 4o}o) 20)175) 1.5m 2n1067 |s|N|2n3766 | 7-142] PMS| 5.ow]c}175+ 60] 30}0] 15] 75] 200m] 2.0] 200m 0.75M | B 2N1068 S| N | 2N3766 7-142 | PMS Low | c 7 175 60 30];0 15 75 750M 2.0 200M 0. 75M} B 2n1069 |s|w|2n3766 | 7-142| Pms| Sow]cl175| 60] 45/0] 20] 50[ 1.54] 1.33] 0.58 0.5m | B 2N1070 | S|N]2N3766 | 7-142) PMs] 5ow]c}i75) 6o} 45}0] 20] 50] 1.54] 0.5] 1.54 0.5m | B 2n1072 {S| N|2N3766 | 7-142| PHs| 2.0w|a/i150| 75 | 30]0] 20 0.754 | 2.0 | 0.754 2N1073 G] P 7-48 LPA 110 40 40 [R 20 60 5.0A 1.0 5.0A 2N1073A | G] P 7-48 LPA 110 80 80 ]R 20 60 5.0A 1.0 5.0A 2N1073B | G| P 7-48 | LPA 110 | 120} 120]r]} 20] 60] 50a] 1.0] 5.08 2n1074 |s|N ara| 250m]A]160| 50] 40] 0 9.0{z | 200K |B 2n1075 |S|N AFA| 250M|A/160| 50] 3540 18 |e | 250K |B 2n1076 |S} N AFA| 250M]}4]160} 50] 30]}0 36 | | 300K |B 2n1077 | S| N AFA} 250M|a]160| 50] 35/0 1.0] 8.0m] 9.0} | 200K] 8B 2N1078 |G] P tPA; 20w|/c] 85] 60] 60/35 | 40 0.58] 1.0] 1.08 2ni079 |s|n weal oowtc {200} 604) 60}5]) 20) 80} 1.08} 3.0] Loa} 20)8) liom) t 2n1080 | s|N Hpa| 6ow]c|200] 60] 60];s{ 20} so} 2.08] 5.0} 2.0Af 20/E |] loM| Tt 2N1081 S|N MSS 6,0M | A | 200 40 40]0 20 | 100 O.5A 4.0 0.54 2N1082 SUN RFA O.2W | A | 200 25 25/5 10 50 LOM LO|E 17M | T 2n1086 [cl Nn rrc| 65sMla[ 85] 9.0] 9.0/0] 17] 195] 1.0m 2N1086A ;G| N RFC 65M ]A 85 9.0 9.0/0 17 | 195 1.0M 2N1087 G|N RFC 65M | A 85 9.0 9.0/0 17 | 195 1.0M 2N1090 |G] N MSS| 120M)A] 85] 25 30 20m} 0.2) 20M 5.0M | B 2n1091 |a|N Mss | 120M/A} 85] 25 40 zom| 0.3] 200M 1om | B 2n1092 |s| Nn pus! 2.ow/A|175] 60] 30/0] 15] 75] 200M] 2.0] 200M 0.75M | B 2N1093 1G|P aFA| iI5om{al 95 | 30 i5}olt soliso| 20m] o.2| 20m] aole | 5.0m] 8 2n1094 |G] P rFa|o.1sw]a]}100] 30] 15 ]o] is 4,0M 0.96 |B | 560M] T 2n1097 |G@|P|2ni414 | 6-33 | arc} 20om]a|ioo| 18] 18]/R| 34} 90] 20m 1.0M |B gnio9g |c|e]2ni4i4 | 6-33 | arc| 2oom{a]100] i8]{ is8}R| 25} 90] 20m 10M |B 2nio99 | cl P 7-25 |upa} sow}cy 95} 80} 7ols]} 35} 70} 5.0a] 0.7) 128 2N1LLOO G|P 7-17 LPA 50W | C 95 100 65] 0 25 50 5.0A 0.7 L2A 2nlio1 [cw AFA | 180M 7] 20] i5;r] 25{ 50] 35m] 0.5] 100m 10K | E 2n1102 |co|N AFA | 180M m3} 401 25|x | 25| 50} 35m} 0.5} Loom 10K | 2n1103 | s|N ara | i25m{a liso] 45 {| 35/0] 30] 65{ liom] 1.5] tom] 20];e] lom]B 2nl104 |S] N ara] 125M{a]i50] 45 | 35]}0] 45/150] tom] 1.5] 10m] 4o]e! 20m] B 2n1105 |S|N araA| 800m ]a|200] 60] 6o}o]} 12} 36] 200m| 5.0] 200M 2N1106 s)N AFA 800M } A } 200 100 100 ] 0 12 36 200M 5.0 200M 2N1107 |G|P Rra| 30M |C 16 40M | B 2n1108 |G|P rra| 30M |c 16 35M |B 2n1109 |G| P RFA{ 30M{C 16 35M | B 2N1110 |G] P RFA| 30M|c 16 35M | B 2n1111 |G|P RFA| 30M |c 16 35M |B 2N1114 GIN MSS 150M 100 25 15 ]R 40 | 180 20M 7.0M{B 2N1115 |G|P MsA] 150M/A} 85] 20] 15}0 0.35] 60M 5.0M | B 2n11154 |G | P MsA| 15om]a] 85] 20] 15] 0 0.35 | 60M 5.0m | B 2n1116 Is|N RFA; 600M]c]200} 60{ 60/0] 40f150] 0.54} 5.0] 0.58 6.0M | T 2N1117 s|[N REA 600M {Cc | 200 60 6a fa 40 | 150 0.24 4.0 Q.2A 4.OM4T 2nil1s |s|P RFA| 15om/A}140] 25 | 25] u 15|&] 8.0M|M 2N1118A | s | P RFA{ 150M/A]140] 25] 25 ]U 25] 15M 15] | 8.0m] M 2n1119 |s|P mss} tsom/a]i4o] io] itolu| 15 15M | 0.15] 5.0M 7.2M{T amii20 |e}P 7-51 | LPA) 45wi)c} 95} 80) 70]}8] 20] 50) DA} 1.0} 10A} 30} E] 3.0K] E 2nl12i | Go| N rec} o65m{c} 85| 15] I5]o] 34 1.0M 2N1122 Gy} P |} 2N961 8-74 HSS 25M | A | 100 12 11] Ss 25 10M O.L 8.0M 35 ]/E 40M 2N11L22A4 |G | P | 2N960 8-74 HSS 25M | A | 100 15 14158 25 10M O.1 8.0M 35 /E 40M 2n1123_|G]P | 2N3427 | 6-41 | Mss| tomicjioo}| 45 | 4o0[s] 40 loom | 0.2| 1oM 3.0m | B 2n1124 |G] P | 2N651 6-20 | ars} 300om]/a] 85] 40] 35 ] 0.2] loom] 40] | 400K] B 2n1125 |G] P | 2N651 6-20 | HSA} 300M{a| 85] 40} 4ojv| 50[ 150] Soom[ 0.3{ Soom 1.0M | B 2N1126 |G) P | 2N651 6-20 | MSA] l.ow]c}] 85] 40) 35] 0.2} 100M} 40]E] 400K) 8B 2nl127 |G|P|2n3428 | 6-41 | MsA] 1.ow}c] 85} 40] 4o]v] 50]150] 500m] 0.3]. 500M 1.0m | B 2nN1128 |G} P|2N1192 | 6-30 | AFA] L5oM]A| 85] 257 18/5 70|E 2n1129 |G] P| 2N3427 | 6-41 | AFAT 150M{A | 85 | 25 | 25 {v |i00|200/ Loom | 0.254 loom 2n1130 |G|P|2n1193 | 6-30 | AFA] 150m]a]| 85 | 30 50] 165 | loom} 0.25} 100m 2n1131 |s}P 8-90 | MsA| 600M {A ]175{ 50] 35/0] 20] 45] 150m] 1.5] 150m] i5]e | 5om|T 2n11314 |s|P|2n2800 | 8-161] MsA} 0.6w}A1175| 60/1 40fo] 20] 45]0.154] 1.5]0.154{ 15]e] Som|T 2ni132 |s|P 8-36 | MsA| 6oom }a]175) 50] 35)0 4 30) 90] 150m} 1.5) isom| 25]E] GomyT 2N1132a | 8 | P 8-36 | MsA| o.6wla ]i75{ 60] 40/0] 30] 90]0.15A]| 1:5]0.158] 25]e | 6om|T 2N1132B |S | P 8-36 | MSA} 0.6W|A1175 | 70] 45/0] 30] 90]0.15A |] 1.5} 0.154} 25]E] 60M] T 2N1135 |s| P mss| loom]4 {140] 12] 12]6 5.6M | T 2N1135A | S| P MSs | 100M]A]140] 12] 12]0 5.6M | T 2N1136 |G] P|2Nn1540 | 7-64 | LPA 100} 60] 35 |r] 50]100] 3.04] 1.0] 3.04 4l0K | E 2NL136A |G} P | 2N1542 | 7-64 | EPA 100 | 90} 35}R{ 50} 1001 3.04 | 1.0] 3.08 4.0K | E 1-114Power Transistors GERMANIUM POWER TRANSISTOR SELECTOR GUIDE (continued) 10-AMP -neR-vocracE LOW-SATURATION SWITCH sy, [Yeod_ 80 | tov | 1600 Vees Foy MHz Ss as Va=2 | Vee \ 80V | 120v | 160V] 200v| 320v P= SEW 20-50 3 . : ohne MHz 70.3 1 oat 20 min 2N2526 |2N2527 | 2N2528|MP3730|/MP3731 15-AMP GENERAL PURPOSE SWITCH T Ree ac ieite , hag . Ves 40V | 50V | 7ov | B80V P= 170" ~~ Va=2 | Veo 40V | 50V / 7ov | 80V "0-3. MHz 10-36 20-40 2N2078 |2N2077 /2N2076 | 2N2075 35-70 2N2082 |2N2081 }2N2080 |2N2079 15-AMP GENERAL PURPOSE SWITCH [~ Ree eine \ bg Ves 40V | 45v | 50v | 7oV | 8OV P, = 150W ; Va=2 | Veo 4ov | 5sov | 6ov | sov | 100Vv f 0.3 MHz 2 20-40 2N441 | 2N442 | 2N443 10.36 25-50 2N174 |2N1100 35-70 2N277 | 2N278 | 2N173 |2N1099 15-AMP HIGH-FREQUENCY SWITCH AND AMPLIFIER ; be ; Ves 30V 45V 60V 75V Ve =2 | Ves 40V | 60V ) 80V | 100V Po = 106W 10-30 Gon Gay 1. 0.55 MHz 2N1549 |2N1550 |2N1551 |2N1552 30-60 1554 |2N1555 | 2N1556 08 0 ante h0.4 MHz 2N1553 |2N1554 | 2N1555 | 2 50-100 th o4mie 2N1557 |2N1558.|2N1559 | 2N1560 ~ 20-AMP 20 HIGH-SPEED SWITCH he Veo ) 50V 75V 100V Ig = 104A, pos: 85w Gras Va=2 | Vo 80V 120V 140V fr 18 MHz fh TO-3 TO-41t 25-100 2N2832 2N2833 2N2834 rp 25-AMP Tai be GAIN SWITCH hee Ves ) 35V 6OV 75V le = 25A, Saeoby Va=1 | Va \ 50V 80V 100 Po = 106 W f; 0.4 MHz 5 2N1162 2N1164 2N1166 10-3 TO-41t 15-65 2N1163t 2N1165 N11671 25-AMP 25 HIGH DC GAIN Veen LOW-SATURATION SWITCH , bre , [ez 05V am Va=2v Fo P= 750 fer? Ves 15V fr 10 MHz CASE 8 200-800 2N2912 7-9Power Transistors 2n 173 (GERMANIUM) For Specifications, See 2N277 Data Sheet 2n174 (GERMANIUM) Ve = 80-100V 2N174A JAN AVAILABLE = 15A 2N1100 Pp = 150W ON1358,A 2N1358 JAN AVAILABLE PNP germanium power transistors. Power dissipa- tion and junction temperature ratings exceed those of CASE 5 EIA registration. (TO-36) MAXIMUM RATINGS Rating Symbol 2n174 | 2N1100 | 2N1358 Unit Collector -Base Voltage Von 80 100 80 Vdc Emitter-Base Voltage Ver 60 80 60 Vdc Emitter Current (Continuous) lL 15 15 15 Amp Base Current (Continuous) I 4 4 4 Amp Junction and Storage Temperature Ty; Tstg -65 to +110 C Thermal Resistance, Junction to Case 936 0.5 C/w 7-17Power Transistors - 2N174, 2N1100, 2N1358 (continued) ELECTRICAL CHARACTERISTICS Characteristic Symbol Minimum | Typical Maximum | Unit Collector -Base Cutoff Current lepo HA 2N174 - 100 - Von = 2 volts) 2N1100 - 100 - 2N1358 - 100 200 Collector -Base Cutoff Current I mA (Vpp= 1-5 volts, Vag = 80 volts) 2N174 CBO - 2 8 100 2N1100 - 2 8 80 2N1358 - 2 8 Emitter-Base Cutoff Current TRO mA Vip = 60 volts) 2N174 - 1 8 80 2N1100 - 1 8 60 2N1358 - 1 8 Collector -Base Cutoff Current logo mA Voz = 80 volts, 71C) 2N174 - - 15 100 2N1100 - - 15 60 2N1358 - 4 6 Emitter-Base Cutoff Current TBO mA Veep = 30 volts, 71C) 2N1358 - 4 6 Collector -Emitter Voltage BVor s* Vde (lg = 300 mA, Ves = 0) 2N174 70 - - 2N1100 80 - - 2N1358 70 - - Collector -Emitter Voltage BV CE Vdc (Ic = 1.0 amp, Ip = 0) 2N174 55 - - 1.0 amp, Ip =0 2N1100 65 - - 300 mA, Ip =0 2N1358 40 - - Floating Potential VeBF volt (ie =0, VcB= 80 volts) 2N174 - - 1.0 100 2N1100 - - 1.0 80 2N1358 - 0.15 1.0 Current Gain hep - (Ic = 1.2 amp, VCB = 2 volts) 2N1358 40 55 80 (Ic =5amp, Vcp= 2 volts) 2N174 25 - 50 2N1100 25 - 50 2N1358 25 35 - (ic = 12 amp, Vo = :2 volts) 2N174 - 20 - 2N1100 - 20 Base-Emitter Voltage VBE Vde (Ic = 1.2 amp, Vcp = - 2 volts) 2N1358 - 0.35 0.5 (Ic =5 amp, Vcpge= 2 volts) 2N174 - 0.65 0.9 2N1100 - 0.65 0.9 2N1358 - 0.65 0.9 Saturation Voltage v Vde (I = 12 amp, Ip = 2 amp) 2N174 CE (sat) - 0.3 0.9 2N1100 - 0.3 0.7 2N1358 - 0.3 0.7 Common-Emitter Cutoff Frequency foe kHz (Ic = 5 amp, VcR = 6 volts) 2N174 - 10 - 2N1100 Common-Base Cutoff Frequency vb kHz (Ig.= 1 amp, Vcp =. 12 volts) 2N1358 * 100 - - Rise Time ("'on" Ic = 12 Adc, t us Ip = 2 Adc, VCE = 12 volts) All Types - 15 - Fall Time (off" Ic = 0, t, us VEB = -6 volts, Rep = 10 ohms) All Types - 15 - * In order to avoid excessive heating of the collector junction, perform test by the sweep method. 7-18Power Transistors 2N174, 2N1100, 2N1358 (continued) CURRENT TRANSFER CHARACTERISTICS 12 les COLLECTOR CURRENT (AMPERES) tc, COLLECTOR CURRENT (AMPERES) O15 0.3 0.75 in, BASE CURRENT (AMPERES) 0.45 06 TRANSCONDUCTANCE CHARACTERISTICS 12 02 0.8 06 Varn BASE VOLTAGE (VOLTS) 08 POWER-TEMPERATURE DERATING CURVE 210 180 , Power Dissipation (Watts) eR G $3686 Pp Oo 40 60 Case Temperature Pc) 20 To The maximum continuous power is rela junction temperature by the thermal resis 80 100-110 ted to maximum tance factor. This curve has a value of 150 Watts at case tempera- tures of 25C and is 0 Watts at 110C with between the two temperatures such that: allowable P;, = 0% 2N174 AND 1358 30 20 COLLECTOR CURRENT (AMPERES) yo w bu COLLECTOR CURRENT (AMPERES} 05 04 0.3 0.5 O4 0.3 0.2 0.2 0.1 01 0 10 20 30 40 50 60 80 COLLECTOR-EMITTER VOLTAGE (VOLTS) The Safe Operating Area Curves indicate Ic Vcr limits below which the device will not go into secondary breakdown. Collector load lines for spe- cific circuits must fall within the applicable Safe Area to avoid causing a collector-emitter short. 70 90 100 7-19 a linear relation 110 Tf, 2N1100 Sms lms 500 us 250 us 100 us OR LESS YTO-WATT POWER DISSIPATION AT 25C CASE TEMPERATURE TO 100, 8 mA {2N1100 ONLY) ITH BACK BIAS APPLIED Ww (PULSE CURVES ONLY) Q 40 20 30 40 50 60 70 80 COLLECTOR-EMITTER VOLTAGE (VOLTS) 90 100 (Duty cycle of the excursions make no significant change in these safe areas.) To insure operation below the maximum Ty, the power-temperature derating curve must be observed for both steady state and pulse power conditions.