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 1-114 Switching and General Purpose Transistors 2n1131 (siticon) Veco = 20-35V 2N1131 USN/JAN lc = 600 mA 2N1991 f= 120 MHz Typ PNP silicon annular transistors for medium-current switching applications. Collector connected to case CASE 31 (TO-5) MAXIMUM RATINGS Rating Symbol Value Unit Collector-Base Voltage Vos Vde 2N1131 50 2N1991 30 Collector-Emitter Voltage VcEKo Vdc 2N1131 35 2N1991 20 Emitter-Base Voltage Veep Vdc 2N1131, 2N1991 5 Collector-Emitter Voltage VCER Vde (Rhe = 10 Q) 2N1131 50 Collector Current Ic mAdc 2N1131 600 Total Device Dissipation Pp @ 25C Case Temperature Both Types 2 Watts Derating Factor Above 25C 2N1131 13.3 mw/C 2N1991 16.0 mWw/C Total Device Dissipation Pp @ 25C Ambient Temperature Both Types 0.6 Watt Derating Factor Above 25C 2N1131 4.0 mW/C 2N1991 4.8 mWw/C Junction Temperature Ty 9 2N1131 +175 2N1991 +150 Storage Temperature Range T stg C 2N1131 -65 to +300 2Ni991 -65 to +150 8-90 Switching and General Purpose Transistors 2N1131, 2N1991 (continued) ELECTRICAL CHARACTERISTICS (At 25C unless otherwise noted) Characteristic Types Symbol Min Max Unit Collector-Base Breakdown Voltage BYcRo Vde (Ic = 100 wAde, Ip = 0) 2N1131 50 _ (Ig = 1.0 mA, Ig = 0) 2N1991 30 _- Emitter-Base Breakdown Voltage BVrBo Vde (Ig = 100 wAde, Ie = 0) 5 _ Collector-Emitter Breakdown Voltage BVocro Vde (Ig = 100 mAdc pulse, IB = 0) 2N1131 35 _ 2N1991 20 Collector- Emitter Breakdown Voltage BVcER Vde (Ig = 100 mAdc pulsed, Rpg = 102) 2N1131 50 _ Collector Cutoff Current Topo pe Adc (Vop = 30 Vde, Ip = 0) 2N1131 = 1 (Vop = 30 Vde, Ip = 0, Ta = 150C) 2N1131 _ 100 (Vop = 50 Vdc, Ip = 0) 2N1131 _ 100 (Vop = 10 Vdc, Ip = 0) 2N1991 _ 5 (Vop = 10 Vdc, Ip = 0, Ta = 150C) 2N1991 _ 200 Emitter Cutoff Current IgBo u Ade (Veg = 2 Vde, In = 0) 2N1131 _ 100 (Veg = 1 Vde, Ic = 0) 2N1991 _ 200 DC Forward Current Transfer Ratio hep _ (Ic = 5 mAdc, Veg = 10 Vde) 2N1131 15 _ (I-= 30 mAdc, Veg = 10 Vde) 2N1991 15 _ (Ig = 150 mAde, Veg = 10 Vde) 2N1131 20 60 2N1991 15 45 Collector-Emitter Saturation, Voltage Voge (sat) Vde (Ig = 150 mAdc, Ig = 15 mAdc) _ 1.5 Base-Emitter Saturation Voltage Var (sat) Vde {Ic = 150 mAdc, Ip = 15 mAdc) 2N1131 ~ 1.3 2N1991 _ 1.5 Output Capacitance Cop pF (Vop = 10 Vde, Ig = 0, f = 100 kHz) _ 45 Input Capacitance Cip pF (Veg = 0.5 Vde, Ic = 0,f = 100 kHz) 2N1131 _ 80 AC Current Gain [rel _ (Ic = 50 mAdc, VCE = 10 Vde, f = 20 MHz) 2N1131 2.5 2N199t 2.0 Small-Signal Forward Current Transfer Ratio hte _- (Ic = 1 mAdc, Vog = 5 Vde,f = 1 kHz) 2N1131 15 50 (Ig = 5 mAdc, Vcg = 10 Vdc, = 1 kHz) 2N1131 20 _ Small Signal Input Resistance hy, ohms (Ig = 1 mAdc, Vog = 5 Vde, f = 1 kHz) 2N1131 25 35 (Ig = 5 mAde, Veg = 10 Vde, f = 1 kHz) _ 10 Small Signal Output Admittance hop 1: mhos (Ig = 1 mAdc, Vog = 5 Vde, f = 1 kHz) 2N1131 _ 1 (lg = 5 mAdec, Veg = 10 Vde, f = 1 kHz) _ 5 Small Signal Voltage Feedback Ratio hoy x10 (Ig = l mAde, Veg = 5 Vde,f = 1 kHz) 2N1131 _ 8 (Ig = 5 mAdc, Vog = 10 Vde, f = 1 kHz) _ 8 Pulse Test: Pulse width =300 ys Duty Cycle = 2% 2N1132, A, B(snicon) For Specifications, See 2N722 Data Sheet 8-91