2N3065 -2N3173 Numerical Index a} MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS s|/ = = = = =| a | REPLACE: | PAGE Pp El ty | Vee Vee |B ote @le Versan @ le Ble |B TYPE JE]S| ment | numer | USE 3] Sa] mh TB} Tel z\o @25C | SB} C | (volts) | (volts) | 5 | (min) (max) S| (volts) = 3 s|3 2N3065 S|} P AFA 400M | A | 200 110 100 | 0 30 90 1,0M 30/E 2N3066, Al one Field Effect Transistors, see Table on Page 1-166 2N3072 | S| P MNS] 800M] A | 200 60 60] 0] 30} 130 50M} 0.25 50M 25 ]/E | 130M/T 2N3073 s|P MNS 360M | A | 200 60 60/0 30 } 130 50M 0.25 50M 25 |E 130M | T 2N3074 | G] P RFA] O.14W] A] 85 30 25 |S | 25} 300] 3.5M 2N3075 | GI] P RFA| O.14W/] A] 85 35 25 |S | 20} 250] 3.0M 2N3076 | S|N PHS | 125W|C | 175 140 50/0] 30} 90] 7,0A 1.0 10A 60, E 50M | T 2N3077 | S| N AFC | 0,36W | A | 200 80 60 | oO | 100 | 400 10* | 0.35 1.0M] 120]E 15M | T 2N3078 | S| N AFC | 0,36W | A | 200 80 60] 0] 40] 120 10* | 0.35 1.0M SO |E 15M | T 2N3079 | S| N PMS | 178W{C}] 150] 200 | 200/0]7.0}| 40] 5.0A 0.7] 5.0A 30K] E 2N3080 S| N PMS 178W | C | 150 300 300 }01]7.0 40 5.0A 0.7 5.04 30K JE 2N3081 | S| P HSS | 600M | A | 200 70 50}o0] 20 500M 0.3 150M 150M | T 2N3082 | Sj N CHP | O0.5W | A | 200 25 7.0} 0 | 100 0.25M 100M | T 2N3083 | Sj N CHP | 0.5W | A 4200 25 7.0 | O } 100 0.25M 100M | T 2N3084 thru Field Effect Transistors, see Table on Page 1-166 2N3089,A 2N3091 thru Thyristors, see Table on Page 1-154 2N3 106 2N3107 S]N MSS 0.8W | A } 200 100 60 | 0 | 100 | 300 | 0,15A 1.0 1,0A 60 /E 70M {T 2N3108 S|N MSS 800M {A | 200 100 60 | 0 40 | 120 150M 0.25 150M 60M {T 2N3109 | S| N MSS} 0.8W}A | 200 80 40 | 0 | 100 | 300] 0.154 1.0] 1.04 60} E 70M} T 2N3110 | S| Nj 2N2218A | 8-114] MSS | 800M | A | 200 80 40/0] 40] 120) 150M] 0.25 150M 60M | T ana ts Field Effect Transistors, see Table on Page 1~166 2N3114 |S] N | 2N3500 8-232] VID} 800M]}A]|200] i150] 150]0] 30] 120 30M 1.0 50M 25 |E 40M | T 2N3115 | S| N 8-175] HNS | O.4W] A | 200 60 20|0] 40! 120] 0.15A 0.5 | 0.15A 250M | T 2N3116 | S| N 8-175] HNS | 0.4W] A | 200 60 20] 0 | 100 | 300} 0.15A 0.5) 0,154 250M | T 2N3117 | S| N AFC | 360M | A | 200 60 60 | 0 | 250 | 500 1o* | 0,35 1.0M] 400] E 60M | T 2N3118 | S|N RFA} 1.0W | A | 200 85 60 | 0 | 50] 275 25M 250M | T 2N3119 | S|N HSA} 1.0W]A]200] 100 80]0] 50] 200] 100M 0.5] 100M 250M | T 2N3120 {S| Pj 2N2800 8-161] MNS | 800M] A | 200 45 45 |}0] 30] 130 50M | 0.25 50M 25/E } 130M/T 2N3121 |S] P | 2N2837 8-161] MNS | 360M] A | 200 45 45 |0]} 30} 130 50M | 0.25 50M 25 )E | 130M] T 2N3122 | S| N AFA | 800M | A | 200 50 30;0] 25} 100} 300M 1.5] 300M 60M | T 2N3123 | S| N HSS | 0.8W|A 1/175 60 30 {0 | 100 | 300] 0.154 0.4/1 0,154 400M | T 2N3124 G| P LPA 90w | c | 100 40 3034S 50 | 100 LOA 0.5 LOA 20 )/E 2.5KiE 2N3125 | G| P LPA 90W | C } 100 80 80]/S } 30} 75] 3.0A 1.5[/ 3.0A 10] E | 5.0K/E 2N3126 | G| P LPA 90W}C} 100} 100 7515S 10] 30 10A 1.0 10A 10] E] 6,0K/E 2N3127 | G|P 9-43 | RFA] 0,1W{ Aj 100 30 20)0; 20] 75] 3.0M 0.3) 5.0M 20) E | 400M] T 2N3128 | S| N AFA | 0.15W f A | 150 20 20)/0} 50]150] O.IM] 0.25 1. 0M 75 /E 60M | T 2N3129 S| N AFA {| 0.15W | A | 150 45 45 | 0 | 100 ; 300 LON 0.25 1.0M 160 /E 60M | T 2N3130 | S|N AFA} 0.15W | A | 150 60 60]0] 60] 180 LON | 0.25 1.0M] 11OJE 60M | T 2N3131 | S|N HSS | 0.15W] A | 150 40 15 |O] 304 120 10M } 0.25 10M 250M | T 2N3132 Gy] P PMS 90W | c | 100 100 7OTS 40 | 200 2.0A 1.5 5.04 3.0K] E 2N3133 1 S7)P 8-194] HSs | 0.6W | A | 200 50 3540 | 40] 120] 6,15A 0.64 0,154 200M | T 2N3134 |S} P 8-194] HSS} 0O.6W] A | 200 50 35 | 0 | 100 | 300 | 0.154 0.6] 0,15A 200M | T 2N3135 | S} P 8-194] HSS} 0.4W | A | 200 50 35 | 0 | 40] 120] 0.154 0.6] 0.154 200M | T 2N3136 | S| P 8-194) HSS} 0.4W | A | 200 50 35 | 0 | 100 | 300} 0.154 0.6) 0.154 200M | T 2N3137 | S| N 9-47 | RFA| 600M} A | 200 40 20 | 0 0.3 50M 500M | T 2N3138 | S|N HPA 20W {Cc } 200 65 65 |o} 1o 1.0A 100M | T 2N3139 | S}N HPA 20Ww[C) 200; 140; 140]0] 16 1.0A 100M | T 2N3140 S|N HPA 20W | C | 200 65 65 | 0 10 1.0A 100M | T 2N3141 S|N HPA 20W | C | 200 140 140 | 0 10 1.0A 100M | T 2N3142 S|N HPA 25W | Cc | 200 65 6510 10 L.OA LOOM | T 2N3143 S| N HPA 25wW | C | 200 140 140 Jo 10 1L.0A LOOM | T 2N3144 S|N HPA 25w | c | 200 65 65 40 10 1.04 LOOM | T 2N3145 | Sj N HPA 25W}C|200] 140] 140}0] 10 1.04 100M} T 2N3146 | G] P | 2N3616 7-121] LPA} 150W] C1100] 150 | 140}; Vv} 30) 90] 5.0A 0.4] 5.04 20/E | 200K | T 2N3147 {Gl P | 2N3616 7-121{ LPA} 150W]C {100} 180 160 |V {| 30] 90} 5.0A 0.4] 5.04 20|E | 200K |T 2N3148 |G] P MSS |] 0.45M | A | 100 11] 6.0]0} 70 20M 0.2 50M 80|E 25M | T 2N3149 |S|N PMS | 300W jC | 200 80 80];o] 10 50A 1.5 50A O.1M|T 2N3150 S|N PMS 300W | C | 200 100 100 | 0 10 504A 1.5 50A 0.1M|T 2N3151 S|N PMS 300W | C | 200 150 150] 0 10 50A 1.5 SGA O.1M{T 2N3152 S| N VID 25M | C | 200 120 120 | 0 40 30M 20|)E 200M | T 2N3153 S| N CHP 0.3W | A | 200 15 1540 30M | T 2N3154 |G] P PMS | 37.5W | C | 100 40 25 $0] 60/180] 0.5A 1.1] 3.0A 15K] E 2N3155 G]P PMS | 37.5W | C | 100 60 40/0 60 | 180 O.5A 1.1 3.0A LIKI E 2N3156 GI] P PMS | 37,.5W 7 C | 100 80 55 | 0 60 | 180 O.5A Lil 3.0A ISK|E 2N3157 G|P PMS | 37.5W Cj 100 100 65 | 0 60 | 180 O.5A 1.1 3.0A I5K| E 2N3158 |G{P PMS | 37.5W | C } 100 40 25/0] 30) 75] O.5A 1.4} 3.04 10K | E 2N3159 GIP PMS | 37.5W | C |} 100 60 40 ])0 30 75 O.5A 1.4 3.0A 10K] E 2N3160 G| P PMS | 37.5W |} C | 100 80 55 4,0 30 75 0.5A 1.4 3.0A 1OK/ E 2N3161 |G] P PMS | 37.5W | C | 2100] 100 65;0] 30] 75] 0.5A 1.4] 3.0A 10K | E 2N3162 S{N | 2N3411 11-33 | DFA 300M {A | 200 45 25 (90 50 { 200 LOM O.5 LOM 300M | T 2N3163 S| P HPA 85W ] C | 200 40 40] 0 12 36 1.0A 0.75 1.0A lO] E 1.0M | T 2N3164 S|P HPA g5w }c | 200 60 60 | 0 12 36 1.0A 0.75 1L.0A LO} E 1.0M/T 2N3165 s|P HPA 85wW | C | 200 80 80/0 12 36 1.0A 0.75 L.0A 10} E 1.0M|T 2N3166 S| P HPA 85wW | C | 200 100 100 | 0 12 36 1,0A 0.75 1.0A LO] E 1.0M|T 2N3167 S| P | MJ2267 7-202 | HPA 85W | C | 200 40 4070 12 36 1L.0A 0.75 1.0A 10 | E 1.0M | T 2N3168 | S| P | 2N3789 7-147 | HPA 85W |} C | 200 60 60}O] 12] 36] 1.0A] 0.75 1.0A lo; E |] 1.0M/T 2N3169 | S| P | 2N3790 7-147 | HPA 85W | C | 200 80 80}]O] 12] 36] 1.0A] 0.75] 1.0A 1O;E } 1.0M}T 2N3170 S| P } 2N3790 7-147 | HPA 85W | C +200 100 100 | O 12 36 1.0A 0.75 1.04 lO] E 1.0M | T 2N3171 |S] P | MJ2267 7-202 | HPA 75W | C | 200 40 40}/o] 12] 36 1.0A | 0.75 1.0A 10] E 1.0M | T 2N3172 S| P | 2N3789 7147] HPA 75W | C | 200 60 60 | 0 12 36 1.0A 0.75 1.0A 10 | E 1L.OM | T 2N3173 S} P | 2N3790 7-147 | HPA 75w | C | 200 80 80 | 0 12 36 1.0A 0.75 1.0A lO, E L.OM|T 1-136 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 9-6 RF Transistors RF POWER TRANSISTORS (Listed in order of operating test frequency and power output) ALL SILICON NPN f Pout @ Pin Type MHz Ww Ww 2N3295 30 0.3 0.012 2N3296 30 3.0 0.075 2N3297 30 12 1.2 2N2948 30 15 2.0 2N2951, 52 50 0.6 O.1 2N2949, 50 50 3.5 0.35 2N2947 50 15 2.0 2N3950 50 50 4.5 2N3298 30 0.1 - 2N3375 100 7.5 1.0 2N3818 100 15 3.0 2N3553 175 2.5 0.25 2N3961 175 4.0 0.5 2N3924 175 4.0 1.0 2N3925 175 5.0 1.3 2N3926 175 7.0 2.0 2N3927 175 12 4.0 2N3632 175 13.5 3.5 2N3137 250 0.7 0.1 2N3664 250 2.2 0.4 2N3866 400 1.0 0.1 2N3948 400 1.0 90.25 2N4012 400 3.0 (typ) 1.0 2N3375 400 3. 0 (min) 1.0 2N3733 400 10 4.0 HIGH-VOLTAGE TRANSISTORS fp (MHz) @ Ic Type Vcro min max mA 2N4924 100 100 500 20 2N4925 150 100 500 20 2N4926 200 30 300 10 2N4927 250 30 300 10 9-7 BCWwWC WW. KL)[N XQ ,' $)p0D0) 'DYi MWiwyWV BWwiwyisXsiidd;i WM WW RF Transistors MM1803 P.u= 600-700 mW @ 250 MHz Typ NPN silicon annular transistors for large signal VHF and UHF applications. CASE 31 Collector connected to case (TO-5) MAXIMUM RATINGS Rating Symbol 2N3137 MM1803 Units Collector-Base Voltage Vos 40 50 Vde Collector-Emitter Voltage Voro 20 25 Vdc Emitter-Base Voltage Ven 4 5 Vde Collector Current (Continuous) ln 150 150 mAdc Power Dissipation Py Watts @25C Case Temperature 2,0 @25C Ambient Temperature 0.8 Operating Junction Temperature Ty 200 C Storage Temperature Range T stg -65 to +200 Thermal Resistance-- C/ Junction to Case 86 87.5 Watt Thermal Resistance-- c/ Junction to Air 9, A 153 Watt 250 MHz POWER GAIN TEST CIRCUIT (2N3137) 250 MHz POWER GAIN TEST CIRCUIT (MM1803) +20V +20 V or) 1000 pF SHIELD Button MICA , | RFC | AT pH y 100mW 120 pF \ po R= 50 ot at 250 MHz 1000 pF = 9 Rg = 50 S RFC 5 Button MICA LAT pH | I } Cg (Collector strays) 1.5 pF ~ 7 TO Ly = 3/4 turn No. 14 tinned wire 3/8" ID L .O75 pH (5.5 turns #16ga. ID = 3/16" length 1/2") Ly = 4 turns No. 18 tinned wire 1/4" ID 7/16" long 2 9-472N3137, MM1803 (Continued) ELECTRICAL CHARACTERISTICS (Ta = 25C unless otherwise specified) RF Transistors Characteristic Symbol Min | Typical} Max Unit Collector-Base Breakdown Voltage Voso Vde Io =0.imAdc, th =0 2N3137 40 MM1803 50 Collector-Emitter Open Base Sus. Voltage v ' Iq = 15mAde, I, = 0 2N3137 CEO(sus) 20 Vde MM1803 25 Collector Cutoff Current . lopo pAdc Vopt 20Vdc, Ih = Q, To = +4150 C Both Types 50 Collector Cutoff Current lupo wAdc Vop* 20Vdc, I, =0 Both Types .05 Emitter-Base Breakdown Voltage VeRO Vde I, = 100uA, In =0 2N3137 4 MM1803 5 DC Current Gain hor Vor = 5Vdc, In = 50mAdc 2N3137 20 120 MM1803 40 160 Collector~Emitter Saturation Voltage Vor (sat) Vdc In = 50mAdc, Ie = 5mAdc Both Types 0.3 Small Signal Current Gain [Pre | Vor = 10Vdc, Io = 50mAdc, f = 100 MHz 5.0 Common-base Output Capacitance Cop pF Vos = 10vde, 1, =0, f = 100KHz 3.5 Power Output Pout 400 600 mWatts Power Gain Pin = 100mw, f = 250 MHz 2N3137 Ge 6.0 1.7 dB Efficiency Vor = 20Vdc n 40 65 % Power Output Pout 560 700 mWatts. Power Gain Pia = 100mw, f = 250MHz MM1803 G. 7.5 8.5 db Efficiency v E 20V n 45 60 % Cc *Pulse Width ~ 300 us, Duty cycle = 1% 9-48