2NI108 -1N184 Numerical Index zl MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS =|/E = = = = Tree (3 = REPLACE- | PAGE | yer Po |S) Ts | Vea | Vee |= Ire @ Io Vorisaty @ Io B| ft. |= s<{=| MENT | NUMBER a 2 2 Z| hh | 3 #(/3 zie @25C | Bj C | (volts) | (volts) |S | (min) (max) 5} (volts) 5 3 5/3 2nl08 [C|P AFA | 50M[A 2n109. |G|P]2N1192 | 6-30 | arc] 165M};A{ 71] 35 | 25/0] 654115} 5oM] 0.15] 50M 5OlE 2n110 |G} P MSS} 0.2W)A} 85] 50 2.5 18M 2nlti |1G|P RFA | 150M{A] 85 30 | 15 ]o] 15 1.0M 2N111A |G] P RFA| 150M]A | 85 30 is fo] 15 1.0M 2N112 | G}P RFA { 150M|A | 85 30 islo| 15 1.0M 2N112A |G] P RFA] 150M|A} 85 30 15 }o] 15 1.0M 2nl13. | G|P RFA| 96M]A| 85 10 2n114 |G} P RFA| 96M]A] 85 10 2N115 |G|P PMS { 50w[c| 75 32 32 [R 110 | 30M 2nl17, 1S]N HSA | 150M/]C]150] 30 0.9/B | 1.0m] B 2N118 | S|N HsA | 150M|C]150] 30 0.95/B | 2.0m |B amii8a [s|N HsA[ i50M{c [150 [ 45 2nl19. | S|N HsA] 150M]C]|150; 30 0.9741B | 2.0M]B 2nN120 |S|N RFA/ 150M} C1175 | 45 76 | 333 0.987] B 2N122 | S| N LPA | 8.75W | Cc {150} 120 3.0 100M 2nN123. (G|P HsA{ 5oM(I/ 85 | 20 15 fo 0.981B | 5.0M|B 2nN124 |G|N mss | 50M]A | 75 10 12] 24] 5.om} 0.3] 5.0m 0.3M |B 2n125 [GIN MSS | 50M]}A | 75 10 24] 48] 5.0m] 0.3] 5.0M 5.0M 1B 2n126 | G/N Mss | 50M}A | 75 10 48] 100} 5.0m] 0.3] S.oM 5.0m |B 2n127. [GIN Mss { SOM|A | 75 10 too {200 | 5.om| 0.3 | 5.0m 5.0M |B 2N128 | G|P RFA | 30M|A | 85 10 | 4.5 ]u 19}E | 45M | 2n129. | G| P RFA} 30M/A | 85 10 | 4.5 |u 11.5/E | 30M |M 2n130 |G|P{2N1191 | 6-30 | AFA| 85M{A| 85 | 44 2N130A | G| P | 2N650 6-20 | AFA] toom]/a] 85] 45] 40/0 14] E 2N131 |G]P|2N1192 | 6-30 | AFA| 85m/A | 85 30 2N131A |G P | 2N651 6-20 | AFA} loom|/A | 85 | 45 30 } 0 2HE 2N132. |G|P{2n1192 | 6-30 | AFA| 85M {Al 85 | 24 2N132A | G| P | 2N651 6-20 | AFA| 1oom]a] 85 35 |] 20/0 2n133. |G|P}2n1192 | 6-30 | AFA] 85M/A] 85 30 2n133A |G|P | 2N651 6-20 | LNA} 100M ]A | 85 35 | 20]0 2N135 | c|P RFA| 100M/A | 85} 20] 12 1R 20}E | 4.5M]}B 2N136 1G] P RFA| looM}A] 85] 20} 12]R 4o,E | 6.5M/B 2n137 | G| P RFA | Loom |A | 85 10 | 6.0]R 6o}E | loM |B 2nN138 =|G|P AFA, 50M/A | 50] 24 2N1384_| | P AFA | 150M]A] 85} 45 | 30]0] 10 50M 2n138B [|G] P AFA] looM/a | 85 | 45 2N139. 1G|P AFC} 80M/A | 70 16 2m14o0 | G|P AFC | 80M }A | 70 16 2ni41 |G|P LPA} 1.5wla] 25] 60] 30 2nl42 1GIEN rPA| 1,5w]a]} 25[ 60] 30 2n143 | G|P LPA| 1.0W A | 25 60 | 30 2nl44 | G|N LPA{ Low {a | 25 60 | 30 2nl45 | G|N RFA| 65M }A | 75 20 | u 2nN146 |1G|N RFA| 65M ]A } 75 20 |u 2N147 | G|N RFA] 65M ]A | 75 20 fu 2M148 | GIN REAL 65M ]A | 75 16 | 0 2N148A 1C|N RFA] 65m /A | 75 32 |U 2N149 GN RFA| 65M [A { 75 16 fu 2N149A 1 GIN RFA| 65m [A | 75 32 |u 2ni50. | G/N RFA] 65M {A | 75 16 |U 2n150A | G|N RFA | 65M jA | 75 32 | U 2N155 | G| P | 2N176 7-20 | LPA| 1.5W}Aq 85 30 24 0.54 | 0.65 | 0.54 2nis6 = |G |p | ani76 7-20 | LPA) 1.5w {ia} 854 30 24 0.54] 0.6} 1.0A 145K ) B 2n157. | G| P | 2N1531 7-60 | LPA{ 1.5w/A| 85] 60 20 0.54 100K | B 2N157A 1G | P | 2N1532 7-60 | tPA] 1.5W1A | 85 | 90 20 0.54 100K | B 2n158 | c| P | 2N2139 7-78 | LPA| 1.5w]A] 85 60 21 0.54 | 0.75] 1.0A 145K |B 2N158A |G) P)2N2141 ]) 7-78 | LPA} 1.5W]A] 95] 80] 60}0)] 21 0.5A | 0.75] 1.0A 4.0K | E 2N159 2nl60_ | S|N AFA | 0.15W | A 40 9.0] 19 ani60a [S| N AFA | 0.15W [a 40 9.9} 19 2nl61 |S|N AFA | 0.15W [A 40 19 | 39 2N161A |S}N AFA | 0.15W | A 40 19 | 39 2nl62 1S |N AFA | 0.15W | A 40 19 | 199 2n162a |s|N AFA) 0.15W [A 40 19 | 199 2n163. | s|N AFA | 0.15W 1A 40 39 | 199 2nN1634 |s|N AFA | 0.15W | A 40 39 | 199 2nN166 jc|N rrc| 25m /A | 50 6.0 | 0 anie7 [ol N HSA) 75MjA} 85} 30] 30)0 0.952] B ) 5.0M]B 2N167A |G] N HsA| 75M/A | 85 30 | 30,0] 17] 90] 8.0m 0.9521 B | 5.0M]B 2N168 =| G|N RFC] 55m ]A | 75 15 15 |o 20 E 2n168A_ |G} N RFC {| 65M] A | 85 15 15 |o 20, E 2n169 |G] N RFC| 65M/A | 85 15 15 ]o 30} E anle9a | G|N AFC] 65M/A{ 85] 25 | 25/0 30, E 2n170 | @|N RFC{ 25M]A |} 50 6.0 } 0 ani72. |G tN RFA} 65mMla | 75 16 |u 2n173 | G| PB 7-25 | LPA| low}c | 95 6o | 50/s {| 35] 70] 5.04 1.0, 12A 2N174 |G] P 7-17 | pMs| loow}cj] 95] 80] 7o{s] 25] 50] 5.0A] 0.9 124 2nl74a | G|P PMS} loow]c]}] 95] 80] 70]/s] 40] 80} 1.2A] 0.7 124 100K |B 2nl75. jG| Pp janitg2 | 6-30 | arc} somja} 71) 10 ani76. | G| P 7-20 | arc| 9ow}]c |] 80] 40] 30]R] 25 0.54 {| 0.4] 3.0Aa 4.0K] E 2N178 | G|P 7-22 | aFA| 4owtc] 90] 30] 30]7R] 15} 45] 0.54} 0.6] 3.04 5.0K] E 2n179 | G| P | 2N176 7-20 | AFA 2nig0 jG}Pj}anii92 | 6-30 | AFA} O.15W)A |) 75 30 2N18L | G| P | 2NLL92 6-30 | AFA] 0.25wW]A | 75 30 2n182 | G|N Mss | o.lW}A | 75] 25 2ni83. | G|N MSS] O.1W/]Af 75 | 25 anig4 |G] N MSS} O.1W}A] 75] 25 1-102Power 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 2N2/7 7 (GERMANIUM) Vs = 40-80V I = 15A on2/8 P)>=170W 2N173 2N1099 PNP germanium power transistors for general pur- pose power amplifier and switching applications. Pow- (TO-36) . er and temperature ratings exceed EIA registration. MAXIMUM RATINGS Rating Symbol! | 2N277 | 2N278 | 2N173} 2N1099} Unit Collector-Base Voltage Yop 40 50 60 80 Vde Emitter-Base Voltage VEB 20 30 40 40 Vde Emitter Current-Continuous In 15 Adc Base Current IB 4 Adc Total Device Dissipation @T,, = 25C Py 170 Watts Derate above 25C 2 w/c Operating and Storage Junction T stg % Temperature Range -65 to +110 THERMAL CHARACTERISTICS Characteristic Symbo! Max Unit Thermal Resistance, Junction to Case 930 0.5 c/w SAFE OPERATING AREAS 2N173 2N1099 2N277 2N278 25048 200 us OR LESS Sms. ims S00ye 250 ys 10048 1004s On LESS OR LESS. le, COLLECTOR CURRENT (AMP) 0.5 a4 33 To 60v, 8 02 WITH BACK (FOR PULSE TO 80, 8 mA BACK PULSE 0 to 2 30 4g a 09 1 2 4 56 66 7 BO 90 1000 w 30 2 aD COLLECTOR-EMITTER VOLTAGE (VOLTS) COLLECTOR-EMITTER VOLTAGE (VOLTS) COLLECTOR-EMITTER VOLTAGE (VOLTS} COLLECTOR-EMITTER YOLTAGE (VOLTS) The Safe Operating Area Curves indicate Ic (Duty cycle of the excursions make no significant Vee limits below which the device will not ga 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. 7-25Power Transistors 2N277, 2N278, 2N173, 2N1099 (continued) ELECTRICAL CHARACTERISTICS (At 25C unless otherwise noted) Characteristic Symbol Minimum Typical Maximum | Unit Collector-Base Cutoff Current lego pA Vopo= 2V _ 100 Collector-Base Cutoff Current IopB mA Vep= 15V, Veg= 40V 2N277 2 8 50 2N278 _ 2 8 60 2N173 _ 2 8 80 2N1099 _ 2 8 Emitter- Base Cutoff Current IzBo mA Vepo = 20V 2N277 1 8 30 2N278 _ 1 8 40 2N173 1 8 40 2N1099 _ 1 8 Collector-Base Cutoff Current IcBpo mA Vepo = 40V, 71C 2N277 15 30 2N278 ~~ 15 60 2N173 _ _ 15 80 2N1099 _ _ 15 Collector-Emitter Voltage BV crs * Vdc Ip = 300 mA, Veep = 0 2N27T 40 _ _ 2N278 45 _ 2N173 50 _ 2N1099 70 _ Collector-Emitter Voltage BVcro* Vde Io = 1 Amp, Ip =0 2N277 25 _ 2N278 30 _ 2N173 45 2N1099 55 Floating Potential Vey volt Tp =0, Vegp= 40V 2N277 0.15 1.0 50 2N278 _ 0.15 1.0 60 2N173 -: 0.15 1.0 80 2N1099 _ 0.15 1.0 Current Gain hep _ Io =5Amp, Vop= 2V 35 10 Ic = 12 Amp, Vos = 2V _ 25 ~ Base-Emitter Voltage VBE Vde Ic =5 Amp, Vop= 2V 2N277 0.65 2N278 0.65 _ 2N173 _ 0.65 _ 2N1099 _ 0.65 0.9 Saturation Voltage v Vde Ic = 12 Amp, Ip = 2 Amp 2N277 CEGAT) _ 0.3 2N278 _ 0.3 1.0 2N173 _ 0.3 1.0 2N1099 _ 0.3 0.7 Common-Emitter Current Amplification f e kHz Cutoff Frequency a Ig =5 Amp, Vor = 6V 0.3 10 Rise Time t, us "on" Iq = 12 Ade, 15 _ Ip =2 Adc, Vop= 2V Fall Time ty ps "off" Io = 0, _ 15 _ Veg = 6V, Rep = 10 Ohms * To avoid excessive heating of the collector junction, perform these tests with the sweep method. 7-26Power Transistors 2N277, 2N278, 2N173, 2N1099 (continued) 240 180 159 120 90 60 30 Py Power Dissipation (Watts) 1c, COLLECTOR CURRENT (AMPERES) 20 40 60 80 Te Case Temperature (C) The maximum continuous power is related to maxi- mum junction temperature by the thermal resistance factor. This curve has a value of 150 Watts at case tempera- tures of 25C and is 0 Watts at 110C with a linear rela- tion between the two tem- peratures such that: 110 Tc Ti Pp = allowable Pp iG POWER-TEMPERATURE DERATING CURVE 100 CURRENT TRANSFER CHARACTERISTICS 0.1 0.2 0.3 Jp, BASE CURRENT (AMPERES) 0.4 0.5 110 I,,BASE CURRENT (AMPERES) Ic, COLLECTOR CURRENT (AMPERES) 7-27 0.2 INPUT CHARACTERISTICS 0.4 06 0.8 Vee BASE-EMITTER VOLTAGE (VOLTS) TRANSCONDUCTANCE CHARACTERISTICS 0.2 0.4 0.6 0.8 Vise BASE-EMITTER VOLTAGE (VOLTS) 10 1.0