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 2N 176 (GERMANIUM) Ves = 40V 2N669 lc=3A Pp = 90W PNP germanium power transistors for economical power switching circuits and commercial grade power amplifier applications. CASE 11 (TO-3) MAXIMUM RATINGS Rating Symbol Value Unit Collector-Base Voltage Vor 40 Vdc Collector-Emitter Voltage Vers 30 Vdc Collector Current (Continuous) I. 3.0 Amp Storage and Junction Temperature Ty, Tstg -65 to +100 c Total Device Dissipation Pp 90 Watts (At 25C Case Temperature) Thermal Resistance 950 0.8 C/W (Junction to Case) 2N669, 2NI76 SAFE OPERATING AREAS 5 4 3 2 Sms The Safe Operating Area Curves indicate OR LESS Ic Vee lirnits below which the device will not go into secondary breakdown. Collector load lines for specific circuits must fall within the applicable Safe Area to avoid causing a collector-emitter short. (Case temperature and duty cycle of the excur- sions make no significant change in these safe areas.) To insure operation below the maximum Ty, the power-temperature de- rating curve must be observed for both steady state and pulse power conditions. COLLECTOR CURRENT (AMP) 02 COLLECTOR-EMITTER VOLTAGE (VOLTS) 7-20Power Transistors 2N176, 2N669 (continued) ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic Symbol Minimum Typical Maximum | Unit Collector-Base Cutoff Current IcBo Vop =30V, Ip =0 3 mA Vop =2.0V, Ip =0 50 uA Vop = 30V, Ip =0, Te = 90C 20 mA Emitter-Base Cutoff Current IgBO mA Vp =10V, Io 70 2 Collector -Emitter Breakdown Voltage Vde Ip = 330 mA, Rpp = 10 Ohms 2N176 BVoER 30 _ 2N669 BVcRs 30 Collector-Emitter Saturation Voltage VoR(SAT) Vde Iq =3 A, Ip = 300 mA 0.4 DC Forward Current Transfer Ratio hpe Voz =2.0V, Ip =0.5A 2N176 25 2N669 75 _ 250 Power Gain Gpr dB Pott? Watts, Vog = 12 V, Ip = 0.5 Amp, f = 1kHz, Rg = 10 Ohms, Ry, = 26.6 Ohms 2N176 34 37 2N669 38 _ _ Total Harmonic Distortion % (under same conditions of power gain) _ _ 5.0 Small-Signal Current Gain Cutoff Frequency foe kHz Vog = 12 V, Ip = 0.5 Amp, f=1kHz ref 2N176 4 7 2N669 3 5 _ Small-Signal Forward-Current Transfer Ratio h, Vog =2.0V, Ig = 0.5 Amp, f = 1 kHz 2N176 e 45 = 2N669 90 _ Small-Signal Input Impedance hj Ohms Vor =2.0V, Io = 0.5 Amp, f = 1 kHz 2N176 e 7 _ 25 2N669 10 50 INPUT CURRENT versus EMITTER DRIVE VOLTAGE POWER-TEMPERATURE DERATING CURVE (Both Types) (Both Types) 0.24 0.22 0.20 0.18 0.16 O14 0.12 OL Ip, BASE CURRENT (AMPERES) Pc, COLLECTOR POWER DISSIPATION (WATTS) Oo 02 O04 06 O8 10 12 14 16 18 20 0 20 40 60 80 100 Van, SASE-EMITTER VOLTAGE (VOLTS) To, CASE TEMPERATURE (C) 7-21