~ Numerical Index 2N2079A-2N2155A ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS | c| REPLACE: | PAGE PR JEly ly Vo. |B hee @ Ie @\ Bl Sa TYPE = Ss MENT | NUMBER USE = J cB CE 5 2 CEISATI Cy n | -2l8 zo @5C | B] C | (volts) | (volts) |S | (min) (max) 3} (volts) 5 3 5/3 2N2079A |G} P 7-75 | LPA| 170W | } 110] 80 go {s | 35] 70] 5.04 0.7 12A 5.0K |E 2n2080 |G}P 7-75 | LPA | 170w [Cc }110} 70 70 |S | 35] 70] 5.0A 0.7 12A 5.0K |E 2N2080A |G | P 7-75 | LPA | 170W/C {110 | 70 70 |S | 35] 70} 5.0A 0.7 124 5.0K [E 2N2081 |G|P 7-75 | LPA | 170W (C1110 | 50 50 {8 | 35} 70) 5.0a | 0.9 12A 5.0K {BE 2n2081A |G | P 7-75 | LPA| 170w|c [110] 50 50 |s | 35 | 70] 5.0a 09 12A 5.0K JE 2n2082 |G |P 7-75 | Lpa| 170W |c {110 | 40 | 40 |S | 35] 70] 5.0a 0.9 12A 5.0K JE 2N2082A |G] P 7-75 | LPA | 170W 110 | 40 40 |S | 35] 70] 5.0a 0.9 124 5.0K JE 2N2083 |G |P AFC 60M }A | 85 | 30 25 1.0M 30M | T 2n2084 |G|P RFA | 125M |A |100 |] 40 20 |o | 40|250} 1.0m 40 IE 2n2085 |G|N AFA | 150M ]A |100 | 33 23 |X | 50 | 300 10M rom | 20 |E | 6.0M |B 2n2086 |S |N HSS | 600M A |175 | 120 so |R | 20 150M 0.7 | 150M 150M |T 2n2087_IsS |N uss | 600m {A (175 {120 go (r | 40 [120 | 150M a.5 | 150M 150M |T 2n2089 |G | P RFC | O.IW]A] 85] 20 20 IR |{ 40 1.0M 40 | 44m |v 2n2090 |G{P rRFc | O.lw]A] 85] 20 20 |R | 40 1.0M 40 |E 4am |v 2N2091 |G {| P RFC | O.lw]A]j 85] 20 20 |R | 40 1.0M 40 |E 44m [7 2N2092 |G] P RFC} O.1W}A} 85} 20 20 |R | 40 1.0M 40 |E 44m | 2N2093 |G|P RFC | O.tw]A] 85] 25 25 IR | 40 1.0M 40 JE 30M |T 2n2095 1G] P HPA | 1.07 |A 1100] 30 15 |o 500M | T 2nN2096 |G] P 8-92 | PHS | 250M {A [100 {| 25 12 |o | 15 400M 0.6 | 200M 2N2097 |G] P 8-92 ]) PHS.} 250M }A }200} 40 20 |0} 20 400M 0.5] 200M 2N2098 |G]P 8-92 | HPA| 1.0W [A |100] 30 15 |o 500M |T 2n2099 |G] P 8-92 | PHS | 250M ]A ]100] 25 12 Jo | 15 400M 0.6 | 200M 2n2100 |c|P 8-92 | PHS | 250M {A |100 | 40 20 |o | 20 400M 0.5 | 200M 2N2100A | G | P 8-92 | PHS | 300M {A ]200 | 40 20_|0 | 20 400M 0.5 | 200M s]N LPA 75w | C7200 | 60 40 {O07 15] 60] 1,04 5.0] 1,0A 25K [T SIN HNS | 5.0w | C | 200 | 120 so |R|{ 35 LOM 0:5] 150m | 35 JE S|N HNS Ww | A | 200 | 120 65 |O} 40] 120] 150M 0:3] I5om | 30 |E S\P HSA} 3.5 |C |200 | 50 35 10} 25) 80) 150m 1.5 } 150M 60M | T S|P HSA -5W | Cc | 200] 50 35 Jo} 15 | 40] 150: 1:5 | 150M 50M | T S| N | 2N2218 8-108 | AFA : A}{150 | 60 60 {R] 12] 36] 200M 5:0 | 200M s | N | 2N2218 8-108| AFA} 1.0w}A | 150] 60 60 [rR | 30] 90] 200m 2.0] 200M S| N | 2N2219 8-108| AFA | 1.0W | A j150 | 60 60 |R | 75 | 2001 200M 2.0 | 200M S|N pms | 250w}C {175 | 50 50 |v] 10 LOA 1.5 10A S|N pms | 250w|c|175}100 |100 |v] 10 LOA 1.5 10A s|N pMs | 250w]c|175 |150 {i150 |v} lo 10A 1.5 10A SiN pus | 250W{}c | 175 }200 }200 jv! to LOA 1.5 104 2n2113_ [s |W pms | 250W jC 4175 |250 [250 |v | 10 LOA 1.5 LOA 2n2114 | S]|N pms | 250w |c [175 |300 }300 |v | 10 10a 1.5 104 2n2116 [S|N pms | 250w |c [175 | 50 50 |v | 10 15A 1.5 15A 2N2117 |S] N pMs | 250w}c {175 }100 |100 |v } 10 15A 1.5 15A 2N2118 {S/N pms | 250w |c [175 {150 4150 {Vv | 10 15A 1.5 15A 2N2119 |{S|N pms | 250w |c [175 | 200 [200 |v} 10 15A 1.5 154 2n2120 [S| N pMs | 250w |c }175 [250 {250 |v | i0 15A 1.5 15A 2N2121 }S]N PMs | 250w |}c }175 ]300 |300 |v } 10 15A 1.5 15A 2N2123 | S|N PMS | 250W {C }175 | 50 50 ;v | 10 20A 1.5 204 2N2124 |S|N pms | 250w |c }175 }100 |100 |v |] 10 20A 1.5 20a 2nN2125 |S|N pms | 250w |c [175 [150 1150 |v} 10 20A 1.5 208 2N2126 |S]N pms | 250w }c ]175 |200 |200 |v] 10 20A 1.5 20A 2N2127_ {S| N PMS | 250W | c ;175 |250 |250 fv | 10 20A 1.5 204 2N2128 |S] N pms | 250w |c [175 | 30 300 |v} 10 20A 1.5 20A 2N2130 |S|N pus | 250W |{C 4175 | 50 50 |v | 10 254 1.5 258 2N2131 |SIN pMs |} 250W fc 1175 ]100 |100 jv |} 10 254 1.5 25 2N2132 |S|N PMS | 250w |c {175 {150 |150 |v | lo 25A 1.5 258 2N2133 | S|N pms | 250w |c [175 {200 |200 |v ] 10 254 1.5 258 2N2134 {SIN pMS | 2508 |}o }175 }250 4250 Jv} 10 25A } 2.5 25A 2N2135 |S|N PMS | 250W | J175 |300 |300 {|v | 10 254 1.5 258 2n2137 |cG|P 7-78 | LPA | 62.5w |c [100 | 30 30 1s | 30] 60} 0.54 0.5 | 2.04 12K JE 2N2137A |G] P 7-78 | LPA | 62.5w|c |100 | 30 20 10 | 30] 60 | 0.54 0.5 | 2,0A 12K |E 2N2138 |G|P 7-78 | LPA | 62.58 )C )100 } 45 45 |S | 30] 60] 0.5a 0.5] 2.08 12K |E 2N2138A 1G | P 7-78 | LPA|62.5w | 4100 | 45 30 Jo | 30 | 60] 0.54 0.5 | 2.0A 12K |E 2n2139 | G|P 7-78 | LPA|62.5w |C }100 } 60 60 |S | 30 | 60] 0.54 0.5 | 2.0 12K [E 2n2139A |G |e 7-78 | pea [62.5w [co [100 | 60 45 to | 301 60} o.5sA } 0.5 | 2.08 12K [E 2n2140 |c|P 7-78 | LPA|62.5w |e {1004} 75 75 |s {| 30} 60} 0.54 0.5 | 2.08 12K | E 2N2140A |G | P 7-78 | LPA{62.5w {6 /100 | 75 60 {O | 30] 60] 0.54 0.5 | 2.0a 12K [E 2n2141 1G] P 7-78 | LPA | 62.5w fc [100 | 90 90 }|s | 30] 60] 0.5a 0.5 | 2.0A 12K |E 2n2141A |GIP 7-78 | upa |62.5w |G {100 | 90 65 |o | 30] 60 | 0.58 | G.5 | 2.08 12K fe 2n2142 |G] P 7-78 | LPA | 62.5w |c |100 | 30 30 |s | 507100 | 0.5A 0.5 { 2.04 12K |E 2N2142A |G | P 7-78 | LPA|62.5w Jc |100 | 30 20 |o | 50 ]100 | 0.5a 0.5 | 2.0A 12K |E 2N2143 |G] P 7-78 | LPA | 62.5w fc [100 | 45 45 4S 7 50/100 { 0.5A 0.5] 2.0A 12K |E 2N2143A 1G| P 7-78 | uPA |62.5w lc |1o0 | 45 30 |o | 50 }100 | 0.54 | 0.5 | 2.0a 12K le 2n2144 |G|P 7-78 | LPA|62.5w ]c |100 | 60 60 |S | 50 }100 | 0.5a 0.5 | 2.0A 12K |E 2N2144A |G | P 7-78 | LPA | 62.5w {Cc }100 | 60 45 {o | 50/100} 0.5a 0.5] 2.0A 12K | E 2N2145 |G|P 7-78 | LPA | 62.5w {Cc }100 | 75 75 {S {| 50 ]100] 0.5A 0.5 | 2.04 12K [E 2821458 |G] P 7-78 | LPA | 62.5W }c }100 | 75 60 }0O } 50}100] 0.5a 6.5 | 2.0A 12K JE 2N2146 |G|P 7-78 | LPA|62.5w [c |100 | 90 90 {Ss | 50 ]100 | 0.5a 0.5 | 2.0A 12K |E 2N2146A |G | P 7-78 | LPA }62.5w [Cc {100 | 90 65 JO] 50 ]100} 0.5a 0.5 | 2.0a 12K. | E 2n2147 |G | P | 2N2832 7-91 | LpA|12.5w fe f100 | 75 50 |o [100 [300 | 1.0a 1.0] 4.0] 75 [Ee | 3.0M{T 282148 1G) P | 2N2837 7-91 | LPA}12.5w }C )100 } 60 40 ]0 } 40 ]160 } 1.0a 1.0] 4.0A } 30 |B } 2.0m ]T 2N2150 |S]|N HFA 3ow |c |175 | 125 go {oO | 20] 60} 1.0a 1.0] 1.0A | 20 |E 10M [T 2N2151 |S|N HFA 30w |C 1175 1125 go f{o | 40/120 | 1.0a 1.0] 1.0A | 40 |E 10M |T 2N2152 |G/P 7-82 | LPA| t7ow |G |110 | 45 45 |S | 50 ]100 | 5.0 0.1 | 5.0A 2.0K |E 2N2152A |G] P 7-82 | LPA} i7oW |G }110} 45 30 ]0 ] 50}100 } 5.0A 0.1 | 5.04 2.0K JE 2N2153 |G{P 7-82 | LPA| 170w {Cc }110 | 60 60 |s | 50 |100 | 5.0A 0.1 J 5.04 2.0K JE 2N2153A |G|P 7-82 | Lpa| 17ow |c ]110 | 60 45 |o | 501100 | 5.0a 0.1} 5.0A 2.0K {E 2N2154 |G P 7-82 | Lpa| i70W |C 110] 75 75 |S | 50]100 | 5.0A 0.1 | 5.0A 2.0K E 2n2154A )6 | P 7-82 | LPA} 170Wj/C |110) 75 60 }O | 50}100] 5.0a 0.1) 5.0A 2.0K JE 2n2155 |G] P LPA | 170W {c [110 | 90 90 }s | 50 ]100 | 5.0a 0.1] 5.0A 2.0K [E 2N2155A |G] P uPA | 17ow |c |110 | 90 65 |o | 50 ]100 | 5:0a OL | 5:0a 2:0K [E 1-125WWI XX '/Wwr~w isi BCB}OH, CBCj})(@iCiiC SS K'""'w;')WwWNQDQ))Ww& w Power Transistors GERMANIUM PNP POWER TRANSISTOR SELECTOR GUIDE -3-AMP HIGH-FREQUENCY DRIVER hee Ves) 30V | 45v | 6ov | 75v | 90v te = O.5 A, \ LOW eto - Ver = 2 Vos 30V 45V 60V 75V 90V foe ne Gob, 30-60 2N2137| 2N2138 | 2N2139| 2N2140| 2N2141 10.3 7 yo-a1t@ 50-100 2N2142 | 2N2143|2N2144 | 2N2145 | 2N2146 -3-AMP 3 GENERAL: PURPOSE te, [Nes } aov | cov | 75v | 100v Po = 106 W LIFIER Va=4V | Ves ) 50v | 80v | 100v | 120V fy = 0.35 MHz Gas 35.90 2N1359| 2N375 |2N1362 | 2N1364 Toa 60-140 2N1360| 2N618 |2N1363 |2N1365 p 5-AMP ~cENERAL-PURPOSE be, [Ves] 30v | a5v | cov | 75v | 90V ps = t06w SWITCH AND AMPLIFIER Ve=2 [Vc J 40V_ | 60v_| gov | 100v | 120V ~ 20-40 1.0.35 MHz 2N1529 | 2N1530 | 2N1531 | 2N1532| 2N1533 35-70 ae, Ge ose wz 2N1534 | 2N1535 | 2N1536 | 2N1537| 2N1538 103 T0410 50-100 2N1539 | 2N1540 | 2N154] | 2N1542 | 2N1543 f; - 0.4 MHz 75-150 hos Miz 2N1544 |2N1545 | 2N1546 | 2N1547 | 2N1548 Pr S-AMP ich oc GAIN Ire Voss} 30 45V 60V LOW-SATURATION SWITCH lea 3A, Pp = 170W . Ve=2V | Vee} 30 45V 60V fy 0.3 MHz Fives 60-120 2N3311 2N3312 2N3313 100-200 2N3314 2N3315 2N3316 ~ 7-AMP TciGain AUDIO hee AMPLIFIER le=14, | Vets 50V P= 106 W | Vor = 2 f; 0.32 MHz ars i 74-250 MP110 - 7-AMP ECONOMY LINE AMPLIFIER ty, [Vos} sov | sv | cov | 75v Va=2 | Ves } 40V 60V | 80V | 100V Po = 77W fy 0.6 MHz 30-60 2N3615 | 2N3616 Ges yes 35-70 2N3611| 2N3612 703 TO4ITO 45-90 2N3617 | 2N3618 60-120 2N3613 | 2N3614 -7-AMP ECONOMY LINE AMPLIFIER he Ves) gov | asv | cov | 75v le=3A, Po=77W Gs Ve=2 | Vo } 40v | 6ov | 75V | 90V f; 0.6 MHz 709 30-200 MP2060|MP2061| MP2062| MP20632N2075 thru 2N2082 (continued) 2N2079-2N208 2 CURRENT TRANSFER CHARACTERISTICS Power Transistors TRANSCONDUCTANCE CHARACTERISTICS 12 12 ~a0ee ia _ J, Y g 10 +25C Se g 10 = +80C Sy = vel f/ = 8 | BA = 8 +25CSt-7 A 7 5 I DY, i Ps 4007 J) 5 6 Vee == 2V 5 6 pe A e ub A B 4 AY IS | Lt teas , +80C ; _ /. 0 0.1 0.2 0.3 0.4 05 0.6 0 a1 0.2 0.3 0.4 0.5 0.6 0.7 08 1,, BASE CURRENT (AMPERES} Vee, BASE-EMITTER VOLTAGE (VOLTS) 2N2137 thru 2N2 146 (GERMANIUM) ver 7 Vv 2N2137A thru 2N2146A C Pp = 7OW CASE 3, 4 (10-3, 41) For units with solder lugs attached, specify devices MP2137A etc. (T0-41 package) MAXIMUM RATINGS Apply also to standard, non-A series PNP germanium industrial power transistors for driver applications in high reliability equipment. Ratin Symbol 2N2137A | 2N2138A | 2N2139A | 2N2140A {| 2N2141A Uni anng ymbdor | 2n2142a | 2N2143A | 2n2144A | 2N2145A | 22146 | UNIT Collector-Base Voltage Von 30 45 60 75 90 Vde Collector-Emitter Voltage Vors 30 45 60 5 90 Vde Collector- Emitter Voltage Voro 20 30 45 60 65 Vdc Emitter-Base Voltage Ves 15 25 30 40 45 Vde Total Device Dissipation @ To= 25C Ph 70 > Watts Derate above 25C 0. 833 oo w/Cc Operating and Storage Junc- . tion Temperature Range | Ty? Tete ~65 to +110 c 7-78Power Transistors - 2N2137 thru 2N2146 (continued) FIGURE 1 POWER TEMPERATURE DERATING CURVE Osc = 1.2C/W, MAX Pp, POWER DISSIPATION (WATTS) 25 50 78 100 125 Te, CASE TEMPERATURE (C) 2N2137, A; 2N2142,A 2N2138, A; 2N2143,A FIGURE 2 ACTIVE REGION 3 500s ] T SAFE OPERATING AREAS | \\V i \ 500 ps | | | \ | Mp \ 251 aS \ | | 250 4S 5ms 5 OR LESS \ 5 ms- OR LESS 2 lms A\\\ \ ims \\ de de \ \ \ The active region safe operating area curves indicate I.-Vc; limits to be observed in order to avoid secondary breakdown. (Secondary breakdown is independent of tem- perature and duty cycle.) These curves do not define operation in the avalanche region. To insure operation below the maximum junction temperature, power de- rating must be observed for both rat Ic, COLLECTOR CURRENT (AMPS) steady state and pulse conditions. ~~ NY 5 10 20 30 0 10 20 30 40 50 Vee, COLLECTOR-EMITTER VOLTAGE (VOLTS) 2N2139, A; 2N2144,A 2N2140, A; 2N2145,A 2N2141, A; 2N2146,A \ a | | \\ ak | \\\ [| i \ ~\\ al oe te AV me \ DAY im \\ \ we | | ei[s AJ \\ . \ \ | \ i | TN | | | L J 0 70 0 10 20 30 = =640 50 60 70 800 10 20 30 40 50 60 70 80 90 100 Vee, COLLECTOR-EMITTER VOLTAGE (VOLTS) LLECTOR CURRENT (AMP) | 7-80- Power Transistors 2N2137 thru 2N21 46 (continued) Ic, COLLECTOR CURRENT (AMP) Ig, BASE-CURRENT (mA) Ic, COLLECTOR CURRENT (AMP) LARGE SIGNAL CHARACTERISTICS FIGURE 3 TRANSCONDUCTANCE (ALL TYPES) Vee, BASE-EMITTER VOLTAGE (VOLTS) (2N2142A-2N2146A, 2N2142-2N2146) Veg = 2V FIGURE 5 INPUT ADMITTANCE Ty = 100C (2N2137A-2N2141A, 2N2137-2N2141) QO. Vpe, BASE-EMITTER VOLTAGE (VOLTS) FIGURE 7 SATURATION REGION 0.2 03 Voce, COLLECTOR-EMITTER VOLTAGE (VOLTS) OA Ip, BASE-CURRENT (mA) hee, CURRENT GAIN Ic, COLLECTOR CURRENT (AMP) 0.5 7-81 FIGURE 4 INPUT ADMITTANCE (2N2137A-2N2141A, 2N2137-2N2141) Voce = 2V Ty = 25C Vac, BASE-EMITTER VOLTAGE (VOLTS) FIGURE 6 NORMALIZED DC CURRENT GAIN (ALL TYPES) 2.0 1.0 05 0,3 0.2 0.1 On 0.2 0 Ic, COLLECTOR CURRENT (AMP) FIGURE 8 SATURATION REGION (2N2142A-2N2146A, 2N2142-2N2146) 3.6 2.5 2.0 0 Qt 0.2 03 04 05 Voce, COLLECTOR-EMITTER VOLTAGE (VOLTS)2N2137 thru 2N2146 (continued) Power Transistors - INPUT & TRANSFER CHARACTERISTICS DC CURRENT TRANSFER RATIO versus COLLECTOR CURRENT BASE-EMITTER VOLTAGE versus COLLECTOR CURRENT 100 90 80 70 60 50 40 fee, DC CURRENT TRANSFER RATIO 30 20 All Types 12 T Veg v= 2V 1.0 a 5 Qo = 08 us oS <= Pa a o w 6 = 9 E Le | = LL wi 3 o4 ma = 1) 0.2 0 1 2 Ic, COLLECTOR CURRENT (AMPS) Vee =: 2V 2N2142A - 2N2146A 2N2137A - 2N2141A 1 2 Ic, COLLECTOR CURRENT (AMP) 2N2 152 thru 2N2154 (GERMANIUM) 2n2 I 56 thru an21 58 Ves = 45-75 V Ic =30A P, = 170W PNP germanium power transistors for high-power, CASE 5 high-gain applications in high-reliability industrial (TO-36) equipment. MAXIMUM RATINGS . 2N2152 | 2N2153|] 2N2154 . Rating Symbol | 2Nn2156 | 2N2157| 2N2158| Unit Collector-Emitter Voltage Vor oO 30 45 60 Vde Collector-Emitter Voltage Vors 45 60 75 Vde Collector-Base Voltage Vop 45 60 75 Vde Emitter-Base Voltage Vin a5 30 40 Vde Collector Current Ia 30 Adc Total Device Dissipation @ T,, = 25C Py 170 Watts Derate above 25C 0.5 w/c Operating Junction Temperature Range T; -65 to +110 c THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance , Junction to Case I0 0.5 c/w 7-82