Numerical Index 2N1984~2N2079 ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS =) = = = = TYPE || & REPLACE: | PAGE | yse| Po [S| Ts | Vee | Vce_| = hee @ Ic Vozisati @ Ie 2] ft |2 Sia) MENT NUMBER = 3 2 2) he |S "wis =/2 @ 25C | BS} C | (volts) | (volts) | | (min) (max) S| (volts) 5 3 5/3 2NL984 St W | 2N2218 8-108 | AFA 600m | A | 150 50 25 0 35 E 40M |T 2N1985 S|N | 2N2218 8-108} AFA 600M | A | 150 50 25 0 15 E 40M |T 2N1986 S| N [| 2N2218 8-108 | RFA 600M [A | 150 50 25 0 60 | 240 150M 1.5 150M 40M [T 2N1987 S|N | 2N2218 8-108] RFA 600M | A | 150 50 25 0 20 80 150M 1.5 150M 40M }T 2N1988 S| N | 2N2218A4 8-114 | VID 600M | A | 150] 100 45 0 35 {120 30M 2.0 30M 20 E 40M | T 2N1989 S|N | 2N2218A 8-114] VID 600M | A} 150 |} 100 45 0 20 60 30M 2.0 30M 10 E 40M | T 2N1990 S|N 8-104 | IND 600M | A {150 | 100 20 30M 0.5 2.0M 2N19914 $7] P 8-90 RFA 600M } A J 150 30 20 0 15 60 150M 1.5 150M 40M |T 2N1992 S]N HSS | 0.35W | A | 200 15 15 0 30 } 120 1.0M 0.25 10M 300M |T 2N1993 GIN MSS 150M | A |] 100 30 18 Qo 50 | 300 10M 0.2 10M 3.0M |B 2N1994 G{N MSS 150M {A 85 30 45 0 415 10M 0.25 200M 3.0M )B 2N1995 GIN MSS 150M [A 85 25 15 0 25 10M 0.25 200M 5,.0M |B 2N1996 GI{N MSS 150M | A 85 20 15 0 35 10M 0.25 200M 8.0M |B 2N1997 G)P MSS 250M | A 7100 45 15 0 48 | 200 100M 0.2 10M 3.0M |B 2N1998 G{P MSS 250M | A } 100 35 15 0 70 | 225 100M 0.2 10M 5.6M {T 2N1999 G|P MSS 250M | A | 100 30 15 0 1100 | 350 100M 0.2 10M 10M | T 2N2000 G\P MSS 300M | A 1100 50 15 9 50 | 300 LOOM | 6.35 500M 2.0M |B 2N2001 G|P MSS 300M | A | 100 30 15 0 1100 100M 0.2 100M 6.0M |B 2N2002 s|P CHP | 0.25W | A | 200 30 5.0 0 2N2003 S|P CHP | 0.25W | A | 200 30 5.0 0 2N2004 S{P CHP {| 0.25wW |A [175 50 15 0 12 1.0M 15 E O.5M |B 2N2005 S|P CHP | 0.25W | A | 200 50 15 6 2N2006 S|? CHP | 0.25w {A | 200 60 35 0 2N2007 S| P CHP | 0.25W |] A | 200 60 35 0 2N2008 S | N | 2N3500 8-232 | AFA 800M | A | 200 [175 110 0 30 90 10M 2.5 25M 20 E 40M | T 2N2009 thru Thyristors, see Table on Page 1-154 2N2014 2N2015 S| N | 2N3715 7-125 | AFA 150w |c | 200 | 100 50 0 15 50 5.0A 1.25 5.0A 12 E 12K JE 2N2016 S| N ] 2N3715 7-125} AFA 150W jC } 200 | 130 65 0 15 50 5.0A 1.25 5.0A 12 E 12K )E 2N2017 Ss ,N 7125 | AFA 1.0W | A | 200 60 60 0 50 | 200 200M 30 E 2N2018 S| N ) 2N3738 7-133 | HPA 20w |c {175 | 150 150 v 20 60 O.5A 6.0 1.0A 2.0M |T 2N2019 S| N | 2N3738 7-133 | HPA 20W |c {175 | 200 200 Vv 20 60 Q.5A 6.0 1.0A 2.0m |T 2N2020 S | N | 2N3738 7-133 | HPA 20w }C 1175 | 150 125 0 40 90 O.5A 6.0 1.04 3.0M |T 2N2021 S| N | 2N3738 7-133 | HPA 20w 1c 1175 | 200 140 0 40 90 0.5A 6.0 1.04 3.0M |T 2N2022 G[P HSs | 0.15W [A [100 15 12 8 25 [150 LOM 1.2 50M 250M |T 2N2023 chru Thyristors, see Table on Page 1-154 2N2031 2N2032 S| N | 2N3713 7-125 | HPA 45w [Cc | 200 45 45 0 20 2,0A 5.0 2.0A 3.0M |T 2N2033 SIN PMS 5.0W |C | 200 80 60 0 20 60 500M 0.4 500M 1.0M jT 2N2034 SN PMS 14w |c | 200 80 60 0 20 60 1,04 0.3 1.0A 1.0M /T 2N2035 S|N PMS 17Ww |c | 200 80 60 0 20 60 LSA 0.45 1.5A 1.0M |T 2N2036 SIN PMS | 17.5W }c | 200 80 60 0 20 60 2.0A 1.0 2.0A 1.0M |T 2N2038 S|[N RFA 0.6W [A | 200 45 45 o 12 36 0.2A 6.0 O.2A 2.0M | T 2N2039 SiN RFA 0.6Ww [A | 200 75 75 oO 12 36 O.2A 6.0 0.24 2.0M )T 2N2040 S|N RFA 0.6W | A | 200 45 45 0 30 90 0.24 6.0 0.24 2.0M |T 2n2041 SIN RFA 0.6W {A | 200 75 75 0 30 90 0.2A 6.0 O.2A 2.0M |T 2N2042A |G] P 6-39 AFA 200M }A {100 | 105 105 5s 20 50 5,.0M 0.75 100M 20 E O.5M |B BN20434 G|P 6-39 AFA 200M |A [100 {105 105 s 40 {100 5,0M 0.75 100M 45 E {0.75M |B 2N2044 thru Thyristors, see Table on Page 1+154 2N2047 2N2048 G|P | 2N2955 8-173] HSS 150M }A | 100 20 15 oO 50 | 300 10M 0.14 10M 150M |T 2N2048A |G) P HSS 150M }A }100 390 20 9 50 | 300 10M O.14 LOM 7.5K UE 2N2049 S| N | 2N2219A4 8-114 | LNA 800M | A | 200 75 50 R |100 | 300 150M 0.4 10M 75 E SOM ;T 2N2059 G]P MSS 60M |A | 100 10 8.0 8 20 10M 0.2 10M 50M | T 2N2060 S\N 11-6 DFA 500M [A |200 | 100 80 R 50 |150 10M 1.2 50M 50 E 60M |T 2N2060A |S | N 11-6 DFA 0.5W fA |200 | 100 60 oO 50 [150 10M 0.6 50M 50 E 60M |T 2N2060B |S [| N 100 2N2061 G\P | 2N3611 7-118 | SAC 4ow {Cc 85 20 190 0 LO 60 O.5A 2.0 Q.5A 2.OK \E 2N2061A |G | P PMS 90w }c [100 20 15 0 20 60 2,0A 1.0 5.0A 5.0K ]E 2N2062 G|P | 2N3611 7-118 | SAC 40W [C 85 20 10 oO 20 | 200 2.0A 1.0 2.0A 2.0K {E 2N2062A |G | P PMS 90w |c | 100 20 15 Oo 50 |140 2,0A 0.7 5.04 1.0K [E 2N2063 G|P | 2N3611 7-118 | SAC 35wW jC 95 40 15 Oo 10 ; 200 2.0A 2.0 2.0A 2.0K |E 2N2063A |G] P PMS 90W 1c |100 40 20 0 20 60 2.0A 1.0 5.0A 5.0K [E 2N2064 GIP | 2N3611 7-118 | SAC 35W /C 95 40 15 Qo 20 | 200 2.0A 1.0 2.0A 2.0K JE 2N2064A |G] P PMS Sow j}c )100 40 20 Oo 50 )140 2.04 0.7 5.0A 1.0K )E 2N2065 Gj] P | 2N3615 7-121 | SAC 35w {Cc 95 80 25 0 10 ; 200 2.0A 2.0 2.0A 2.0K |E 2N2065A |G | P PMS 90w |c {100 80 40 0 20 60 2,0A 1.0 5.0A 5.0K |E 2N2066 GP | 2N3615 7-121 | Sac 35W |C 95 8a 25 QO 20 | 200 2.04 1.9 2.04 2.0K |E 2N20664 1G |P PMS 90w 1c |100 80 40 0 50 |140 2,0A 0.7 5.0A 1.0K [E 2N2067 Gj P | 2N1536 7-60 SAC 28W IC 95 40 25 0 20 | 100 0.5A 0.7 1.0A 7.0K JE 2N2068 GIP | 2N1531 7-60 SAc 28W 4 C 95 80 55 9 20 |100 O.5A Q.7 1.04 7.0K | E 2N2069 GIP | 2N1539 7-60 SAC 70W }C 95 40 30 s 30 | 200 5.0A 1.5 124 1.5K /E 2N2070 G]P } 2N1541 7-60 SAC 7OW [C 95 80 60 s 30 | 200 5.04 1.5 124 1.5K |E 2N2071 G|P | 2N1539 7-60 SAC 7OW |C 95 40 30 s 30 (200 5.04 1.5 12A 1.5K |E 2N2072 GP | 2N1539 7-60 SAC 70W [C 95 80 60 Ss 30 | 200 5.0A 1.5 12A 1.5K {E 2N2074 Thyristor, see Table on Page 1-154 2N2075 G|P 7-75 LPA 170wW jc {110 80 80 s 20 40 5.0A 0.7 124A 5.0K |E 2N2075A |G|P 7-75 LPA 170w JC |110 80 80 8 20 40 5.0A 0.7 12A 5.0K JE 2N2076 G iP 7-75 LPA 170W |C {110 70 70 Ss 20 40 5.0A 0.7 124 5.0K [E 2N2076A |G | P 7-75 LPA 170w {Cc |110 70 70 8 20 40 5,0A 0.7 124 5.0K | E 2N2077 G)P 7-75 LPA 170W 7C 4110 50 530 Ss 20 40 5.04 0.9 12a 5.QK JE 2N2077A |G {P 7-75 LPA 170W ;C {110 50 50 s 20 40 5.0A 0.9 12A 5.0K JE 2N2078 GyP 7-75 LPA 170w |C /110 40 40 s 20 40 5.0A 0.9 124 5.0K | E 2N2078A |G [P 7-75 LPA 170W (Cc 1110 40 40 8 20 40 5.0A 0.9 12A 5.0K |E 2N2079 GIP 7-75 LPA 170W jC [110 80 80 Ss 35 70 5.0A 0.7 12A 5.0K |E 1-124 Power Transistors 2N2075 thru 2N2082 (GERMANIUM) 2N2075A thru 2N2082A 2N2079A JAN AVAILABLE Vce = 40-80V le =I15A Pp = 170W PNP germanium power transistors for high-power CASE 5 applications in high-reliability equipment. (TO-36) MAXIMUM RATINGS Rating Symbol | Zyzoaz | awzosi | 2wzoso | 2nznrs | Unit Colector-Emitter Voltage Voro 25 45 55 65 Vde Colector-Emitter Voltage Vors 40 50 70 80 Vde Collector-Base Voltage Vop 40 50 70 80 Vde Emitter-Base Voltage Ves 20 25 35 40 Vde Collector Current To <= 15 wm Adc Total Device Dissipation @ To = 25C Pp at 170 Watts Operating Junction Temperature Range Ty - -65 to +110 THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Case 970 0.5 C/W 175 = 150 Z 125 = 100 factor. 3 z 75 that: 8 5 = 50 g 2 25 0 0 10 20 30 40 50 60 70 80 90 100 110 Tc, CASE TEMPERATURE (C) 7-75 allowable Pp = 110 Te 0.5 POWER-TEMPERATURE BERATING CURVE The maximum average power is related to maxi- mum junction temperature by the thermal resistance This curve has a value of 170 Watts at case tem- peratures of 25C and is 0 Watts at 110C with a linear relation between the two temperatures such