Numerical Index 2N992-2N1048C Zle MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS =/ = = = = TRE} 5 REPLACE. | PAGE | yop | Po |S! Ty | Vow | Vcc. 1 tre @le J) Veeisa @ Ie 2) fn |= {S| MENT | NUMBER je 3 2 gl ne |B) 2B zo @ 25C | BS} C | Wolts) | (volts) |= | (min) (max) S| (volts) = 3 5|3 NOSD TG] P RFC, om 7 AT 75] 20 OTR 40 T. 0M ZO | E 2n993 | G| PB RFC| 67M { A] 75] 20 20]; R] 40 1.0M 40) E| 44m] T 2n994 |G) P Hss| 200M } A} 150) 15 | 6.0)0) 45} 140] loM} 0.18] 10m 2n995 | S} P 8-61 | RFA| 360M | A] 200] 20 15/0] 35] 140] 20m} 0.2] 20m 100M | T 2n995a | S| P| 2N3250] 8-208 | RFA] 360M | A| 200] 20 15]; 0] 35] 140] 20m] 0.2] 20m 100M | T 2n996 | S| P| 2N3248] 8-204 | RFA} 360M | A] 200] 15 12} 0] 35 20m] 0.3] 60M 100M | T 2ng907 | s| N AFA] 500M [A] 175] 75 40] 0} 35 100% 1.6| 100M 2ng98 | S| N spp | 500M | A] 200] 100 60 | 0 1.2] 50M} 1000] 2n909 | S| N SPP | 500M } A} 200] 60 60] 0 1.6] 100M antooo | Gin msa| isom | A} loa| 40 2510] 40 tom | 0.25) loom 7.0M|E 2n1003 |G] P RFA| 120M | A] 100} 35 20] u 10] E 2n1004 | G} P vip| 120M | A} 100] 35 20] U 10] 2n1005 [sf N AFA] 150M [A] 175| 15 isPo| io] 25 1om| 0.6] iom 2N1006 | s| N AFA| 150M | A] 175] 15 15]}0] 25] 150] lom| 0.6] om 2n1007 | G| P LPA{ 35W | c}] 95] 25 20/0] 50} 250] 10a] 1.0] 2.0A] 25]E] 60K] T 2n1008 | G] P 6-24 | AFA} o.3w |c] 85] 20 15]R 0.25} O.1A| 40/E IN1008A | G} P 6-24 | aval o.3w |c]} 85) 40 35 1R 0.25} OA) 4olz 2N1008B | G} P 6-24 | AFA| 0.3W | C] 85] 60 55]R 0.25] O.1A} 40} E 2n1009 | G] P AFA| 0.4w | CT 85] 35 35]R 0.25| O.1A] 40]E] 7.5K] E 2n1010 | G| N Arc| 20m |al 55] 10 10] 0 2n1011 | G{ P 7-44 | tpal 35w {cl 95] 80 8015] 30] 75] 3.0A] 1.5] 3.0A] 20} E] 5.0K] E 2N1012 | G] N wsa] 150M | A] 100} 40 22/0] 40 100M| 0.2] 100M 3.0M] E 2n1014 |G] P| 2N1552] 7-67 | LPA}] 5ow |c} 100} 100 65]0} 20] 50] 4.0A] 0.8] 4.04 0.5M} B 2N1015 {S| N| 2N3713} 7-125 | Pms| i50ow | c[ 150} 30 30 |v] 10 2.0A| 1.5| 2.0A 3N1O15A | STN pms | 150w | c[ 150] 60 60; Vv] 10 2.0A[ 1.5] 2.0A 2N1015B| ${ N pas | 150w | c] 150} 100 | 100|v] 10 2.0A| 1.5] 2.04 2N1015c | S$] N pms | 1507 | c}] 150] 150 | 150] v]. 1o 2.0A| 1.5] 2.04 2NL015D | S| N pms | 150w | Cc} 150] 200 | 200] Vv] 10 2.0A} 1.5] 2.0 2NLOLSE | S| N pms | isow | c}] 150] 250 | 250|v] lo 2.0A| 1.5] 2.04 2N1915F | S| N pms | 150W | c}150| 300 | 300] v]| 10 2.0A| 1.51 2.0 2nLo16 |s| N{ 2n3713| 7-125 | PMs} 150W | c|150| 30 30| Vv] 10 5.0A| 2.5] 5.0a 2N1016A | S| N PMs | 150w |] 150] 60 60] vj 10 5.0A| 2.5| 5.04 2N1016B | S| N pms | is0W {C1}150] 100 | 100] vj 10 5.0A} 2.5] 5.0A 2n1016c | s| N pMs| 150W | Cj} 150/150 | iso] Vv] lo 5.0A] 2.5] 5.0A 2n1016D | $] N pMS | 150w | c] 150] 200 | 200} Vv} to 5.0A | 2.5] 5.0A 2NLOL6E | S$] N pms | 150W | c] 150250 | 250] Vv] to 5.0A| 2.5] 5.04 2N1016F [| S| N pms | 150w [| c[ 150/300 [| 300/ Vv] 10 5.0A | 2.5] 5.0A 2NLOl? | Gl Pe usa! isom | al 85} 30 lolol 70 20M | 2.6| 200M 15M| B 2ntols | Gc] P mss{ 200m |a|100] 30 | 6.0] 0] 70 7om| 2.6] 200M 20M | B 2N1021 | G] P 7-46 | uPAl 5ow |c| 95] 100 | 100]; x] 23] 7o] 1.0A] 1.0] 5.0A 2N1021A| G{ P| 2N1021] 7-46 | LPA| 150W | C | 100] 100 50]0] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1022 | G| P Lea} sow |c} 95|120 | 120/x | 23] 7a] 5.0a] 1.0] 5.0a 2N1022A| G| P| 2N1022] 7-46 | LPA| 150W | Cc | 100] 120 5510] 30] 90] 5.0A] 0.5] 5.0A 200K | T 2n1023 | G| P| 2N3323] 9-71 | RFA| 120M |A| 100] 40 40] 0] 20] 175] 1.5M 2N1024 | s| P AFA|o.25w | A|175{ 18 15|U 9.0; E| 1.0m] B 2N1025 | S| PB AFA JO.25W | A]175] 40 35] U 9.0) E) 1.om| 8 2N1026 | S| P AFA |0.25w | A| 175] 40 35] U ig} |] 2.0m] B 2N1027 } s| PB AFA|o.25w | A] 175] 18 15|U 18|#] 4.0m! B 2N1028 | STP AFA|O.25W | A] 175] 12 10 | U y.0;E| 7.om|T 2n1029 |G) P| 2N1553] 7-67 | LPA| 90W | Cy] 100} 50 20} 0| 20] 60 10A] 1.0 10A 2nN1029A| G| P| 2N1554| 7-67 | LPA| 90w | CJ] 100] 60 30] 0] 20] 60] 0A] 1.0] 10a 2n10298| G] P| 2N1555| 7-67 | LeA| 90w | c | 100] 90 60} 0] 20] 60] 110A] 1.0] 10a 2NL029C | G| P| 2N1556] 7-67 } LPA] 90W | C} 100} 100 70)0} 20) 60} OA} 1.0) i0A 2N1030 | G| P| 2N1557| 7-67 | LPA| 90w | C | 100] 50 20] 0] 50/100] 10A] 1.0] 10a 2n1030a| G| P| 2N1558] 7-67 | LPA| gow | c| 100] 60 30]}0] 50] 100 10A| 1.0] 10a 2NL030B| G| P| 2N1559] 7-67 | LPA 100} 90 60} 0] 50} 100] 110A] 1.0] 10a 2n1030C| G| P| 2Ni560] 7-67 | LPA 100 | 100 70{ 0] 50] 100 10A| 1.0] 104 2N1031 | G| P| 2N1553| 7-67 | LPA| gow | Cc] 100] 50 30] Ss] 20] 60 10a} 1.0] 0A] 10] E| 2.0K] E 2N1031A| G| P| 2N1554] 7-67 | LPA] 9oW | Cc] 100] 60 40|s| 20] 60] oa} 1.0{ loa} 10] E] 2.0K} E 2N10318{} Gl p| 2N15551 7-67 | LPA| sow | Cc} Loo! 90 yols|{ 20} 6ol oA} 1.0] 1OAl 10] E | 2.0K} E 2N1031C| G{ P| 2N1550| 7-67 | LPA| 90W | CJ i00/ 100 801s] 20) 60] LOA] 1.0] 10A| I0/E] 2.0K] E 2nL032 |G} P| 2N1557] 7-67 | LPA| 90w | C] 100] 50 30}s{ 50/100} 110A] 1.0] 0A} 25] E| 2.0K] E 2N1032a | G} P LPA} gow | C} 100} 60 40] $s] 50} 100] oa] 1.0 10A| 25} E] 2.0K|E 2N1032B | G| P Lpa} gow | c| too] 90 7O}S} 50} 100] 104] 1.0] oA} 25} E| 2.0K] E 2N1032C | G] P LPA] 90w | Cc} 100] 100 go|s} 50] 100) 10a} 1.0] 10a] 25|E) 2.0K} E 2N1034 | S| PB AFA| 250M | A] 160] 50 40] 0 0.5] 8.0M} 9.0] E}] 150K] B 2nio35 | s| P aral| 250M | al 160| 50 35 | 0 o.4{ 8.om/ i8}e| 200K| B 2nN1036 | s| P AFA| 250m | A| 160] 50 30| 0 0:3] 8.0m] 34] E} 300K] B 2n1037 | s{ P ara] 250m | A] 160] 50 35] 0 0.5] 8.0M{ 9.0] E}] 150K] B 2N1038 |G| P| 2N2138| 7-78 | LPA] 20W |c| 95] 40 4o!v] 20] 60] t.oa} 0.25] loa] i8] E} 8.0K] E 2n1039 |G| P| 2N2139| 7-78 | LPA] 20w | Cc] 95] 60 60; Vv] 20] 60] 1.04] 0.25] 1.oA| 18] E| 8.0K| E 2n1040 | G| Pp] 2N2140| 7-78 | LPA] 20w | c|] 95] 80 solv] 20] 60] 1.0A] 0.25] 1.04] 18] E] 8.0K] E QNLO41 | Gl P| 2N2141| 7-78 | tPA] 2ow [Cc] 95] 100 { loofv] 20/7 Go] 1.0A| 0.257 1.0a] 18] E] 8.0K] E 2n1042 {G| P{ 2N2143| 7-78 | Leal 20w | cl} 100} 4a 4o{v} 20| 6c} 3.04] 0.75} 3.0A} 2.01 E| 250K| 7 2N1043 ]G| P| 2N2144] 7-78 | LPA| 20W | c| 100] 60 60|/ Vv} 20] 60} 3.04] 0.25] 1.0 250K] T 2n1044 | G| P| 2N2145] 7-78 | LpA]| 20W | c| loo} 80 Bo} Vv] 207 60} 3.04] 0.25] l.oa 250K] T 2nt045 |G| e| 2n2146] 7-78 | Leal 20W | c] 100] 100 | 100]; Vv] 20] 60] 3.04] 0.25] 1l.oa 250K | T 2n1046 | G| P| 2N2832] 7-91 | HPA] 50w | C| 100] 100 50} 0] 40 5.0A| 0.2| 500M 15M| T 2N1046A | G| P| 2N2832] 7-91 | HPA| 50w | c | Loo] 130 50] 0] 40 5.0A} 0.4] 5.0A 15M| T 2n1046B| G| P| 2N2833] 7-91 | HPA] 50w | Cc] 100] 130 5010] 20 LOA} 0.4] 5.0A 15M| T 2n1047 [S| N LPA| 40W [Cc] 200] 80 12/36 | soom] 7.5] 500M QN1O47A | S| N LPA] 40W | C} 200) 80 80} 0} 121/36 } 500M] 7.5] 500M 75K] E 2N10478 | S| N ypa| 4ow | c} 200] 80 so}lo| 12/36 | Soom} 2.0] 500m 125K| E 2n1047 | S| N Lea] 4ow | Cc} 200} 80 so] oO} 12] 36 | 500M] 1.0} 500M 125K| E 2N1048 | S| N Lea| 4ow | c | 200] 120 12/36 | Soom] 7.5] 500m 2N1048A | S| N LeA| 40w |c| 200] 120 | 120] 0] 12] 36 | 500m] 7.5] 500m 75K | E 2N1048B | S| N Lea} 40w |C|200| 120 | 120] 0] 12] 36 | Soom] 2.0] 500m 125K] E 2nLo4gc | S| N wpa] 4ow | c | 200/120 | 120/0] 12] 36 | 500m] 1.0] 500m 125K | E 1-113Multiple Devices 2n998 Vos = 60 100 V Ic = 500 mA 2n999 C Darlington amplifiers containing two NPN silicon an- j nular transistors are designed for applications requiring very high-gain, low-noise, and high-input impedance. CASE 20(8) (TO-72) MAXIMUM RATINGS Rating Symbol | 2N998} 2N999} Unit Colector-Emitter Voltage Vero 60 60 Vde Collector-Base Voltage Vos 100 60 Vde Emitter-Base Voltage Vep 15 Vde Collector Current Io 500 mAdc Total Device Dissipation @ Ty = 25C Pp 0.5 Watt Derate above 25C 2.86 mW/C Total Device Dissipation @ Tg = 25C Pp 1.8 Watts Derate above 25C 10.3 mw/C Operating Junction Temperature Ts 200 C Storage Temperature Range T stg -65 to +300 % 11-4 Multiple Devices 2N998, 2N999 (continued) ELECTRICAL CHARACTERISTICS 1, = 25C uniess otherwise noted) Characteristic Symbol | Min | Max | Unit | OFF CHARACTERISTICS Collector-Emitter Sustaining Voltage* BVcEO(sus)* Vde (ig = 30 mAde, Ip = 0) 60 _ Collector-Base Breakdown Voltage BYcRO Vde (Ig = 100 pAde, Ig = 0) 2N998 100 _ 2N999 60 Emitter-Base Breakdown Voltage BVepo Vde (Ig = 100 Adc, Ig = 0) 15 _ Collector Cutoff Current logo uAde (VoR = 90 Vde, Ip = 0) 2N998 _ 0.01 (Vcp = 90 Vde, Ip = 0, Ta = 150C) 2N998 - 15 (Vop = 60 Vdc, Ip = 0) 2N999 _ 0.01 (Vog = 60 Vdc, Ig = 0, Ta = 150C) 2N999 ~ 10 Emitter Cutoff Current Irpo pAdc (Vpg = 10 Vde, Ig = 0) _ 0.01 ON CHARACTERISTICS DC Current Gain* hrg* _ (Ig = 1 mAde, Vog = 5 Vde) 2N998 800 {Ic = 10 mAde, Vox * 5 Vde) 2N998 1,600 8,000 lg = 100 mAdc, Vor = 5 Vae) 2N998 2,000 - (I = 0.1 mAdc, Vox = 10 Vde) 2N999 1,000 ~ (Ig = 10 mAdc, Voz = 10 Vdc) 2N999 4,000 _ (Ig = 100 mAde, Vop = 10 Vdc) 2N999 7,000 70,000 (ig = 100 mAdc, Vog == 10 Vde, Ty = -55C) 2N999 1,000 _ (ig = 10 mAdc, Vog = 5 Vde, measured 2N998 25 across each transistor within the device) (Ig = 10 mAdc, Vor = 10 Vdc, measured 2N999 25 _ across each transistor within the device) DYNAMIC CHARACTERISTICS Output Capacitance Cop pF (Vcop = 10 Vdc, Ip = 0, f= 140 kHz) 2N998 _ 30 2N999 _ 20 Input Capacitance Ciy pF (Vpg = 0.5 Vdc, Ic = 0, f = 140 kHz) 2N998 _ 50 2N999 _ 10 Small-Signal Current Gain he - {Ig = 1 mAdc, VoR = 5 Vde, f = 1 kHz) 2N998 1,000 _ Noise Figure** NF** dB (I = 0.1 mAdc, Veg 7 10 Vdc, Rg = 5 kohms, 2N998 _ 6 f = 1 kHz, Bandwidth = 200 Hz) *Pulse Test: Pulse Width = 300 j:8, Duty Cycle = 1% **Measured with constant current supply of 20 ;:Ade connected to the emitter of the input transistor. (Gee Figure 1) FIGURE 1 NOISE FIGURE TEST CIRCUIT 20 nA 11-5