2N903-2N991 Numerical Index ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS =| S| REPLACE- | PAGE Po ELT | Vee | Vor) = tee @ Ie v @) Bi i |S TRE 2/3] "ment | numper | USE ce NE 15 gf SN el 1B] oT alB =\|o @ 25C | SB) C | (volts) | (volts) |S | (min) (max) S| (volts) = 3 5\3 2nd03 |S ]N AFA | 150M [A ]175 | 45 | 300 To 5.0m | 18 | E] 2.0m 2N904 S|N AFA 150M |A [175 45 30 |0 1.0) 5.0M 18 E| 8,0M 2N905 S|N AFA L50M | A 1175 45 30 | 0 1.0) 5.0M 36 E] 2.0M 2N906 s)\N AFA 150M fA 7175 45 30 40 1.0) 5.0M 76 E} 2.0M 2n907 |S |N RFA ]0.i5W]a]175] 45 | 30/0] 20] 55] 10m 19 | E| iam {tT 2N908 S]N RFA {0.15W | A [175 45 30 |0 45 | 150 10M 39 E 25M | T 2N909 S|N 2N2222 8-108 | RFA 400M {A 1175 60 30 |R 1110 {350 50M 0.5 LOM 40 E 50M | T 2N910 S|N AFA 500M | A } 200 100 80 |R 75 10M 0.4 10M 76 E 60M | T 2nN911 |S | N AFA | 500M}A]200} 100 | 80/R | 35 10M 0.4| 10M} 36] E] SOM]T 2N912 S|N AFA 500M | A | 200 100. 80 |R 15 10M 0.4 10M 18 E 40M [T 2N914 Ss )]N 8-67 HSS 360M | A | 200 40 20 |R 30 | 120 10M 0.7} 200M 300M | T 2N914A |S] N HSS 360M | A {200 40 20 |R 30 | 120 10M 0.4) 200M 300M | T INIS TS TN 8-69 |REA | 360M TA [200 } 70 | 50 ]o 1 50 | 200 | 10K Top io} 50] Ef 250M |T 2N916 |S] N 8-71 | RFA} 360M]A 1200] 45 | 25]0] 50}200} 10M 0.5) lom} 50] E} 300M|T 2N916A |S | N RFA 360M | A | 200 45 25 10 50 | 200 10M 0.5 1oM 50 E] 300M | T 2n917 [Ss | N RFA | 200M ]a ]200 | 30] 15 ]0] 20{200} 3.0m 0.5] 3.0M 500M | T QINOL7TA TS [NN RFA 200M ,;A | 200 30 15 }0 20 | 200 3.0M 0.4 10M 600M | T 2N918 S|N 9-15 RFA 200M |A | 200 30 15 | 0 20 3.0M 0.4 10M 600M | T 2N919 SiN 2N834 8-54 HSS |0.36W |A | 200 25 15 |0 20 60 10M 6.2 10M 200M | T 2no20 |s|n | 2834 | 8-54 | uss |0.36w/a 200] 25 | 15 [0 | 40/220 | 10m 0.2| 10m 200M | T 2n921 |S|N} 2N834 | 8-54 | HSS ]0.36w]A }200} 50] 20]0] 20] 60] Iom 0.3, 10M 200M | T 2ng22 |s|w| 2ne34 | 8-54 | uss |o.36v /A f200{ 50] 20}0 | 40/120} 1om 0.3] 10M 200M | T 2N923 S|P AFA |0.25W | A | 200 40 25 10 0.5] 5.0M 12 E} 0.8M/B 2n924 \s|P AFA |0.25W Ja }200 | 40 | 25 Jo 0.5) 5.0m | 24) E) 0.8m |B 2N925 StP AFA J 0.25W |A | 200 50 40 |0 0.5} 5.0M 10 E! 0.8M 48 2N926 S|P AFA |0,.25W [A | 200 50 40 |0 0.5, 5.0M 20 E} 0.8M |B 2N927 5S j)P AFA |0.25W } A | 200 70 60 10 0.5) 5.0M 8.0 E) 0.8M )8 2N928 S|P AFA |0.25W |A | 200 70 60 | 0 0.5) 5.0M 18 E] 0.8M {B 2N929 S|N 8-72 AFA 600M |c | 175 45 45 |0 40 1120 10* 1.0) 10M 150 E] 1.0M{E 2N929A |S | N APA 0.5W A [200 60 45 |0 40 | 120 10* 0.5) 10M 60 E 45M LT 2N930 S|N 8-72 AFA 600M |C [175 45 45 |O ]100 | 300 10* 1.0 10M 150 Ef 1.0M /E 2N930A |S JN AFA 0.5W [A | 200 60 45 {0 1100 } 300 10* 0.5 10M 150 E 45M | T 2N934 G|P 2N965 8-74 HSS 150M |A 85 13 12 40 40M 0.3 40M 35M | T 2N935 S|F AFA ]0.25W |A } 160 50 40 )0 |9.0 22 0.3) 5.0M 2n936 [8 |P AFA |0.25W ja 160 | 50 | 35 Jo | i8 | 44 0.5| 5.0M 2n937 |s|P ara |0.25W }a [160] 56] 3070] 36] 88 0.6, 5.0M 2Nd38 |S]? AFA }0.25W |A ]1?5] 40 ) 35/0 0.3, 5.0m } 9.0 | E] 1.0M |B 2N939 S| P APA |0.25W |A [175 40 35 |O 0.3) 5.0M 18 E] 2.0M/B 2N940 S| P AFA |0.25W 1A 1175 40 35 |O 0.3) 5.0M 36 E}] 2.0M /B 2ngat |S |P cap |o.25w fa f1i75 | 25 atu | io 1L.0M 25 | El tem |r 2N942 SIP CHP | 0.25W |A [175 25 8 |U 10 1.0M 25 E 10M | T 2ng43 | | P cap |0.25w |a |175] 40] 18 ]o} 10 0.003 25] E} 1.0M 4B 2n944 |S] P cup |0:25w Ja [175 | 40 | 18/0 | 10 0.004 25 | E} 1.0m [8 2N945 S|P CHP | 0.25W 7A ]175 50 50 10 10 0.005 25 E] 1.0M 1B 2n946 |S | P cup }0.25w {a {175} 8a | 80/0 | 10 0.005 25 | E] 1.0m {B 2N947 S|N 2N834 8-54 MSA 360M | A [150 20 15 |R 20 10M 0.4) 5.0M 200M | T IN948 thru Thyristors, see Table on Page 1-154 2N951 2N955 G\N HSS 150M |A {100 12 8.0 10 30 30M 0.5 30M 2N955A [GIN HSS 150M |}A | 100 12 8.0 | 0 30 30M 0.3 30M ono56 |s|n {| 22222 | 8-108] RFA} soom]a |200 | 75 | 50 ]{R |100 |300 | 150M 1.5] 150m | 50] E| 7om/T 2n957 |S {Nn | 2N2501 | 8-148] RFA| 250M 1a (150 | 40 | 20/0 | 45 10M 1.5| Lo 200M |r 2N958 S|N HSS | 0.25W |c [150 25 15 |0 20 10M 0.2 10M 200M | T 2N959 S|{N HSS | 0.25W | C | 150 25 15 |0 40 10M 0.2 10M 200M | T 2N960 G/P 8-74 HSS 150M }A | 100 15 15 78 20 LOM 0.2 10M 300M ; T 2N961 G iP 8-74 HSS 150M }A | 100 12 12 )3s 20 LOM 0.2 10M 300M } T 2N962 GIP 8-74 HSS 150M | A {100 12 12/58 20 10M 0.2 10M 300M | T 2N963 G/P 8-76 HSS 150M | A | 100 12 12 |58 20 10M 0.2 10M 250M | T 2N964 G(P 8-74 HSS 150M LA | 100 15 15 |S 40 10M 0.18 10M 300M (T 2N964A 1G] P 8-79 | uss | 150m]a]}ioo/ 15] 157s | 40 tom | 0.18} 1oM 300M | T mn965 |G] P 8-74 | uss| i50m{a]ioo] 12] 12/8 | 40 rom | 0.18) 10M 300M | T 2N966 GIP 8-74 HSS 150M [A | 100 12 12'S 40 LOM 0.18 LOM 300M 4 T 2n967 |G|P 8-76 | uss} 150M]a ]|100] 12] 1218 | 40 10M 0.2) 10M 250M | T 2N968 GHP 8-85 HSs 150M JA | 100 15 i548 17 10M 0.25 10M 300M | T 2N969 GIP 8-85 HSS 150M |A | 100 12 12 |S 17 10M 0.25, 10M 300M | T 2N970 GaP 8-85 HSS 150M |A | 100 12 12 |s 17 10M 0.25 10M 300M | T 2N971 GI] P 8-85 HSS 150M {A | 100 7.0 7.018 17 10M 0.25 10M 300M |} T 2N972 G{P 8-85 HSS 150M {A {100 15 15/8 40 10M 0.25 10M 300M | T 2N973 GIP 8-85 HSS 150M |} A | 100 12 12's 40 1OoM 0.25 10M 300M | T 2N974 GIP 8-85 HSS 150M | A | 100 12 12 |S 40 10M 0.25 10M 300M | T 2N975 Gi P 8-85 HSs 150M | A | 100 7.0 7.018 40 10M 0.25) LOM 300M | T 2N976 [GC |P | 2Nd6h | 8-74 | HSS | 100M 1A {100 157 1010 | 30 som | 0.17 20m BoM tT 2n977 |c|p| 2n964 | 8-74 | uss] i50]A]100] 15] 10]0] 50 40M 0.2] 40M 400M | T 2n978 |S|P |} 2N2837 | 8-161] RFA} 330M]A [150] 30} 20/0] 15} 607} 150m 1.5] 150M 40M | T 2N979 GiP HSS 60M 7A | 100 20 15 |0 30 10M 0.25 LOM 100M | T 2N980 GI] P HSS 60M JA | 100 20 12 )0 30 10M 0.25 10M 100M | T 2N981L S|N AFA O.5W fA | 200 80 80 | 0 3.0) 10M 36 E 50M | B 2N982 GIP HSS 60M |A | 100 20 15 | 0 50 10M 0.125) 10M 2N983 |GIP uss | 60m ]a |100/ 15} 151401] 40 rom | 0.15| tom 2N984 G|P HSs 60M |A | 100 15 10 | 0 50 10M 0.18 LOM 2n985 |G|P s-sg | uss | 150mM}a]100} 15 | 7.0 }o | 40 lomM | 0.15) 10M 300m } 2N986 |S|N spp} 500M|a }200| 100] 801R 2N987 G|P RFA 0,1W JA | 100 40 40 |0 40 | 250 1.0M 40 E 2N988 SIN 2N2221 8-108 | RFA 0.3W }A [175 20 10 | 0 20 | 120 10M 0.5 10M 300M | T 2N989 S|N 2N2221 8-108 | RFA 0O.3W JA [175 20 10 |90 20 7120 10M 0.5 10M 300M | T 2N990 GiP RFC 67M LA 75 20 20 ;R 40 1.QM 40 E 44m | T 2N991 GiP RFC 67M A 75 20 20 |R 40 L.0M 40 E 44M 1, T 1-112 Switching and General Purpose Transistors an7 18Asiticon) Veen = 50 rv 2N956 f; = 300 MHz Typ 2N1613 QNI711 (JAN 2N1613 AND 2N1711 Available) CASE 22 CASE 31 (TO-18) (TO-5) 2N718A 2N1613 2N956 2N1711 Collector connected to case NPN silicon annular Star transistors for high-speed switching and DC to UHF amplifier applications. MAXIMUM RATINGS . 2N718A 2N1613 : Rating Symbol N96 ONITLI Unit Collector-Emitter Voltage VoER 50 Vde Collector-Base Voltage Yop 15 Vde Emitter-Base Voltage Ves 7.0 Vde Total Device Dissipation @ Ta = 25C Pp 500 800 mW Derate above 25C 2.86 4.57 mWw/C Total Device Dissipation @ To = 25C Py 1.8 3.0 Watts Derate above 25C 10.3 17.1 mW/C Operating and Storage Junction Temperature Range Ty Tete -65 to +200 C 8-30 Switching and General Purpose Transistors 2N718A, 2N956, 2N1613, 2N1711 (continued) ELECTRICAL CHARACTERISTICS (1, = 25C unless otherwise noted) [ Characteristic Symbol OFF CHARACTERISTICS _| Min | Typ | Max | Unit | Collector-Emitter Breakdown Voltage BYorr Vde (I, = 100 mAdc, pulsed; R,. 10 ohms) 50 - - Cc BE Collector-Base Breakdown Voltage BVapo Vde ly = 100 pAde, Tp = 0) 75 - - Emitter-Base Breakdown Voltage BV ERO Vde dp = 100 pAdc, le = 0) 7.0 - - CoNector Cutoff Current Toso pAdc Von = 60 Vdc, LS = 0) - 0.001 0.01 Wop = 60 Vde, In = 0, Ty, = 150C) - - 10 Emitter Cutoff Current leBo uAde Vor = 5,0 Vde, Io = 0) 2N718A, 2N1613 - - 0.010 2N956, 2N1711 - - 0.005 ON CHARACTERISTICS De Current Gain her - Mp = 0.01 mAdac, Vor = 10 Vdc) 2N956, 2N1711 20 - - (lg = 0.1 mAdc, Vor 10 Vde) 2N718A, 2N1613 20 - - 2N956, 2N1711 35 - - Ug = 10 mAdc, Vor = 10 Vdc) 2N718A, 2N1613 35 - - 2N956, 2N1711 75 - - Ip = 10 mAdc, Vor = 10 Vdc, Ty= -55C) 2N718A, 2N1613 20 - - 2N956, 2N1711 35 - - a, = 150 mAdc, Yop 710 Vde)* 2N718A, 2N1613 40 - 120 2N956, 2N1711 100 - 300 (lg = 00 mAdc, Vor = 10 Vdc)* 2N718A, 2N1613 20 - - 2N956, 2N1711 40 - - Collector-Emitter Saturation Voltage* Vor, )* Vde (I, = 150 mAde, I,, = 15 mAde) sa - 0.24 1.5 Base-Emitter Saturation Voltage* Vv. * Vde (Ig = 150 mAde, I, = 15 mAde) BE(sat) - 1.0 1.3 SMALL-SIGNAL CHARACTERISTICS Current-Gain Bandwidth Product fp MHz (lg = 50 mAdc, Vop = 10 Vde, f = 20 MHz) 2N718A, 2N1613 60 300 - 2N956, 2N1711 70 300 Output Capacitance Cob pF og = 10 Vdc, Ins 0, f = 100 kHz) - 4.0 25 Input Capacitance Cin pF Vep = 0.5 Vde, 1g = 0, f= 100 kHz) - 20 80 Input Impedance ib ohms (Ig = 1.0 mAdc, Vag = 5.0 Vde, f = 1.0 kHz) , 24 - 34 lg = 5.0 mAdc, Voz = 10 Vdc, f = 1.0 kHz) 4.0 - 8.0 Voltage Feedback Ratio Bey X 10-4 (Ig = 1.0 mAdc, Vop = 5.0 Vde, f= 1.0 kHz) 2N718A, 2N1613 - - 3.0 2N956, 2N1711 ~ - 5.0 (Ig = 5.0 mAdc, Vop = 10 Vde, = 1.0 kHz) 2N718A, 2N1613 - 3.0 2N956, 2N1711 - - 5.0 Small-Signal Current Gain hy - Mi, = 1.0 mAdc, Vox 75.0 Vde, = 1.0 kHz) 2N718A, 2N1613 e 30 - 100 2N956, 2N1711 50 - 200 Ig = 5.0 mAdc, Ver = 10 Vdc, f = 1.0 kHz) 2N718A, 2N1613 35 - 150 2N956, 2N1711 70 - 300 Output Admittance h b umho (Ig = 1.0 mAde, Voy = 5.0 Vde, f = 1.0 kHz) 0.1 - 0.5 Mg = 5.0 mAdc, Von = 10 Vde, f = 1.0 kHz) Q.1 - 1.9 Noise Figure NF dB (Ip = 300 Adc, Vor * 10 Vdc, f = 1.0 kHz) 2N718A, 2N1613 - - 12 2N956, 2Ni711 - - 8.0 * Pulse Test: Pulse Width 300 us, Duty Cycle = 2.0%. 8-31