2N2893-2N2967 Numerical Index zlp MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS m= | a | REPLACE- | PAGE Po }El ty | Vee | Voce |= tre @ Io Veesan @I 2) 13 TE (1S | ment | numper | USE a) | [1s ay en eel a [BE] el B =a @ 25C | SB} C | wolts) | (volts) |S | (min) (max) 3] (volts) = 3 3/2 2N2893 S| N PMS 30W |! c | 200 100 80] 0 50] 150 L.0A 0.5 1.04 50] E 30M | T 2N2894 S| P 8-165] MSS 360M] A | 200 12 12/0 40] 150 30M 0.15 10M 400M | T 2N2894A | S| P PMS 360M | A { 200 12 1215S 40 30M 800M | T 2N2895 S| N MSA 500M } A | 200 120 65] 0 40 | 120 150M 0.6 150M S50, E LZ0M 1 T 2N2896 S|N MSA 500M } A | 200 140 9010 60 | 200 150M 0.6 150M 50 ]/E 120M {T 2N2897 S]N MSA 500M | A | 200 60 45 ]0 50 | 200 150M 1,0 150M 50 /1E 120M | T 2N2898 S!N MSA 500M | A | 200 120 65] 0 40 | 120 150M 0.6 150M 50]E 120M } T 2N2899 S|N MSA 500M | A | 200 140 90 | 0 60 |] 200 150M 0.6 150M 50 ]E 120M | T 2N2900 S| N MSA 500M | A | 200 60 45 | 0 50 | 200 150M 1.0 150M 50] E 120M | T 2N2901 S| N CHP | 0.36W | A | 200 20 10/0 30 10M 0.415 LOM 300M | T 2N2902 S| N LPA 40W | Cc | 200 120 120] 0 30 90 500M 7.5 500M 30] E 2.0M | T 2n2903 |S} N} 2N2917 11-27] DFA | 600M | c | 200 60 30} 04125} 625] 1.om 1.0] 5.0m] 150] z 60M | T 2N2903A| S| NJ] 2N2915 11-27] DFA 600M} C| 200 60 30} Of 125] 625 1.0M 1.0 5.0M 150] E 60M | T 2n2904 | S| P 8-169] HssS| 3.0W} C] 200 60 4o{o} 40] 120] 150m 0:4] 150M 200M | T 2N2904A1 S| P 8-169] HSS 3.0W} C! 200 60 601 0 40] 120 150M 0.4 159M 200M | T 2N2905 S| P 8-169) HSS 3.Q0W} C7} 200 60 40] O} 100] 300 150M 0.4 150M 200M | T 2N2905A| S{ P 8-169| HSS 3.0W| C] 200 60 60} Of 100] 30 150M 0.4 150M 200M | T 2N2906 S|] P 8-169] HSS 1.8W|] C] 200 60 40] 0 40] 120 150M Q.4 150M 200M | T 2N2906A | S| P 8-169) HSS 1.8W] Cc} 200 60 60] 0 40) 120 150M 0.4 150M 200M | T 2N2907 S| P 8-169] HSS 1.8W] C] 200 60 40] O} 100} 300 150M 0.4 150M 200M} T 5n2007A| S| P 8-169} HSS} 1:8w| Cc} 200 60 60] 0} 100] 300} 150M 0:4} 150M 200M | T 2N2908 Sj] N LPA 75W| C| 200 80 80; R 12 60 1.0A LO 1.0A lO) E LOM} E 2N2909 Ss; N HSA 0.4W] A} 200 60 40] 0 40] 120] 0.154 0.25} 0.154 50M | T 2N2910 S] N| 2N3409 11-33] DFA 0.3W] A} 200 45 2510 70 O.1M 1.0 LOM 50]E LIM] T 2N2911 S{ N| 2N3766 7-142| PMS 5.0W| cl 200 150 1251, 0 20 60 1L.OA 0.3 L.OA L.OM| T 2N2912 G| P 7=97 PMS 75W 1 C | 110 15 6.0] 0 75 104 0.5 254 20M } T 2N2913 Sy N 11-27] DFA 300M | A | 200 45 4510 60 | 240 Lo* 0.35 OM 60M | T 2N2914 S|] N 11-27] DFA 300M | A | 200 45 45 | 0 | 150 | 600 Lo* 0.35 1.0M 60M | T 2N2915 SIN 11-27] DFA 300M | A | 200 45 4510 60 | 240 Lo* 0.35 1.0M 60M | T 2N2915A ]S}N AFA 300M | A | 200 45 45 | 0 240] E 60M | T 2N2916 S| N 11-27] DFA 300M | A | 200 45 45101150 [ 600 1o* 0.35 1.0M 60M [ T 2N2916A | S|N APA 300M | A | 200 45 4510 600] E 60M | T 2N2917 SiN 11-27) DFA 0.3W] A | 200 45 4510 60 | 240 10* 0.35 1.0M 60M | T 2N2918 S|N 11-27] DFA 0.3W] A | 200 45 45 | 0 | 1507 600 10* 0.35 1,0M 60M | T 2N2919 S|N 11-27] DFA 0.3W] A | 200 60 60] 0 60 | 240 1o* 0.35 1.0M 60M | T 2N2919A {S| N AFA 300M | A | 200 60 60] 0 240 | E 60M | T 2N2920 S|N 11-27] DFA 0,3W | A | 200 60 60 | 0 | 150 | 600 10* 0.35 1.0M 60M | T 2N2920A |S) 8 AFA 300M } A } 200 60 6010 600 | E 60M | T 2N2921 S|] N AFA O.2WtA | 125 25 2510 35 | E 2N2922 S | N | MPS6512 5-109} AFA 0.2W) A} 125 25 25 |90 55 | E 2N2923 S| N | MPS2923 5-84 AFA 0O.2W)] A | 125 25 25] 0 90 /E 2N2924 S| N | MPS2924 5-84 | AFA 0.2W] A} 125 25 25 | 0 150] E 2N2925 S| N | MPS2925 5-84 | AFA 0.2W] A] 125 25 25 | 0 235 )E 2N2926 S| N ] MPS2926 5-85 AFA O.2W]A 1125 18 18,0 35 | E 2N2927 Ss) P MNS 800M ] A | 200 25 2540 30} 130 50M 0.25 50M 25,5 100M | T 2N2928 G} P RFA 150M | A | 100 15 13. |01]0.8 | 200 2.0M 0.10 400M | T 2N2929 G| P 9-33 RFA 750M | Cc | 100 25 10] 0 10 | 100 LOM 0.5 50M 10] E 800M | T 2N2930 G| P | 2N3427 6-41 MSS 250M 1A | 100 30 i2 | 0 60 | 420 10M 0.25 100M 4.0M]B 2N2931 s|N AFC 50M] A} 125 5.0 5.0]0 50 50M 0.45 50M 30 /E 20M | T 2N2932 SIN AFC 50M | A | 125 5.0 5.0]/0 70 50M 0.45 50M JOE 20M | T 2N2933 SN AFC 50M | A | 125 5.0 5.030 50 50M 0.45 50M 45 /E 20M | T 2N2934 S| N AFC 50M | A | 125 45 30; 0 50 50M 0.45 50M 30}E 20M | T 2N2935 S|N AFC 50M | A | 125 45 30] 0 70 50M 0.45 50M 7O|E 20M j T 2N2936 S| N LPA 300M | A | 175 60 55 | 0 | LOO | 300 10* 0.3 2.0M L50]E 30M | T 2N2937 S|N LPA 300M | A 1175 60 55 | 0 | 100 | 300 10* 0.3 2,0M 150] E 30M} T 2N2938 Si, N HSS 300M | A | 200 25 13] 0 30 50M 0.4 50M 500M [ T 2N2939 S| N HFA 0,8W] A {300 75 60] 0 60 | 240 10,154 0.754 O.15A 150M | T 2N2940 S(N HFA 0.8W | A [ 300 120 80 |0 60 | 24017 0.154 0.75 10.154 150M | T 2N2941 S| N HFA 0.8W}A | 200 150 100] 0 60 | 240] 0.154 150M | T 2N2942 G| P HSS 150M | A | LOO 50 2510 50 10M 0.15 10M 150M | T 2N2943 G| P HSS 150M | A | LOO 30 1510 30 10M 0 LOM 120M | T 2N2944 S| P CHP 400M | A] 175 15 10} 0 80 1.0M LOM | T 2N2944A 1 S| P CHP 400M | A ; 200 15 10 | oO } 100 1.0M 15M | T 2N2945 S| P CHP 400M {A 1175 25 20] 0 40 1.0M 5.0M | T 2N2945A ) S] P CHP 400M } A ) 200 25 20) 0 ) 100 1.0M LOM | T 2N2946 S| P CHP 400M } A | 175 40 35] 0 30 1.0M 3.0M | T 2N2946A | S| P CHP 400M | A | 200 40 35190 50 1.0M 5.0M | T 2N2947 S| N 9-35 MPA 25W | Cc} 175 60 601s ]2.5 55 O.4A 0.5 L.OA 100M | T 2N2948 S1N 9~35 MPA 25W |] Cc] 175 40 40} S$ 42.5] 100 0.44 0.5 L.0A 100M | T 2N2949 S| N 9-38 MPA 6.0W |] Cc] 175 60 60/5 15.0} 100 40M 0.5 O.4A 100M | T 2N2950 SEN 9-38 MPA 6,0W] C1175 60 60]S |5.0} 100 40M 0.5 0.44 100M | T 2N2951 Ss) N 9-40 MPA 3.0W} C1175 60 6o}s 20 | 150 LOM 0.5} O.15A 200M | T 2N2952 S|] N 9-40 MPA 1.8W fC} L75 60 60] Ss 20 | 150 LOM 0.5] O.15A 200M | T 2N2953 Gt P} 2NLL94 6-30 AFC 120M | A | 100 30 25 {R | 100 50M 200 | E 2N2954 S|] N RFA 200M | A | 200 30 20/0 25 | 300 2.0M 25/8 300M | T 2N2955 G| P 8-173] HSS} 0.15Wj A | 100 40 20 60 50M 0.2 10M 200M | T 2N2956 GIP 8-173] HSS} 0.15W; A | 100 40 40 | 120 50M 0.18 10M 250M | T 2N2957 G| P 8+173] HSS} 0.15W] A | 100 40 60 10M 0.15 10M 300M | T 2N2958 S|] N 8-179] HNS 3.0W}]C ] 200 60 20]0 40] 120 150M 0.5 150M 250M] T 2N2959 S| N 8-179] HNS 3.0W] Cc | 200 60 20 | O | 100 | 300 150M 0.5 150M 250M | T 2N2960 S| N HNS 3.0W | C+} 200 60 30 | O | 100; 300 150M 0.5 150M 250M | T 2N2961 s|N HNS 3.0W | Cc } 200 60 30; 0 | 100} 300 150M 0.5 150M 250M | T 2N2962 G| P HPA 350M | A | 100 40 18] 0 660M | T 2N2963 Gj] P HPA 350M | A | 100 40 18] 0 660M | T 2N2964 G| P HPA 350M] A | 100 30 15 | 0 660M | T 2N2965 G}] P HPA 350M] A | 100 30 1540 660M ) T 2N2966 G| P| 2N3283 9-51 RFA 60M | Aj 100 20 2010]8.0] 100 3.0M 500M | T 2N2967 S| N HSS 300M | A | 200 12 6.0} 0 20] 120 LOM 0.3 3.0M 400M | T 1-134GENERAL PURPOSE SWITCHING AND AMPLIFIER TRANSISTORS (SILICON) Switching and General Purpose Transistors Current versus Voltage OPTIMUM COLLECTOR CURRENT BVcto Oto 10 mA 10 mA to 100 mA 100 mA to 500 mA 500 mA to 1.04 AOAC 3OA Min Volts NPN PNP NPN PNP NPN PNP NPN PNP NPN PNP 15 2N916 2N916 2N696 2N1991 2N2330 2N1983 2N697 | 2N2331 2N1984 2N718 2N1420 29 2N2195 30 2N2218 | 2N3133 2N2218 | 2N2800 2N2219 | 2N3134 2N2219 | 2N2801 2N2221 | 2N3135 2N2221 | 2N2837 2N2222 | 2N3136 2N2222 | 2N2838 2N3299 | 2N3133 2N3300 | 2N3134 2N3301 | 2N3135 39 2N3302 | 2N3136 49 2N758 2N3250 2N2218A| 2N3250 2N2194 | 2N2904 2N2192 | 2N3244 2N3506 2N795 2N3251 2N2219A! 2N3251 2N2218A} 2N2905 2N2193 | 2N3245 2N3507 2N760 MM4048 2N22214! 2N2219A) 2N2906 2N915 2N2222A 2N2221A] 2N2907 2N929 2N2224 2N2222A!| 2N3485 2N930 2N3946 2N3486 2N3946 2N3947 2N4890 59 2N3947 60 2N758A | 2N3798 2N910 2N3250A 2N656 2N2904A 2ZN759A | 2N3799 2N911 2N3251A 2N699 2N2905A 2N760A | 2N3250A 2N1990 2N2906A 2N929A | 2N3251A 2N2907A 2N9304 2N3485A MM2483 2N3486A 79 MM2484 80 2N739 2N3494 2N720A | 2N3494 2N720A 2N3019 Y 2N740 2N3496 2N1893 | 2N3496 2N3019 2N3020 99 2N2405 2N3020 100 2N4924 | 2N3495 2N3498 | 2N3495 2N3498 | 2N3634 \ 2N3497 2N3499 | 2N3497 2N3499 | 2N3635 2N4928 2N4924 | 2N9634 2N4924 2N3635 149 2N4928 150 2N3114 | 2N4929 2N3500 | 2N3635 2N3500 | 2N3636 2N4925 | 2N4930 2N3501 | 2N3637 2N3501 | 2N3637 2N4926 2N4925 | 2N4929 2N4925 249 2N4926 | 2N4930 250 2N3742 | 2N3743 2N3742 | 2N3743 uP 2N4927 | 2N4931 2N4927 | 2N4931 D?'NWi(*=ww~rirosdc &{ WiehwWWMWWwwYo qh~w~wy* ~7* We > >, ,wWW, BCE)?0DiWwCOCC WN NW- Switching and General Purpose Transistors 2N22 18 (siticon) 2N2219 2N2221 2N2222 2N2904 thru 2N2907 Vero = 30-40V f; = 400 MHz Typ ALSO AVAILABLE AS JAN AND HI-REL UNITS Silicon annular star transistors for high-speed switching and DC to UHF amplifier applications. NPN types 2N2218 thru 2N2222 are complementary to PNP types 2N2904 thru 2N2907. CASE 22 (TO-18) Collector connected to case 2N2222 (TO-5) 2N2906 2N2218, 2N2219, 2N2907. - 2N2904, 2N2905 MAXIMUM RATINGS Rating Symbol NPN PNP Unit Collector - Base Voltage Vos 60 60 Vde Collector - Emitter Voltage Voro 30 40 Vde Emitter - Base Voltage VER 5 5 Vdc Collector Current ly 800 600 mAdc Total Device Dissipation Py @ 25C Case Temperature To - 5: 2N2218, 2N2219 3 Ww Derate Above 25C 20 mW/C 2N2904, 2N2905 3 Ww Derate Above 25C 17.2 mWw/C To ~ 18: 2N2221, 2N2222 1,8 Ww Derate Above 25C 12 mW/C 2N2906, 2N2907 1.8 WwW Derate Above 25C 10.3 mW/C Total Device Dissipation Ph @ 25C Ambient Temperature To - 5: 2N2218, 2N2219 0.8 Ww Derate Above 25C 5.33 mw/Cc 2N2904, 2N2905 0.6 w Derate Above 25C 3.43 mw/C To ~- 18: 2N2221, 2N2222 0.5 Ww Derate Above 25C 3.33 mw/Cc 2N2906, 2N2907 0.4 Ww Derate Above 25C 2.28 mwWw/C Operating Junction Temperature Ty -65 to +175 -65 to+200 c Storage Temperature Tste -65 to + 200 -65 to +200 C 8-108 Switching and General Purpose Transistors 2N2218 SERIES, 2N2904 SERIES (continued) ELECTRICAL CHARACTERISTICS (Ta = 25C unless otherwise noted) Static Characteristic Fig. No. Symbol Min Max Unit Colector-Base Breakdown Voltage -- BVeBo Vde (Ig =10 pAde, Ip = 0) All Types 60 --- Collector-Emitter Breakdown Voltage* 9 BYcRo Vde (lg + 10 mAde, Ig = 0) 2N2218-19, 2N2221-22 30 --- 2N2904 thru 2N2907 40 + Emitter-Base Breakdown Voltage nee BYE Vae (Ig = 10 Ade, Ig = 0) All Types " 5 a Collector Cutoff Current oe logo LAde Wop = 50 Vde, Ig = 0) 2N2218-19, 2N2221-22 OL 2N2904 thru 2N2907 .02 (Vou = 50 Vde, Ig = 0, Ta = 159C) 2N2218-19, 2N2221-22 40 2N2904 thru 2N2907 = 20 CoHector Cutoff Current --- Torx nAde (VCE = 30 Vde, Vgg = 0.5 Vde) 2N2904 thru 2N2907 + 50 Base Cutoff Current --- Ie. nAdc (Vo = 30 Vde, Vag = 0.5 Vde) 2N2904 thru 2N2907 oe 50 Collector-Emitter Saturation Voltage* 12, 15 Yce (sat)* Vac {Ig = 150 mAdc, Ip = 15 mAde) All Types nee 0.4 (Ig = $00 made, Ip = 50 mAdc) AM Types --- 16 Base-Emitter Saturation Voltage* 13, 16 VBE (sat)" Vae (Ig = 150 mAdc, Ip = 15 mAdc) All Types --- 13 {Ig = 500 mAdc, Ig = 50 mAdc) All Types woe 2.6 DC Forward Current Transfer Ratio Tre oo (ig = 0.1 mAdc, Veg = 10 Vac) 2N2218, 2N2221, 2N2904, 2N2906 10 20 --- 2N2219, 2N2222, 2N2905, 2N2907 ll 35 - (Ig = 1.0 mAdc, Vog = 10 Vde) 2N2218, 2N2221, 2N2904, 2N2906 25 --- 2N2219, 2N2222, 2N2905, 2N2907 50 + Ig = 10 made, Veg = 10 Vde) 2N2218, 2N2221, 2N2904, 2N2906 35 --- 2N2219, 2N2222, 2N2905, 2N2907 18 -- (Ig = 150 mAdc, Vog = 10 Vde)* 2N2218, 2N2221, 2N2904, 2N2906 40 120 2N2219, 2N2222, 2N2905, 2N2907 100 300 (Ig = 500 mAdc, Vag = 10 Vde)* 2N2218, 2N2221, 2N2904, 2N2906 20 --- 2N2219, 2N2222, 2N2905, 2N2907 30 aoe Dynamic Characteristic Fig. No, Symbol Min Te Max Unit Output Capacitance 4 Cop pF (Von = 10 Vde, Ig = 0, = 100 kHz) All Types wee a Input Capacitance 4 Cip pF (Vpg * 0.5 Vde, Ig = 0,1 = 100 kHz) 2N2218-19, 2N2221-22 a 30 (VBE = 2 Vde, Ic = 0,f = 100 kHz) 2N2904 thru 2N2907 _ ae 30 Current Gain - Bandwidth Product 8 t, MHz (I = 20 mAde, Vog = 20 Vde, f = 100 MHz) 2N2218-19, 2N2221-22 250 o- (Ig = 50 mAde, Vg = 20 Vdc, f = 100 MHz) 2N2904 thru 2N2907 200 os Delay Time 2N2904 thru 2N2907 1 ta =a 6 10 ns Rise Time 2N2904 thru 2N2907 1 tp = 20 40 ns Turn-On Time 2N2218-19, 2N2221-22 i ton -- 26 a ns 2N2904 thru 2N2907 on 26 45 Storage Time 2N2904 thru 2N2907 2 ts oe 50 80 ns Fall Time 2N2904 thru 2N2907 2 ty = 20 30 as Turn-Off Time 2N2218-19, 2N2221-22 2 tore = 70 --- ns 2N2904 thru 2N2907 --- 70 100 Total Switching Time All Types 3 trotal --- 12 => ns *Pulse Test, Pulse Width << 300 xs Duty Cycle << 2% PNP SWITCHING-TIME CIRCUITS For NPN Switching Tests, reverse diodes, polarities, and input pulses. 30 2009 "Lic PW =: 200 ns PW =< 200 ns FIGURE 3 NON-SATURATED SWITCHING-TIME TEST CIRCUIT FIGURE 1 SATURATED TURN-ON FIGURE 2 SATURATED TURN-OFF SWITCHING-TIME TEST CIRCUIT SWITCHING-TIME TEST CIRCUIT 8-109 Switching and General Purpose Transistors 2N2904, A thru 2N2907, Aisiicon Veco = 40-60 V 2N2904 thru 2N2907 USA/JAN and Ic = 600 mA 2N3485, A, 2N3486, A qi PNP silicon annular Star transistors for high-speed switching, complementary circuitry and DC to VHF amplifier applications. Collector connected to case (TO-5) (TO-18) (TO-46) 2N2904, A 2N2906,A 2N3485, A 2N2905, A 2N2907,A 2N3486, A CASE 31 CASE 22 CASE 26 \\ MAXIMUM RATINGS Rating Symbol | Value Unit Collector-Base Voltage Vopo 60 Vdc Collector-Emitter Voltage Voro Vde 2N2904-2N2907, 2N3485, 2N3486 40 2N2904A-2N2907A, 2N3485A, 2N3486A 60 Emitter-Base Voltage VEBO 5 Vdc Collector Current Io 600 mAdc Total Device Dissipation @ To = 25C Ph TO-5: 2N2904, 2N2904A, 2N2905, 2N2905A 3 WwW DERATING FACTOR 17.2 mwW/C TO-18: 2N2906, 2N2906A, 2N2907, 2N2907A 1.8 Ww DERATING FACTOR 10.3 mW/C TO-46: 2N3485, 2N3485A, 2N3486, 2N3486A 2 Ww DERATING FACTOR 11.43 mW/C Total Device Dissipation @ T, = 25C Pp TO-5: 2N2904, 2N2904A, 2N2905, 2N2905A 600 mW DERATING FACTOR 3.43 mW/C TO-18: 2N2906, 2N2906A, 2N2907, 2N2907A 400 mW TO-46: 2N3485, 2N3485A, 2N3486, 2N3486A DERATING FACTOR 2.28 mWw/C Operating Junction Temperature Range Ty ~65 to +200 C Storage Temperature Range Tote -65 to +200 C 8-169 Switching and General Purpose Transistors 2N2904, A-2N2907, A and 2N3485, A, 2N3486, A (Continued) ELECTRICAL CHARACTERISTICS (At 25C unless otherwise noted) Characteristic Symbol | Min |Max| Unit Collector Cutoff Current logo MAdc (Vopg = 50 Vde, Ig = 0) 2N2904 thru 2N2907, 2N3485, 2N3486 ans .020 2N2904A thru 2N2907A, 2N3485A, 2N3486A oe -010 (Vop = 50 Vde, Ig = 0, Ta = 150C) 2N2904 thru 2N2907, 2N3485, 2N3486 ee 20 2N2904A thru 2N2907A, 2N3485A, 2N3486A --- 10 Collector Cutoff Current logy nAde (Vop = 30V, Vpp = 0.5 V) --- 50 Base Cutoff Current IpL nAde (Veg =30V, Veg = 0.5V) ~-- 50 Collector-Base Breakdown Voltage BVcBO Vdc (Ig =10 Adc, Ip = 0) 60 Collector-Emitter Breakdown Voltage* BYcEKo* Vde (Ig = 10 mAdc, Ip = 0) 2N2904 thru 2N2907, 2N3485, 2N3486 40 --- 2N2904A thru 2N2907A, 2N3485A, 2N3486A 60 --- Emitter-Base Breakdown Voltage BVepo Vde (Ig = 10 wAde, Io = 0) 5 --- Collector Saturation Voltage* Vv. CE (sat)* Vde (I = 150 mAdc, Ig = 15 mAde) --- 0.4 (I = 500 mAdc, I, = 50 mAdc) --- 1.6 Base- Emitter Saturation Voltage VBE(sat)* Vde (Ig = 150 mAde. I,, = 15 mAdc)* --- 1.3 (Ig = 500 mAdc, FB = 50 mAde) w- | 26 DC Forward Current Transfer Ratio beg --- (ig = 0.1 mAde, Veg = 10 Vdc) 2N2904, 2N2906, 2N3485 20 o-- 2N2905, 2N2907, 2N3486 35 --- 2N2904A, 2N2906A, 2N3485A 40 a-- 2N2905A, 2N2907A, 2N3486A 15 --- (Ig = 1.0 mAdc, Vog = 10 Vde) 2N2904, 2N2906, 2N3485 250 | --- 2N2905, 2N2907, 2N3486 50 --- 2N2904A, 2N2906A, 2N3485A 40 one 2N2905A, 2N2907A, 2N3486A 100 --- (Ig = 10 mAdc, Vop = 10 Vac) 2N2904, 2N2906, 2N3485 35 -- 2N2905, 2N2907, 2N3486 15 --- 2N2904A, 2N2906A, 2N3485A 40 --- 2N2905A, 2N2907A, 2N3486A 100 mee (Ig = 150 mAde, VCE = 10 Vdc)* 2N2904, 2N2904A, 2N2906, 2N2906A, 2N3485, 2N34B5A 40 120 2N2905, 2N2905A, 2N2907, 2N2907A, 2N3486, 2N3486A 100 300 (Ig = 500 mAdc, Vog = 10 Vdc)* 2N2904, 2N2906, 2N3485 20 | --- 2N2905, 2N2907, 2N3486 30 --- 2N2904A, 2N2906A, 2N3485A 40 2N2905A, 2N2907A, 2N3486A 50 oo Output Capacitance Cob pF (Vog = 10 Vde, Ig = 0, = 100 kHz) one 8 Input Capacitance CH pF (VpE = 2 Vde, fo = 0,f = 100 kHz) --- 30 Current-Gain Bandwidth Product fi, MHz (Ig = 50 mAdc, Vog = 20 Vdc, f = 100 MHz) 200 | --- SWITCHING CHARACTERISTICS (At 25C unless otherwise noted) Characteristic T Max Delay Time 10 Rise Time 0 Turn-On Time 45 Storage Time 80 Fall Time 30 Turn-Off Time Total Switching Time *Pulse Test: Pulse Width = 300 us; Duty Cycle $ 2% 8-170 Switching and General Purpose Transistors 2N2904, A-2N2907, A and 2N3485, A, 2N3486, A (Continued) SATURATED TURN-ON SATURATED TURN-OFF NON-SATURATED SWITCHING-TIME SWITCHING-TIME TEST CIRCUIT SWITCHING-TIME TEST CIRCUIT TEST CIRCUIT mary ps +44 ~4 01 pF 100.2 . 100.0 3 PW = 200 15 PW 15 ns ACTIVE REGION TIME CONSTANT CAPACITANCE VARIATIONS versus VOLTAGE versus COLLECTOR CURRENT 40 20 Ciy/ Vee g 20 z 15 \ f : g ' 410 a z 8 Con/ Vea = 10 So 3 NI Veo = 30 = 6 a ec = 3 @ wees 4 = 5 S = Veo = 1 PL 2 01 02 0406 10 2 4 6 19 2 40 se oo 20 40 60 100 200 400 REVERSE BIAS (VOLTS) le, COLLECTOR CURRENT (mAdc) CURRENT GAIN-BANDWIDTH PROOUCT versus TOTAL CONTROL CHARGE versus BASE CURRENT COLLECTOR CURRENT 6.0 400 4.0 6 = 10 T, = 25C 20 Ve = 10 q 300 is Wa ~ LA Vo = 5V zg 10 z na LL Ny 5 os = ] INQ 2 = LH = 04 200 8 5 02 Ta = +25 S Fon 100 | | | 1 2 4 6 10 20 40 60 1 2 4 6 10 20. 40 60 100 200 1, BASE CURRENT (mAdc) le, COLLECTOR CURRENT (mAdc) CURRENT GAIN versus COLLECTOR CURRENT T= + 100C Nye, NORMALIZED DC CURRENT GAIN 01 02 05 0.1 0.2 05 1.0 2.0 5.0 10 20 50 100 200 500 ic, COLLECTOR CURRENT (mA) 8-17] Switching and General Purpose Transistors 2N2904, A-2N2907, A and 2N3485, A, 2N3486, A (Continued) COLLECTOR SATURATION VOLTAGE versus BASE CURRENT 2N2904, 2N2906, 2N3485 AND A VERSIONS T, = 25C tg = 20a le == 10 mA le = 100 mA le = 200mA Ie = 50 mA Ves jsasj COLLECTOR-EMITTER SATURATION VOLTAGE (VOLTS) 06 0.1 1.0 10 100 hy, BASE CURRENT (mAdc) 2N2905, 2N2907, 2N3486 AND A VERSIONS Ty = 25C le = 100 mA Ip = 200mA Vee pat} COLLECTOR-EMITTER SATURATION VOLTAGE (VOLTS) 06 0.1 1.0 10 100 ly, BASE CURRENT (mAdc) BASE SATURATION VOLTAGE _ versus BASE CURRENT TEMPERATURE COEFFICIENTS a a 20 3.0 = 3 s > e, z le = 500 mA = 20 (25 to 100C) = o a = - 5 3 Bye 10 Vex pun 2 te = 200mA S96 E 10 Ig = 100 mA = (55 to 25C) a & le = 20 mA te = 50 mA ie 3 = 10 # j le = 10 mA os 20 0.1 1.0 10 100 1 2 4 6 10 20 40 60 100 200 Ip, BASE CURRENT (mAdc) Jc, COLLECTOR CURRENT (mAdc) 8-172