Numerical Index 2N3856-2N3961 ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS sie = a || REPLACE: | PAGE Py | El] | Vee | Vee | = lire @ Ie Vegan @ | Bl] y |= TYPE z 5 MENT _ | NUMBER USE = cB E 5 2 CEISAT) Cy n_ 18 2/5 =\a @25C | B| C | (alts) | (volts) |S | (min) (max) 5 (volts) 5 3 s/e 2N3856 | S| N] MPS6513 | 5-109] RFC} 0.2W/ AJ 150 18 18,0] 100] 200] 2.0M 140M | T 2N3856A4 | S| N | MPS6513 5-109] RFC 0.2W] A] 150 30 30] 07 100} 200 2,0M 140M | T 2N3857 | S| P AFA] 0.6W | A {| 200 45 45|0] 50] 200 1.0M O.1 10M 45/E |] 4,.0M}T 2N3858 S| N{ MPS6512 5-109| RFC O.2W| A | 125 30 3010 60 | 120 2.0M 90M | T 2N3858A | S| N | MPS6566 | 5-148] RFA} 200M] A | 100 60 60; 0] 45 1.0M 90M | T 2N3859 | S| N | MPS6513 5~109] RFC} O.2W] AJ 125 30 30} 01100} 200} 2.0M 90M | T 2N3859A | S| N| MPS6566 5~-148| AFA 200M | Aj 100 60 60] 0 75 1.0M 90M | T 2N3860 S] N| MPS6514 5-109] RFC 0O.2W] A] 125 30 30 | 0} 150] 300 2.0M 90M | T 2N3861 |S] N LPA} 2.0W|A]175| 530] 530)V] 30] 200 25M 1.5 25M 20] 50M | T 2N3862 | S| N HSS | 0,36W | A | 200 50 20; 0] 50] 150 1OM | 0.25 10M 600M | T 2N3863 | S| N |} 2N3715 7-125] PMS LL7W | C | 200 70 50/0] 30] 90} 3.0A 1.0] 3.0A 0.5M|T 2N3864 [| S{N | 2N3716 7-125] PMS 117W | c | 200 110 90} 0] 30] 90] 3.0A 1.0] 3.04 O.5MjT 2N3865 S|N PMS L17W | Cc } 200 160 150} 0 30 90 3.0A 1.0 3.0A O.5M/T 2N3866 | S| N 9-91 | HPA] 5.,0W] Cc } 200 55 30} Oj] 10} 200 50M 1.0] O.1A 250M | T 2N3867 | S| P HSS 1.0W | A } 200 40 40]0 7] 40] 200 1.5A | 0.75 1,54 60M | T 2N3868 |S] P HSS 1.0W | A | 200 60 60] 0} 30] 150 1.5A | 0.75 1.54 60M | T BN3869 SIN HPA] 2.5W]C } 175 40 20]0] 20] 150 30M 0.7] 0.454 0.4G]T N3870 thru Thyristors, see Table on Page 1-154 2N3873 2N3876 | SIN LPA| 150W {C1175 140 5070} 25 | 150 LOA 1.0 10A 86] E 50M | T 2N3877 S| N | 2N4410 5-45 | AFC) 0.2W] A | 150 70 70)}0] 20] 250] 2.0M 2N3877A | S| N { 2N4410 5-45 | AFC] 0.2W | A} 150 85 8510] 204250] 2.0M 2N3878 | S{[N HPA 35W | c {| 200 120 5010}; 40] 200] 0.54 2.04, 4.0A 40 |E 40M | T 2N3879 SyN PMS 35W | Cc | 200 120 7510 12 ] 100 4.0A 1.2 4.0A 40M | T 2N3880 A RFA 0.2W | A | 200 30 15} 0 30 | 200 3.0M 50 1E 1.26 |T 2N3881 {S| N RFA | 0.6W|A | 200 60 35 | 0 1.5] 0.154 S50 | E 70M | T 2N3882 Field Effect Transistor, see Table on Page 1-166 2N3883 | GP { | 8-282] Hss| 0.3w | A | 100 25 15] 0] 30 0.2A 0.5) 0.28 LOOM | T 2N3884 thru Thyristors, see Table on Page 1-154 2N3899 2N3900 S| N | 2N5088 5*59 AFC 0.2W | A] 125 18 18 | 0 | 250 | 500 2.0M 170 |E 2N3900A | S | N | 2N5088 5-59 | AFC| 0.2W)A | 125 18 18 }0 | 250} 500] 2.0M 170 | E 2N3901 | S| N | 2N5088 5-59 | AFC| O,.2W}A {125 18 18} 0 |350] 700} 2.0M 350] E 2N3902 S| N PMS LoOW | c | 150 400 400 | 0 20 | 100 LOA 2.5 2.5A 40K [ E 2N3903 | S|N 5-11 | HSS | 0.31W] A | 135 60 40]0] 507150 10M 0.2 1OM 50}E |} 250M/T 2N3904 S| N 5-11 HSS | 0.31W] A | 135 60 40 | 0 | 100 | 300 10M 0.2 10M 100, E 300M | T 2N3905 |S] P 5-16 | HSS |] 0.31W] A | 135 40 40}0] 50/150 10M | 0.25 10M 50{E } 200M/T 2N3906 s]|P 5-16 HSS | 0.31W] A | 135 40 40 | O | 100 | 300 LOM 0.25 10M LOO JE 250M | T 2N3907 | S| N | 2N2915 11-27] DFA} 0.3W] A | 200 60 45 |0] 60] 300 10* | 0.35 1.0M 60M | T 2N3908 S| Nj 2N2916 11-27 | DFA 0.3W | A | 200 60 60 | 0 | 100 | 500 10* 0.35 1.0M 60M | T 2N3909 | Field Effect Transistor, see Table on Page 1-166 2N3910 | S| P CHP {| 0.5W | A | 200 60 50}0 4 40] 160 1.0M 0.3 10M 4.0M | T 2N3911 Ss) P CHP 0.5W )A ) 200 60 40) 0 60 | 240 L.0M 0.3 LOM 8.0M)T 2N3912 |S] P CHP | O.5W | A | 200 60 30]; 0] 90 L.OM 0.3 10M 10M | T 2N3913 Ss] P CHP 0.4W | A | 200 60 501, 0 40 | 160 1.0M 0.3 10M 4.0M/T 2N3914 | S|P CHP | 0,4W 1} A | 200 60 40} 0 | 60 | 240 1.0M 0.3 10M 8.0M|T 2N3915 S| P CHP O.4W] A 00 60 30] 0 90 , OM 0.3 10M 10M | T 2N3916 STN LPA 5.0W | | 150 150 5 0 40 | 200] 0.154 5,0] 0,154 30 50M | T 2N3917 S| N LPA 20W | C | 150 80 4010 30 | 120 1.0A 1.2 0A 15] E 30M {T 2N3918 S| N A 20W |] Cc} 150 80 40 | 0 | LOO | 300 L.OA 1.2 1,0A 30 | E 50M | T 2N3919 S| N PMS 15w jC} 150 120 60/0 40] 120 2,0A 1.2 10A 80M | T 2N3920 S|] N PMS 15W}] Cc} 150 120 60} 0} 100) 300 2.04 1.2 10A 80M | T aaa Field Effect Transistors, see Table on Page 1-166 2N3923 S| N VID 0.8wW | A | 200 150 150] 0 30} 120 25M 1.0 25M 20) E 40M | T 2N3924 | SIN 9-96 | HPA| 7.0W | c | 200 36 18 | 0 250M | T 2N3925 |S|N 9-96 | HPA 10W | C | 200 36 18 | 0 250M 1T 2N3926 S|N 9-96 HPA | 11.6W | C | 200 36 18 | 0 250M | T 2N3927 | S|N 9-96 | HPA | 23.2wW] Cc | 200 36 1840 200M | T 2N3928 }S] N PHS) 7.5W|C]175 80 40)0) 20}300]) 1.54 5.0} 1.54 200M | T 2N3929 S|N PHS 30W }C 1175 80 40] 0 20 | 300 1L.5A 5.0 1L.5A 200M | T 2N3930 |S] P AFA] 0.4W {A | 200 180 180 | O | 80 | 300 10M | 0.25 LOM | 100 40M | T 2N3931 |S|P AFA] 0.7W {| A | 200 180 180 | 0 | 80 | 300 10M | 0.25 10M | 100 40M | T 2N3932 S| N RFA 0.2W | A | 200 30 20)0 40 | 150 2.0M 50 750M | T 2N3933 Sy N RFA 0.2wW | A | 200 40 30] 0 60 | 200 2.0M 60 750M | T 3N3334 Field Effect Transistors, see Table on Page 1-166 2N3936 thru Thyristors, see Table on Page 1-154 2N3940 2N3941L_ [| S|N DFA | 0.75W | G | 200 60 45 | 0 | 400 10* 300 | E | 200M/T 2N3942 S|N DFA j 0.75W | Cc j 200 60 45 | 0 {400 10% 300 | E | 200M] T 2N3943 S|N DFA O.5W | c | 200 60 45 | 0 {400 10* 300] E 200M; T 2N3944 S| N DFA O.5W fc 7 200 60 45 | 0 | 400 1o* 300] 5 200M { T 2N3945 S| N MNS] 5.0W}C {200 70 50 ]0O] 40 | 250 | 0.154 0.5] 0.15A 60M | T 2N3946 S\N 8-286 | HSA 360M | A | 200 60 40 |0 504,150 10M 0.3 50M 50 | E 250M | T 2N3947 S|] N 8-286] HSA 360M | A | 200 60 40 | 0 | 100 | 300 10M 0.3 50M 100] E 300M | T 2N3948 S| N 9-102 | HPA 1.0W | A | 200 36 207,0 15 50M 700M | T 2N3950 |S|N 9-106] HPA 70W | C | 200 65 35 | 0 150M | T 2N3953 S| N RFA 0.2W {A {200 15 12 10 30 | 360 2.0M 40] E 1,36, T 2N3954 thru Field Effect Transistors, see Table on Page 1-166 2N3958 2N3959 |S|N 8-292| HNS | 400M | A | 200 20 12} 01} 40 | 200 10M 0.3 30M 13; E 1.3G | T 2N3960 |) S)N 8-292} HNS |} 400M] A } 200 20 12} 0} 40 } 260 LOM 8.3 30M 16} E] 1.66)T 2N396L |S|N 9-74 | HPA 10W } c | 200 65 40,0 400M | T 1-1442N3537-2N4097 THYRISTOR INDEX (continued) Numerical Index I PAGE k Veom/Vrom Ty ler Ver TYPE REPLACEMENT NUMBER A v ot mA i 2N3537 400 700 125 300 4.0 2N3538 400 800 125 300 4.0 2N3539 400 900 125 300 4.0 2N3540 400 1000 125 300 4.0 2N3541 400 1200 125 300 4.0 2N3555 1.6 30 150 0.020 0.7 2N3556 1.6 60 150 0.020 0.7 2N3557 1.6 100 150 0.020 0.7 2N3558 1.6 200 150 0.020 0.7 2N3559 1.6 30 150 0.20 0.8 2N3560 1.6 60 150 0.20 0.8 2N3561 1.6 100 150 0.20 0.8 2N3562 1.6 200 150 0.20 0.8 2N3649 16 50 120 180 3.0 2N3650 16 100 120 180 3.0 2N3651 16 200 120 180 3.0 2N3652 16 300 120 180 3.0 2N3653 16 400 120 180 3.0 2N3654 16 50 120 180 3.0 2N3655 16 100 120 180 3.0 2N3656 16 200 120 180 3.0 2N3657 16 300 120 180 3.0 2N3658 16 400 120 180 3.0 2N3668 MCR649P-3 4-46 13 100 100 40 2.0 2N3669 MCR649P-4 4-46 13 200 100 40 2.0 2N3670 MCR649P-6 4-46 13 400 100 40 2.0 2N3753 7.5 50 120 100 3.0 2N3754 7.5 100 120 100 3.0 2N3755 7.5 200 120 100 3.0 2N3756 7.5 300 120 100 3.0 2N3757 7.5 400 120 100 3.0 2N3758 7.5 500 120 100 3.0 2N3759 7.5 600 120 100 3.0 2N3760 7.5 700 120 100 3.0 2N3761 7.5 800 120 100 3.0 2N3870 MCR2835-3 4-60 22 100 100 40 2.0 2N3871 MCR2835-4 4-60 22 200 100 40 2.0 2N3872 MCR2835-6 4-60 22 400 100 40 2.0 2N3873 MCR2835-8 4-60 22 600 100 40 2.0 2N3884 175 50 125 300 4.0 2N3885 175 100 125 300 4.0 2N3886 175 200 125 300 4.0 2N3887 175 300 125 300 4.0 2N3888 175 400 125 300 4.0 2N3889 175 500 125 300 4.0 2N3890 175 600 125 300 4.0 2N3891L 175 700 125 300 4,0 2N3892 175 800 125 300 4.0 2N3893 175 900 125 300 4,0 2N3894 175 1000 125 300 4.0 2N3895 175 1200 125 300 4.0 2N3896 MCR2935-3 4-60 22 100 100 40 2.0 2N3897 MCR2935-4 4-60 22 200 100 40 2.0 2N3898 MCR2935-6 4-60 22 400 100 40 2.0 2N3899 MCR2935-8 4-60 22 600 100 40 2.0 2N3936 7.0 100 125 60 3.2 2N3937 7.0 200 125 60 3.2 2N3938 7.0 300 125 60 3.2 2N3939 7.0 400 125 60 3.2 2N3940 7.0 500 125 60 3.2 2N3986 70 500 125 150 3.0 2N3987 70 600 125 150 3.0 2N3988 70 700 125 150 3.0 2N3989 70 800 125 150 3.0 2N3990 70 900 125 150 3.0 2N3991 70 1000 125 150 3.0 2N3992 70 1100 125 150 3.0 2N4096 0.2 50 125 0.2 0.8 2N4097 0.2 100 125 0.2 0.8 1-160Switching and General Purpose Transistors 2N3724, 2N3725 2N4013, 2N4014 (continued) ELECTRICAL CHARACTERISTICS (1, = 25C unless otherwise noted) Characteristic Symbol | Min | Max | Unit ON CHARACTERISTICS (continued) Collector-Emitter Saturation Voltage* Vor(sat)* Vdc a, = 10 mAdc, Ig = 1.0 mAdc) - 0, 25 I. = mAdc, I, = mAdc N 2N - . Cc 100 B 10 mA 2N3724, 2N4013 0.20 2N3725, 2N4014 - 0.26 Mp = 300 mAdc, I3e 30 mAdc) 2N3724, 2N4013 - 0.32 2N3725, 2N4014 - 0.40 (lg = 500 mAdc, I, = 50 mAdc) 2N3724, 2N4013 - 0. 42 2N3725, 2N4014 - 0. 52 de = 800 mAdc, I, = 80 mAdc) 2N3724, 2N4013 - 0. 65 2N3725, 2N4014 - 0. 80 (I, = 1.0 Ade, I,, = 100 mAde) 2N3724, 2N4013 - 0.75 2N3725, 2N4014 - 0.95 Base-Emitter Saturation Voltage* Vv * Vdc (I, = 10 mAde, Tg = 1.0 mAde) BE(sat) - 0.76 (a mAdc, I, = mAdc - . c 100 B 10 mA 0. 86 Co = 300 mAdc, I, = 30 mAdc) - 11 Gy = 500 mAdc, Ip 50 mAdc) 0.9 1.2 dg = 800 mAdc, Int 80 mAdc) - 1.5 My = 1,0 Ade, 1, = 100 mAdc) - 1.7 SMALL-SIGNAL CHARACTERISTICS Current-GainBandwidth Product fp MHz a, = 50 mAdc, Vor = 10 Vdc, f = 100 MHz) 300 - Output Capacitance Cob pF (Vop = 10 Vdc, Ip = 0, f = 140 kHz) 2N3724, 2N4013 - 12 2N3725, 2N4014 - 10 Input Capacitance Ciy pF (Var = 0.5 Vdc, Ine 0, f = 140 kHz) - 55 SWITCHING CHARACTERISTICS Turn-On Time ton - 35 ns (Vaan = 30 Vde, Vip = 3,8 Vdc 5 cc > "BE (aff) ; _ Delay Time Ig = 500 mAde, I; = 50 mAdc) a *0 ns Rise Time (See Figure 1) t. - 30 ns Turn-Off Time tote - 60 ns (Vog = 30 Vde, I, = 500 mAdc, Storage Time ~ . t - 50 ns 31 =lp2 = 50 mAdc) s Fall Time (See Figure 1) 2N3724, 2N4013 te - 25 ns 2N3725, 2N4014 - 30 * Pulse Test: Pulse Width = 300 us, Duty Cycle = 1.0%. FIGURE 1 SWITCHING TIMES TEST CIRCUIT +30Vv < > 15 -3.8V > 1.0 PF ( (o TO SAMPLING OSCILLOSCOPE 1.0k e 4 7 | Zin & 100 k22 TL t< 1.0 ns Vin = 19-7 1.0 BF 100 PULSE GENERATOR . t,. tp < 1.0ns 62 PW. ~ 1.0 ps Zin = 80.Q + == D.C. < 2.0% - ~ 8-258