- Numerical Index 2N3962-2N4059 | > MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS i= = aw = = z | =| REPLACE- | PAGE Py 1 Slt | Vee [Vel he @Ic Vorsan @ Io B) |= TRE (S| ment | numper| USE & 5 g alm (Bl ~2lB =)a @25C | S|} C | (volts) | (volts) 3 (min) (max) >] (velts) = 3 = 2 2N3962 S|P AFA 0,36W) Al 200 60 60} O} 100) 300 0.25 10M] 100 E 4oM) T 2 2 Ss |P AFA 0.36W] Aj 200 8&0 80) O; 100) 3900 0.25 LOM} 100 E 40M] T S]|P AFA 0.36W] Al 200 45 45) O} 250/ 500] 0.25 LOM} 250 E 50M] T S|P AFA 0.36W) Al 200 60 60] O} 250) 500 0.25 LOM} 250 E 50M 2N3966 thru Field Effect Transistors, sce Table on Page 1-166 2N3972 3973 S |N | 2N4400 5-34 MSG 0.36W| Al 150 60 30| 0 35! LOO! LOM 0.3! O.15A 200M! T S |N | 2N4401 5-34 MSC 0.36W) Al 150 60 30} 0 55) 200 LOM 0.3) O.15A 200M] T S |N } 2N4400 5-34 MSC O0.36W) A] 150 60 30) 0 35) 100. 10M 0.3] O.15A 200M! T S |N | 2N4401 5-34 MSC 0.36W) A] 150 60 30] 0 55] 200) 1OM 0.3) 0.154 200M] T S|P CHP O.4W] Al 200 15 10} Oo] 40 5.0M 0.1 5.0M 1.OM}) T S |[P CHP 0.4W; Al 200 25 20) 0 30 5.0M 0.15 5.0M 1.0M) T S }P CHP 0.4W] A] 200 40 35] 0 20 5.0M 0.15 5. 0M 1.0M| T Unijunction Transistor, see Table on Page 1-174 SIN HSS O.8WE Aj 200 60 30] 0 30) 120] 0O.15A 0.4) O.15A 250M| T SEN HSS 0,8W} AF 200 50 201 0 40] 140] 0.154 0.4) O.LSA 250M| T S |N RFC 0.2W) A} 150 30 12] 0 30 4.0M 500M] T 5S pN RFG 0.2W) A} 150 30 12) 0 20 4.0M 400M] T SIN RFG O.2W] A} 150 30 12}, 0 20 4.0M 300M] T Thyristors, sce Table on Page 1-154 Field Effect Transistor, see Table on Page 1-166 G |P |2N2929 9-33 RFA 0.3W{ A| 100 20 12] 0 40] 200 2.0M 150 E 0.66] T Ss |N PHS 2.0W] A) 200 100 80) 0 40] 120 1.0A 0.25 1.0A 40M| T Ss |N PHS 2,0W} A} 200) 100 80} O} 80} 240] 1.OA] 0.25 1.0A 40M! T S [N PHS 2,0W] A} 200 100 80] 0 40} 120 1.0A 0.25 1.0A 40M] T S |N PHS 2.0W} A} 200) 100 80] O} 80} 240 1.0A] 0.25 1.0A 40M] T SIN PHS 1.0W) A] 200 100 80] 30] 120 O.5A 0.3 O.5A 40M! Tt S |N PHS 1.QW) A} 200 126 100} oO 40] 120 0.54 0.3 O.5A 40M} T S |N LPA 4.0W] A 100 80) 0 20 80 15A 30 E 30M] B S |N LPA 4.0W] A 120 1001 0 20 80 15A 30 E 30M] B S |N LPA L.2W] A 100 80; 0 30) 150 104 30M] B 2N4005 S [N LPA 1,2Wl A 120 100] 0 30[ 150 10A 30M| B 2N4006 Ss |P AFA 400M} A| 200 LO 6.0] 0 40 E 20M| T 2N4007 S |e MSA 400Mf A] 200 20 15] 0 30 E 15M] T 2N4008 Ss |P MSA 400M} A] 200 35 30] 0 20 E 15M] T 2N4009 Matched Pair 2N4006 2N4010 Matched Pair 2N4&007 ON4011 Matched Pair 2N4008 2N4012 S IN 9-110 LPA 11.6W] Cj 200 65 40| O| 4.0 40 L.OA 1.0} 0.25A 400M] T 2N4013 SIN 8-257 HSS 360M] Al 200 60 40] 0 150 LOOM 300M] T 2N4014 S iN 8-257 HSS 360M| A; 200 80 50; 0 150 100M 300M] T 2R4015 S )P DFA 0.4W) Ay 200 60 60) 0) 135] 350 1.0M 0.25 SOM} 135 gE 200M} T 2N4016 Ss )P DFA 0.4W| A] 200 60 60] O|] 135} 350 1.0M 0.25 50M} 135 E 200M| T 2N4017 S |P AFA 600M} A] 200 80 80] O] 100] 500 1.0M 40M] T 2N4018 SEP AFA 400M} A] 200 60 60] 0 100 E 7,0M! E 2N4019 S ;P AFA 400M} A] 200 45 45t 0 250 E 5OM| T 2N4020 S }P DFA 0.4W) Al 200 45 45} O] 250} 500 1O* 0.25 10M] 250 E 50M] T 2N4021 S |P DFA O.4W] Ay 200 60 60] O}] 100) 350 10* 0.25 10M| 100 E 40M! T 2N4022 S |P DFA O.4W] Al 200 60 60] O}] 250) 500 1L0* 0.25 LOM] 250 E 50M| T 2N4023 S |P DFA O.4W] A} 200 45 45| O| 250} 500 1o* 0.25 LOM} 250 E 50M) T 2N4024 S |P DFA O.4W/ Al 200 60 6Q| QO} 100) 350 Lox 0.25 1oM} 100 E 40M! T 2N4025 S ]P DFA O.4W}] AJ] 200 60 60} O; 250} 500 Lo* 0.25 LOM] 250 E 50M] T 2N4026 S |P AFA O.5W] A} 200 60 60] 0 40| 120 O.1A 1.0 1.0A LOOM] T 2N4027 S |P AFA O.5Wy A] 200 80 801 0 40| 120 O.1A 0.5 0.54 100M} T 2N4028 S |P AFA O.5Wt Ay 200 60 60; O}] 100; 300 O.1A 1.0 1.0A ISOM] T 2N4029 S |P AFA O.5W| A} 200 80 8Of O} 100; 300 Q.1A 0.5 0.54 150M] T 2N4030 S |P AFA 0.8W] A] 200 60 60} O 40| 120 O.1A 1.0 1.0A LOOM] T 2N4031 S |P AFA 0.8W] A] 200 80 80| 0 40] 120 O.1A 0.5 O.5A LOOM] T 2N4032 S |P AFA 0.8W] Al} 200 60 60} Of 100) 300 O.1A 1.0 1.0A 150M] T 2N4033 S |P AFA 0.8W| Al 200 80 80| oO} 100| 300 O.1A 0.5 O.5A 150M] T 2N4034 S ]P HSS 0.36W)] Al 200 40 40| 0 70; 200 10M 0.13 1.OM 50 E 400M| T 2N4035 S [P HSS 0.36W{ A| 200 40 40] O| 150] 300 10M 0.13 1.0M] 150 E 450M| T 2N4.036 Ss |P MSS 5.OW} A] 200 90 65; 0 40{ 140] 0.154 ooM; T 2N4037 S IP MSS L.OW] Af 200 60 401 0 50; 250] O,15A 60M| T 2N4040 S [N HPA L7.5W] C] 200 60 40| 0 10 80 O.1A 2.0 1,0A 400M] T 2N4041 S IN HPA 10w] C]} 200 60 40; 0 10 80 75M 2.0 O.5A 400M] T 2N4042 S |N DFA 0.3W] C} 200 60 60] Of 200] 600 Lo* 0.35 1.OM 200M] T 2N4043 S |N DFA O.3Wy; C] 200 45 45] 0 80] 800 1O* 0.35 1.0M LSOM; T 2N4044 SIN DFA O.4W] Cj} 200 60 60] O] 200] 600 1o* 0.35 1.0M 200M; T 2N4045 S |N DFA O.4W) C) 200 45 454 0 80} 800 Lo* 0.35 1,.0M 150M) T 2N4046 Ss |N 8-296 HSS 800M] A} 200 50 30) 0 150 100M 250M] T 2N4047 S |N 8-296 HSS 800M} A] 200 80 50] a 150 100M 250M} T 2N4048 G |P 7-152 LPA 170W| Ci 110 45 30] 0 60] 120 1L5A 0.30 604 2.0K] E 2N4049 G |P 7-152 LPA 170W| Cc} 110 60 45| 0 60] 120 LA 0.30 60A 2.0K] E 2N4050 GP 7-152 LPA 170W] C} 110 75 60] 0 60] 120 15A 0,30 60A 2.0K] E 2N4051 GIP 7-152 LPA 170W;/ C} 110 45 30] 0 60; 180 15A 0.36 60A 2.0K] E 2N4052 G ftP 7-152 LPA 170w}] Cc} 110 60 454 0 60{ 180 15A 0.30 60A 2.0K] E 2N4053 G |P 7-152 LPA L7OW] C} 110 75 60}; 0 60| 180 15A 0.30 60A 2.0K] E 2N4054 Ss |N LPA 6.25W}] C}] 150 300 300] 0 30 90 50M 5.0 75M 15M} T 284055 SN LPA 6,25W} C} 150 250 250] 0 30 90 50M 5.0 75M 15M| T 2N4056 S |N LPA 6.25W] C] 150 200 200] 0 30 90 50M 5.0 75M 15M| T 2N4057 Ss |N LPA 6.25W] C} 150 150 150] 0 30 90 5.0 75M 15M] T 2N4058 S }P |MPS6522 [5-1 AFC Q.25W; AJ 150 30 30] O} 100] 400 O.1M 0.7 10M} 100 E 2N4059 S }P |Mps6516 |5-113 AFC O.25W] Al 150 30 30f oO 45, 660 1.0M 0.7 10M 45 E 1-1452N3537-2N4097 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