- 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 1-145Switching 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