2N3675 -2N3765 Numerical Index =| MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS a ~ ~ - EE] | REPLACE | PAGE Po |S} Ti | Vee | Voce |-2 tre @ Ie Versan @ Ie #/ tole TRE JE (S| ment | numaer | USE = 8 2 elm |B) 2/2 =| @25C | S| C | (volts) | (volts) | | (min) (max) S} (volts) s 3 5|s 2N3675 |S|]N PMS 8.8W | C |} 200 90 55 ]0 12 60 1.0A 0.8 1L.0A L.OM | T 2N3676 |S|N PMS | 8.8W]C | 200 90 90 {GO} 12) 60} 1.0A 0.8} L.0A 1L.OM4T 2N3677 | S| P CHP | 0.4w | A | 200 30 20 |o 5.0M | T 2N3678 | SIN HSS 0.8W | A | 200 75 55 | 0 40 | 120 | 0.15A 0.4} 0.154 250M |] T 2N3679 | Unijunction Transistor, see Table on Page 1-174 2N3680 | S|N DFA 0.3W | A {| 200 60 50 | O | 150 | 600 1Lo* 0.7 10M 300 /E 60M | T 2N3681 |S |N RFA 0.2W ] A | 200 10 7.0 ]0 20 | 220 2.0M 0.37 4.0M 20 ]E 1.06 |T 2N3682 | S|N RFA | 0.36W | A | 200 40 15 | 0 40] 120 10M 45 ]E 600M | T 2N3683 | S|N RFA Q.2W | A | 200 30 12/0 20 | 150 8.0M 30 ]E 1.06 }T 2N3684 thru Field Effect Transistors, see Table on Page 1-166 2N3687 2N3688 |S |N REC O.2wWw } A 1125 40 40 ]0 30 4.0M 400M | T 2N3689 |S] N RFC | 0.2w | A | 125 40 40,0] 30 4.0M 400M | T 2N3690 |} S|N RFC 0.2W | A] 125 40 40 ]0 30 4.0M 400M | T 2N3691 |S} N | MPS6512 5-109] AFC 0.2W | A | 125 35 20 ]0 40 | 160 10M 0.7 LOM 40 ]/E 200M | T 2N3692 |S} N | MPS6513 5-109} AFC 0.2W | A] 125 35 20 | O | 100 | 400 10M 0.7 10M 100 FE 200M 4 T 2N3693 )}S}N REC O.2W } A) 125 45 45 10 40 | 160 10M 200M ) T 2N3694 |S |N RFC O.2W | A] 125 45 45 | 0 4100 j 400 LOM 200M | T 2N3695 ghra 3 Field Effect Transistors, see Table on Page 1-166 N369. 2N3700 |S | N RFA O.5w | A | 200 140 80 | 0 | 100 | 300 1 0.154 0.2 | O.15A 80 |E 100M | T 2n3701 | 8 | N RFA | 0.5w]A|200| 140 | 80/0 | 40|120]0.15a | 0.2|0.15a | 30/8 | 8om|T 2N3702 |S | P AFC 0.3w | A | 150 40 25 |0 60 | 300 50M 0.25 50M 100M | T 2N3703 | Sj P AFC | 0.3W 7A | 150 50 30 |O | 30] 150 50M { 0.25 50M 100M | 2N3704 |S |N AFC | 0.36W {A | 150 50 30 | 0 | 100 | 300 50M 0.6 O.1A 100M | T 2N3705 |S |N AFC | 0,36W | A {150 50 30 | 0 50 | 150 50M 0.8 O.1A 100M | T 2N3706 |S |N AFC { 0.36W | A 1150 40 20 | 0 30 | 600 50M 1.0 O.1A 100M {[ T 2N3707 |S |N AFC | 0,25W | A | 150 30 30 | 0 | 100 j 400 O.1M 1.0 LOM 100 | E 2N3708 |S] N AFC | 0.25W | A | 150 30 30 10 45 | 660 1.0M 1.0 10M 45 /E 2N3709 |S]N AFC | 0.25W | A | 150 30 30 ]0 45 | 165 1.0M 1.0 10M 45 /E 2N3710 |S} N AFC | 0.25W | A | 150 30 30 10 90 | 330 1.0M 1.0 10M S0/E aNn3711 )S)N AFC ] 0.25W |} A ] 150 30 30 | O 1180 | 660 1.0M 1.0 10M 180 )E 2N3712 |S | N RFC 0.8W 1A | 200 150 150 | 0 30 | 150 30M 2.0 50M 25 |/E 40M] T 2N3713 |S |N 7-125 | HPA 150w | C | 200 80 60 | 0 25 75 1.04 1.0 5.0A 25 |E 30K | E 2N3714 |S |N 7-125 | HPA 150W | C } 200 100 80 | 0 25 75 1.0A 1.0 5.0A 25 /E 30K | E 2N3715 |S | N 7-125 | HPA 150W | C } 200 80 60 | 0 50 | 150 1,0A 0.8 5,04 25 /E 30K { E 2N3716 |S |N 7-125] HPA L50W | C } 200 100 80 | 0 50 | 150 1.04 0.8 5.0A 25 |[E 30K | E 2N3717 | S| N HPA 7.5W | C | 200 60 60 |S |2.0 | 100 O.5A 1.0 O.5A 250M | T 2N3718 |S |N HPA 10W | Cc | 200 60 60 7S | 2.0 | 100 O.5A 1.0 O.5A 250M | T 2N3719 |S7]P 7-129 PHS 6.0W | C | 200 40 40 10 25 | 180 1.0A LS O.3A 60M | T 2N3720 | S| P 7-129] PHA 6.0W | C | 200 60 60 | 0 25 | 180 1.0A L.5 3.0A 60M | T 2N3721 |S|N AFC O.2w }A |}125 18 18/0 60 | E 2N3722 |S |N MSS 0.8W | A | 200 80 60 | 0 40 | 150 O.1A 0,22 O.1A 300M [T 2N3723 |S] N HSS 0.8W | A | 200 100 80 | 0 40 | 150 O.1A 0.25 10M 300M | T 2N3724 | S/N HSS | 0.8W | A | 200 50 30 ]0 ; 607150] O.1A 0.2] O.1A 300M | T 2N3724A} S| N 8-257 | HSS lw jA 50 30 | 0 60 | 150 100M 0.2 100M 2N3725 |S|N HSS 0.8W ] A | 200 80 50 | 0 60 | 150 Q.1A 0.26 O.1A 300M) T 2N3725A) S | N 8-257] HSS W fA 80 50] 0 60 | 150 100M 0.26 100M 3/E 2N3726 |S] P DFA 0.4w | A | 200 45 45 | 0 |135 | 350 1.0M 0.25 50M 135 ]E 200M | T 2N3727 |S | P DFA 0.4w | A { 200 45 45 | 0 1135 | 350 L.0M 0.25 50M 135 }E 200M | T 2N3728 |S|N DFA | 0.45wW | A | 200 60 30 | 0 80 | 280 | 0.154 0.221) 0.154 50 |E 250M | T 2N3729 | S|N DFA | 0.45w | A | 200 60 30 | 0 80 | 280 | 0.154 0.22 10.154 SO TE 250M | T 2N3730 |G] P 8-259] LPA 10w | A | 100 200 200 |S 2N3731 |G] P 8-259] LPA 5.0W | A | 100 320 320 15 15 6.0A 2N3732 | G| P 8-259 , LPA 3,0W | A | 100 100 100 {$s 35 | 500 O.7A 1.0M | T 2N3733 |S | N 9-82 HPA 23wW | Cc } 200 65 40 |0 LO | 150 | 0.254 1.0 1.0A 250M | T 2N3734 |S |N 8-259] HSS 1,0W | A | 200 50 30 | O 30 | 120 1.04 0.2 10M 300M | T 2N3734A] S | N 8-259| HSS] 1.OW]A 50 30 | 0} 30]120] 1.0A 0.9} 1.0A | 2.5]E 2N3735 | S| N 8-259] HSS 1.0Ww | A | 200 75 50] 0 20 80 1.0A 0.2 LOM 250M | T 2N3735A| S | N 8-259] HSS LOW sA 75 50/0 20 80 1.04 0.9 1.0A 2.5/E 2N3736 {S| N 8-259] HSS O.5wW | A | 200 50 30 1)0 30 | 120 1,04 0.2 10M 300M | T 2N3736A) S| N 8-259] HSS O.SW TA 50 30] 0 30 | 120 L.OA 0.9 LOA 2.5) 2N3737 }SIN 8-259 | HSS O.5W ) A | 200 75 50 790 20 80 L.OA 0.2 10M 250M | T 2N3737A) S| N 8-259] HSS O.SW IA 75 50 | 0 20 80 1.04 0.9 1.04 2.575 2N3738 |S] N 7-133 | LPA 20W | Cc | 175 250 225/10 40 | 200 O.1A 2.5] 0.25A 35 ]E 15M{T 2N3739 | S|N 7-133 | LPA 20W | C | 175 325 300 | 0 40 | 200 O.1A 2.510.254 35) E LSM] T 2N3740 | S| P 7-137 | LPA 25w ;C | 200 60 60/0 30 | 100 | 0.25Aa 0.6 1.04 25/E 4.0M} T 2N3741 |S] P 7-137 | LPA 25W }C | 200 80 80 40 30 | 100 | 0.25A 0.6 1.0A 25]E 4.0M|T 2N3742 | S| N 8-265] VID 1.0W | A [200 | 300 | 300 | 0 | 20 | 200 30M 1.0 10M 20]; E 30M | T 2N3743 |S | P 8-269] vin] 1.ow}A}200} 300 | 300]0] 25 } 250 30M 5.0 10M 30] E 30M | T 2N3744 |S) N HPA 30W | C } 200 60 40] 0 20 60 1.04 0.25 1.0A 20/5 30M | T 2N3745 | S| N HPA 30W | C | 200 80 60/0} 20] 60}; 1.0A] 0.25] 1.04 20], E 30M | T 2N3746 1 S[N HPA 30W | C | 200 100 80) 0 20 60 L.OA 0,25 1L.OA 20} E 30M] T 2N3747 | S| N HPA 30W | C | 200 60 4010 40 | 120 1.0A 0.25 1.0A 40]/E 40M | T 2N3748 |S |N HPA 30w | C | 200 80 60 | 0 40 | 120 L.0A 0.25 1.04 40] E 40M | T 2N3749 | S| N HPA 30W | Cc | 200 100 80 | 0 40 | 120 1.0A 0.25 1L.0A 40/E 40M | T 2N3750 1S | N HPA 30W | C 1 200 60 40 ]0 ]100 | 300} 1.0A } 0.25] 1.0A |] 100] E 50M | T 2N3751 |S] N HPA 30W | C | 200 80 60 |O f100] 300] 1.0A] 0.25] 1.0A] 100] E 50M | T Onaga Sy N HPA 30w } C | 200 100 80 | 0] 100 |) 300 1.0A 0.25 1.0A 100) E 50M | T N thru Thyristors, see Table on Page 1-154 2N3761 2N3762 | S| P 8-273] HSS 1.0W | A | 200 40 40] 0 30 | 120 1.04 o.1 10M 180M {| T 2N3763 | S| P 8-273] HSS 1.0W | A | 200 60 60 | 0 20 80 1.0A 0.1 10M 150M} T 2N3764 |S] P 8-273] HSS O.5W | A | 200 40 4010 30 | 120 1.0A O.1 10M 180M | T 2N3765 |S | P 8-273 | HSS O.5wW fA | 200 60 60 | 0 20 80 1.0A O.1 10M 150M | T 1-142Power Transistors SILICON POWER TRANSISTOR SELECTOR GUIDE (continued) Type Veto hee @ Ne Voce sat) @ Ne & \y - PNP Volts (Max) Min/Max Amp Volts (Mex) Amp | Amp 3.0 AMP (Timay = 200C) a Lo: 01 he O21 oS 6,15 Po = 6.0W : 1.5. 0.48 fr 3.0 MHz Go noe 0.195. *7 60 MHz : 0.6" 1,0: 0,325 80. Au O26 0.6 100 6.4125 Case 31 40 30/150 0.25 0.6 1.0 0.1 Solid Header 2N4238 60 30/150 0.25 0.6 1.0 0.1 , 2N4239 80 30/150 0.25 0.6 1.0 0.1 4.0 AMP (Tomax) = 200C) Po =10W | I J Case 31 tf; 4.0 MHz 2N4877 60 20/100 4.0 1.0 4.0 0.4 (T0-5) Pp =20W 2N3054* 60 25/100 0.5 1.0 0.5 0. 05 tf; 10 MHz 2N3766 60 40/160 0.5 1.0 0.5 0. 05 2N3767 80 40/160 0.5 1,0 0.5 0.05 : 0.280 0.8" 1,0 0.125 Pp = 25W 2b: . . : 16 *f 1.0 MHz gk : : st f 3.0 MHz ONag00. 1b 20/100. O68. : Te: . by ont, 4.0 MHz BO i af A0 : Case 80 re 2N4910 40 20/100 0.8 0.6 1,0 0.4 (10-66) 2N4911 60 20/100 O.5 0.6 1.0 0.1 2N4912 80 20/100 .5 0.6 1.0 0.1 MJ4101** 40 25/100 1.5 1,0 1.5 0,15 2N4231 40 25/100 1.5 0.7 1.5 0.15 = 35 . Po = 2 He 2N4232 60 25/100 1.5 0.7 1.5 0,15 mT" 2N4233 | 80 25/100 1.5 0.7 1.5 0.15 5.0 AMP (Tacmax) = 200C) o2N4905 Pp = 87.5W 5 -2N4006 f+ 4.0 MHz Case 11 r 2N4913 40 25/100 2.5 1.0 2.5 0.25 . 2N4914 60 25/100 2.5 1.0 2.5 0.25 2N4915 80 25/100 2.5 1.0 2.5 0.25 2N5067 40 20/80 1.0 0.4 1.0 O.1 2N5068 60 20/80 1.0 0.4 1,0 0.1 2N5069 80 20/80 1.0 0.4 1.0} 9.3 Pp=li7Ww 2N1724 80 20/90 2.0 1.0 2.0 0.2 - fy 10 MHz 2N1725 80 50/150 2.0 1,0 2.0 0.2 Case 9 (T0-61) 7.5 AMP (Tucan = 200C) 2N3445 60 20/60 3.9 1.5 3.0 0.3 Pp = 115 W 2N3446 80 20/60 3.0 1.5 3,0 0.3 f- 10 MHz 2N3447 60 40/120 3.0 1.5 5.0 0.5 Case 11 2N3448 80 40/120 5.0 1.5 5.0 0.5 (T0-3) Pp =117W fy 1.0 MHz 2N3232 60 15/75 3.0 2.5 3.0 0.2 Case l (70-3) 2N3487 60 20/60 3.0 1.2 3.0 0.3 2N3488 80 20/60 3.0 1,2 3.0 0.3 Po = 117W 2N3489 100 15/45 3.0 1.2 3.0 0.3 fr 10 MHz 2N3490 60 40/120 5.0 1.0 3.0 0.3 Case 9 2N3491 80 40/120 5.0 1.0 3.0 0.3 (70-61) 2N3492 100 30/90 5.0 1.0 3.0 0.3 II\QQKL},]} WN A QGV,. WC X DK QQ) WW Ql |'"M)NWWWWWD oe F AGDA nz i|I\){2na/ 19 (siicon) 2na/20 CASE 31 {TO-5) Power Transistors Ves = 40-60 V Ic =: 3A Pp =1W PNP silicon annular power transistors for high- speed, high-current switching in core, driver and Class C power applications. Collector connected to case MAXIMUM RATINGS Rating Svmbol |2N3719| 2N3720 Unit Collector - Base Voltage Vop 40 60 Volts Collector- Emitter Voltage VcEO 40 60 Volts Emitter ~ Base Voltage VER 4 4 Volts Collector Current- Continuous Ic 3 3 Amp Collector Current Peak 10 10 Amp Base Current Ip 5 0.5 Amp Total Device Dissipation @ T, = 25C Pp 1.0 Watt Derate above 25C 5.72 mw/C Total Device Dissipation @ Tc = 25C Pp 6 Watts Derate above 25C 34.3 mWw/C Operating Junction and Storage Ty and -65 to +200 % Temperature Range Tstg SAFE OPERATING AREAS 2N3719 2N3720 50 us Py @ Te = 25C Io, COLLECTOR CURRENT (AMP) Po @ T, = 25C BVcro @ Ie = 20mA Py @ Te = 25C N N Po @ T, = 25C zs _ BYcco @ I = 20mA 10 20 30 40 0 10 20 30 40 50 60 Voe, COLLECTOR-EMITTER VOLTAGE (VOLTS) 7-129Power Transistors - 2N3719 and 2N3720 (continued) ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic Symbol Min Max Unit Collector Leakage Current logx wAde (Voge = 40 Vde, Vp = 2 Vdc) 2N3719 - 10 (Vog = 60 Vde, Vpe = 2 Vde) 2N3720 _ 10 Collector-Base Cutoff Current logo mAdc (Von = 40 Vde, I, = 0, Ta = 25C) 2N3719 - 0.010 (Voy = 40 Vde, Ig = 0, Ta = 150C) 2N3719 _ 1 (Vop = 60 Vde, Ip = 0, Ty = 25C) 2N3720 - 0.010 (Vop = 60 Vde, Ig = 0, Ty = 150C) 2N3720 _ 1 Emitter-Base Cutoff Current leBo mAdc (Vpg = 4 Vde, Ic = 0) _- 1 DC Current Gain* hrg* (ig = 500 mA, Vog = 1.5 V, Ty = 25C) 20 _ (ig = 1A, Vog = 1.5 V, Ta = 25C) 25 180 (lc = 1A, Veg = 1.5 V, Ty = -40C) 15 _ Collector-Emitter Saturation Voltage* Vox(sat)* Volts (ig = 1A, Ip = 100 mA, T, = -40 to +100C 0.75 (Ig = 3 A, Ig = 300 mA, Tg = 25C) _ 1.5 Base~-Emitter Saturation Voltage* VB * Volts (Ig = 1 A, Ip = 100 mA) E(sat) _ 1.5 (ig = 3 A, Ig = 300 mA) 2.3 Collector-Emitter Breakdown Voltage* BVoro* Volts ic = 20 mA, Ip = 0) 2N3719 40 _ 2N3720 60 _ Collector Output Capacitance Cop pF Vop = 10 Vdc, Ip = 0, f = 100 kHz) 120 Input Capacitance Cip pF (Vpp = 0.5 Vde, Ip = 0, f = 100 kHz) 1000 Current-Gain Bandwidth Product ft, MHz (Vcg = 10 Vdc, Ig = 500 mAde, f = 30 MHz) 80 _ Delay Plus Rise Time ton na (ig = 1 Ade, Igy = 100 mA) 75 Storage Time, ty ns (Ig = 1 Ade, Ipi = Ipe = 100 mA) _ 150 Fall Time ty ns (Ig = 1 Ade, Ipi = Igg = 100 mA) - iE) 7-130Power Transistors 2N3719, 2N3720 (continued) BASE EMITTER SATURATION VOLTAGE VARIATIONS Verio, BASE-EMITTER SATURATION VOLTAGE (VOLTS) 10 20 40 60 80 100 200 ly, BASE CURRENT (mA) COLLECTOR-EMITTER SATURATION VOLTAGE VARIATIONS Veetaty COLLECTOR -EMITTER SATURATION VOLTAGE (VOLTS) 1 2 4 6 8 10 20 40 60 80 100 tg, BASE CURRENT (mA) CURRENT GAIN VARIATIONS hee, CURRENT GAIN 0.1 0.2 0.4 0.6 0.8 1 Se, COLLECTOR CURRENT (AMP} 7-131 ~ 25C w~e 150C 400 200 400 600 700 600 800 1000 Power Transistors 2N3719 and 2N3720 (continued) BASE CURRENT VOLTAGE VARIATIONS COLLECTOR CURRENT vs BASE-EMITTER VOLTAGE 150C 25C 1,, BASE CURRENT (mA) le, COLLECTOR CURRENT (AMP) 0.2 0.4 0.6 0.8 1.0 12 1.4 02 0.4 0.6 0.8 10 1.2 14 Vee, BASE-EMITTER VOLTAGE (VOLTS) Vie, BASE-EMITTER VOLTAGE (VOLTS) TYPICAL SWITCHING TIMES TOTAL CONTROL CHARGE VARIATION 50,000 i = 10 h le = 10 le, = 10 Ip 30,000 Ty = 25C Veo = 12 V 20,000 2N3719 _ TIME (ns) $000 2N3720 Q,, TOTAL CONTROL CHARGE (pico-coulombs) 3000 2000 0.2 0.5 1.0 2.0 3.0 0.1 0.2 0.5 1 2 3 Ic, COLLECTOR CURRENT (AMP) le, COLLECTOR CURRENT (AMP) 7-132