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 1-142GENERAL 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 NWSwitching 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 Switching and General Purpose Transistors 2N3/42 (siticon) CASE 31 (TO-5) Collector connected to case MAXIMUM RATINGS Vero =300V Ic = 50mA NPN silicon annular transistor for high-voltage am- plifier applications from DC to VHF. Rating Symbol Value Unit Collector-Base Voltage Vop 300 Vdc Collector-Emitter Voltage Vo EO 300 Vde Emitter-Base Voltage Ven 7 Vde Collector Current Io 50 mAdc Total Device Dissipation @ T, = 25C Pp 1.0 Watt Derating Factor Above 25C 5.71 mw/C Total Device Dissipation @ Tg = 25C Py 5 Watts Derating Factor Above 25C 28.6 mw/C Operating Junction Temperature Ts; +200 C Storage Temperature Range Tstg -65 to+ 200 c JUNCTION CAPACITANCE C, CAPACITANCE (pF) fy, GAIN-BANDWIDTH PRODUCT (MHz) GAIN-BANDWIDTH PRODUCT Ty = 25C 0 O1 0203 05 1 23 = 10 REVERSE BIAS (VOLTS) 20 30 50 100 1 2 3 5 7 10 2 830 (50 Ie, EMITTER-CURRENT (mA) 8-265 Switching and General Purpose Transistors 2N3742 (continued) ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic Symbol Min Max Unit Collector-Base Breakdown Voltage Ig = 100 4 Ade, Ig = 0) BVcRBo 300 Vde Collector- Emitter Breakdown Voltage* (Ic = 10 mAdc, Ip = 0) BYcEO 300 Vdc Emitter-Base Breakdown Voltage (Ig = 100 Ade, I, = 0) BVERO Vdc Collector Saturation Voltage ** (Ig = 10 mAdc, Ip = 1 mAdc) (Ic = 30 mAdc, Ip = 3 mAdc) Vor(sat)** Vde Base-Emitter Saturation Voltage ** (Ig = 10 mAdc, Ip = 1 mAdc) de = 30 mAdc, Ip = 3 mAdc) VBE (sat) * 1.0 1.2 Vde DC Current Gain ** {Ic = 3 mAdc, Vor = 10 Vde) (Ic = 10 mAdc, Vop = 10 Vde) (Ic = 30 mAdc, Vog = 10 Vdc) (Ig = 50 mAdc, Vcg = 20 Vde) u wk hype 10 20 20 200 Collector Cutoff Current (Voz = 200 Vdc, Ip = 0) (VopR = 200 Vdc, Ip = 0, Ta = 100C) IcBo 0.2 20 p Adc Emitter Cutoff Current Veep = 6 Vde, Ic = 0) TeRo 0,2 pAdc Small Signal Current Gain (Vom = 20 Vde, IG = 10 mAdc, f= 20MHz) |r| 1.5 Output Capacitance (Vop = 10 Vdc, Ig = 0,f = 100 kHz) Cop pF Input Capacitance (VpRr = 9.5 Vdc, Ip = 0, f = 100 kHz) Cib 80 pF Small Signal Current Gain Up = 10 mA, Veg = 10 V,f = 1 kHz) fe 20 200 Voltage Feedback Ratio (Ic = 10 mA, Vog = 10 V, f= J kHz) re 1.0 x1074 Input Impedance (Ic = 10 mA, Vor = 10 V, f= 1 kHz) ie 0.5 Kohms Output Admittance (ig = 10 mA, VQ, = 10V,f= 1 kHz) oe 50 uimhos Real Part of Input Impedance (Ig = 10 mA, Vox * 10 V, f = 5 MHz) Re(hje) 40 ohms *Pw S30 ys, Duty Cycle < 1% **PW S300 us, Duty Cycle < 2% 8-266 Switching and General Purpose Transistors 2N3742 (continued) CURRENT GAIN CHARACTERISTICS versus JUNCTION TEMPERATURE Ve = 10 3 1 2 3 5 7 10 20 30 50 Ie, COLLECTOR CURRENT (mAdc) CURRENT GAIN CHARACTERISTICS versus COLLECTOR-EMITTER VOLTAGE Ty = 25C Vor = 10V 5 Vee = 5V a 1 2 3 5 7 10 20 30 50 Ic, COLLECTOR CURRENT (mAdc) COLLECTOR-EMITTER SATURATION VOLTAGE BASE -EMITTER SATURATION VOLTAGE ? ic/le = 10 5 Ty = 25C Vek (sat}, COLLECTOR-EMITTER SATURATION VOLTAGE (VOLTS) Vesa), BASE-EMITTER SATURATION VOLTAGE (VOLTS) 1 2 3 7 10 20 30 50 1 2 3 5 7 10 20 30 50 Ie, COLLECTOR CURRENT (mAdc) Ic, COLLECTOR CURRENT (mAdc) 8-267 Switching and General Purpose Transistors 2N3742 (continued) SMALL SIGNAL Y PARAMETERS Th, = 25C INPUT ADMITTANCE REVERSE TRANSFER ADMITTANCE 200 100 im Vee = 10 Vie 50 Ba 3 & = = 3 ly 3 i e | 3 B 2 = =< = & 3 a 5 2 05 & RB a 2 02 = of Ol 0.05 0.02 ; Ol 01 02 03 05 07 10 20 30 50 7.0 100 im 02 05 LO 20 5.0 10 ig, EMITTER CURRENT (mAdc) le, EMITTER CURRENT mde} FORWARD TRANSFER ADMITTANCE OUTPUT ADMITTANCE Imly oe) Voe = 10 Vde Veg = 10 Vdc Re Yre) Ys, FORWARD TRANSFER ADMITTANCE (mmhos) Yoo. OUTPUT ADMITTANCE (;.mhos) O1 02 03 05 07 10 20 30 50 7.0 10 01 0.2 0.5 10 2.0 5.0 10 fe, EMITTER CURRENT (mAde) te, EMITTER CURRENT (mAdc) 8-268