Numerical Index 2N3174-2N3261 ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS te) | REPLACE. | PAGE P |e] ty) |} Veg. |= tre @ Io Veesan @ Ie 2|/ |= NPE VETS | ment | numper | USE eff | By gen e| m |B) eB =| @ 25C) B] C | (volts) | (volts) |S | (min) (max) >| (volts) = 2 5/3 2N3174 |S{ P | 2N3790 7-147] HPA 75W)C}200} 100} 100;0] 12} 36] 1.OA} 0.75] 1,0A 10 }E | 1,0M|T 2N3175 | S| P | MJ2267 7-202] HPA 85W 1) C | 200 40 40}, 0] LO} 30] 2.04 1.0] 2.0A 10}E |] 1.OM}T 2N3176 | S| P | 2N3789 7-147| HPA 85W 1 C | 200 60 60/0] 10] 30] 2.0A 1.0] 2.0A 10}E |] 1.0M|T 2N3177 | S| P | 2N3790 7-147| HPA 85W | C | 200 80 80}0|{ 10{ 30] 2.0A 1.0} 2.0A 10 |E | 1.0M|T 2N3178 |S] P |] 2N3790 7-147} HPA 85w!lc]200} 100] 100}/0] 10] 30} 2.04 1.0] 2,04 10 |E | 1.0M]T 2N3179 S| P | MJ2267 7-202 | HPA 85w ] Cc | 200 40 40/0 10 30 2.0A 1.0 2,0A IO |E 1.0M | T 2N3180 S| P | 2N3789 7-147 | HPA 85W 1c | 200 60 60 | 0 10 30 2.0A 1.0 2.0A lO] E 1.0M|T 2N3181 | S| P | 2N3790 7-147 | HPA g5w]}c {200 80 80}0] 10] 30] 2,0A 1.0) 2.04 10} E} 1.0M|T 2N3182 S| P | 2N3790 7-147] HPA 85W | C | 200 100 100 } 0 10 30 2,0A 1.0 2,0A lO |E 10M | T 2N3183 S|] P | 2N3789 7-147| HPA 75W {C | 200 40 40/0 10 30 2,04 1.0 2,0A 10 | E 1.0M | T 2N3184 | S| P | 2N3789 7-147|{ HPA 75W 1 C | 200 60 60/0] 10] 30] 2,0A 1.0} 2,04 10 |}E 7] 1.0M]T 2N3185 |S] P | 2N3790 7-147 | HPA 75W | | 200 80 80 |o |] 10] 30] 2.0A 1.0] 2,04 10 |E | 1.0MIT 2N3186 S| P | 2N3790 7-147 | HPA 75W | C | 200 100 100 | 0 10 30 2.04 1.0 2,0A 10 |/E 1,0M]T 2N3187 S| P | MJ2267 7-202] HPA 85W | C | 200 40 40 | 0 10 30 3.0A 0.9 3.0A 10 | E 1,0M | T 2N3188 |S] P } 2N3789 7+147| HPA 85W | Cc | 200 60 60]O] 10] 30] 3.0A 0.9] 3.0A 10 |}E | 1.0M/T 2N3189 | S| P | 2N3790 7-147) HPA 85W | c | 200 80 80/0] lO] 30) 3.0A 0.9] 3.0A 10 |E | 1.0M]T 2N3190 | S| P | 2N3790 7-147] HPA 85w {Cc 200} 100] 1o0}0] 10] 30] 3.0A 0.9] 3.0A 10 7;E | L.OM/T 2N3191 |S} P HPA 85W | C } 200 40 40|0; 10} 30] 3.0A 0.9) 3.0A 10)E } 1.0M]T 2N3192 |S} P | 2N3789 7-147!) HPA 85W |} C | 200 60 60/0; 10] 30] 3.0A 0.9] 3.0A 10 |E | L.OM}T 2N3193 S|} P | 2N3790 7-147 | HPA 85W | C | 200 80 80/0 lo 30 3.0A 0.9 3.0A LOE 1.0M | T 2N3194 ) S| P } 2N3790 7-147) HRA 85W } Cc} 200} 100} 100)0) 10) 30) 3.0A 0.9} 3.04 10 )E ) 1.0M)T 2N3195 |S} P HPA 75wW | c | 200 40 40/0] 10] 30] 3.0A 0.9] 3,0A 1O}E | 1L.OM|T 2N3196 S| P | 2N3789 7-147] HPA 75W | C | 200 60 60 | 0 10 30 3.0A 0.9 3.0A 10 JE 1,0M | T 2N3197_ |. S| P | 2N3790 7-147 {| HPA 75W | C | 200 80 80 }O}] 10] 30] 3.0A 0.9 | 3.0A 10} E | 1.0M]T 2N3198 S| P | 2N3790 7-147 | HPA 75W | C | 200 100 100 | 0 10 30 3.04 0.9 3.04 10 | E 1.0M/|T 2N3199 S|P HPA 40W | C | 200 40 40 ]0 20 60 1.04 0.3 1,04 10 | E 1.0M|T 2N3200 |S] P | 2N3740 7-137 | HPA 40w | | 200 60 60 }O | 20] 60] 1.0A 0.3] 1,0A 10 ;E | 1.0M/T 2N3201 |S] P | 2N3741 7137] HPA 40W | C | 200 80 8010] 20] 60] 1.0A 0.3] 1.0A 10 /E } 1.OM|T 2N3202 1S 4)? HPA) 8.8W) C } 200 40 40}0}) 20) 60) 1L.0A 0.3) 1.04 10 )E ) 1.0M)T 2N3203 S| P | 2N3740 7-137] HPA 8.8W | C | 200 60 60 | 0 20 60 1,0A 0.3 1.04 10 |E 1.0M |T 2N3204 S| P | 2N3741 7-137) HPA 8.8W | C | 200 80 80 | 0 20 60 1.0A 0,3 1,0A IO | E 1.0M | T 2N3205 S|P HPA 40W | Cc | 200 40 40 |0 20 60 0.54 0.4 O.5A 10 |E 1.0M |T 2N3206 |S] P | 2N3740 7-137] HPA 40W | C | 200 60 60 ]0] 20] 60] 0.5A 0.4] O.5A 10 }E | L.OM{T 2N3207 S| P | 2N3741 7-137 | HPA 40W | Cc | 200 100 100 | 0 20 60 0.5A 0.4 0.5A 10 ]E 1.0M ]T 2N3208 |S | P | 2N3740 7-137] HPA | 8,8W | C | 200 40 40 ]0 |] 20) 60] 0.54 0.4] 0.5A 10/E | 1.0M/T 2N3209 |S | P | MM2894 8-328 | MSS | 0.36W | A | 200 20 20 |0 | 30 | 120 30M 0.2 30M 400M | T 2N3210 |S] N 8-196} HSS }] 0.36W } A ] 200 40 15 )}0 } 30) 120 10M) 0.75} 0.24 300M ) T 2N3211L S|N 8-198] HSS | 0.36W | A | 200 40 15 | 0 50 | 150 10M 0.2 10M 350M | T 2N3212 G]P LPA 14w | c | 110 100 80 | 0 30 90 3.0A 0.5 5,0A 3.0 ],E 2N3213 | G|P LPA 14w | c | 110 80 60/0} 30] 90] 3.0A 0.5] 5,0A ] 3.0 /E 2N3214 |G] P LPA 14w | c | 110 60 40 ]0] 30] 90} 3.04 0.5] 5.0A |] 3.0 ]E 2N3215 |G] P LPA 14Ww | c | 110 40 30 |0 |] 25; 100] 3.0A 0.5] 5.0A |] 3,0 ]E 2N3216 | G/ P MSS | 150M {A | 100 20 10/0 | 60 200M | 0,22 | 200M 10M | T 2N3217 Ss] P CHP 400M | A | 200 15 10 | 0 1.0M | T 2N3218 |s|P CHP | 400M | A 4200 25 20 |0 L.OM IT 2N3219 S]P CHP 400M | A | 200 40 35 |0 1.0M|T 2N3220 |S|N HFA | 6.0W |C |175 j 100 80 }0 | 20] 60] 1.0A 7] 1.25] 1.0A 20 |E 10M [| T 2N3221 jS|N HPA | 6.0W | C | 175 100} 80j;0 7 40/120] 1.0A |] 1.25] 1.0A 40 |E 10M | T 2N3222 S|N HPA 6.0W | c | 175 80 60 | 0 20 60 1.0A 1.25 1.0A 20 ]E 10M | T 2N3223 |S |N HPA | 6.0W]C | 175 80 60 |O | 40,120] 1.,0A | 1.25] 1,0A 40 /E 10M | T 2N3224 |S | P | 2N3498 8-232] VID] 0.7W {A {200} 100] 100/0 | 204 60 50M 20 |E 60M | T 2N3225 S| P | 2N3498 8-232 | VID 0.7W | A | 200 100 100 | 0 40 | 120 50M 40 |E 80M | T 2N3226 |S |N LPA 75W |C | 200 35 35 [0 4 201 50] 2.0A 1.2 | 2.74 20 |E 30K | E 2N3227 S|N 8-130 | HSS | 0,36W | A | 200 40 20 | 0 } LOO | 300 10M 0.25 10M 500M |T 2N3228 Thyristor, see Table on Page 1-154 2N3229 S|N HPA | 17.5W |C | 200 105 60 }O [5.0 2.58 1.0 2,5A 150M | T 2N3230 |S|N PHS 25W jc | 200 80 60 |]0 | 2K] 20K) 2.0A 1.4] 2.0A 40M | T 2N3231 |S ]N PHS 25W }C |200 | 100 80 ]}0 | 2K] 20K] 2.04 1.4] 2.0A 40M | T 2N3232 S|] N 7-106 | HPA 1l7w {Cc | 200 80 60 |0 13 55 3.0A 2.5 3.04 10 |E 1,.0M JE 2N3233 S|N HPA LL7wW } Cc | 200 110 100 | 0 18 55 3.0A 2.5 3.0A 10 JE 1.OM JE 2N3234 |S)N HPA |] 117W}C }200) 160 |} 160 )0]) 18) 55) 3.0A 2.5] 3.08 10 )}E ) 1.0My)E 2N3235 S|N 7-106) HPA 117W | Cc | 200 65 55 ]0 20 70 4.0A 1b 4,04 10 JE 1.0M |E 2N3236 S|N HPA 150W | C | 200 90 90 |0 17 60 5.0A 1.1 5.0A lO /E 1L.OM|E 2N3237 |S |N HPA | 200W | C | 200 90 75 }O 7 12] 36 10A 2.0 104 10 |E | L.OM|E 2N3238 S|N HPA 150W | c {200 80 80 | 0 [8.5 25 10A 3.0 104 10 |E 1.0M |E 2N3239 S|N HPA 150w | c | 200 80 80 |0 [8.5 25 10A 1.0 LOA 10 | E 1,0M/E 2N3240 S|]N HPA 150W | Cc | 200 160 160 | oO |8.5 25 LOA 1.0 LOA 10 /E 1.OM|E 2N3241 S|N LNA 0.5W A [175 30 2540 50 | 300 10M 7O|E 50M | T 2N3241A |S | N AFA 500M |A |175 30 25 10 L7I5 |E 100M | T 2N3242 S{N LNA 0.5W {A [175 30 25 10 75 10M 100 | E 50M /T 2N3242A |S |N AFA 500M |A [175 40 40/10 200 | E 100M | T 2N3244 |S 1P 8-200 | HSS | 1.0W JA {200 40 40 Jo | 50 {150 | 0.54 0.3 | 0.154 175M | T 2N3245 S|P 8-200} HSS 1.0W [A | 200 50 50/0 30 90 0.5A 0.35 | O.15A 150M | T 2N3246 |S|N LNA | 0.35W | A | 200 60 45 10 |200 | 600 10* 0.5 | 5,0M | 200 /E 60M | T 2N3247 S{N LNA | 0.15W | A 1150 60 45 | QO |200 | 600 10* 0.5 5.0M 200 | E 60M | T 2N3248 S|P 8-204 | HSS | 0.36W | A | 200 15 12 |90 50 | 150 O.1M |0.125 10M 250M | T 2N3249 S|P 8-204 | HSS | 0.36W [A | 200 15 12 |o | 100 | 300 O.1M |0.125 10M 300M | T 2N3250 s|P 8-208 | HSS | 0.36W ]A | 200 50 40 |0 50 | 150 10M 0.25 10M 50 JE 250M | T 2N3250A |S | P 8-208 | HSS | 0.36W [A | 200 60 60 |}O | 50 } 150 10M | 0.25 10M 50 |}E | 250M |T 2N3251 |s|P 8-208 | HSS | 0.36W | A | 200 50 40 70 | 100 | 300 10M | 0.25 10M | 100 /E | 300M;T 2N3251A {S| P 8+208 | HSS | 0.36W | A 1200 60 60 | O | 100 | 300 LOM 0,25 10M 100 |E 300M | T 2N3252 |SIN 8-214] Hss | 1.0W | A | 200 60 30/0 | 30] 90} 0.5A 0.3 | 0.15A 200M | T ou 383 s|N 8-214 | HSS | 1.0W jA | 200 75 40 |O } 25 | 75 | 375M | 0.35 | 0.15A 175M | T 2 thru Thyristors, see Table on Page 1-154 2N3259 2N3260 [SIN pMs | 200W |c 200 | 200 | 200 /0j; 10] 40 20A 1 20A 0.6M | T 2N3261 S|N HSS 0.3W {A [175 40 15 |0 40 | 150 10M 0.35 0.14 600M 1-137GENERAL 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 NW Switching and General Purpose Transistors 2N3250, A (siticon) 2N3251,A 2N3250A, 2N3251A JAN 2N3250,A, 2N3251,A HI-REL Vero = 40-60 V Ic = 200 mA 0 f; = 250-300 MHz x PNP silicon annular transistors for high-speed switching and amplifier applications. Collector connected to case CASE 22 (TO-18) MAXIMUM RATINGS . 2N3250 {2N3250A . Rating Symbol | 9N3251 |2N3251a| Unit Collector-Base Voltage Vos 50 60 Vdc Collector-Emitter Voltage Vcro 40 60 Vdc Emitter-Base Voltage Vep 5 Vde Collector Current Io 200 mAdc Total Device Dissipation Watt @ 25C Case Temperature Py bo mW/C Derating Factor Above 25C , Total Device Dissipation Watt @ 25C Ambient Temperature Pp 0. 36 at 8 ; 96 2.06 mWw/C Derating Factor Above 25C Junction Operating Temperature Ty 200 C Storage Temperature Range Totg ~-65 to +200 C Thermal Resistance SIA 0. 49 C/mW 95 0.15 c/mWw 8-208 Switching and General Purpose Transistors 2N3250, A, 2N3251, A (Coritinued) ELECTRICAL CHARACTERISTICS (At 25C unless otherwise noted) Characteristic Symbol Min} Max {Unit Collector Cutoff Current I (Vog = 40 Vde, Vegr(ofe) = 3 Vdc) CEX - | 20 |nAde Base Cutoff Current I Ad (Vag = 40 Vde, Vigp(oft)= 3 Vdc) BL ~~ | 50) | nAde Collector-Base Breakdown Voltage 2N3250, 2N3251 BV 50 (I, = 10Adc) 2N3250A, 2N3251A CBO 60 | ~~ | Vde Collector-Emitter Breakdown Voltage * 2N3250, 2N3251 BV * 40 (Ig = 10 mAde) 2N3250A, 2N3251A CEO eo | ~ | vac Emitter-Base Breakdown Voltage (Ig = 10uAde) BVeBo 5 { -- | Vde Collector Saturation Voltage * (I, = 10 mAdc, L, = 1 mAdc) * |] 10.25 Cc 2 VcE(sat) Vde (Ie = 50 mAdc, In = 5 mAdc) -- 0.5 Base-Emitter Saturation Voltage * (IL, = 10 mAdc, = 1 mAdc) * 0.6 | 0.9 c B VBE(sat) Vde (Ig = 50 mAde, Ip = mAdc) 77 | 12 DC Forward Current Transfer Ratio * {Ig = 0.1 mAdc, Vag = 1 Vdc) 2N3250, 2N3250A 40 -- 2N3251, 2N3251A 80 -- Gh, = 1 mAdc, Ver = 1 Vdc) 2N3250, 2N3250A 45 -- 2N3251, 2N3251A h_* 90 -- (Ig = 10 mAdc, Vag = 1 Vde) 2N3250, 2N3250A FE 50 | 150 | ~~ 2N3251, 2N3251A 100 300 Ug = 50 mAdc, Vo, = 1 Vde) 2N3250, 2N3250A 15 -- 2N3251, 2N3251A 30 -- Output Capacitance c 6 = = = -- pF Von = 10 Vdc, I, = 0, f = 100 Hz) ob Input Capacitance ae (Vop 71 Vde, Iq = 0, f= 100 Ki) Cy 8 pF Current-Gain - Bandwidth Product 2N3250, 2N3250A { 250 (Ig = 10 mAde, Vag = 20 Vdc, f = 100 MHz) 2N3251, 2N3Z51A T 300 | -- MHz SMALL SIGNAL CHARACTERISTICS Characteristic Symbol | Min | Max | Unit Small Signal Current Gain 2N3250, 2N3250A h 50 200 _. (Ig = 1.0 mA, Voz = 10 V, f= 1 kHz) 2N3251, 2N3251A fe 100 | 400 Voltage Feedback Ratio 2N3250, 2N3250A h -- 10 x1074 Ul, = 1.0 mA, Vor = 10V, f = 1 kHz) 2N3251, 2N3251A re -. 20 Input Impedance 2N3250, 2N3250A . 1 6 kohms (Ie =1.0mA, Vor = 10V, f= 1 kHz) 2N3251, 2N3251A ie 2 12 Output Admittance 2N3250, 2N3250A | y 4 40 |. mhos (Te = 1.0 mA, Vor = 10 V, f = 1 kHz) 2N3251, 2N3251A oe 10 60 Collector-Base Time Constant . - ric -- 250 ps (Ie = 10 mA, Vor = 20 V) bc Noise Figure = = = = NF -- 6 aB (Ip = 100 #A, Von = 5 V, Rg= tka f = 100 Hz) *Pulse Test: PW = 300j:s, Duty Cycle = 2% 8-209 Switching and General Purpose Transistors 2N3250, A, 2N3251, A (Continued) SWITCHING CHARACTERISTICS (t 25C unless otherwise noted) Characteristic Symbol} Max | Unit Delay Time ty 35 ns Wo = 3 Vde, Vy, = 0.5 Vde I. = 10 mAdc, I, = 1 mA) Cc "Bl Rise Time t. 35 ns 2N3250, 2N3250 Storage Time 3250, 2N3250A te 175 ne (Ip) = Tyg = 1 mAde | 2N3251, 2N3251A 200 Voc = 3) Fall Time ty 50 na SWITCHING TIME CHARACTERISTICS FIGURE 1 DELAY AND RISE TIME FIGURE 2 STORAGE AND FALL TIME Ty = 25C le = 10 Ig: = 10 Ig Veo = 3V t. @ Vee = 3V TIME (ns) TIME (ns) t. @ Voc = 10 1 2 5 10 20 50 1 2 5 10 20 50 le. COLLECTOR CURRENT (mA) Ic, COLLECTOR CURRENT (mA) 8-210_ Switching and General Purpose Transistors 2N3250, A, 2N3251, A (Continued) AUDIO SMALL SIGNAL CHARACTERISTICS NOISE FIGURE VARIATIONS (Vee = 6Y, Ta = 25C) FIGURE 3 FREQUENCY SOURCE RESISTANCE =: 4.3 K lo = 10 pA NF, NOISE FIGURE (dB) NF. NOISE FIGURE B) SOURCE RESISTANCE = 1.6K le = 100 A 100 200 = 400 1K 2K 4K 10K 20K = 40K 100K f, FREQUENCY (Hz) FIGURE 4 SOURCE RESISTANCE 100 200 = 400 1K 2K 4K 10K 20K 940K =. 100K Rs, SOURCE RESISTANCE (OHMS) h PARAMETERS Vee = 10 V, f = 1 kHz, T, = 25C FIGURE 5 CURRENT GAIN 2N3251, 2W3251A JAN 2N3251A Nee, (umhos) 2N3250, 2N3250A JAN 2N3250A 0.1 02 05 10 2.0 5.0 10 Ic, COLLECTOR CURRENT (mAdc) FIGURE 7 -~. VOLTAGE FEEDBACK RATIO 2N3251, 2N3251A JAN 2N325TA hee x 107~* hy, Ok OHMS) 2N3250A JAN 0.1 02 5.0 wv fe, COLLECTOR CURRENT (mAdc) 8-211 FIGURE 6 OUTPUT ADMITTANCE 2N3251, 2N3251A JAN 2N325TA 2N3250, JAN 2N3250A Ol 02 05 10 20 50 10 fe, COLLECTOR CURRENT (mAdc) FIGURE 8 INPUT IMPEDANCE 2N3251, 2N3251A JAN 2N3251A 0.2 0.2 05 10 20 5.0 10 te, COLLECTOR CURRENT (mAdc) Switching and General Purpose Transistors 2N3250, A, 2N3251, A (Continued) FIGURE 9 NGRMALIZED CURRENT GAIN CHARACTERISTICS Ty = 125C hee, NORMALIZED CURRENT GAIN NORMALIZED AT I = 10 mA, Veg = 1 74 2N3250, TYPICAL hee = 167 2N3251, 2N3251A, JAN 2N3251A O1 02 0.5 10 20 5.0 10 20 50 Ie, COLLECTOR CURRENT (mA) FIGURE 10 COLLECTOR SATURATION REGION This graph shows the effect of base current on collector current. fo is the current gain of the transistor at 1 volt, and / (forced gain) is the ratio of to/Ige in a circuit. EXAMPLE: For type 2N3251, estimate a base current {Igg) to insure Saturation at a temperature of 25C and a collector current of 10 mA. Observe that at lc 10mA an overdrive factor of at least 2.5 is required to drive the transistor well into the saturation region. From Figure 9, it is seen that hee @ 1 volt is typically 167 (guaranteed limits from the Table of Characteristics can be used for worst-case design) . . . Veg, COLLECTOR-EMITTER VOLTAGE (VOLTS) Bo _ hee @ i Volt _ 187 _ Beever 25=7 TiAIgp (18F = 6.68mA typ 1 2 3 4 5 Ge, OVERDRIVE FACTOR a FIGURE 11 SATURATION VOLTAGES FIGURE 12 TEMPERATURE COEFFICIENTS Be= 10 Ty = 25C 25C to 125C Ne for Vee (sat) 5C to Ove for Vee 25C to [25C SATURATION VOLTAGE (VOLTS) COEFFICIENT (m/C) Voce {sat} -55C to 1 2 5 10 20 50 0 10 20 30 40 50 Ic, COLLECTOR CURRENT (mA) Ic, COLLECTOR CURRENT (mA) 8-212 Switching and General Purpose Transistors 2N3250, A, 2N3251, A (Continued) FIGURE 13 f, AND r,Cc versus Ic FIGURE 14 - 30 MC EQUIVALENT CIRCUIT Vee = 10; te= 5 mA, M.A.G, = 298 (TYPICALLY) a 2 2.1 pF B = 300 NI s 3 B JI C 2 BE ow a zs ze* S = > 2 e $ hk vex 100 3 + 3 3 na et AN 22KoS 3PFAR 3 & 10 2 oO Vee = 20V Ta = 25C 0 5 10 15 20 25 30 Ie, COLLECTOR CURRENT (mAdc} m O-~ FIGURE 15 - JUNCTION CAPACITANCE FIGURE 16 CHARGE DATA a Ty =25C 10 Sj g ped a 3 slo ~ mL L Ce ms 2 0.1 02 05 1.0 20 5.0 10 1 2 5 10 20 50 REVERSE BIAS (VOLTS) lo, COLLECTOR CURRENT {mA} 8-213