2N5027 -3N69 Numerical Index stl > MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS =|c = = = = TYPE |] & REPLACE. | PAGE | yse | Po S| Ty | Ves | Vee |= hee @ Ic Veesan @ Ie 2 [= {S| MENT | NUMBER & g z #| 18] 2/8 z\)o @ 25C | B] C | (wolts) | (voits) |S | (min) (max) S| (valts) a 3 5/2 2N5027 S{N MSS 320M JA 120 30 |0 50 150; 150M 0.45 150M 2N5028 SIN MSS 320M JA 120 30 {O | 100 300) 150M 0.45 150M 2N5029 S IN HSS 320M JA 120 15 40 40 129 LOM 0.25 LOM 2N5030 S|N HSS 320M |A 129 12 Jo 30 10M 0.25 LOM 2N5034 S |N LPA 83W {Cc 150 55 45 {R 20 70] 2.5A 2.5 6.0A 15 E 2N5035 S JN LPA 83W 1 C 150 55 45 |[R 20 70] 3.0A 3.0 0A 15 E 2N5036 S JN LPA 83W Cc 150 70 60 FR 20 70) 2.548 2.5 6.0A i5 E 2N5037 Ss [N LPA 83W TC 150 70 60 |R 20 70) 3.0A 3.0 8.0A 15 E 2N5043 GP 30M |A 125 15 7.0 40 150] 3.0M 2N5044 GIP 30M |A 125 15 7.0 10 150) 3.0M 2N5045 thru Field Effect Transistors, see Table on Page 1-166 2N5047 2N5050 Ss ]N LPA 40W )C 200 120 }0 35 105) O.5A 0.9 Q.5A 20M] T 2N5051 S }N LPA 40W 1C 200 150 |0 35 105} O.5A 0.9 0.54 20Mi T 2N5052 Ss |N LPA 4OW fC 200 200 |0 35 105) 0,5A 0.9 O.5A 20M; T 2N5055 S |[P HSS 200M [A 125 12 12 [0 30 100 30M 0.13 1.0M 2N5056 [S [P HSS | 360M JA | 200} 15 15 }O0 7 30 {4 100] 30M 0.13 1.0M 2N5057 S]|P HSS 360M {A 200 15 15 ]0 40 100 30M 0.13 1.0M 2N5058 S |N 1.0W }C 200; 300 300 |0 35 150 30M 2N5059 5 ]N 1.0W Cc 200) 250 250 70 30 150 30M 2N5060 : thru Thyristors, see Table on Page 1-154 2N5063 2N5067 S|N 7-192 LPA |87.5W |C | 200 40 40 {0 20 80 1.0A 0.4 1.0A 20 JE 4. OMT 2N5068 S |N 7-192 LPA |87.5W {C |200 60 60 }O 20 80 1.0A 0.4 1L.0A 20 |E 4.0M/T 2N5069 |S |N 7-192 | LPA }87.5wW }C | 200 80 80 |O } 20] 80 1.04 0.4) 1.0A] 20 JE 4.0M|T 2N5086 S |P 5-55 LNA 310M |A [135 50 50 |O {150 |500 0.1M 0.3 LOM] 150 |E 40M] T 2N5087 S{P 5-55 LNA 310M JA |135 50 50 10 |250 | 800 O.1M 0.3 LOM} 250 /E 40M] T 2N5088 S IN 5-59 LNA 310M {A 1135 35 30 10 1300 1900 O.iM Q.5 LOM] 350 [E 50M|T 2N5089 Ss |N 5-59 LNA 310M JA {135 30 25 |O {400 [1200 0.1M 0.5 10M] 450 JE 50M|T 2N5126 Ss |N AFC 200M |A $125 20 20 |0 20 |350 4M 2.0 10M 15 |E 2N5127 S |N AFC 200M |A |125 20 12 |0 15 }300 2M 0.3 10M 12 JE 2N5128 SN AFA 200M JA }125 15 12 40 35 | 350 50M. 0.25 150M 2N5129 S |N AFA 300M {A |125 15 12 JO 35 |350 50M 0.25 150M 2N5130 S|N AFC 200M |A [125 30 12 10 15 | 250 8M 0.6 10M 12 |E 2N5131 S yjN AFC 200M JA }125 20 15 ]0 30 }500 10M 1.0 10M 25 /E 2N5132 SN AFC 200M JA |125 20 20 [oO 30 | 400 10M 2.0 10M 20 7E 2N5133 S [N AFC 200M {A |125 20 18 JO 60 {1000 1. 0.4 1.0M 50 {Ez 2N5134 S [N HSS 200M |A 1125 20 LO |O 20 4150 LOM 0.2 LOM 2N5135 S }N AFA 300M JA |125 30 25 {0 50 [600 10M 1.0 LOOM 2N5136 |S |N AFA | 220M |A |125 30 20 fO | 20 |400 150M| 0.25 150M 2N5137 S [N AFA 300M {A 125 30 20 |0 20 |400 150M 0.25 150M 2N5138 STP AFC 200M JA |125 30 30 |0 50 | 800 100* 0.3 10M 40 |E 2N5139 Ss |P HSS 200M |A 1125 20 20 [0 40 1. OM 0.15 1.0M 2N5140 Ss |P HSS 200M |A {125 5.0 5.0 JO 20 |140 10M 0.2 LOM 2N5 141 Ss [P HSS 200M 7A 1125 6.90 6.0 | 30 30M a2 LOM 2N5142 Ss }P HSS 300M {A {125 20 20 JO 30 50M 0.5 50M 2N5143 S]P HSS 200M |A [125 20 20 10 30 50M 0.5 50M 2N5190 (1S |N LPA 40W 7c 1150 40 |0 25 100 O.5A 0.6 LOA 4, 0M) T 2N5191 STN LPA 40W {Cc {150 60 |O0 25 100 O.5A 0.6 1.0A 4.0M/T 2N5192 S |N LPA 40w |c 1150 80 [0 25 100 O.5A 0.6 1.0A 4.0M|T 2N5193 SP LPA 40W |C |150 40 }0 25 100 1.5A 0.6 1.5A 4.0M|T 2N5194 5 |P LPA 40W |C }150 60 |0 25 100 1.54 0.6 1.5A 4.0M|T 2N5195 S ];P LPA 40w |C |150 80 |0 25 100 1.54 0.6 1.5A 4,0M|T 3N22 N RFA 85 15 0.96) B 3N34 SIN 125M 30 3N35 S|[N 125M 30 30 }O 251E 3N35A S|[N 125M 30 30 |0 1OJE 3N39 thru Reference Amplifiers, see Table on Page 1-172 3N44 3N45 G|P PMS 75W jC |100 60 35 30 1120 5.0A 0.4 5.0A 30 JE 600K) 3N46 GP PMS 75W JC 7100 80 50 20 | 80 5.0A 0.4) 5.0A 300K] 3N47 G/P PMS 75W |C 100 40 25 30 |120 5.0A 0.4 5.0A 30 JE 500K 3N48 GIP PMS 75w {Cc {100 60 40 20 80 5.0A 0.4 5.04 300K 3N49 GUP PMS 94wW |C 1100 60 35 30 1120 5.0A 0.4 5.0A 30 {E 600K| 3N50 GP PMS 94W 7C |100 80 50 20 80 5.0A 0.4 5.0A 300K) 3N51 GIP PMS 94W 1C {100 40 25 30 |120 5..0A 0.4 5.0A 30 [E 500K 3N38 G iP PMS 94W | C |100 60 40 20 80 5.0A 0.4 5.0A 300K 3N thru Thyristors, see Table on Page 1-154 3N60 3N62 Ss |N CHP 10 Vort = 200 nV 3N63 S |N CHP 10 Vore 100 pV 3N64 S 4N CHP 10 Vogee 50 pv 3N65 S |N CHP Vore 200 pV 3N66 SIN CHP Vogem 100 pV 3N67 SN CHP Voeg= 50 uv 3N68 S|N CHP 10 Vort 200 uv 3N68A S |N 100M ]A |200 10 3N69 S JN CHP 10 off 100 pv 1-150Economy Transistors Uj Y PLASTIC SILICON SMALL-SIGNAL TRANSISTORS Z CURRENT versus VOLTAGE SELECTOR GUIDE Y \e 50 pA -5.0mA 5.0 mA - 25 mA 25 mA- 75 mA 75 mA - 500 mA Vceo Y Volts (Min) PNP NPN PNP NPN PNP NPN Pne NPN Y <10 MPS3639 Y, 10 MPS918 |MPS3640 |2N4264 MPS3646 Yy MPS2711 2N4265 Y MPS2712 MPS706 Yy MPS2713 MPS2369 Y MPS2714 MPS3563 Y MPS2715 Y, MPS2716 Y ' MPS2926 Y 19 MP$3721 Y 20 2N4126 | 2N4124 |MPS3638 | MPS6511] MPS3702 | MPS3706| MPS6562 | MPS6560 Y MPS6519 | 2N5089 | MPS3638A| MPS2923 MPS6563 | MPS6561 Y MPS6579 | MPS2923 MPS6552 Y MPS6580 | MPS2924 MPS6553 Y MPS2925 MPS6554 Y MPS3392 MPS6555 Y MPS3393 MPS6541 Y MPS3394 MPS6543 Y MPS3395 MPS6548 Y MPS3396 MPS6568 Y MPS3397 MPS6569 Y MPS3398 MPS6570 Y MPS6507 Y MPS6514 Y MPS6515 Y, MPS6539 Y MPS6542 Y MPS6546 Y, ' MPS6547 Y 29 MPS6571 Y 30 2N4125 | 2N4123 MPS5834 | MPS3703 | MPs3704 |} MPS6535 | MPS6532 Y 2N5088 MPS3705 Y MPS3707 Y MPS3708 Y MPS3709 Y MPS3710 Y MPS3711 Y MPS3712 Y MPS3713 Y MPS6540 Yy ' MPS6573 Y 39 MPS6574 Y 40 MPs6516 | MPS6575 |2N3905 |2N3903 MpPs6544 | 2N4402 | 2N4400 Y MPS6517 | MPS6576 |2N3906 |2N3904 MPS6545 }2N4403 | 2N4401 Y MPS6518 MPS3693 MPS6533 | MPS6530 Y MPS3694 MpPS6534 | MPS6531 Y MPS3826 Y MPS3827 GY MPS6564 Y MPS6565 Y MPS6566 Y 49 MPS6567 Y >50 2N5086 | 2N4409 Y | 2N5087 | 2N4410 4YW. .. FE>QN KLEE AAA 1. SMALL-SIGNAL AMPLIFIERS (LOW CURRENT) All devices in Case 29 (1) Economy Transistors MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS (T, = 25C unless otherwise noted) t ceo | Yee Vee eso nee @ Ig (ma) Veetat) 'g f @ Ie Son ype NPN a 1a 20 Volts Volts Volts stA(Max) Volts( Max) mA MHz(Min) mA pF (Max) PnP * Min Max Min Max Min Max 2N5086* 50 50 3.0 0.01 150 590 | 150 - - - 0.3 10 40 0.5 4.0 |__2n5087 50 50 3.0 0.01 250 goo_| 250 : : - 0.3 10 40 0.5 4.9 2N5088 30 35 4.5 0.05 300 900 | 350 0.5 10 50/175** | 0.5 4.04 2N5089 25 30 4.5 0.05 400 1200 | 450 - : - 0.5 10 50/175 | 0,5 4.04 MPS918 15 30 3.0 0.01 - - - - 20 - 0.4 10 600 4.0 1.7 MPS3707 30 30 6.0 0.1 100 400 - - - - 1.0 10 - : - MPS3708 30 30 6.0 0.1 - - 45 660 - - 1.0 10 - - - MPS3709 30 30 6.0 0.1 - : 45 165 : : 1.0 10 - - - MPS3710 30 30 6.0 0.1 - : 90 330 : - 1.0 10 - - - MPS$3711 30 30 6.0 0.1 - - 180 660 - - 1.0 10 : - : MPS6520 25 40 4.0 0.05 100 : - - 200 | 400 0.5 50 390** 2.0 3.6 MPs6521 25 40 4.0 0.05 150 - - - 300 | 600 0.5 50 390** 2.0 3.5 MPS6522" | 25 2 a0 0.05 100 . 7 200 | 400 0.5 56 340"* 2.0 +0 Mps6523* | 25 25 4.0 0.05 150 - - - 300 | 600 0.5 50 340+ * 2.0 4.0 OK Typical +. SMALL-SIGNAL AMPLIFIERS (MEDIUM CURRENT) All devices in Case 29 (1) MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS (Ty = 25C unless otherwise noted) Yeea Vee Yea cao bre e 4g (ma Yeeiay Ic " e Son Type 20 0 NPA Vaoits Volts Volts ik (Mex) wo Volts {Max} mA Miz (Min) mA pe (Max) PNP + Mia Max Min Mex Min Max MPS2711 18 18 5.0 0.5 30 90 - - - - - - - - 4.0 MPS2712 18 18 5.0 0.5 15 225 - - - : - - - - 4.0 MPS$2715 18 18 5.0 0.5 30 90 - - - - - - - - 3.5 MPS2716 18 18 5.0 0.5 7% 225 - - - : : - - - 3.5 MPS2023 25 25 5.0 0.5 90 180 : - - - - - - - 12 MPS2924 25 25 5.0 0.5 150 300 - - - - - - - 12 MPS2925 25 25 5.0 0.5 235 470 - : - : - - - - 12 MPS2926 18 18 5.0 0.5 35 470#| - - - - : - 3008" 4.0 3.5 MPS3392 25 25 5.0 0.1 150 300 - - : - - - - - 3.5 MPS3393 25 25 5.0 0.1 90 180 - : - - - - - 2.0 3.5 MPS3394 25 25 5.0 0.1 55 110 - - - - ~ . - a5 MPS$3395 25 25 5.0 0.1 150 500 - - - - - - - - 3.5 MPS3396 25 25 5.0 0.1 90 500 : - - - - - - - 3.5 MPS3307 25 25 5.0 0.1 55 500 : - - : - - - - 3.5 MPS3398 25, 25 5.0 0.1 55 800 - - - - . - : - 3.5 MPS3563 12 30 2.0 0.05 20 200 : : 600 8.0 1.7 MPS3693 45 45 4.0 0.05 - - 40 160 - - - - 200 10 3.5 MPS3694 45 45 4.0 0.05 : - 100 | 400 - - - - 200 10 3.5 MPS3721 18 18 5.0 0.5 60 6608) - - - - : - - : 3.5 MPS3826 45 60 4.0 0.1 - - 40 160 - - - - 200 10 3.5 MPS3627 45 60 4.0 0.1 - - 100 | 400 - - 200 10 3.5 MPS6507 20 30 3.0 0.05 25 - - : - - - - 700 10 2.5 MPS6511 20 30 3.0 0.05 : - 25 - - - - - - - 2.5 MPS6512 30 40 4.0 0.05 50 woo | - - 30 - 0.5 50 2500 2.0 3.5 MPS6513 30 40 4.0 0.05 90 180 - - 60 - 0.5 50 250** 2.0 3.5 MPS6514 25 40 4.0 0.05 150 300} - - 90 - 0.5 50 390** 2.0 3.5 MPS6515 25 40 4.0 0.05 250 soo | - - 150 - 0.5 50 390* 2.0 3.5 | ~ MPS516 40 40 4.0 0.05 50 100 > ~ 30 = OS 30 200* * 2.0 4.0 MPS6517*] 40 40 4.0 0.05 90 180 | - - 60 - 0.5 50 200** 2.0 4.0 MPs65i8e] 40 40 4.0 0.05 150 300 - - 90 - 0.5 50 340** 2.0 4.0 MPss5i94] 25 25 4.0 0.05 250 500 - - 150 - 0.5 50 340** 2.0 4.0 ** Typical # bye 1.0 kHz NIXIE DRIVERS All devices in Case 29 (1) MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS (Tr = 25C unless otherwise noted) Min Vceo Yep 8Vcex cao Vea MEE ax Vee & Vaeisn Veeion) @ ' fe Ie Ch @ VcB Tye @ igima) Volts Volts Vatts (Min) wAlMax) Volt: Volts (Max) mA MHz( Min/Max) mA pF (Mex) Vatts NPN 10 [10 2N4409 50 5.0 g0* 0.01 so | 60 | 60. 0.2 0.8 0.8 1.0 | 60/300 10 12 10 400 - 2N4410 80 5.0 120" 0.01 100 | 6o | 60. 0.2 0.8 0.8 1.0 | 60/300 10 12 10 400 | = = = Ror 8.2 k ohms, Ven 5.0V 5-6WWW AA AA AAA ggg] DW 7D PpI Economy Transistors AUDIO PREAMPLIFIERS AND PREDRIVERS MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS -F@ i & { C t Type oh T won Case Voey Yep Vopn @ Veg tp @ ry a8 Veen @ fy {@py = 10 MHz * pur Volts Volts 1th (Max) Volts Min/Max ma Typ/Max my He to iz Volts (ax) ma pF (Max) Min/Max Mps2711 | 29 (1) 18 5.0 500 18 30/ 90 2.0 - - - - - 4.0 - MPs2712 15/225 - - - - - 4.0 - MPs2715 30/ 90 - - - - - 3.5 - MPS2716 78/225 - - - - - - MPS3332 25 300 150/300 - - - - - - MPS3393 90/180 - - - - - - MPS3394 55/110 - - . - - - MPS3395 150/500 - - - - - - MPS3396 90,500 - - - - - - MPS3397 55,500 - - - - - - MPS3396 55/800 - - - - - - MPs3702* 20 60/300 50 - - - 1.0 50 12 100/- MPpS3703* 30 20 30/150 50 - - - 1.0 59 12 100/- MP$3626 45 4.0 30 40/160 10 - - - - - 3.5 200/800 MPS3827 45 100,'400 10 - - - - - 200 /800 MPS6512 30 50 50/100 2.0 - - - - - 250 MPS6513 30 90/180 - - - - - 250 MPS6514 25 150/300 - - - - - 390 MPS6515 25 250/500 - - - - - 390 MPS6516* 40 50/100 - - - - - 4.0 200 TyP MPS6517* 90/180 - - - - - 200 MPS6518* 150/300 - - - - - 340 MPS6519* 25 20 250/300 - - - - - 340 MPS6552 6.0 100 100,300 10 - - - 0.8 10 12 30/180 MPS6553 100/300 3,0 100 | 10 to 15.7** MPS6554 200 /500 - - - | | | MPS6555 200/500 3.0 190 | 10 to 15, 7** MPS6571 20 3.0 50 20 2580/1000 0.1 - - - - - 4.5 50/- MPS6573 35 4.0 100 35 100/- | - - - 0.8 10 12 -/200 MPS6574 35 38 100. - - - - MPS6575 45 45 200 500 10 - - - \ MPS6576 45 45 200,500 10 - - - 2N5086* 50 3.0 10 10 150/500 0.1 -/3,0 100 -1.0 0.85 1.0 4.0 40 2NBO8T* 50 10 10 250/800 -/2.0 100 -1.0 0.85 1.0 4.0 40 2N5088 30 50 20 300,900 | -/3.0 100 | 10to15.7**] 6.8 10 4.5 50/- 2N5089 25 15 400 1200 -/2.0 100 + 0.8 10 4.5 50/- ** Noise bandwidth HIGH-SPEED SATURATED SWITCHES Ail devices in Case 29 (1) [Maximum RATINGS| ELECTRICAL CHARACTERISTICS (Tp = 25C unless otherwise noted) Min Switching Times v vy | Me = v av el fp @ | , ng e elt tw ceo EB ceo re CE teat! BE (sat) c tT c ob ns (Maxt ce WPN @lgimal j Vatts Vette AiMox} Vette Max) mA MHz (Mia) mA F (Max) % shops mA PNP + 10] 20 | 1 | 30 | sof 100} zee) 308 2N4264 15 6.0 0.10 25 | _- | 40 | 40|- [30/20] - [ 6.22 0.80 10 300 10 4.0 8.0/15 [20 ]i8 | 100/10 =f = | woo} =] - Pe pe - 0.35 0.95 100 2N4265 12 6.0 0.10 so | - | 100] 90] - |ss}a5]- | 0.22 0.80 10 300 10 4.0 a.a[15 |20 ]15 | 100/10 | ct | 00 | PE 0.35 0.95 100 MP5708 15 3.0 0.5 - | _- | 20, -]-]- | -l- 0. 60 0. 90 10 200 10 6.0 ton 740 toe = 75 f 10/- MPS834 30 5.0 0.5 | - [25] -f- [ef -|- 0. 25 0.90 10 350 10 4.0 ton = 1G tore = 30] 10/3 MPS2369 15 4.5 0.4 - - | 40} - | - |20] -}- 0.25 0.85 10 - - 4.0 t =12, +18]! 10/3 =|} a0 | -}-] = Se on off MPS2713 18 5.8 9.5 - ) 30) - ~j)-}- )-}- 0.30 1.30 50 250** 10 2.5*]| 7.06.0) 12 ] 9 10/3 TI) 80 | 7] Tee ~ f= MPS2714 18 5.0 0.5 ~ {am}. | .f-j-)-)- 9.30 1.30 50 2509 * 10 2.5*) 7,.0)8.0)12 |e 10/3 IT } 225 | TT] TTP Pe ~ f= MPS3646 15 5.0 0.5 -| - | - Jacl. fest - jis | oz 0,95 30 350 30 5.0 10 }15 {20 las | 300/30 Ty op | 20) 0.50 1.70 300 MPS3639" 6.0 4.0 - - | _- | 30 | - }2ol- | -1- 0.16 1,00 10 500 10 3.5 10 130; 20 112 50/5 = = | 120 | [=== MPS36404 = 12 4.0 - | _-_[ 30] - }2oy- 1 - |. | 0.20 1,00 10 500 10 3.5 1o {30 [20 |12 | s0/5.0 | | m0, P= TE eK TypicalEconomy Transistors 2N5086 (siticon) 2n 5087 CASE 29 (1) (TO-92) PNP silicon annular transistors designed for low-level, low-noise amplifier applications. MAXIMUM RATINGS Rating Symbol Value Unit Collector-Emitter Voltage VocEro 50 Vde Collector-Base Voltage Vop 50 Vde Emitter-Base Voltage Ves 3.0 Vde Collector Current - Continuous In 50 mAdc Peak 100 Total Device Dissipation @ Ty = 25C Ph 310 mW Derate above 25C 2.81 mw/Cc Operating and Storage Junction Temperature | T,, T ~55 to +135 C Range J stg THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Ambient Oya 0.357 C/mw 5-55Economy Transistors 2N5086, 2N5087 (continued) ELECTRICAL CHARACTERISTICS 1, = 25C uniess otherwise noted Characteristic | Symbol | Min | Typ | Max | Unit | OFF CHARACTERISTICS | Collector-Emitter Breakdown Voltage BV oro Vde (Ip = 1.0 mAdc, In = 0) 50 - - Collector-Base Breakdown Voltage BV oBo Vdc (lg = 100 pAdc, I, = 0) 50 - - Collector Cutoff Current Topo nAdc Voz = 10 Vdc, L = 0) - - 10 (Vop = 35 Vde, I, = 0) - - 50 Emitter Cutoff Current TBO nAdc Vor = 3.0 Vde, To = 0) - - 50 ON CHARACTERISTICS DC Current Gain hap - (Ig = 100 wAde, VQ, = 5.0 Vdc) 2N5086 150 - 500 2N5087 250 - 800 (Ip =1.0 mAdc, Vor = 5.0 Vdc) 2N5086 150 - - 2N5087 250 - - (lg =10 mAdc, Vor = 5.0 Vdc) 2N5086 150 - - 2N5087 250 - - Collector-Emitter Saturation Voitage Vv Vde (I, =10 mAdc, 1, = 1.0 mAdec) CE(sat) - - | 03 Cc B Base-Emitter On Voltage Vv Vde (Ig = 1.0 mAdc, Vag, = 5.0 Vde BE(on) - - 0.85 DYNAMIC CHARACTERISTICS Current-Gain Bandwidth Product f, MHz (I, = 500 pAdc, VQ, = 5.0 Vde, f = 20 MHz) 2N5086 T 40 120 - 2N5087 40 150 - Output Capacitance Cob pF Von = 5.0 Vde, I, = 0, = 100 kHz) - - 4.0 Small-Signal Current Gain hee - lg =1,0 mAdc, Vor = 5.0 Vde, f = 1.0 kHz) 2N5086 150 - 600 2N5087 250 - 900 Noise Figure NF dB (Ig = 20 pAde, Vor = 5.0 Vdc, Ry = 10k ohms, f = 10 Hz to 15.7 kHz) 2N5086 - - 3.0 2N5087 - - 2.0 (i, = 100 pAdc, VQ, = 5.0 Vde, Ry = 3.0 k ohms, f = 1.0 kHz) 2N5086 - 1.2 3.0 2N5087 - 1.0 2.0 NOISE FIGURE FIGURE 1 FREQUENCY EFFECTS Vce = 5.0 Vde. Ta == 25 FIGURE 2 SOURCE RESISTANCE EFFECTS $ = = g = Io = 0.5 mA, Rs = 900 2 = = Ic = O.1 mA, Rs = 3.0 3 2 Io = 20 yA, Rg = 10 42 2 Se 2 * o = = 002 005 O1 02 O08 10 20 50 10 100 200 300 500 700 10k = 2.0k 30k 50K70kI0k f, FREQUENCY, (kHz) Rs, SOURCE RESISTANCE (OHMS) 5-562N5086, 2N5087 (continued) Economy Transistors h PARAMETERS Vee = 10 Vdc, f = 1.0 kHz, Ta = 25C (For Figures 3, 4, 5, 6, 8) This group of graphs ilustrates the relationship of the h' parameters for this series of transistors. To obtain these curves, 4 units were selected and identified by number the same units were used to develop curves on each graph. FIGURE 3 INPUT IMPEDANCE hie. INPUT IMPEDANCE (k{2) Ie, COLLECTOR CURRENT {mA) FIGURE 5 CURRENT GAIN UNIT #1 2 hy, CURRENT GAIN 1 02 03 05 07 1.0 2.0 3.0 5.0 7.0 10 Ic, COLLECTOR CURRENT (mA) FIGURE 7 EFFECT OF VOLTAGE CHARACTERISTICS RELATIVE TO VALUE AT ic = 1.0 mA 3.0 5.0 0 10 20 30 Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS) 5-57 hye: VOLTAGE FEEDBACK RATIO (X 10-4) Roe, OUTPUT ADMITTANCE (pmho) (hie Hoe hee hye), HYBRID DETERMINANT Ah FIGURE 4 VOLTAGE FEEDBACK RATIO ~ 0.1 70 10 Ic, COLLECTOR CURRENT (mA) FIGURE 6 OUTPUT ADMITTANCE UNIT #1 0.1 0.2 03 0.5 07 1.0 20 3.0 5.0 7.0 10 Ic, COLLECTOR CURRENT (mA) FIGURE 8 DETERMINANT 07) 10 3.0 oO 10 Ice, COLLECTOR CURRENT (mA)Economy Transistors - 2N5086, 2N5087 (continued) hee, DC CURRENT GAIN NORMALIZED Voce, COLLECTOR-EMITTER VOLTAGE (VOLTS) fy, CURRENT-GAIN BANDW:DTH PRODUCT (MHz) FIGURE 9 DC CURRENT GAIN Ic, COLLECTOR CURRENT (mA) FIGURE 10 COLLECTOR SATURATION REGION 0.8 0.6 04 0.2 10 Ip, BASE CURRENT (pA) FIGURE 11 GURRENT-GAIN BANDWIDTH PRODUCT FIGURE 12 CAPACITANCES 10 Vor = 15 V, ] q 50 2 2 30 03 05 07 10 2.0 5.0 7.0 0.2 06 10 20 5.0 Ic, COLLECTOR CURRENT (mA) REVERSE VOLTAGE (VOLTS) 5-58