Numerical Index 2N2425 -2N2521 al MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS sie = = ~~ = | = | REPLACE- | PAGE Po {El | Vos | Vcc. | = fee @ Ie Voesan @ le 2) foie TYPE 12/3] ment | Numper | USE Bl g alu [Bl els =\e @ WC | S) C | (volts) | (volts) |S | (min) (max) 3| (volts) 5 3S S/3 2N2425 | S| P MSS | 375M} A | 160 50 10] 0], 25} 110] 5.0M 0.3 15M 10M | B 2N2426 | GIN AFA | 150M] A] 100 40 257R 0.5 100M 35 /E 25K | E 2N2427 S| N RFA O.5W] A | 200 40 40 | 0 20 60 10* 40 |E 50M | T 2N2428 G| P | 2N652 6-20 AFC O.5w]A 75 32 32] 58 50} 150 2.0M 80 ]/E 10K | E 2N2429 | G] P | 2N652 6-20 | AFC] O.5W[ A] 75 32 32] S | 65] 300} 2.0M 130 | E 10K | E 2N2430 G]N AF 0,28W|A 75 32 32 ]R 60 | 210 O.1A 1OK | E 2N2431 1G] P AFC] 0.55W} A] 90 32 32] R |] 60/175) 0.3A 10K | 2N2432 | S| N CHP | 300M | A | 175 30 30,01 50 1.0M] 0.15 10M 20M | T 2N2432A |} S| N CHP 300M | A | 175 45 4510 50 1.0M 20M | T 2N2433 S| N HSS 500M | A | 200 75 4510 40} 120 150M 1.5 150M 30} E 80M | T 2N2434 | S| N HSS | 500M] A | 200 75 45 | 0 |100/ 300] 150M 1.5 150M S50/E 90M | T 2N2435 | S| N uss} 500M(A {200} 120] 80|/o0| 40[120| 150m] 3.0] 150m] 30|R | 80m|T 2N2436 | S| N HSS | 500M| A] 200] 120 80; 0] 100} 300} 150M 3.0} 150M 50 /E 90M | T 2N2437 | S| N VID| 500M!A]200, 100 75; O)} 15 10M 0.2 10M 18] E 70M | T 2N2438 S| N VID 500M | A | 200 100 7540 35 LOM 0.4 50M 36]5 80M | T 2N2439 S| N VID 500M | A | 200 100 7540 75 10M 0.4 50M 76/E 90M | T 2N2440 S| WN HSS 300M | A | 200 120 80 | Oo | 100 | 300 150M 0.4 50M 50 ]E 90M | T | 2N2443 S| N RFA 800M | A | 200 120 100 | Oo 50] 150 50M 1.2 50M 45 | E 50M |T 2N2444 | G|P LPA 85w} Cc } 110 80 80]0] 901120] 3.0A 1.0] 5.0A S50/E}] 4.5M]T 2N2445 Gi P LPA 90W | C | 100 100 50] 0 30 60 10A 1.0 104 307 E o.1M/T 2N2446 | G| P PMS 90w | C | 100 60 50{ 5 15] 45] 5.0A 1.5 7.0A 3.0K |E 2N2447 G| Py 2N1187 6-25 AFA 75M | A 85 45 2410 25 ],E 2N2448 G| P { 2N1L187 6-25 AFA 75M |]A 85 45 24} 0 25 ]/E 2N2449 GJ Pj 2N652 6-20 AFA 75M 1A 85 35 20 | 0 50 |E 2N2450 Gi P ) 2N652 6-20 AFA FSM A 85 35 20) 0 50) E 2N2451 G| P HSS 25M 1A 85 6.0 5.0] 0 25 10M o.1 LOM 40 |E 80M | T 2N2452 S}N SPP 500M | A | 200 100 80]R 2N2453 S| N DFA O.5W] A | 200 60 30 | 0 | 150 | 600 1.0M 1.0 5.0M 150] E 60M | T 2N2453A |] S| N DFA 0.5W | A | 200 80 5010 4150] 600 1.0M 1.0 5.0M 150 /E 60M | T 2N2454 Thyristor, see Table on Page 1-154 2N2455 G|P RSA 150M | A | 100 15 15 | $8 20 { 100 2.0M 0.19 LOM 30 | E 600M [| T 2N2456 G] P HSA 150M | A ] L0G 15 15|s 20 | 100 2.0M 0.19 10M 30] E 1.06 | T 2N2459 S| N AFA 0.4W | A } 200 Loo 60 | 0 10 0.1M 0.3 10M 40 [E 100M | T 2N2460 | S| N AFA | 0.4W]A |] 200; LOO 60/0] 20 0.1M 0.3 10M JO} E 120M | T 2N2461 | S| N AFA| 0.4W | A | 200 100 60}; 07 40 0.1M 0.3 LOM] 115 ]E | 140M) T 2N2462 | S| N AFA | 0.4W | A | 200 100 60} 014 60 0.1M 0.3 10M j 160|E | 160M; T 2N2463 S| N AFA 0.5W | A | 200 100 60] 0 10 0.1M 0.3 10M 40 /E 100M | T 2N2464 Sj) N AFA O.5W PA 7200 100 60) 0 20 0.1m 0.3 10M JOVE 120M | T 2N2465 S|N AFA O.5W] A | 200 LOO 60 | 0 40 0.1M 0.3 10M 1I5]E 140M | T 2N2466 S|N AFA O.5wW] A | 200 100 6040 60 0.1M 0.3 LOM 160 |E 160M | T 2N2467 GT; P LPA 5.0W | C |] 110 60 30/0 30 90 0.5A 0.4 1.0A 40 | E 20M | T 2N2468 G| P LPA 5.0W |] Cc} 110 Loo 60] 0 30 90 0.5A 0.4 L.0A 40 /E 20M | T 2N2469 G| P LPA 5,0W |) Cc} 110 200 100 | 0 30 90 O.5A 0.4 1.04 40 /E 20M | T 2N2472 | S|N LPA} 1.0W 4A | 175 120 | 100|0 | 30] 90] 0.24 1.7} 0.24 30 | E LOM | T 2N2473 Ss] N LPA 1.0W] A 4175 120 100 ;0 30 90 0.2A 1.7 O.2A 30 /E 10M | T 2N2474 Ss] P AFA 250M | A ] 160 30 15 [0 |8.0 100* | 0.126 10M 8.0 /E 2N2475 S| N HSS 300M | A | 200 15 6.0]0 20 20 50M 6.07 E 2N2476 S|N 8-142] HSS 2.0W | C | 200 60 20/0 20 150M 0.4 150M 250M | T 2N2477 S]N 8-142] HSS 2,0W jC | 200 60 20; 0 40 150M 0.4 150M 250M | T 2N2478 S}N | 2N2218 8-108] HSS 600M | A} 175 120 40} 0 30 150M 0.7 150M 200M | T 2N2479 S\N 4 2N2218 8-108) HSS 600m | A | 175 80 40) 0 30} 120 150M 0.85 150M oO} E 150M | T 2N2480 | S|N 11-6 | DFA] 0.3W] A | 200 75 40|]0] 30] 350) 1.0M 1.3 50M 50M | T 2N2480A | S| N 11-6 DFA 0.3W |] A | 200 80 40/0 50 | 200 1.0M 1.2 50M 5O|E 50M | T 2N2481 s|N 8-144] HSs 1.2W | Cc | 200 40 15 ]0 40 | 120 10M 0.25 LOM 300M | T 2N2482 GIN REA 150M] A 20 15 {$s 25 | 200 2.0M 15 /E 2N2483 S| N | MM2483 8-320] AFA 360M | A | 200 60 60 | 0 40 | 120 Lo* 0.35 1,.0M 80 /E 12M {T 2N2484 S| N | MM2484 8-320] AFA 360M | A | 200 60 60 | 0 | 100 | 500 10* 0.35 1.0M 150 [E 15M | T 2N2485 S|N HPA 8.8Ww | Cc |] 200 120 120 |] 0 10 O.5A 100M | T 2N2486 S|N HPA 8.8W | Cc | 200 140 140 |c 10 0.54 100M | T 2N2487 GIP HSS 60M | A } 100 15 10 ] 20 LOM | 0.175 40M 360M [T 2N2488 G]P HSS 60M | A | LOO 15 10 | 0 20 50M {0.175 15M 360M | T 2N2489 GtP HSS 60M | A | 100 20 15 | 0 20 10M 0.18 LOM 300M | T 2N2490 Gy] P 7-86 PMS 170w | c | 110 70 60/5 20 40 5.04 0.7? 124 5.0K], E 2N2491 G\P 7-86 PMS 17OW ;C | 110 60 so0j\s 35 70 5.04 O.7 128 5.0K, E 2N2492 G]P 7-86 PMS L70W | C | 110 80 7041S 25 50 5.0A 0.5 124 5.0K /E 2N2493 G| P 7-86 PMS 170W | C | 110 100 85 }S 25 50 5.0A 0.5 12A 5-OK|E 2N2494 Gj P RFC 83M A 75 20 20 /V 25 1.0M 2N2495 GIP RFC 125M | A | 100 40 40 |S 25 1.0M 2N2496 G|P RFC 100M | A | 100 40 20 |v 25 1.0M 2N2497 thru Field Effect Transistors, see Table on Page 1-166 2N2500 2N2501 s[n] | 8-148[ uss[To.36w]a]2007 40 20 ]o0] 50 | 150 1om | 0.2 LOM 350M | 1 N2502 thru Thyristors, see Table on Page 1-154 2N2508 2N2509 S|[N VID 1.2W | c | 200 125 80 | 0 25 1o* 1.0 5.0M 45M |T 2N2510 S]N VID 1.2W | c | 200 L100 65 10 | 150 | 500 LOM 1.0 5.0M 45M [T 2NZ511 S| N | 2N3444 8-214] VID 1L.2W }C | 200 80 50 | 0 | 240 | 750 LOM 1.0 5.0M 45M | T 2N2512 G| P VID | O.15W]A 75 70 7O)R 20 L.0M 40] E 140M | T 2N2514 S|N AFA 0.4w | A | 200 80 60 | 0 15 50 5.0M 0.5 LOM 20]/E 30M | T 2N2515 S]N AFA O.4Ww } A | 200 80 60/0 30 | 100 5.0M 0.5 10M 40 /F 60M} T 2N2516 S]N AFA 0.4W | A | 200 80 60 | 0 60 | 200 5.0M 0.5 10M 80]/E LOOM | T 2N2517 S|N AFA o.4W [A | 200 125 80 | 0 15 50 5.0M Q.5 LOM 20 (E 30M | T 2N2518 S|N AFA O.4W | A | 200 125 80] 0 30 | 100 5.0M 0.5 10M 40]/E 60M | T 2N2519 S|N AFA 0.4W | A | 200 125 80 | 0 60 | 200 5.0M 0.5 LOM 80 )E 100M | T 2N2520 S| N AFA 0.4W | A | 200 60 60 | 0 12 1.0M 0.5 10M 18 |E 50M [5B 2N2521 S|N AFA O.4W {A | 200 60 60 | 0 25 1.0M 0.5 LOM 36 | E 50M | B 1-129Multiple Devices - 2n2060, A Vero = 40-60 V (JAN2N2060 AVAILABLE) Ic = 500 mA 2n2223, A NPN silicon annular Star dual transistors for differ- 2n2480, A ential amplifiers and other applications requiring a < matched pair with a high degree of parameter unifor- mity. MAXIMUM RATINGS eceach side) 2N2060 . 2N2060A . Rating Symbol | 5ss9993 | 2N2480 | 2N260A Unit 2N2223A Collector-Emitter Voltage Varo 60 40 40 Vdc Collector-Emitter Voltage VoER 80 - - Vde Collector-Base Voltage Von 100 15 80 Vde Emitter-Base Voltage Veg 7.0 5.0 5.0 Vde Collector Current Io 500-1 mAdc Operating Junction Temperature Ty pat~- 00 c NPN Storage Temperature Range T ste t-5 to +300 my_-C One Side Both Sides Pin Connections Bottom View Total Device Dissipation @ Ty = 25C (Alt Types) Py 0.5 0.6 Watt All Leads Electrically Isolated Derate above 25C 2.86 3.43 mw/Cc ; veminats er from Case Total Device Dissipation @T, = 25C (Alt Types) Py 1.6 3.0 Watts Derate above 25C 9.1 17.2 mW/?C ELECTRICAL CHARACTERISTICS (each side) (Ta = 25C unless otherwise noted) Characteristic Symbol | Min | Max | Unit OFF CHARACTERISTICS Collector-Emitter Breakdown Voltage* BV org* Vde I = 20 mAdc, LL = 0) 2N2480, 2N2480A 40 - 1, = 30 mAdc, In = 0) 2N2060, 2N2060A, 2N2223, 2N2223A 60 - Collector -Emitter Breakdown Voltage* BVopR* Vdc (I, = 100 mAdc, Ror = 10 ohms) 2N2060, 2N2060A, 2N2223, 2N2223A 80 - Collector-Base Breakdown Voltage BV oB0 Vde Ua = 100 pAdc, "7 = 0) 2N2060, 2N2060A, 2N2223, 2N2223A 100 - 2N2480 15 - 2N2480A 80 - Emitter-Base Breakdown Voltage BV BO Vde (I, = 100 pAde, I, = 0) 2N2060, 2N2060A , 2N2223, 2N2223A 7.0 - 2N2480, 2N2480A 5.0 - Collector Cutoff Current logo uAdc Voz = 30 Vdc, In =Q, Ty = 150C) 2N2480, 2N2480A - 15 Vaz = 60 Vdc, In = 0) 2N2480 - 0.050 2N2480A ~ 0. 020 Vop = 80 Vdc, Ih = 0) 2N2060, 2N2060A - 0. 002 2N2223, 2N2223A - 0.010 Voz = 80 Vde, I, =0, Ty = 150C) 2N2060, 2N2060A - 10 2N2223, 2N2223A - 15 Emitter Cutoff Current leBo nAdec Vor = 5.0 Vdc, In = 0) 2N2060, 2N2060A - 2.0 2N2223, 2N2223A - 10 2N2480 - 50 2N2480A - 20 *Pulse Test: Pulse Width = 300 us, Duty Cycle = 2. 0%. 11-6_ Multiple Devices 2N2060, A, 2N2223, A, 2N2480, A (continued) ELECTRICAL CHARACTERISTICS (continued) | Characteristic Symbol, | Min | Max | Unit | ON CHARACTERISTICS DC Current Gain hop - (Io = 10 pAdc, Vor = 5.0 Vdc) 2N2060, 2N2060A 25 15 2N2223, 2N2223A 15 - (Ig = 100 pAdc, Vor = 5.0 Vdc) 2N2060, 2N2060A 30 90 2N2223, 2N2223A 25 150 2N2480 20 - 2N2480A 35 - Wa = 1.0 mAde, Vor = 5.0 Vde) 2N2060, 2N2060A 40 120 2N2480 30 350 2N2480A 50 200 I, = 10 mAdc, Vor = 5.0 Vdc)* 2N2060, 2N2060A 50 150 2N2223, 2N2223A 50 200 Collector-Emitter Saturation Voltage Vor( t) Vde (Ig = 50 mAdc, I, = 5.0 mAdc) 2N2060A sa - 0.6 2N2060, 2N2223, 2N2223A, 2N2480A - 1.2 2N2480 - 1.3 Base-Emitter Saturation Voltage Vor t) Vde (I, = 50 mAdc, I, = 5.0 mAdc) 2N2060, 2N2060A, 2N2223, 2N2223A, (sa 2N2480A - 0.9 2N2480 - 1.0 SMALL-SIGNAL CHARACTERISTICS Current-Gain-Bandwidth Product fp MHz Qo = 50 mAdc, Vor = 10 Vdc, f = 20 MHz) 2N2223, 2N2223A, 2N2480, 2N2480A 50 - 2N2060, 2N2060A 60 - Output Capacitance Cob pF Wop = 10 Vdc, I, = 0, f = 1.0 MHz) 2N2060, 2N2060A, 2N2223, 2N2223A - 15 2N2480A - 18 2N2480 - 20 Input Capacitance Cy pF (Vor = 0.5 Vde, Ty = 0, f = 1.0 MHz) 2N2060, 2N2060A, 2N2223, ! 2N2223A, 2N2480A - 85 Input Impedance he, ohms (I, = 1.0 mAdc, Vor = 5.0 Vde, f= 1.0kHz) 2N2060, 2N2060A 1000 | 4000 2N2480A 1000 | 5000 Input Impedance hy ohms MI, = 1.0 mAdc, Yon = 5.0 Vdc, f = 1.0 kHz) 2N2060, 2N2060A, 2N2223, 2N2223A 20 30 2N2480A 20 35 Voltage Feedback Ratio hey x 10-4 (Ig = 1.0 mAdc, Vop = 5.0 Vdc, f = 1.0 kHz} 2N2223,2N2223A - 3.0 Small-Signal Current Gain hee - Mo = 1.0 mAdc, Vor = 5.0 Vde, f=1.0kHz) 2N2060,2N2060A 50 150 2N2223, 2N2223A 40 120 2N2480A 50 300 Output Admittance Noe umhos Ge = 1.0 mAde, Vor =5.0Vde, f=1.0kHz) 2N2060, 2N2060A, 2N2480A 4.0 16 Output Admittance hob umhos I, = 1.0 mAdc, Von = 5.0 Vde, f= 1.0kHz) 2N2223, 2N2223A - 0.5 Noise Figure NF dB Mg = 0.3 mAdc, Vor = 10 Vde, Rg = 510 ohms, f=1,.0kHz, BW = 1.0 Hz) 2N2480, 2N2480A - 8.0 Ip = 0.3 mAdc, Vor = 10 Vde, Re = 510 ohms, f=1.0kHz, BW = 200 Hz) 2N2060, 2N2060A - 8.0 Mp = 0.3 mAdc, Vor = 10 Vac, Rg = 1.0k ohm, f = 1.0 kHz, BW = 15.7 kH2+) - 8.0Multiple Devices 2N2060, A, 2N2223, A, 2N2480, A (continued) ELECTRICAL CHARACTERISTICS (continued) | Characteristic Symbol Min | Max | Unit | MATCHING CHARACTERISTICS DC Current Gain Ratio** heey pRpo** - (Ig = 100 pAde, Vag, = 5.0 Vac) 2N2060, 2N2060A, 2N2223A 0.9 | 1.0 2N2223, 2N2480, 2N2480A 0.8 1.0 (le = 1.0 mAdc, Vor = 5.0 Vde) 2N2060, 2N2060A 0.9 1.0 2N2480, 2N2480A 0.8 1.0 Base Voltage Differential Vor1-" Bre mVdc Qe = 100 pAde, Vor = 5.0 Vde) 2N2060A - 3.0 2N2060, 2N2223A, 2N2480A - 5.0 2N2480 - 10 2N2223 - 15 Ue = 1.0 mAdc, Vor = 5.0 Vdc) 2N2060, 2N2060A, 2N2480A - 5.0 2N2480 - 10 Base Voltage Differential Change ACV. -V ) mvVdc (Ig = 100 HAde, Voy = 5.0 Vde, T, = -55 to 425C) 2N2060A BE] BE2"| _ 0.4 2N2060 - 0.8 2N2223, 2N2223A - 2.0 2N2480, 2N2480A - 1.2 (lg = 100 pAdc, Vor = 5.0 Vde, Ty = +25 to +125C) 2N2060 - 1.0 2N2060A - 0.5 2N2223, 2N2223A - 2.5 2N2480, 2N2480A - 1.5 **The lowest hor reading is taken as hep for this ratio. yAmplifier: 3.0 dB points at 25 Hz and 10 kHz with a roll-off of 6.0 dB per octave. 11-8