2N1545-2N1641 Numerical Index ele MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS | c= | REPLACE- | PAGE Po | Bi T V Ver_ |= Nee @ Ic V @\ a = TYPE = 5 MENT | NUMBER USE J ce | ce 5 # CEISATI <2 4 | 2 ~. = => @ 25C | S| C {| (volts) | (volts) |S | (min) (max) 5} (volts) s 3 5/3 2N1545 G{ P 7-64 LPA 90w | c | 100 60 45 (58 75 | 150 3.0A 0.2 3.0A LOK IE 2N15454 1 C| P 7-64 | LPA 90w | c | 100 60 45/s| 75 3.0A 0.2] 3.0A 3.0K] E 2N1546 G] P 7-64 LPA 90w | Cc} 100 80 60] Ss 75 { 150 3.0A 0.2 3.0A 1.0K] E 2N1546A | G| PF 7-64 LPA 90W | c} 100 80 6075 75 3.0A 0.2 3.0A 3.0K ]E 2N1547 G| P 7-64 LPA 90W] Cc | 100 100 7515S 75 | 150 3.0A 0.2 3.0A L.OK|E 2N1547A4 ] G] P 7-64 LPA 90W } Cc} 100 100 73/58 75 3.0A 0.2 3.0A 3.0K 1E 2N1548 G| P 7-64 LPA 90W | Cc } 100 120 90) 5 75 | 150 3.04 0.2 3.04 1.0K] E 2N1549 G| P 7-67 LPA 90W | C | 100 40 30] S 10 30 10A 1.0 10A 2N15494 1 G} P 7-67 | LPA gow | c | 100 40 301S ) 10} 30 LOA 1.0 10A 5.0K] E 2N1550 G) P 7-67 LPA 90W |; C } 100 60 45] S 10 30 10A 1.0 LOA 2NI550A} G| P 7-67 | LPA gow | c | 100 60 45/s] 10] 30 10A 1.0 10A 5.0K TE 2N1551 |G] P 7-67 | LPA gow | c | 100 80 60];s | 10] 30 LOA 1.0 10A 2N1551A | G] P 7-67 LPA 90W | c | 100 80 60} S 10 30 10A 1.0 LOA 5.0K |E 2N1552 G| P 7-67 LPA 90W {Cc ] 100 100 75/8 10 30 LOA 1.0 1OA 2N1552A | GI P 7-67 LPA 90W | Cc} 100 100 758 10 30 10A 1.0 10A 5.OK/E 2N1553 G| P 7-67 LPA 90W | c | 100 40 30158 30 60 LOA 0.5 LOA 1.0K] E 2N1553A |G] P 7-67 LPA 90W | c | 100 40 20/0 30 60 10A 0.5 10A 3.0K ]E 2N1554 | G|P 7-67 | LRA 90W | c } 100 60 45/5} 30] 60 10A 0.5 104 L.OK] E 2N15544 | G| P 7-67 LPA 90w | c | 100 60 30] 0 30 60 10A 0.5 10A 3.0K /E 2N1555 | c| P 7-67 | LPA gow | c | 100 80 60/s | 30] 60 10A 0.5 10A 1.0K | E 2N1555A | G| P 7-67 | LPA gow | c | 100 80 40/0] 30] 60 10A 0.5 10A 3.0K | E 2N1556 | G|P 7-67 | LPA 90w | c | L004 100 74s | 30) 60 10A 0.5 LOA L.OK LE 2N1556A | G] P 7-67 LPA 90W | Cc | LOO 100 50|0 30 60 10A 0.5 LOA 3.0K /E 2NL557 GIP 7-67 LPA gow | c | 100 40 3015S 50 | 100 LOA 0.4 LOA L.OKIE 2N1557A 1G] P 7-67 LPA 90W | Cc | 100 40 20/0 50 | LOO LOA 0.5 10A 3.0K) E 2N1558 | GIP 7-67 | LPA gow | c | Loo 40 45/s | 50] 100 LOA 0.4 10A L.OK LE 2N1558A | G| P 7-67 | LPA 90w | c | 100 60 30} 0] 50] 100 10A 0.5 10A 3.0K |E 2N1559 |G] P 7-67 | LPA 90w | c | 100 80 60]S { 50] 100 LOA 0.4 10A L.OK | E 2N1559A | G| P 7-67 LPA 90W | Cc | 100 80 40 ]0 50 | 100 10A 0.5 LOA 3.0K |E 2N1560 G| P 7-67 LPA 90W | Cc | 100 100 75 |S 50 | 100 10A 0.4 10A 1.0K E 2N1560A | G] P 7-67 LPA gow | c | 100 100 50]0 50 { 100 LOA 0.5 10A 3.0K] E 2N1561 G|P 9-24 RFA 250M | A | 100 25 15) 0 3.0 200M 2N1562 G| P 9-24 RFA 250M | A | 100 25 15 |0 4.0 200M 2N1564 S| N | 2N2218 8-108] AFA 600M | A j 175 80 6010 15 50 5.0M 1.0 LOM 20 |E 2N1565 S$] N | 2N2218 8-108) AFA 600M | A} 175 80 60] 0 30 | 100 5.0M 1,0 10M 40 ]E 2N1566 S| N ] 2N2219 8-108] AFA 600M | A | 175 80 60 |} 0 60 | 200 53.0M 1.0 LOM 80} E 2NL566A | S| N | 2N2219 8-108] AFA 600M | A | 175 80 60 | 0 60 | 200 5.0M] 0.95 10M 80 | E 100M | T 2N1572 S| N AFA 600M ; A | 175 125 80/0 15 50 5.0M 1.0 10M 20|E 2N1573 s|N AFA 600M | A j 175 125 80/0 30 | 100 5.0M 1.0 10M 40 ,E 2N1574 S| N AFA 600M } A | 175 125 80/0 60 } 200 5.0M 1,0 10M 80] E 2N1585 | GIN RFA} 750M | A | 100 25 10,0] 20 10M 2N1586 S| N AFA 125M] A 85 15 10 | 0 | 5.0 27 1,0M 1.5 5.0M | 9.0/E 5.0M|B 2N1587 S|] N AFA 125M] A 85 30 20)0 15.0 27 1.0M 1.5 5.0M |] 9.0j/E 5.0M } B 2NL588 S|N AFA 125M | A 85 60 40 |0 15.0 27 1.0M 1.5 5.0M 9.0]JE 5.0M |B 2N1589 S| N AFA 125M; A 85 15 10/0 20 75 1.0M 1.5 5.0M 25 |E 5.0M/B 2N1590 S|N AFA 125M | A 85 30 20]0 20 75 L.0M 1.5 5.0M 25 ]/E 5.0M |B 2NL591 s)N AFA 125M) 4 85 60 40)0]) 20 75 1.0M 1.5 5.0M 25 ],E 5.0M]B 2N1592 SIN AFA 125M 1A 85 15 10/0 40 | 210 1.0M 1.5 5.0M JOE 5.0M 1B 2N1593 S|N AFA 125M} A 85 30 20,0} 40] 210 1.0M 1.5 5.0M 70 |E 5,0M | B 2N1594 s|N AFA 125M | A 85 60 4010] 40 | 210 1.0M 1.5 5.0M 7O|E 5.0M |B 2N1595 thru Thyristors, see Table on Page 1-154 2N1604 2N1605 GIN MSS 150M |-A | LOO 25 2410} 40 20M 0.15 12M 4,0M |B 2N1605A |G|N Mss | 0.2W | A } 100 40 40 40 20M } 0.15 12M 4.0M |B 2NL606 S;P HSS 100M | A | 140 10 10} s | 6.0 30 15M | 0.15 5,0M 7.2M/T 2N1607 S| P HSs 100M | A | 140 10 10 |S | 6.0 30 15M | 0,15 5.0M 10M | T 2N1608 S| P HSs 100M | A | 140 10 10 | s {6.0 30 15M} 0.15 5.0M 25M | T 2N1609 G{ P | 2N2140 7-78 LPA 95 80 60 | oO 30 75 100M 1.0 500M 2N1610 G| P | 2N2145 7-78 LPA 95 80 60 | 0 50 | 125 100M 0.6 500M 2N1611L G| P | 2N2138 7-78 LPA 95 60 40/0 30 75 100M 1.0 500M 2N1612 | G{ P | 2N2143 7-78 | LPA 95 60 40 }o | 50/125 | 100m 0.6 | 500M 2N1613 S|N 8-30 MSA} 800M /A {200 75 50 }R } 405120 150M 4.5 150M 30 | E 60M | T 2N1613A | S | N | 2N2218 8-108 | MSA 1,0W | A | 200 75 50 7R 40 | 120 150M 1.0 150M 30 ]E 60M | T 2N1613B | S|N MSA] 1.,0W} A |200] 120 55 |R | 40]120| 150M 0.2 | 150M 30 | E 60M | T 2n1614 |G| P | 2N1924 6-37 | MSA| 240M | A | 100 65 40 |R ] 18} 43 20M | 0.13 20M 500K | B 2N1615 |S |N RFA| 5.5M{A {200 ] 100 | LOO |o | 25 5. 0M 5.0 50M 2.0M | T 2N1616 S| N |] 2N3487 7-115 | HPA 60w | c {175 60 60 | 0 15 75 2.04 2.0 2.0A 3.0M | T 2N1616A | s | N | 2N3487 7-115 | LPA a5w tc | 200 60 60 }o} 20] 60] 2.0A 1.0] 2.0A 3.0M | T 2N1L617 S| N | 2N3487 7+115 | HPA 60W | c | 175 80 B80] V 15 75 2.04 2.0 2.0A 3.0M | T 2N161L7A | S| N | 2N3487 7-115] LPA 85W 1 C | 200 80 70 | 0 20 60 2.0A 1.0 2.0A 3.0M | T 2N1618 |S] N | 2N3488 7-115 | HPA eow |] c]175 1 100 | 100} Vv} 15] 75] 2.0a 2.0 | 2.04 3.0M | T 2N1618A {S| N | 2N3488 7-115] LPA 85w | Cc | 200 100 80 | 0 20 60 2,04 1.0 2.0A 3.0M | T 2N1620 | S| N | 2N3446 7-111} HPA eow}c}{l75 | 100 | 100 ;V | 15] 75 | 2.0a 2.0] 2.0A 3.0M | T 2N1622 G]N AFA |0.12W]A 85 90 90 |S 40 5.0M 5.0M 2N1623 |S) P AFA} 250M ]A | 160 50 20)0 79.0} 40] 1.0M 0.3] 5.0M 100K | B 2N1624 1 G}N MSS | 0.15W | A | LOO 25 20{R | 60 | 180 30M 5.0M |B 2N1631 G| P | 2N3325 9-71 RFC 80M | A 85 34 40], E 2N1632 |G] P | 2N3325 9-71 | RFC Bg0M | A} 85 34 40 | 8 2N1633 | G|P REC som }A ) 85 34 27,5 2N1634 | G|P RFC 80M } A] 85 34 27) E 2N1635 |G} P RFC som |A | 85 34 40 | E 2N1636 |G|P RFC gom |A | 85 34 40 ]E 2N1637 |G{P | 2N3325 9-71 | RFC goM [A | 85 34 40 1E 2N1638 |G | P | 2N3325 9-71 | RFC som |A |] 85 34 70 |E 2N1639 G| P } 2N3325 9-71 | RFC 80M | A 85 34 40 ]/E 2N1640 1S | P cup | 250M ]A | 160 30 20 | u | 6.0 100* 2NL641 |S | P CHP | 250M {A | 160 30 10 |u { lo 100% 1-120 Switching and General Purpose Transistors an7 18Asiticon) Veen = 50 rv 2N956 f; = 300 MHz Typ 2N1613 QNI711 (JAN 2N1613 AND 2N1711 Available) CASE 22 CASE 31 (TO-18) (TO-5) 2N718A 2N1613 2N956 2N1711 Collector connected to case NPN silicon annular Star transistors for high-speed switching and DC to UHF amplifier applications. MAXIMUM RATINGS . 2N718A 2N1613 : Rating Symbol N96 ONITLI Unit Collector-Emitter Voltage VoER 50 Vde Collector-Base Voltage Yop 15 Vde Emitter-Base Voltage Ves 7.0 Vde Total Device Dissipation @ Ta = 25C Pp 500 800 mW Derate above 25C 2.86 4.57 mWw/C Total Device Dissipation @ To = 25C Py 1.8 3.0 Watts Derate above 25C 10.3 17.1 mW/C Operating and Storage Junction Temperature Range Ty Tete -65 to +200 C 8-30 Switching and General Purpose Transistors 2N718A, 2N956, 2N1613, 2N1711 (continued) ELECTRICAL CHARACTERISTICS (1, = 25C unless otherwise noted) [ Characteristic Symbol OFF CHARACTERISTICS _| Min | Typ | Max | Unit | Collector-Emitter Breakdown Voltage BYorr Vde (I, = 100 mAdc, pulsed; R,. 10 ohms) 50 - - Cc BE Collector-Base Breakdown Voltage BVapo Vde ly = 100 pAde, Tp = 0) 75 - - Emitter-Base Breakdown Voltage BV ERO Vde dp = 100 pAdc, le = 0) 7.0 - - CoNector Cutoff Current Toso pAdc Von = 60 Vdc, LS = 0) - 0.001 0.01 Wop = 60 Vde, In = 0, Ty, = 150C) - - 10 Emitter Cutoff Current leBo uAde Vor = 5,0 Vde, Io = 0) 2N718A, 2N1613 - - 0.010 2N956, 2N1711 - - 0.005 ON CHARACTERISTICS De Current Gain her - Mp = 0.01 mAdac, Vor = 10 Vdc) 2N956, 2N1711 20 - - (lg = 0.1 mAdc, Vor 10 Vde) 2N718A, 2N1613 20 - - 2N956, 2N1711 35 - - Ug = 10 mAdc, Vor = 10 Vdc) 2N718A, 2N1613 35 - - 2N956, 2N1711 75 - - Ip = 10 mAdc, Vor = 10 Vdc, Ty= -55C) 2N718A, 2N1613 20 - - 2N956, 2N1711 35 - - a, = 150 mAdc, Yop 710 Vde)* 2N718A, 2N1613 40 - 120 2N956, 2N1711 100 - 300 (lg = 00 mAdc, Vor = 10 Vdc)* 2N718A, 2N1613 20 - - 2N956, 2N1711 40 - - Collector-Emitter Saturation Voltage* Vor, )* Vde (I, = 150 mAde, I,, = 15 mAde) sa - 0.24 1.5 Base-Emitter Saturation Voltage* Vv. * Vde (Ig = 150 mAde, I, = 15 mAde) BE(sat) - 1.0 1.3 SMALL-SIGNAL CHARACTERISTICS Current-Gain Bandwidth Product fp MHz (lg = 50 mAdc, Vop = 10 Vde, f = 20 MHz) 2N718A, 2N1613 60 300 - 2N956, 2N1711 70 300 Output Capacitance Cob pF og = 10 Vdc, Ins 0, f = 100 kHz) - 4.0 25 Input Capacitance Cin pF Vep = 0.5 Vde, 1g = 0, f= 100 kHz) - 20 80 Input Impedance ib ohms (Ig = 1.0 mAdc, Vag = 5.0 Vde, f = 1.0 kHz) , 24 - 34 lg = 5.0 mAdc, Voz = 10 Vdc, f = 1.0 kHz) 4.0 - 8.0 Voltage Feedback Ratio Bey X 10-4 (Ig = 1.0 mAdc, Vop = 5.0 Vde, f= 1.0 kHz) 2N718A, 2N1613 - - 3.0 2N956, 2N1711 ~ - 5.0 (Ig = 5.0 mAdc, Vop = 10 Vde, = 1.0 kHz) 2N718A, 2N1613 - 3.0 2N956, 2N1711 - - 5.0 Small-Signal Current Gain hy - Mi, = 1.0 mAdc, Vox 75.0 Vde, = 1.0 kHz) 2N718A, 2N1613 e 30 - 100 2N956, 2N1711 50 - 200 Ig = 5.0 mAdc, Ver = 10 Vdc, f = 1.0 kHz) 2N718A, 2N1613 35 - 150 2N956, 2N1711 70 - 300 Output Admittance h b umho (Ig = 1.0 mAde, Voy = 5.0 Vde, f = 1.0 kHz) 0.1 - 0.5 Mg = 5.0 mAdc, Von = 10 Vde, f = 1.0 kHz) Q.1 - 1.9 Noise Figure NF dB (Ip = 300 Adc, Vor * 10 Vdc, f = 1.0 kHz) 2N718A, 2N1613 - - 12 2N956, 2Ni711 - - 8.0 * Pulse Test: Pulse Width 300 us, Duty Cycle = 2.0%. 8-31