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% 1-120WWI XX '/Wwr~w isi BCB}OH, CBCj})(@iCiiC SS K'""'w;')WwWNQDQ))Ww& w Power Transistors GERMANIUM PNP POWER TRANSISTOR SELECTOR GUIDE -3-AMP HIGH-FREQUENCY DRIVER hee Ves) 30V | 45v | 6ov | 75v | 90v te = O.5 A, \ LOW eto - Ver = 2 Vos 30V 45V 60V 75V 90V foe ne Gob, 30-60 2N2137| 2N2138 | 2N2139| 2N2140| 2N2141 10.3 7 yo-a1t@ 50-100 2N2142 | 2N2143|2N2144 | 2N2145 | 2N2146 -3-AMP 3 GENERAL: PURPOSE te, [Nes } aov | cov | 75v | 100v Po = 106 W LIFIER Va=4V | Ves ) 50v | 80v | 100v | 120V fy = 0.35 MHz Gas 35.90 2N1359| 2N375 |2N1362 | 2N1364 Toa 60-140 2N1360| 2N618 |2N1363 |2N1365 p 5-AMP ~cENERAL-PURPOSE be, [Ves] 30v | a5v | cov | 75v | 90V ps = t06w SWITCH AND AMPLIFIER Ve=2 [Vc J 40V_ | 60v_| gov | 100v | 120V ~ 20-40 1.0.35 MHz 2N1529 | 2N1530 | 2N1531 | 2N1532| 2N1533 35-70 ae, Ge ose wz 2N1534 | 2N1535 | 2N1536 | 2N1537| 2N1538 103 T0410 50-100 2N1539 | 2N1540 | 2N154] | 2N1542 | 2N1543 f; - 0.4 MHz 75-150 hos Miz 2N1544 |2N1545 | 2N1546 | 2N1547 | 2N1548 Pr S-AMP ich oc GAIN Ire Voss} 30 45V 60V LOW-SATURATION SWITCH lea 3A, Pp = 170W . Ve=2V | Vee} 30 45V 60V fy 0.3 MHz Fives 60-120 2N3311 2N3312 2N3313 100-200 2N3314 2N3315 2N3316 ~ 7-AMP TciGain AUDIO hee AMPLIFIER le=14, | Vets 50V P= 106 W | Vor = 2 f; 0.32 MHz ars i 74-250 MP110 - 7-AMP ECONOMY LINE AMPLIFIER ty, [Vos} sov | sv | cov | 75v Va=2 | Ves } 40V 60V | 80V | 100V Po = 77W fy 0.6 MHz 30-60 2N3615 | 2N3616 Ges yes 35-70 2N3611| 2N3612 703 TO4ITO 45-90 2N3617 | 2N3618 60-120 2N3613 | 2N3614 -7-AMP ECONOMY LINE AMPLIFIER he Ves) gov | asv | cov | 75v le=3A, Po=77W Gs Ve=2 | Vo } 40v | 6ov | 75V | 90V f; 0.6 MHz 709 30-200 MP2060|MP2061| MP2062| MP2063Power Transistors - 2N1539 thre 2N1 548 (Germanium) Vea = 40-120V 2N1539A thru 2N1542A, = 5A = PNP germanium power transistors for switching and amplifier applications in high-reliability equipment. CASE 3, 4 (TO-3,4 For units with solder lugs attached, specify devices MP1539A etc. (TO-41 package) MAXIMUM RATINGS Rating Symbol | ouisaa | antsas | annsae | 2ntsa7_| antsae | Unit Collector-Emitter Voltage Vero 20 30 40 50 60 Vde Collector-Emitter Voltage Vors 30 45 60 75 90 Vde Collector-Emitter Voltage Vorx 40 60 80 100 120 Vdc Collector-Base Voltage Vos 40 60 80 100 120 Vde Emitter-Base Voltage Vep 20 30 40. 50 60 Vde Collector Current-Continuous Ia <0 em | so Ad Peak Ik <-_. 10 WWW- | Adc Total Device Dissipation QT, = 25C Pp !___ 106 -_ [Watts Operating Junction Temperature Range T; -65 to +110 C THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Case 850 0.8 C/W The maximum continuous power is POWER-TEMPERATURE DERATING CURVE related to maximum junction tempera- ture, by the thermal resistance fac- tor. For d.c. or frequencies below ) _ ary TTS (WA far 25 cps the transistor must be operated 8? within the constant Pp = Vc x Ic = 60 hyperbolic curve. This curve hasa @2 value of 106 Watts at case tempera- & tures of 25C and is 0 Watts at 110C @ with a linear relation between the two * 4g 20 40 60 80 100 110 temperatures such that Te, CASE TEMPERATURE (C) Pp allowable = 110 - Tc 0.8 7-64Power Transistors 2N1539 thru 2N1548 (continued) ELECTRICAL CHARACTERISTICS (tT. = 25C unless otherwise noted) | Characteristic Symbol | Min | Max | Unit | OFF CHARACTERISTICS Collector-Emitter Breakdown Voltage} BVorol volts Mg = 500 mAdc, Ib = 0) 2N1539, 2N1544 " 20 2N1540, 2N1545 30 2N1541, 2N1546 40 2N1542, 2N1547 50 2N1543, 2N1548 60 Collector-Emitter Breakdown Voltaget BVogst volts Ia = 500 mAdc, Vor = 0) 2N1539, 2N1544 30 2N1540, 2N1545 45 2N1541, 2N1546 60 2N1542, 2N1547 15 2N1543, 2N1548 90 Collector-Base Breakdown Voltage BVano volts Mo = 20 mAdc, I, = 0) 2N1539, 2N1544 40 2N1540, 2N1545 60 2N1541, 2N1546 80 2N1542, 2N1547 100 2N1543, 2N1548 120 Collector Cutoff Current I mA : . . CEX - 20 Vor @ rated Vap: Vor = 1.0 Vde) Collector Cutoff Current logo mA Von = 2.0 Vdc, In = 0) - 0.2 Vor =1/2 Vors rating, To = 90C) - 20 Collector Cutoff Current logo mA (Yop = 25 Vdc, I. = 0) 2N1539, 2N1544 - 2.0 (Vop = 40 Vdc, I. = 0) 2N1540, 2N1545 - 2.0 (Voz = 55 Vdc, I, = 0) 2N1541, 2N1546 - 2.0 Vop = 65 Vde, I, = 0) 2N1542, 2N1547 - 2.0 Vop = 80 Vdc, I, = 0) 2N1543, 2N1548 - 2.0 ON CHARACTERISTICS DC Current Gain heel - I = 3.0 Adc, Vor = 2.0 Vdc) 2N1539-2N1542 50 100 2N1544-2N1547 75 150 2N1543 50 100 2N1548 ai) 150 DC Transconductance SEE mhos (Ig = 3.0 Adc, Vor = 2.0 Vdc) 2N1539-2N1542 3.0 2N1544-2N1547 5.0 2N1543 3.0 2N1548 5.0 Collector-Emitter Saturation Voltage Vor(sat) volts Ig = 3.0 Adc, I, = 300 mAdc) 2N1539-2N1542 - 0.3 2N1544-2N1547 - 0.2 2N1543 - 0.3 2N1548 - 0.2 Base-Emitter Saturation Voltage Var (sat) volts (I, = 3.0 Adc, Ip = 300 mAdc) 2N1539-2N1542 - 0.7 2N1544-2N1547 - 0.5 2N1543 - 0.7 2N1548 - 0.5 DYNAMIC CHARACTERISTICS Common-Emitter Cutoff Frequency tye Typ kHz I, = 3.0 Adc, Vor = 2.0 Vdc) 4.0 Characteristics apply to corresponding A type numbers also. {To avoid excessive heating of collector junction, perform this test with a sweep method. 7-65Power Transistors - 2N1539 thru 2N1548 (continued) SWITCHING TIME MEASURING UNIT TEST TRANSISTOR 0.5 uF Typical Devices Conditions* Switching Times in cl] v | ek ute] tt | (Amp ) |Wolts) | (ohms)] (us )| Gs )| (us ) Vv 2N1539-43 3 3 165 5 3 | PULSE GENERATOR 2N1544-48 3 3 | 250] 5 3 8 1c, COLLECTOR CURRENT (AMP) COLLECTOR CURRENT (AMPS) *Input Pulse Repetition Rate = 2 kHz, Pulse Width = 50 us COLLECTOR CURRENT versus EMITTER BASE VOLTAGE COLLECTOR CURRENT versus BASE CURRENT 6 T | 6 mT Vor = -- 2 Ve =2 5 5 | 7 br 2N1544-2N1548 x a 4 2 4 5 f |7 5 = 3 a 3 NK. s ms 2N1544-2N1548 ~~ 5 2N1539-2N1543 a / a 2 8 2 7 J . // La 2N1539 -2N1542 fp 0 . 1. 0 0 0.1 0.2 03 0.4 0.5 0.6 0 10 2 30 40 50 60 70 80 90 Ves, EMITTER-BASE VOLTAGE (VOLTS) {,, BASE CURRENT (mA ) 2N1539, 2N1544 SAFE OPERATING AREAS PEAK be The Safe Operating Area Curves indicate Ic Vee limits below which the device will not go into secondary breakdown. Collector load lines for specific circuits must fall within the applicable Safe Area to avoid causing a collector-emitter short. (Case temperature and duty cycle of the excur- sions make no significant change in these safe areas.) To insure operation below the maximum Ts, the power-temperature de- rating curve must be observed for both steady state and pulse power conditions. COLLECTOR CURRENT (AMPS) Sms TO 45, 3 ma WITH BACK BIAS (PULSE CURVES: 0 5 10 18 20 25 30 35 COLLECTOR-EMITTER VOLTAGE (VOLTS) 2N1540, 2N1545 2N1541, 2N1546 2N1542, 2N1547 Sms ms I, MAX PEAK | 5ms Ims | 500us | 100us OR LESS IgMAX PEAK = Sms 500 ys us Ic MAX CONT. O5 o4 03 TO 60V, 3 mA WITH BACK BIAS APPLIED {PULSE CURVES ONLY) TO 90V, 3 mA WITH-BACK BIAS APPLIED. {PULSE CURVES ONLY) O1 0 5 16 15 20 25 30 COLLECTOR-EMITTER VOLTAGE (VOLTS) 40 45 $00 5 LO 15 20 23 30 35 40 45 50 55 60 650 COLLECTOR-EMITTER VOLTAGE (VOLTS) 10 200 30 40 80 80 COLLECTOR-EMITTER VOLTAGE (VOLTS) 70 7-66 2N1543, 2N1548 500 us as OR Less 90-WATT POWER DISSIPATION 25C CASE TEMPERATURE 8o 10 20 30 40 50 66 70 80 COLLECTOR-EMITTER VOLTAGE (YOLTS) 90 100Power Transistors 2N1539 thru 2N1548 (continued) BASE CURRENT versus EMITTER BASE VOLTAGE DC CURRENT GAIN versus COLLECTOR CURRENT Vee = 2 Ver = 2V z Be 2N1539-2N1543 z = = 2N1544-2N1548 = 2N1544-2N1548 3 2N1539-2N1543 0 01 0.2 0.3 0.4 05 06 0 1 2 3 4 5 Ves, EMITTER-BASE VOLTAGE (VOLTS) Ie, COLLECTOR CURRENT (AMP) 2N1549, A thro 2N1560, A (Germanium Ves = 40-100 V 2N1549A JAN thru 2N1556A JAN c = pew >= 2N1560A JAN AVAILABLE) PNP germanium power transistors for switching and CASE 3,4 amplifier applications in high-reliability equipment. (TO-3, 41) For units with solder lugs attached, specify devices MP1549A etc. (TO-41 package) MAXIMUM RATINGS Apply to corresponding "Hi-Rel" Series Also pat symbot | Sai] aie MUR] tin mbo 4] 2N15 nits 9 Y 2N1557 | 2N1558/ 2N1559 | 2N1560 Collector-Emitter Voltage Vorx 40 60 80 100 Vde Collector-Emitter Voltage Vors+ 30 45 60 75 Vde Collector-Emitter Voltage Voro+ 20 30 40 50 Vdc Coliector-Base Voltage Vos 40 60 80 100 Vde Emitter-Base Voltage Vip 20 30 40 50 Vde Collector Current (Continuous) In 15 15 15 15 Amp Collector Current (Peak) In 20 20 20 20 Amp Collector Junction Temperature Ty -65 to +110 Sc Collector Dissipation Py 106 106 106 106 Watts (25 C Case Temp. ) Thermal Resistance 83 0.8 Cc/w *To avoid excessive heating of collector junction, perform this test with a sweep methad. 7-67