Numerical Index 2N342-2N414 ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS = = = z= | S| REPLACE- | PAGE Py TEI ty) | Vox | Vee | tee @ Io Vegan @ lo Bl le TRE VES) ment | numper | USE 8 2 elt 1B] ele z\o @ 25C | S| C | (volts) | (volts) |S | (min) (max) 5] (volts) = 3 S's 2n342 [Ss] N AFA] 1.ow fc] 150] 60] 6o0]}o 0.4 B 2N3424 | S| N AFA|1.ow [c]150] 85 | 85]o 0.9 B 2N342B |S] N ara| 750m |aA{i75| 85] 85] 0 9.05 2N343 | S| N aFA|l.ow |cliso| 60} 60\a 0.964 B 2n343a | s| N AFA|1.0ow |C]150| 60] 60/0 0.964 B 2N343B 1S] N AFA| 750M |4|175| 65} 65/0 28 E 2N344 | G| P RFC| 20M |A| 55] 5.0] 5.0] YE | 30M| 2N345 | GI] P RFC} 20M |al] 55] 5.0] 5.0] Vv 25,E | 304) M 2N346 | GI P rFc| 20M [A] 55] 5.0] 5.0] to E | 60M} M 2N350 | G| P 7-30 | tPA} low |A]100| 50] 40}o0] 20} 60] 700m 2n350A |G] P 7-30 | tPA] 90w |t]100] 50] 4o]s]| 20] 60] 0.7A | 1.75] 3.04 S.OK IE 2N351 | G| P 7-30 | tea} tow |A|itoo| 50} 4o}o{ 25} 90| 700M 2n351A [G| P 7-30 | cpa] gow [azf1cof sol 4ofs] 257 90]0.7a | 1.75] 4.04 5.0K | E 2N352. |G} P|2n1536 | 7-60 | LPA] 25w | Cc} 100 40|R] 30] 140] 1.0a 10K | E 2N353. |G] P| 2N1536 | 7-60 | Lea] 30w | c | 100 40|R{| 40} 150] 1.04 7.0K | E 2N354 | s|P RFA| 150m | A] 140] 25] 25] u 9.9E | 8.0M|M 2n355 | S| P mss | i5om |a}140] lo] lolu 0.15} 5.oM| 9.QE | 8.0M| 2N356 | G] N mMsa| 100M |A|] 85] 20] 18]0] 20] So] 100M 0.2] 100M 2N3564 | cl N Msa| isomM |a{ ioc} 30} 20/0! 20} 5a} Loom 0.24 100M 2N357 | G|N MsA| 100M |A} 85] 20] 15/0] 20] 50] 200m 0.2] 200M 2N357A | G|N Msaj i5om [A]! 200} 30] 20/0 | 25} 75] 200m 0.2] 200M 2N358 |G|N Msa| loom |A} 85] 20] 1210} 20] 50] 300m 0.2] 300M 2N358A | G| N Msa} 150M |A{ 100} 30] 15/0] 25] 75] 300M 0.2] 300M 2N359 | G| P| 2N652 6-20 | aFc} 170m |A{ 85] 25 | 18] R} 100} 300] 50M 2n360 [cpl 2nite2 | 6-30 | arc] i7om [al 85 2] 30/Rr | 50} 150] som 2n361 |G|P]2n1191 | 6-30 | AFc| 170m [A] 85] 32] 30]/R] 25] 75] 50M 2N362 |G] P|] 21192 | 6-30 | AFc| 170M |A| 85] 25] is8|o 50 E 2N363 |G{P|2N1192 | 6-30 | aFc/ 170M |A| 85{ 32] 28]/0 25, E 2N364 | G|N MsA| 150M [a] 100] 30 9.9 E] 1.0M|B 2n365 | c|N Msa| 150m |a}100!] 30 19 E | L.oM| B 2N366 | G|N Msa{ 150M | A] 100] 30 49 E} 1.0m] B 2N367. |G| P |2N1191 | 6-30 | MsA| loom |a| 75] 30 9.0 E| 300K] B 2N368 | G| P{2N1191 | 6-30 | MsA] toom [A] 75] 30 19 E | 400K | B 2N369 |G] P| 2N1191 }| 6-30 | MSA} loom |A] 75] 30 44 | 500K) B 2n370 |G! P/2n3324 | 9-71 | RFC| 80M |a|] 71} 24 2N37L__ | G| P| 2N3324 | 9-71 | RFc| 80m [Al] 71] 24 2n372 | G| P| 2N3324 | 9-71 | RFc| som |A} 71] 24 2N373. | G| PB RFC| 80m |]Aj| 71] 25 2n374 | G| P| 2N3325 | 9-71 | RFc| 80m |A] 71] 25 2n375 | GI] P 7-32 | tPA] sew }c| 95|/ go] 6o}s| 35] 90] 1.04 1.0] 2.04 7.0K] E 2n376 | G| P 7-30 | LPAY low |A}100] 50] 40]o0] 35] 120] 700m 2N376A | G| P 7-30 | LPA| 90W |3]100] 50] 40]s]| 35] 120} 0.74 | 1.75] 5.04 5.0K | E 2n377, | G| N Mss| 150m |a|100] 25] 20;v] 20] 60] 30m 0.5 | 200M 5.0M | B 2N377A | G|N Mss| 150m }|A|too] 40] 4o}|v] 20] 60] 30m 2N378 | G| P 7-35 | PMS| 50w |c}|loo| 20 4o| 80] 2.0A 1.0] 2.04 5.0K | E 2N379 | G| P 7-35 | pMS| 50w |c]100] 40 20} 70| 2.0a 1.0] 2.0 5.0K | E 2N380 | G| P 7-35 | PMS! 5ow |c{100] 30 30] 70] 2.04 1.0] 2.04 5.0K | E 2N381_ |G P 6-10 | AFA|o.2w |alioo| 5o0| 25{r/ 35| 65| 20M 35, E 2n382 |G] P 6-10 | AFA] 0.2w [A|100} 50| 25]{r] 60] 95] 20m 70 E 2N383 | G| P 6-10 | AFA] 0.2 |A]100} 50] 25|R] 75] 1201 20M 90 E 2N384 |G} P| 2N3325 | 9-71 | RFC} 120m {A|]100] 40] 40/0} 20/175 | 1.5m 2n385 | G|N mss| 150M |A]ioo] 25{ 25]R| 30]110] 30M 4.0m | B 2N385A | G| N Mss| 150M |ajio0| 40] 40)v] 30] 110} 30m 4.0M | B 2n386 | c|P|2n1531 | 7-60 | LPA| 500M |c|100] 60] 60] Vv] 20 2.58 7.0K] E 2N387 | G| BP} 2N1531 | 7-60 | LPA| 500m |c]io00}] 80] s8o|v| 20 2.54 6.0K | E 2N388 G]N MSS | 150M A | 100 25 20]R 60 | 180 30M 5.0M|B 2n388A | G| N Mss| 150m |A|100] 40] 40} v]| 60 | 200 lo. 30M 5.0M | B 2N389 | S| N|2N3445 | 7-111] LPA] 85w | c | 200 60{R|] 12] 60] 1.0A 2N389A |S] N LPA| 85 | c | 200 60];R| 12] 60|1.0A | 0.75] 1.0A 1.0M | T 2N392. |G) P{2n1550 | 7-67 | LPA| 48w |c] 95] 60] 4o};R] 60] 150] 3.04 0.5] 3.0A 2n393 |G] P| 2N967 8-76 | Mss} 25m [a] 100} 6.0] 6.0/8 | 20 50M | 0.07/ 8.0M 4ge] 25M/ tr 2n304 | cG| P HsA} 150M |A4| 85| 10] i0;0| 20] 150] 10m 4.0M |B 2N394A |G] P HsA}] 150M JA] 85] 10] 30/0] 30} 120] 1om 4.0M | B 2N395 |G] P Hsa] 200M |a[1o0} 30] 15]R] 20/250; 10M 0.2] 50M 3.0M| B 2n396 | Gl P Hsa| 200M |A]100} 30] 20/2] 30] 150] tom 0.21 50M 5.0M| B 2N396A | G| P HsA} 200M }A]100} 30] 20/0] 30] 150] 10m 0.2] 50M 5.0M| B 2n397 | G| P HsA| 200m |a|]ioo} 30] 15]R| 40] 150|{ 10M 0.2] 50M tom | B 2n398 | Gl] P 6-12 | inp] som |A] 55] 105] 105|s] 20 5.0M 2n398A |G] P 6-12 | AFA| 150M {4 ] 100} 105 | 105|s]| 20 5.0M | 0.35|/ 5.0M 2q E 2nN398B |G] P| 2N2043 | 6-39 | IND] 250m {| A] 100] 105] 105|s] 20 5.0M | 0.25] 5.0m 4q E} 1.0m] 8 2n3909 | G| P| 2n351A | 7-30 | tPA] 25w [cl] 90 35[R 1.0] 1.24 }2n4co | Gl pl 2n350a_| 7-30 | uPA] 35w |c| 95] 25 | 20/0] 40] 300] 0.5a 0.8} 1.04 29 E| 3.0K] E an4o1 |G] Pp |2n3611 | 7-118] Lpa] 25w | cl] 90 35|R 1.0] 1.24 2n402 |G] P {2N1191 | 6-30 | ara| 180m |al 85| 25] 20/0 2n403 | G/| P| 2n1191 | 6-30 | AFA| 180M |a} 85] 25] 20/0 2N404 G| P MSS | 150M A 85 25 2n404a | G| P Mss{ 150M |a|100| 40] 35/0| 30 12M | 0.15| 12M 4.0M| B 2nN405 | G| P| 2n322 6-7 | arc] 150m |A] 71] 20 2n406 |G] P| 2322 6-7 | AFC] 150M [a] 71] 20 2N407 | G| P | 2N324 6-7 | arc} 1som [A] 71] 20 zn4og |G] P| 2N324 6-7 | aFc| 150m |A{ 71] 20 zn409 | G| P RFC] 80M |A} 71} 13 2N4i0 |G P RFC} 80M |A| 71] 13 2nN411 |G| P rFc{ gom |A} 71] 13 2N412. ([G]P RFC{ som |A] 71| 13 2N413. | GIP rrA| 150m |a} 85] 30] 18 2N413A |G] P RFA] 50M [A] 85] 30] 15] 0 2n4l4 |G} P RFA{ 150M |A| 85{ 30] 15 1-105Power Transistors 2N307 (GERMANIUM) 2n307 A For Specifications, See 2N242 Data Sheet 2N390A (Germanium) Vee = 50V ic=3-5A onSoIA b= 5A 2N376A PNP germanium power transistors for economical power switching applications and for power amplifiers CASE 11 requiring up to 4 watts of output power at relatively (TO-3) low distortion. MAXIMUM RATINGS Rating Symbol Value Unit Collector- Base Voltage Vop 50 Vde Collector-Emitter Voltage Vors 40 Vdc Collector Dissipation P D 90 Watts at 25C mounting base temperature Collector Junction Temperature Ty 65 to +100 c Thermal Resistance Px 0.8 C/W (Junction to Case) CURRENT GAIN versus POWER TEMPERATURE COLLECTOR CURRENT (COMMON EMITTER) SAFE OPERATING AREAS DERATING CURVE 90 2N376A \ = = 2N351A a S E \ 5 5 = 60 @ s =z = Vce=2 voits |& = = iz \ o B a 0. s A, B 0. & 30 \ 2N350A 03 3 \ 0.2 - 0.1 0 0 10 20 30 40 50 0 20 ao 60 80 100 COLLECTOR CURRENT (AMPERES) COLLECTOR-EMITTER VOLTAGE (VOLTS) MOUNTING BASE TEMPERATURE (C) The Safe Operating Area Curves indicate Ic (Duty cycle of the excursions make no significant Vcx limits below which the device will not go into change in these safe areas.) To insure operation secondary breakdown. Collector load lines for spe- below the maximum T;, the power-temperature cific circuits must fall within the applicable Safe derating curve must be observed for both steady Area to avoid causing a collector-emitter short. state and. pulse power conditions. 7-302N350A, 2N351A, 2N376A (continued) ELECTRICAL CHARACTERISTICS Power Transistors (at mounting base temperature 25C + 3C.) GENERAL Symbol Minimum Typical Maximum Unit Collector Cutoff Current I Varn = 30V CBO _. 3.0 mA CB Vop = 2V 50 _ LA Vop = 30V, T = 100C _ _ 30 mA Emitter Cutoff Current I Vpn = 10 V EBO _ 2.0 mA EB Collector Breakdown Voitage BVors Io = 1A (Rae = 102) 40 _ _ Vde lc = 330 mA, Ree = 0 (This test should be made under dynamic conditions only) ELECTRICAL CHARACTERISTICS (at mounting base temperature 25C + 3C.) COMMON EMITTER 2N350A 2N35TA 2N376A Unit sym Min | Typ | Max | Min | Typ | Max | Min | Typ | Max Power Gain (40.5 db) Gp dB P = 4 Watts, Vap=12V out YCE , _ _ 5 _ Ig = O.7A, f=1 kHz 30 33 | 32 3 34 37 Total Harmonic Distortion a 7% | | %|| 1% under same conditions as power gain DC Forward Current Gain hpp Vez =2V, 1 =07A 20 } | 60 | 25 | 90 | 35 | | 120 CE C Current Gain Frequency Cutoff { owe kHz Vv =12V, Ip =0.7A, CE Cc 5 || 5 | | 5 | | f=1kHz ref Small-Signal Forward Current Gain hee f=1kHz, Vop=2V, Ic =0.7A {30/ |] | 46 | | | 60 | Smali-Signal Input Impedance hie Ohms f=1kHz, Vop=2V, I =0.7A 5 | 17 6 | 20 7 | 25 Collector Saturation Voltage Vv Vde Io = 3 A, Ig = 300 mA CE(SAT) | 0.8] 1.75] _ _ _ Base-Emitter Voltage VBE Vde Ig =3A, Ip = 300 mA 1.0} 2.00} _ _ _ _ Collector Saturation Voltage Vv Vade Ig = 4A, Ip = 400 mA CEGAT)) |__| | | 08 Jars} | | Base-Emitter Voltage Ver Vde Io =4A, Ip = 400 mA _ _ 1.0 [2.00 | _ _ Collector Saturation Voltage Vv Vde Ig = 5A, Ig = 500 mA CEGAT)} | _ j | } | | J 0.8 f1.75 Base-Emitter Voltage VBE Vde Io = 5A, Ip = 500 mA _ _ _ _ _ _ _ 1.0 |2.00 7-312N350A, 2N351A, 2N376A (continued) OUTPUT CURRENT versus EMITTER-DRIVE VOLTAGE 2N376A uw 2N3SIA n a 2N350A ic, COLLECTOR CURRENT (AMPERES) Veg = 2 VOLTS 2 4 & 8 Vers BASE TO EMITTER VOLTAGE (VOLTS) 10 12 4 16 Power Transistors INPUT CURRENT versus EMITTER-DRIVE VOLTAGE 2N350A 2N351 4 2N3764 is, BASE CURRENT (MILLIAMPERES} Voce = 2 VOLTS 0 2 4 & 8 190) 6120 (14 Vee, BASE TO EMITTER VOLTAGE (VOLTS) 16 1.6 2N3/7 5 (GERMANIUM) 2N618 2N1359 2N1360 2N1362 thru 2N1365 Ves = 50-120 V lc =3A Pp = 106W PNP germanium power transistors for general pur- pose switching and amplifier applications. CASE 11 (TO-3) MAXIMUM RATINGS . 2N1359 | 2N375 | 2N1362/2N1364 . Rating Symbol | 57360 | 2N618| 2N1363|2N1365| Unit Collector -Emitter Voltage Vors 40 60 15 100 Vde Collector -Base Voltage Vos 50 80 100 120 Vde Emitter-Base Voltage VER 25 40 50 60 Vde Collector Current-Continuous Io 3 Adc Peak 10 Total Device Dissipation @ T,, = 25C Py 106 Watts Derate above 25C 1,25 w/c Operating and Storage Junction T y Tot C Temperature Range 8 -65 to +110 THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance, Junction to Case % 0.8 o/w 7-32