N JFET CR140 3-45 5-13 2N3366 N JFET 2N4338 1N5302 CL N JFET CR150 3-45 5-13 2N3367 N JFET 2N4338 1N5303 CL N JFET CR160 3-45 5-14 2N3368 N JPET 2N3368 3-4 5-19 1N5304 CL N JFET CR180 3-45 5-14 2N3369 N JFET 2N3369 3-4 -19 1N5305 CLIN JFET cR200 3-45 5-14 2N3370 N JFET 2N3370 3-4 5-19 1N5306 CLIN JFET cR220 3-45 5-14 2N3376 P JFET 2N3329 1N5307 CL .N JFET CR240 3-45 5-14 2N3378 P JFET 2N3330 1N5308 CL N JFET CR270 3-45 5-14 2N3380 P JFET 2N3331 1N5309 Ct N JFET CR300 3-45 5-14 2N3382 P JFET 2N3382 3-5 5-38 1N5310 CL N JFET CR330 3-45 5-14 2N3384 P JFET 2N3384 3-5 5-38 1N5311 CL N JFET CR360 3-45 5-14 2N3386 P JFET 2N3386 3-5 5-38 1N5312 CL N JFET CR390 3-45 5-14 2N3436 N JFET 2N3436 3-6 5-19 1N5313 CL N JFET CR430 3-45 5-14 2N3437 N JFET 2N3437 3-6 5-19 1N5314 CL N JFET CR470 3-45 5-14 2N3438 N JFET 2N3438 3-6 5-19 2N2386 P JFET 2N608 2N3452 N JFET 2N4340 2N2386A P JFET 2N609 2N3453 N SFET 2N4338 2N2497 P JFET 2N3329 2N3454 N JFET 2N4338 2N2498 P JFET 2N3330 2N3455 N JFET 2N4340 2N24
300MHz, <35/32ns 2a TO-52 BSX 36 _ 2N 3452 USA, Tix N-FET Uni, 50V, Idss>0,8mA, Up<9,8 5k T0-72 2N3365 2.N 3453 USA, Tix N-FET Uni, 50V, Idss>0,2mA, Up<4,8 5k TO-72 2SK40, 28K46, 2SK59 2N 3454 USA, Tix N-FET Uni, 50V, idss>0,05mA, Up<2,3 5k TO0-72 2N3367, 2N3370, 2N4118 2.N 3455 USA, Tix N-FET Uni, 50V, idss>0,8mA, Up<9,8 5k T0-72 2N3365 2 N 3456 USA, Tix N-FET Uni, 50V, idss>0,2mA, Up<4,8 5k TO-72 28K40, 2SK46, 2SK59 2N3457 SUSATix,N-FET Uni, 50V, Idss>0,05mA, Up<2,3 5k T0-72 2N3367, 2N3370, 2N4118 2.N 3458 USA,Mot,Tix N-FET Uni, In, 50V, Idss>3mA, Up<8 2b TO-18 BF 244A, BF 245A, 2N3819, 2N3823, ++ 2.N 3459 USA,Mot,Tix N-FET Uni, In, 50V, Idss>0,8mA, Up<4 2b 10-18 2N5359 2N3460 _CUSA,Mot, Tix N-FET Uni, In, SOV, Idss>0,2mA, Up<2 2b T0-18 2N3367, 2N3370, 2N4118 oe 2N 3461 Cen,Gpd Ge-P LF Drv, 60V, 3A, 5W(Te=25) 2a T0-5 _2N1039...41, 2N2565...67 2.N 3462 Amp Si-N Uni, 50V, 0,034, 0,3W, >10MHz 2a T0-18 BC 167, BC 182, BC 237, BC 547, ++ 2.N 3463 Amp Si-N Uni, 60V, 0,03A, 0
00M | A | 175 60 45 | 0] 100] 300 10* 0.5 10M 150] E 60M | T 2N3352 si P DFA 300M] A | 175 60 45 | 0 | 100] 300 10* 0.5 10M 150] E 60M | T 2N3353 thru Thyristors, see Table on Page 1-154 2N3364 2N3365 thru Field Effect Transistors, see Table on Page 1-166 2N3370 2n3371 | G| P| | [eral isom]a|ioo{| 25| 10}/o| 20| 300] 12m 25{ | 320M 1-138 Numerical Index FIELD-EFFECT TRANSI Cc NSISTORS INDEX 2N2386-2N3458 = Ipss loss ayatage Yis NF @ f 7 = PAGE * dB 1 TYPE < - Ibco Ciss | 2| NOTE = | NUMBER | Min Max Vier: | Sub- | Min Max ue 12 mA mA nA Volts | script | mhos { mhos pF | \AWz 1 > 2N2386 P 10 20 | GS 1000 50 2N2497 P 1.0 5.0 10 20 | GD 1000 2000 32 3.0 1.0 K 2N2498 P 2.0 6.0 10 20 | GD 1500 3000 32 3.0 1.0 K 2N2499 P 5.0 15 10 20 | GD 2000 4000 32 4.0 1.0 K 2N2500 P 1.0 6.0 10 20 | GS 1000 2000 32 1.0 1.0 K 2N2606 P 0.1 0.5 1.0 30 | GDs 110 6.0 3.0 1.0 K 2N2607 P 0.3 1.5 3.0 30 | GDS 330 10 3.0 1.0 K 2N2608 P 0.9 4.5 10 30 | GDS 1000 17 3.0 1.0 K 2N2609 P 2.0 10 30 30 | GDS 2500 30 3.0 1.0 K 2N2620
72 2N3332 8923 TO-72 F2N42214 N TO-72 2N4221A 5625 TO-72 2N3365 N TO-18 2N4340 5202 TONS 2N4222 N TO-72 2N4222 5625 TO-72 2N3368 N TO-A8 2N3368 5202 TO-18 2N42224 N TO-72 2N4222A 5525 TO-72 2N3369 N TO18 2N3369 5202 TOA8B .2N4223 N TO-72 2N4223 5025 TO-72 2N3370 N TOAB 2N3370 5202 TO18 9 2N4224 N TO-72 2N4224 025 70-72 2N3376 P TO-72 2N.3329 8923 TO-72 2N4302 N TO-106 PN4302-18 5272 TO-92 2N3378 P TO-72 2N3330 8923 TO-72 | 2N4303 N TO-106 PN4303-18 5272 TO-92 2N3380 P TO-72 2N3331 8923 TO-72 | 2N4304 N TO106 PN4304-18 5272 TO-92 2N3362 P TO-72 2N5116 8811 TO-72 | 2N4338 N TO-18 2N4338 202 TOA 2N3384 P TO-72 2N6115 8811 TO-72 | 2N4339 N TO-8 2N4339 5202 TO-8 2N3386 Pp TO-72 2N5114 8811 TO-72 4 2N4340 N TO-18 2N4340 5202 TO-18 ~~ RNGS36 N TOA8 2N4222 5525 TO-72 7 2N4341 N TO-18 2N4344 5202 TO-48 2N3437 N TO18 2N3968 5525 TO-72 J 2N4342 P TO-106 PN4342.18 8971 TO-92 2N3438 N TOA8 2N5358 5525 TO-72 | 2N4360 P TO-106 PN4360-18 8971 TO-92 2N3453 N TO-72 2N4119 325 TO-72 | 2N4381 Pp TO-18 2
72 2N3332 8923 TO-72 F2N42214 N TO-72 2N4221A 5625 TO-72 2N3365 N TO-18 2N4340 5202 TONS 2N4222 N TO-72 2N4222 5625 TO-72 2N3368 N TO-A8 2N3368 5202 TO-18 2N42224 N TO-72 2N4222A 5525 TO-72 2N3369 N TO18 2N3369 5202 TOA8B .2N4223 N TO-72 2N4223 5025 TO-72 2N3370 N TOAB 2N3370 5202 TO18 9 2N4224 N TO-72 2N4224 025 70-72 2N3376 P TO-72 2N.3329 8923 TO-72 2N4302 N TO-106 PN4302-18 5272 TO-92 2N3378 P TO-72 2N3330 8923 TO-72 | 2N4303 N TO-106 PN4303-18 5272 TO-92 2N3380 P TO-72 2N3331 8923 TO-72 | 2N4304 N TO106 PN4304-18 5272 TO-92 2N3362 P TO-72 2N5116 8811 TO-72 | 2N4338 N TO-18 2N4338 202 TOA 2N3384 P TO-72 2N6115 8811 TO-72 | 2N4339 N TO-8 2N4339 5202 TO-8 2N3386 Pp TO-72 2N5114 8811 TO-72 4 2N4340 N TO-18 2N4340 5202 TO-18 ~~ RNGS36 N TOA8 2N4222 5525 TO-72 7 2N4341 N TO-18 2N4344 5202 TO-48 2N3437 N TO18 2N3968 5525 TO-72 J 2N4342 P TO-106 PN4342.18 8971 TO-92 2N3438 N TOA8 2N5358 5525 TO-72 | 2N4360 P TO-106 PN4360-18 8971 TO-92 2N3453 N TO-72 2N4119 325 TO-72 | 2N4381 Pp TO-18 2
2N3370 iconix n-channel JFETs designed for... = Small-Signal Low Power Applications * ABSOLUTE MAXIMUM RATINGS (25C) Gate-Drain or Gate-Source Voltage (Note 1) . . . .-40V Gate Current . . 2... ww eee 10mA Total Device Dissipation at (or below) 25C Free-Air Temperature (Note 2) . 300 mw Storage Temperature Range ... . -65 to +175C Maximum Operating Temperature... .. . 150C *ELECTRICAL CHARACTERISTICS (25C unless otherwise noted) Siliconix Performance Curves NP See Section 5 TO-18 See Section 7 BD G Gc s D s NOTES: 2. Derate linearly to 150C free-air temperature at rate of 2.7 mw/c, 2N3368 2N3369 2N3370 ; Characteristic Unit Test Conditions Min Max Min Max Min Max : ' Gate Ri c = = oe La 30 V, Vps =0 _ ate Reverse Current =- : = 2} | oss 15 15 15] wa | oS os 100C Gate-Source 3) 5 | 8YGSS Breakdown Voltage 40 -40 -40 IG=-1HA, Vos =0 a Gate-Source Cutoff = 4 t VGS(off) Voltage -11.5 -6.5 -3.2 Vps = 20V,Ip =1HA Phe Drain Cutoff C 5 5 8 nA Vv 20V,V () rain Cuto urrent = ' = Dioff) (-12.0)
H FE 2N3459 SEE FET INTERCHANGEABILITY LIST 2N3366 NCH |FE 2N3460 SEE FET INTERCHANGEABILITY LIST 2N3367 NCH |FE SEE FET INTERCHANGEABILITY LIST 2N3368 NCH | FE 2N3458 SEE FET INTERCHANGEABILITY LIST T 2N3369 NCH |FE 2N3460 SEE FET INTERCHANGEABILITY LIST 2N3370 NCH |FE 2N3460 SEE FET INTERCHANGEABILITY LIST 2N3374 NPN | RF sw 80 80 | 10 170 3 150 230 2N3376 PCH |FE 2N3329 SEE FET INTERCHANGEABILITY LIST 1 3-30 TEXAS, INSTRUMENTS NCORPORATE POST OFFICE BOX 5012 * DALLAS, TEXAS 75222TRANSISTOR INTERCHANGEABILITY MASTER LIST OF REGISTERED TYPES MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS n Pr he TYPE REPLACEMENT bee VCE (sat) e f NUMBER OR NEAREST Ta-25c | Veso Ycto 1 kite EQUIVALENT *Te= 25C MIN MAX @ Ic |MAX @ Ic/| MIN | MIN (mw) {V) (v) (mA} | (V) (mA) (MHz) 2N3377 PCH |FE SEE FET INTERCHANGEABILITY LIST 2N3378 PCH |FE SEE FET INTERCHANGEABILITY LIST 2N3379 PCH | FE SEE FET INTERCHANGEABILITY LIST 2N3380 PCH |FE | 2N3331 SEE FET INTERCHANGEABILITY LIST q 2N3381 PCH | FE SEE FET INTERCHANGEABILITY
72 2N3332 8923 TO-72 F2N42214 N TO-72 2N4221A 5625 TO-72 2N3365 N TO-18 2N4340 5202 TONS 2N4222 N TO-72 2N4222 5625 TO-72 2N3368 N TO-A8 2N3368 5202 TO-18 2N42224 N TO-72 2N4222A 5525 TO-72 2N3369 N TO18 2N3369 5202 TOA8B .2N4223 N TO-72 2N4223 5025 TO-72 2N3370 N TOAB 2N3370 5202 TO18 9 2N4224 N TO-72 2N4224 025 70-72 2N3376 P TO-72 2N.3329 8923 TO-72 2N4302 N TO-106 PN4302-18 5272 TO-92 2N3378 P TO-72 2N3330 8923 TO-72 | 2N4303 N TO-106 PN4303-18 5272 TO-92 2N3380 P TO-72 2N3331 8923 TO-72 | 2N4304 N TO106 PN4304-18 5272 TO-92 2N3362 P TO-72 2N5116 8811 TO-72 | 2N4338 N TO-18 2N4338 202 TOA 2N3384 P TO-72 2N6115 8811 TO-72 | 2N4339 N TO-8 2N4339 5202 TO-8 2N3386 Pp TO-72 2N5114 8811 TO-72 4 2N4340 N TO-18 2N4340 5202 TO-18 ~~ RNGS36 N TOA8 2N4222 5525 TO-72 7 2N4341 N TO-18 2N4344 5202 TO-48 2N3437 N TO18 2N3968 5525 TO-72 J 2N4342 P TO-106 PN4342.18 8971 TO-92 2N3438 N TOA8 2N5358 5525 TO-72 | 2N4360 P TO-106 PN4360-18 8971 TO-92 2N3453 N TO-72 2N4119 325 TO-72 | 2N4381 Pp TO-18 2
72 2N3332 8923 TO-72 F2N42214 N TO-72 2N4221A 5625 TO-72 2N3365 N TO-18 2N4340 5202 TONS 2N4222 N TO-72 2N4222 5625 TO-72 2N3368 N TO-A8 2N3368 5202 TO-18 2N42224 N TO-72 2N4222A 5525 TO-72 2N3369 N TO18 2N3369 5202 TOA8B .2N4223 N TO-72 2N4223 5025 TO-72 2N3370 N TOAB 2N3370 5202 TO18 9 2N4224 N TO-72 2N4224 025 70-72 2N3376 P TO-72 2N.3329 8923 TO-72 2N4302 N TO-106 PN4302-18 5272 TO-92 2N3378 P TO-72 2N3330 8923 TO-72 | 2N4303 N TO-106 PN4303-18 5272 TO-92 2N3380 P TO-72 2N3331 8923 TO-72 | 2N4304 N TO106 PN4304-18 5272 TO-92 2N3362 P TO-72 2N5116 8811 TO-72 | 2N4338 N TO-18 2N4338 202 TOA 2N3384 P TO-72 2N6115 8811 TO-72 | 2N4339 N TO-8 2N4339 5202 TO-8 2N3386 Pp TO-72 2N5114 8811 TO-72 4 2N4340 N TO-18 2N4340 5202 TO-18 ~~ RNGS36 N TOA8 2N4222 5525 TO-72 7 2N4341 N TO-18 2N4344 5202 TO-48 2N3437 N TO18 2N3968 5525 TO-72 J 2N4342 P TO-106 PN4342.18 8971 TO-92 2N3438 N TOA8 2N5358 5525 TO-72 | 2N4360 P TO-106 PN4360-18 8971 TO-92 2N3453 N TO-72 2N4119 325 TO-72 | 2N4381 Pp TO-18 2
Transistor 2N3330 J2N3330 JFET.SLB * * Junction Field-Effect Transistor 2N3331 J2N3331 JFET.SLB * * Junction Field-Effect Transistor 2N3332 J2N3332 JFET.SLB * * Junction Field-Effect Transistor 2N3369 J2N3369 JFET.SLB * * Junction Field-Effect Transistor 2N3370 J2N3370 JFET.SLB * * Junction Field-Effect Transistor 2N3458 J2N3458 JFET.SLB * * Junction Field-Effect Transistor 2N3459 J2N3459 JFET.SLB * * Junction Field-Effect Transistor 2N3460 J2N3460 JFET.SLB * * Junction Field-Effect Transistor 2N3684 J2N3684 JFET.SLB * * Junction Field-Effect Transistor 2N3685 J2N3685 JFET.SLB * * Junction Field-Effect Transistor 2N3686 J2N3686 JFET.SLB * * Junction Field-Effect Transistor 2N3687 J2N3687 JFET.SLB * * Junction Field-Effect Transistor 2N3819 J2N3819 JFET.SLB * * Junction Field-Effect Transistor 2N3820 J2N3820 JFET.SLB * * Junction Field-Effect Transistor 2N3821 J2N3821 JFET.SLB * * New for 8.0 Device Type Generic Name Mfg. Name Symbol Name Library Tech Type Model Package Junction Fiel
2N3370 iconix n-channel JFETs designed for... = Small-Signal Low Power Applications * ABSOLUTE MAXIMUM RATINGS (25C) Gate-Drain or Gate-Source Voltage (Note 1) . . . .-40V Gate Current . . 2... ww eee 10mA Total Device Dissipation at (or below) 25C Free-Air Temperature (Note 2) . 300 mw Storage Temperature Range ... . -65 to +175C Maximum Operating Temperature... .. . 150C *ELECTRICAL CHARACTERISTICS (25C unless otherwise noted) Siliconix Performance Curves NP See Section 5 TO-18 See Section 7 BD G Gc s D s NOTES: 2. Derate linearly to 150C free-air temperature at rate of 2.7 mw/c, 2N3368 2N3369 2N3370 ; Characteristic Unit Test Conditions Min Max Min Max Min Max : ' Gate Ri c = = oe La 30 V, Vps =0 _ ate Reverse Current =- : = 2} | oss 15 15 15] wa | oS os 100C Gate-Source 3) 5 | 8YGSS Breakdown Voltage 40 -40 -40 IG=-1HA, Vos =0 a Gate-Source Cutoff = 4 t VGS(off) Voltage -11.5 -6.5 -3.2 Vps = 20V,Ip =1HA Phe Drain Cutoff C 5 5 8 nA Vv 20V,V () rain Cuto urrent = ' = Dioff) (-12.0)
36 P 0.3 1.0 10 20 | Gss 600 1800 30 Dual 2N3365 N 0.8 4.0 5.0 40 | DGO 250 1000 15 2N3366 N 0.2 1.0 5.0 40 | DGO 250 1000 15 2N3367 N 0.005] 0.25 5.0 40 | DGO 100 1000 15 2N3368 N 2.0 12 5.0 40 | DGO 1000 4000 20 2N3369 N 0.5 2.5 5.0 40 | DGO 600 2500 20 2N3370 N 0.1 0.6 5.0 40 ) DGO 300 2500 20 2N3376 P 0.6 6.0 3.0 30 | DGS 800 5.0 2N3377 P 0.6 6.0 3.0 30 | DGS 800 2300 | 4.0 2N3378 P 3.0 6.0 3.0 30 | DGS 1500 2300 | 5.0 2N3379 P 3.0 6.0 3.0 30 | DGS 1500 2300 | 4.0 2N3380 P 3.0 20 3.0 30 | DGS 1500 3000 | 4.0 2N3381 P 3.0 20 3.0 30 | DGS 1500 3000 | 4.0 2N3382 P 3.0 30 15 30 | DGS 4500 | 12500 2N3383 P 3.0 30 15 30 | DGS 4500 | 12500 2N3384 P 15 30 15 30 | DGS 7500 | 12500 2N3385 P 15 30 15 30 | DGS 7500 | 12500 2N3386 P 13 50 15 30 | DGS 7500 | 12500 2N3387 P 13 50 15 30 | DGS 5000 | 10000 2N3436 N 3.0 15 0.5 50 | pGo 2500 | 10000 18 2.0 2N3437 N 0.8 4.0 0.5 50 | pGO 1500 6000 18 2.0 2N3438 N 0.2 1.0 0.5 50 | DGO 800 4500 18 2.0 2N3452 N 0.8 4.0 0.1 50 | DGO 200 1200 | 6.0 2.0 2N3453 N 0.2 1.
D4&407 2N3350 2N4023 2N3486 D4 1E5 2N3 164 D&4C7 2N3365 J4868A 2N3493 BF 173 2N3199 D45C5 2N3366 J4867A 2N3500 D4&4R2 2N3200 D45C8 2N3367 J&A67A 2N3506 D4&2C6 2N3205 D45c4 2N3368 2N5458 2N3507 D4&2C6 2N3206 D457 2N3369 2N3821 2N3508 2N2369A 2N3210 2N3013 2N3370 J4&867A 2N3509 2N2369A 2N3211 2N3013 2N3374 2N3020 2N3510 2N3013 2N3217 TP3217 2N3375 D4&0E5 2N3512 2N3724 2N3218 TP3218 2N3376 2N3378 2N3526 D4&2R1 2N3219 TP3219 2N3380 2N5019 2N3546 2N4 208 2N3224 2N3923 2N3382 2N5019 2N3547 2N3962 2N3225 2N3923 2N3384 2N5019 2N3548 2N3962 2N3226 D4&4C5 2N3386 2N5018 2N3549 2N3962 2N3227 2N4 137 2N3390 MPS3390 2N3550 2N3962 2N3229 D42C7 2N3391 MPS3391 2N3553 D4 207 2N3241 2N2222 2N339148 MPS3391A 2N3554 D4 207 2N3241A 2N2222 2N3392 MPS3392 2N3565 BC 107 2N32b2 eNn2222 2N3393 MP53393 2N3563 PN3563-18 2N3242A 2N2222 2N3394 MPS3394 2N3565 PN3565-18 2N3244 D4 1E 1 2N3395 MPS3395 2N3566 PN3566-05 2N32465 D41b5 2N3396 MPS 3396 2N3567 PN3567-05 2N3246 2N2464 2N3397 MPS3397 2N3568 PN3568-05 2N3247 2N2484 2N3398
00M | A | 175 60 45 | 0] 100] 300 10* 0.5 10M 150] E 60M | T 2N3352 si P DFA 300M] A | 175 60 45 | 0 | 100] 300 10* 0.5 10M 150] E 60M | T 2N3353 thru Thyristors, see Table on Page 1-154 2N3364 2N3365 thru Field Effect Transistors, see Table on Page 1-166 2N3370 2n3371 | G| P| | [eral isom]a|ioo{| 25| 10}/o| 20| 300] 12m 25{ | 320M 1-138Numerical Index THYRISTOR INDEX (continued) 2N2889-2N3536 PAGE Ie Veom/Vrom Ty Isr Ver TYPE REPLACEMENT | GAGE i i les 2N2889 25 250 125 40 1.5 2N3001 0.35 30 150 0.02 0.7 2N3002 0.35 60 150 0.02 0.7 2N3003 0.35 100 150 0.02 0.7 2N3004 0.35 200 150 0.02 0.7 2N3005 0.35 30 150 0.2 0.8 2N3006 0.35 60 150 0.2 0.8 2N3007 0.35 100 150 0.2 0.8 2N3008 0.35 200 150 0.2 0.8 2N3027 0.5 30 150 0.2 0.8 2N3028 0.5 60 150 0.2 0.8 2N3029 0.5 100 150 0.2 0.8 2N3030 0.5 30 150 0,02 0.6 2N3031 0.5 60 150 0.02 0.6 2N3032 0.5 100 150 0.02 0.6 2N3091 110 600 125 70 2.0 2N3092 110 700 125 70 2.0 2N3093 110 800 125 70 2.0 2N3094 110 900 125 70 2.0 2N3095 110 1000 125 70 2.0 2N3096 110 1
| Min Max | Vos Ip Min Max @7Vo, | Min Max utVos | Max wt Vpg | Max ia Vag Max Pro Type () (WA) | (NAY (Vv) (V} (vy (V) (MAY | (mA) (mAD() |] (mS) (mS) EY) (oF) () | (pF) (V) (Q) cess 2N3369 -40 -10] -80 -30] -65] 20 10705 25 30 |06 25 30 20 80/30 30 | NJ 2N3370 -40 -10); -50 -30] -32] 20 107) 01 06 30 103 25 30 20 80130 3 | NU 2N3458 ~50 -10;-025 -30] 78} 20 102) 30 16 20 | 25 10 20 18 =-103. 0 30 | NJ 2N3459 ~50 -101-025 -30] 34] 20 102708 40 207315 60 20 18 -637 50 30 | NJ1G 2N3460 ~0 -10}-025 -30 = 18} 20 1071 02 10, 20 }08 45 2 18 -43, 50 30 _|_NJI6 2N3821 -50 -10) -01 -30] 40} 10 10/05 25 1 15 45 15 60 18] 20 15 | NJ16 2N3822 -0 -10) -01 ~30 60} 10 10/20 0 #15 330 65 15 60 15| 20 15 | NJ32 2N3967 -3% -10) -01 -20 20 50] 20 10/25 10 20 | 25 2 0 204 13 204 | | NJ26 2N3967A -30 -10 01 -20; -20 $0] 20 10/25 10 20 | 25 2 50 20513 204 {| | N26 2N3968 -30 -10] -01 -20| -30] 20 10,10 50 20 | 20 20 50 205 13 205 | | NJ26 2N3968A ~30 -10) -01 -20] 30] 20 10/10 50 2/20 ~ 2 0 20% 13 9208 | | NJ26 2N396