SYMBOLS & CODES EXPLAINED IN TYPE No. CROSS-INDEX & TECHNICAL SECTIONS A Z % RT ... Replacement Type; consult manufacturer. Indicators of separate manufacturers producing same type number (non-JEDEC) whose characteristics are not the same. This manufacturer-identifying symbol (assigned by D.A.1.A.) is an integral part of the type number {in Type No. Cross Index, Technical Data Sections) to avoid the possibility of confusing the devices of one manufacturer with the devices of others. SYMBOLS & CODES COMMON TO MORE THAN ONE TECHNICAL SECTION LINE No. Vv New Type Revised Specifications # Non-JEDEC Type manufactured t_ @- TYPE No. outside U.S.A. i 6 , i LINE TYPE OLL. IN |M E[BVel No. No. DISS. | fab [FREE |A M @25C AIR. [XP Ww we vi ; @ With infinite heat sink Following symbols indicate temperature at which derating starts: T- 40c i- ec = 100% * 45C - 7C 4 Min. #-~ 50C =A 85C T- tae Gain bandwidth product (f,) %* Maximum frequency of oscillation QD ~ Figure of merit (frequency for unity power gain} A Minimum Z- Maximum Q ~ With infinite heat sink E * 50-65C A Ambient 70-80c C Case # - 85-100C J Junction # 110-125C S Storage T 130-135C $ 140-165C 170-200C Over 200C STRUCTURE (All Sections A Alloy Except 6 & 7} Switching type, also listed in Section 12 AN Annular - a . . D ~ Diffused or drift Chopper, also listed in Section 13, Category 10 pM Diftused These types also included elsewhere with other E 7 E, tons fee characteristics. See Type No. Cross Index for pt axial : EA Epitaxial annular alternate line no. EM Epitaxial mesa Radiation Resistant Devices, also listed in FE _ Feeed Section 13, Category 13, G ~ Grown GA Gallium Arsenide H Hometaxial MA Mico alloy MD Micro alloy diffused ME Mesa MOS Metal oxide silicon PA, Precision alloy PC Point contact PD Precision alioy diffused PE Ptanar epitaxial PL Planar Ss Surface barrier * Matched pair A Switching, other uses Z Chopper, other uses Z Noise figure 8db or below t Plastic package % Overlay ye i \ I ' Mai , cao |BVebo | Icbo. BIAS Cob |STRUC|Y200 le 0 le @MAX! Veb le hfe hoe hie hre -TURE | s/a JAD Veb TO200/D E Vv) A) Al Vv (A) mh 1 Ser, 9 fe QD lo A- lp b h parameters are Pope Pine Mb 74] Maximum D Vee 0) t- Nee A Minimum Pulsed Maximum At Va, Max. V., (See Mfr. Spec.) # aise 68 CB 8 hee Typical CEX yptca %* Available in selected ranges -1 * ~ 'cER CES AtTemp.> 28 =A 'cEO ~ AtTemp. 25C Case # Pulsed or Peak ~ i hb - q iis 7] Maximum $ Co T-c, $ Minimum po $ Tetrode # - BVcex or punch-through D av # Radiation Resistant Device CES (A - BV eo (sus) {Also See Above) .- BVoER * Pulsed $- Indicates min. valves given for BY cb, EV ceo, and BV abo,. = IN ORDER OF (1) MAX COLLECTOR DISSIPATION 4. SILICON PNP - LOW POWER TRANSISTORS (fab) TYPE Ne LIMAX.|2] |DERATE ABS MAX RATINGS @25C) MAX. TYPICAL h PARAMETERS | DWG Cc TYPE OLL. IN Icbo BIAS COMMON EMITTER Cob iSTRUC/Y200 |E O No. DISS. | fab FREE @MAX) Vcb le hfe hoe hre -TURE | s/a |AD @26C AIR Vcb T0200'D E (W) (Hz) W/'C (A) (V)_ | (A) mhos} X.0001 | (Fi Ser. T# |BCT96B T5Om* [250M5 (625u , Ou 15.00 240 A 4.0p PEt ju47a \D 2 |2N4411 150m |400M&A/833u 5.0 5.0n# |.500 JOOS |E TO72 |G 3# |BSVSSAPt 150m |400M__|1.2m 50D 6.0p ui7e_ |E 4# |BSV55PT 150m |400M [1.2m 50D 6.0p ul7c [E 5 |FK3962 175m 40M8A| 1.0m 6.0 10n8d [5.00 19u 10 6.0pZ |DPLZ\ut7a 6 _|FV3962 175m 40M8A\ 1.0m 6.0 10n8d |5.08 19u 10 6.0 DPLZlu5a 7 + (FK3964 175m 50MS5A| 1.0m 6. 10nsS (5.08 25u 10 B [goPH DPL@lul7a 8 |FV3964 175m 50MSA\ 1.0m 6. 10n8 |5.0D 25u 10 2 |6.0pZ |DPL@/usa 9 |FK3502t 175m__|150M8A! 1.0m 5. 10ns | 10% 8.0p DPE |ut7b 10 {FK3503t 175m |150M8A11.0m 5. 10nsB | 103) 10mgl270 t# 8.0p) DPE [ul7b 11 |FV3502t 175m =| 150MA/ 1.0m 6. 10n8 | 108} 1O0mgi270 t# 8.0p1 |DPE juSb 12 |FV3503t 175m __|150M8Al1.0m 5. 10n8 | 100} 10mgi270 t# 8.0pi1_ {DPE |uSb 13 |FK2894t 175m [350M8A/ 1.0m 4. 10utZ |.500 | 30mg 75 t# 6.0p DPE jul7b |E FVY2894t 175m = |350M8A| 1.0m 4. jourp 50D | 30mg) 75 t# 6.0p |DPE ju5b IA BC250 200m 2.0m 5. 100n@_|1.00 |1.0md |_35 ta PES [x64 A V655 200m 2.0m 5. 50n |5.00 | 10m@)135 ft 15u 1.8 4.0p PL |TOIOE/A 0C430 200m* |.60M |1.9m 40uS {5.0% |1.0m 15 20u 4.0 30pf [AD |R41 OC430K 200m* |.60M |2.4m -40uZ 15.0 |1.0m 15 20u 4.0 30p4_|A\ R43 0C440 200m* |.60M [1.9m 40u% (5.08 |1.0m 15 20u 4.0 Opi TAD [A417 oc445 200m* |.60M 1.9m 40uS |5.00 |1.0m 15 20u 4.0 30pZ jAD R41 C450 200m* |.80M__|1.9m A0uM 15.0% _|1.0m 15 20u 4.0 30p JAZ [R41 0C443 200m* {1.0M [1.9m .10us 15.00 11.0m | 25 25u 5.0 30pl [A R41 oc449 200m* |1.0M | 1.9m 60ud [5.00 110m | 25 25u 6.0 30p4 |AD {R41 OC465 200m*_ |1.0M 1.9m 40uD__ {5.00 | 1.0m 25 25u 5.0 30p4 |AZ_ |R41 0C469 200m* [1.0M 11.9m 40um [2.00 | 20mg, 20 Tf 30pa A R41 OC460 200m* |1.2M = [1.9m 40uZ 15.00 11.0m | 30 25u 6.0 30pZ |AD [R41 0C466 200m* |1.2M __|1.9m 40um [5.0 |1.0m_ | 30 25u 5.0 30p_ [AZ _|R41 0C470 200m* [1.2m [1.9m 40um |5.00 [1.0m | 30 25u 6.0 30pA [AZ [R41 0C467 200m* }1.5M |1.9m 10uG, |5.0D ]1.0m_ | 30 25u 7.0 30p/ jA R4t 2N260 200m__{11.8M__|1.5m ing [6.0 |10m@{ 16 2tp A 2N260A 200m (1.8M [1.5m | 1nZ [6.0 [1.0m 16 21p [A 2N261 200m |1.8M )1.5m inZ 16.0 |1.0m%] 10 21p_ |A OC468 200m* |2.5M 1.9m 40ud__|5.0% | 1.0m 60 40u__ |2.5k 7.0 30pH [AZ |R41 2N262 200m |6.0M [1.5m in@ [6.0 11.0m%! 20 | Zip A 2N262A 200m |6.0M |1.5m ind 16.0 |1.0m%| 20 21p |A 2SA494GR 200m 10M8A\2.0m 5.0 00n% |6.0% |100u_|220 2.8u 1.0 PEG? |R67a |B 2SA4940 200m TOM8A!2.0m 5.0 50OnS 16.00 1100u wo 900m PEG |R67a [8 2SA494Y 200m 10M8A[2.0m 5.0 500nZ /6.0M |100u_ | 140 1.6u 950m PE@ [R67a_ |B AT4504@ 200m 20MA$/ 1.6m 5.0 20n 10D/|1.0m@ |_ 60 ta 6.0pZ (PE |MM12aD AT451 200m 20MA8) 1.6m 5.0 20n 10B/100uG/200 A 6.0p4 (PE |MM12aD AT452 200m 20MA) 1.6m 5.0 20n 103 ;100uS| 60 A | 6.0p7 /PE |MM12aD AT453 200m 20MA$) 1.6m 5.0 20n 10%|100u%|200 A 6.0p_ |Pe |MM12aD 2SA567 200m_ | 100M 4.0 500n [6.09 |1.0m% [300 25u 4.0 TO 2SA568 200m |120M |2.0m 4.0 1.0ud [2.0% |150mgi 100 t# 10p {PEt |TO92 |D 2SA569 200m__{120M_|2.0m 4.0 1,0u 2.00 |150m| 100 t# 10p__||PEt |TO92 (D 2SA570 200m = /120M [2.0m 4.0 11.0u 2.0D 1150m) 100 tH 1Op |PEt /tTO92 |D DZ9A4 200m |340M8 |2.6m 4.0 100nD 14.5% | 50mg 90 t#A 8.0ps {PEM |TO9S |B DZ9A5 200m __|340M5 |2.6m 4.0 100nS_|4.5% | 50mg)225 tH 8.0ps_ |PEZ |TO98 |B 2S5A548 200m |400M 5.0 1.0u 6.0% |1.0md {100 3.0p PE BSW8it 200m |400M&A|2.0m 4.0 80nS |.50% | 30mg) 70 t# 6.0pf |PEt |x64_ |A 2N4973 200m __|800M8A|2.0m 3.0 25n@_|1.00 |3.0m~ | _ 20 ta 2.0p8 TO106|A RT2461 200m ([1.0G5A [1.2m 5.0 Olud 11.08 |3.0ms| 20 A 3p [PED [R38 RT2463 200m = |1.2G5A |1.2m 5.0 O1uS |6.0% |2.0md/ 20 a 70pA |PES |R38 A758A 220m__|130M8 |2.0m 5.0 5.0G |2.0m 1180 t PLt |IMM10/A A758B 220m |130M8 {2.0m 5.0 5.0% |2.0m% 1290 t PLt |MM10[A A7T59A 220m = {130M5 {2.0m 5.0 5.0 }2.0md | 180 t PLD |MMIO/A A759B 220m__|130M& |2.0m 5.0 5.04 |2.0mg |290 t PLO _|MM10 {1A GT 1644 225m |2.0M [1.8m 12 Tou /6.0% [1.0m 15 T.Oub 20 A TOS A3T2906t 225m = |200M&A/1.8m 5.0 20nM | 10%|1.0mG| 25 tA 12p |PEt |u44 |A A3T2906At 225m _ _|200MSA/ 1.8m 5.0 10nG_| 100;1.0me{ 40 tA L 12p4 |PEt |u44 JA A3T2907T 225m |200M8A/1.8m 5.0 20nB | 10%11.0mH | 50 tA | 12pA [Per [u44 |A A3T2907At 225m |!200M8A\ 1.8m 5.0 10n@ | 10Z/1.0m% }100 tA 12pf1 |PEet |u44 |A A3T2894t 225m _|400M8A! 1.8m 4.0 2.0utG 1.508 | 30md|_ 30 tAx 6.0pf7_|PEt |u44__|A BSW20t 235m* |130M8A/2.2m 5.0 100ng [1.08 [ 10mg 40 ta# 5.0psf (PE [u69 [F 0c480 240m 1.9m 2.0u 5.0 |1.0m 15 25u 6.0 40p R41 2N2709 240m __|.20MA_|1.8m 1.0uM_ [1.0% |.20mg| 10 tA | 85u 110 TOS OC463 240m [5.0M |1.9m 2.0u 5.00 ]1.0m | 30 100u 25p |A R41 2N258 250m 2.0m 50u !6.0 |1.0m iB A b 40p 2N259 250m 2.0m 5Ou_ |6.0 |1.0m_ | 32 A b 40p BCY49 250m 2.0m 10uS (6.08 |7.0mH/ 25 A AQ [T05 2N3586D 250m = |.10M8A | 1.4m 3.0uf |6.0% |1.0mH 11.0 A 18pZ X37 1 250m |400k__(|1.8m 100n__|.50@ |100uA|9.0 t b 50p {Ba __|TOS5 SL404 250m 500k 12u. [50 |100m | 10 fA | 50u 10pfA [OPE [u29 0C440K 250m* |60M = |2.4m 40uS [5.0% |1.0m 15 20u 4.0 30pA j|AS R43 OC445K 250m* |.60M [2.4m 40ug__ | 5.08 |1.0m 15 20u 4.0 30p4_ IA R43 C112 250m (700k [1.8m 7.0n 50% |100uA! 16 b 50p [BA C102 250m |800k | 1.8m 100n =|.50% |100uA| 13 b 50p_ [BA |TO5 OC450K 250m*_|.80M (2.4m 40udZ_|6.0% |1.0m 15 20u 4.0 30p/_|A' R43 C118 250m |1.0M 1.8m 1.0n@ (3.00 | 10ug! 16 Tf 50p A TO5 c119 250m |1.0M_ |1.8m 1.0nD |3.0% | 10uM} 25 t 50p_ [A TOS 0C443K 250m*_|1.0M___12.4m 10uM_ [5.0% |1.0m_| 25 25u 5.0 30p/_|A R43 OC448K 250m* |1.0M [2.4m 50uM [5.00 ]1.0m | 25 25u 6.0 30pi1 |AD [R43 OC465K 250m* |1.0M [2.4m 40uf (5.0% |1.0m | 25 25u 5.0 30pZ4 |AS {R43 OC469K 250m* |1.0M [2.4m 40uf {2.0% | 20mg) _ 20 t 3Qpi_ IA R43 C106* 250m =[1.2M [1.8m 100n (6.0% 11.0m@ | 50 50p TOS AD OC460K 250m* |1.2M = [2.4m 40uf [5.0% |1.0m | 30 25u 6.0 30pZ JAD [R43 OC466K 250m* |1.2M 2.4m A0uf |5.0S | 1.0m 30 25u 5.0 30p4 [AS [R43 0C470K 250m* [1.2M [2.4m 40ud 15,08 [1.0m | 30 25u 6.0 30p4 JAD [R43 OC467K 250m* |1.5M = |2.4m 10uf [5.0% }1.0m | 30 25u 7.0 30pd jAZ [R43 OC468K 250m* 12.5M |2.4m 40uS_|5.00 |1.0m | 60 40u 72.0 30pZ |AZ |R43 | 2N4284 250m |7.0MSA [2.0m 100ng (5.0 [7.0m {600 A |1.2ub 10 10pid u29 $200 250m {10.M8 |2.0m 10u |5.0M | 10mg 50 t 10p |PE |[u29 AT454 250m 40MA8|2.5m 5.0 20n 10G|100ug|_ 60 A 6.0p7 [PE |MM12aD AT455 250m 40M8A\ 2.5m 5.0 20n 103/100ug] 60 A 6.0p4 {PE |MM12dD MT1131 250m |80.M8 |1.7m 5.0 1.0u 10%|150mg) 35 t 35p jME |ui3 MT1131A 250m 80M8_|1.6m 5.0 500n 10Z/150mZ| 20 tA _|1,.0ub 8.0 30p |PE_|u13 MT 1132 250m |/80.M 1.7m 5.0 1.0u 103/150mg 60 Tf 35p (ME jul3 MT1132A4 250m |80.M {1.7m 5.0 .5Ou 108|150mZ} 60 t 35p |ME ju13 MT1132B 250m _ |80.M8_ 11.7m 5.0 Olu 10D [150mg_60 t 35p {PL |u13 _ MT1420 250m (80.M (1.7m 5.0 1.0u 104/150m 0 20p |P u13 MT1991 250m |80.M8 |1.7m 5.0 5.0u 10D] 150mg) tA 45p_ |PE ju13 MT2303 250m__[80.M_|1.7m 5.0 1.0u 104 {150m ta 45pi4 IPE ju13 _] MT 1254 250m 100M [1.7m 5.0 .20u 1.05 10m T 10p ME u13 MT 1255 250m |100M8 |1.7m 5.0 .20u 40D | 10mg] 607 | 10p |ME ju13 MT 1256 250m _|100M8_ |1.7m 5.0 | .20u 1.0 | 10m tt 10p_ _|ME_ |u13 MT 1257 250m [100M 1.7m 5.0 | ~{.20u 1.08 | 10m t 0p [ME {ut3 MT1258 250m {100M8 [1.7m 5.0 .20u 1.0% | 10mg) 110 t 10p |ME Ju13 MT1259 250m__|100M5 i1.7m 5.0 | .20u 1.0G | 10mg! 65 10p (IME [u13 _l 'USAF5 15ESO45MT | ly | [250m __|100M8A/ 1.4m 5.0 10nd _ | 10G| 10mg) 30 A 1.0uZb | 3204 | 204 |8Opzi jPE* (X34 D.A.T.A. SYMBOLS AND CODES EXPLAINED IN INTERPRETER 47