2. TRANZYSTORY38 Wykaz oznaczen parametrw technicznych pojemno kolektor - baza pojemnos aprzezenia zwrotnego w ukzkadzie waeplnego emitera /0E/ pojemnos aprzezenia zwrotnego w ukladsie waplnego rdia /0S/ czestotliwos pomiarowa czestotliwos graniczna wapltczynnik ssumdw maiosygnalowy zwarciowy wapzcsynnik przenossenia pradowego w OF prad bazy prad kolektora prad drenu . prad drenu przy zwarciu bramka ~ rdto Nes = 0/ i prsy okrelonym Uns prad bramki ' moc strat w kolektorze moc catkowita staia czasowa sprzezenia swrotnego pray W.cz. temperatura otoczenia temperatura obudowy temperatura 2racka czas wy zaczania ezas wiaczania eZas przekaczania mapiecie kolektor - baza Mapiecie kolektor - baza, otwarty emiter napiecie kolektor ~ emiter napigcie kolektor ~ emiter, otwarta basa napiecie kolektor - emiter, basa swarta napiecie emiter - baza, otwarty kolektor | napiecie dren - rddto . napigoie bramka - dren napiecie stale bramka ~ rdto GS off napiccie odciecie bramka - rddto2.1. Tranzystory matej czestotiiwosci matej mocy Parametry dopuszczalne /tamb = 25C/ Vopo | Uczo|%epo | Tc | Ptot| *3 | ne tamb tote Grupa Oznaczenie I wyrobu . . ce Vv v v [ma | ow | % c c max | max | max | max | max | max . min i 3 > Ta) CTC SSO 6 9 10 BC 107 so | 48 | 8 | 100 | 300] 375 | -40 ... 4125|-55 ... 4150] A |110 B | 200 BC 108 30 | 20 | 8 | 100 | 300] 175 | -40 ... 4125/-55 24. +150] A | 110 B |200 c |400- BC 109 30 20 5 100 | 300] 175 | -40 ... +125/-55 ... +150 B {200 . c |400 BC 147 s0 | 48 | 6 | 100 | g00| 125 | -40 ... 4125/-55....4125] a [110 . , L B |200 BC 148 30 | 20 | 5 | 200 | 300| 125 | -40.... 4125/-55 2... 4125] A {110 B | 200 [400 Be 149 30 | 20 | 8 {| 200 | 300] 225 | -40~... +4125/-55 .., +125} B | 200 . c |400 BC 157 so | 45 | 5 | 100 | a00f 225 | -40 .,. +125/-55 ... +425] VI | 65 . aA 110 BC 158 30 | 28 | 5 | 100 | 300] 126 | -40 ... #125/-55 ... +425] VI | 65. ; } a 110 B | 200 BC 159 25 | 20 | 5 | 100] 300] 125 | -40 ... +125|-55 ... 4125] aA [110 . =. B |200 BC 177 - so | 48 | 5s | 200 |. 300] 175 | ~40 ... +125]-55 ... 4275] VI | 65 - aA 110 B | 200 BC 178 30 | 25 | 8 | 200 | 300] 275 | -40 .., +125/-55 .,, +175] VI | 65 A 410 B {200 BC 479 as | 20 | 58 | 100] a00| 175 | ~e0 .., +126/-55 ... 2175] A | | 110 B |200 BC 214 so | 40 | -|1000 | 800] 175 | -40 .... +125/-65 ... +475] 6 403, : ; 10 6054 16 | 100BC Parametry charakterystyczne /tam = 25C/ Hoag e160 ky [fepo PF2Y Uce sat _*F x U | ce SV Ucg = 5 V Noy i, = 10 mA} Upp = 5 v n=-p-n 1, = 2 mA cr l,= 2m f: 4 kHz 1. 0,5 mA | I, = 0,2 mA ; Zasto~ Cc - B" e Me p-n-p sowa-~ | Obudowa _ , nie MHz | pF v Vv. aB min max max |/typ/ max | min | max | /typ/ |/typ/ /typ/ wax |. ii 12 13 14 15 16 "4% 18 # {[ 20 240 125 260 | 150 | 6 10 0,25 10 N a CE 22 480 240 500 ". uq 240 125 260 150 | 6 10 0,25 10 No a* | CE 22 480 240 500 a 850 450 900 480 240 500 150 | 6 10 0,25 4 N b CE 22 850 450 900 + 240 | 125 260 | 150 | 4,5 | 10 0,25 40 N CE 36 480 >| 240 500. 240 125 260 150 | 4,5 | 10 0,25 #0" N CE 36 480 240 500 850 450 900 480 240 500 150 | 4,5 | 10 0,25 e N b CE 36 859 450 900 150 15 150 | /150/] 6 10 0,2 10. P CE 36 240 125 260 150 15 150 | /150/| 6 10 0,2 10 P CE 36 240 125 260 480 240 500 240 | 125 260 | /150/| 6 10 0,2 : 4 P b CE 36 480 240 500 : 150 75 150 100 .| 7 10 /0,8/ 10 P CE 22 S 240 125 260 480 240 500 150 75 150 100 | 7 10 /0,1/ 10 P CE 22 240 125 260 480 240 500 a 240 125 260 100 | 7 10 /0,3/ 4 P b CE 22 480 240. { 500 , 10054 so |2s | /10/ 49/ N e CE 23 3/ 16057 eB : 250 391 2 3 5 6 q 8 9 10 11 BC 214 A 400 | 60 1000 | 8001175 | -40 ... +125}/-65 ... +175 6 403/ 1003/ : 10 | 605 1605/ 16 {100 250 | BO 237 45 | 45 100 | 300]150 | ~25 ... +85 |-55 ... +150 A [410 240 | B }200 480, BC 238 20 | 20 100 | 300| 150 | ~25 ... +85 |-55 ... +150 A |at0 240 B |200 +480 c 1450 900 BC 239 20 20 400 | 300/150 | -25 ... 485 |-55 ... +150 p [200 480 Cc 450 900 BC 307 50 | 48 100 | 300| 450 | -25 ... +85 [-55 1... +150 vI | 65 "1450 A {410 240 BC 308 30 | 25 400 | 300] 150 | -25 ... +85 |-55 ... +150 vi | 65 150 A {110 240 B |200 480 BC 309 25 | 20 100 | 300| 450 | ~25 ... +85 |-55 ... +150 A {110 240 B {200 480 - BC 343 60 | 40 2000 | 800] 175 | ~40 ... +4125/-65 .., #175 6 .| 4024 1009/ 10 605/ 16057, 46 |100 2504 BC 337 50 | 45 aco | soo| sso | -25 .,. +85 |-55 ... +150 | 10 | 6044 16047 16 |1004/ 250;/ 25 |160 400. : 4/ 4} BC 338 30 | 28 goo | 500| 150 | ~25 ... +85 |-55... +150 | 10 | 60,/ 16044 16 | 1004/ 25047) 25 |160 400 BC 393 180 | 180 100 | 400| 200 | -40 ... +125|-55 ... +200 so/ BC 4413 45 | 30 200 | 300| 150 | -25 ... +125)-55 ... +159 B |200 480. c |400 |. {850 / . BC 414 50 | 45 1200 | 3001150 | ~25 ... +125/-55 ... +150 B {200 480 c [400 1350 _ BC 527 45 45 50 | 300/150 | -25 ... +85 |-55 .. +150 I 90 240 II |180 450 111 |360 850 BC 528 20 | 20 50 | 300] 150 | ~25 ... +85 |-55 ... +150 1 | 90 240 11 |180 480 111/360 850 | BC 627 45 | 45 50 | 300/450 | -25 ... +85 |-55 ... +150 A /180/ . : B /290/ c /520/ BC 628 20 20 50 | 300] 150 | -25 ... +85 [-55 ... 4150 A /180/ B- /290/ c {520/ BCE 107 45 45 100 150 | 175 40 oee 125) -55 1... 175 A /180/ BCE 107 R B /290/12 13 | a4 | 45 16. 17 418 19 20 10034 so | 25 |710/ 13/ N e CE 23 1605 150 40 | 125 260 | 150 | .4,5| 10 0,25 10 N a CE 35 180, | 240 500 240 | 125 260 | 150 | 4,5| 10 0,25 410 N a CE 35 80 | 240 500 300 | 450 900 180 | 240 5s00-| 150 | 4,5| 10 0,25 4 N b CE 35 900 | 450 900 150 15 150 | 100 | 6 | 10 0,2 410 Pp a CE 35 240 | 425 260 150 15 1so | 100 | 6 | 10 0,2 10 P a cE 35 240 | 125 260 480 | 240 500 240 | 125} 260 | 100 | 6 | 10 0,2 4 P b CE 35 480 | 240 500 10034 50 | 30 |/10/ 19/ P e CE 23 250 1904) /150/ | /1/ |/10/ 0,7 - N o | cE 35 4004/ 16044 /180/ | /7/ |/10/ o,7/ N eo | cE 38 250 40047 so | 7 | 10 /0,28/ P e cE 22 480 | 240 500. | /250/ | /2,54 10 0,25 2,5 N b CE 35 850 | 450 900 4a0 {| 240:| Soo |/250/] /2,54 10 0,25 2,5 N b cE 35 850 | 450 900 c 240 } 100 240 | 150 | 4,5! 5 0,25 10 N CE 22 450 | 210 450 850 | 400 900 240 | 100 240 | ts0 | 4,5] 5 0,25 10 N c CE 22 480 210 450 . aso. | 400 900 100 240 | 150 | 4,5] 5 0,25 10 N CE 35 2140 450 400 900 . 100 240 | 150 | 4,5] 5 0,25 10 N CE 35 210 450 400 900 125 260 | 150 | 6 | 10 0,25 10 oN a CE 45 240 500 401 2 3 5 6 7 8 9 10 BCE 108 20 | 20 1001 180 | 175 |-40 .., #125 |-55 ... +175) A BCE 108 R B Cc BCE 109 20 | 20 100 | 150 | 175 |-40 ... +125] =<55 ... +175| B BCE 109 R c BCE 177 50 | 45 100 | 150 | 175 |~40 .,. 4125] -55 ... +175) VI | 65 BCE 177 R : A |110 B |200 BCE 178 30 | 25 100| 150 | 475 1-40 ,...4125 | -55 ... +175| vi | 65. BCE 178 R A {110 B |200 c |400 BCE 179 25 | 20 4001 150 | 475 |-40 ... +125] -55 ... #175] B |200 BCE 179 F . c |400 Bew 29 R BCW 30 30 | 20 400] 200 | 150 |~40 ... +125 | -55 ... +150 260 BCW 30 R BCW 34 30 | 20 100 | 200 | 150 [~40 ... 4125455 ... +150 1110 BCW 31 R BCW 32 30 | 20 100} 200 | 150 |[-40 ... +125 | -55 ... +150 200 BCW 32.R ; BCW 33 30 | 20 400} 200 | 150 |-40 ... +425 | -55 2... +150! 420 BOW 33 R BCW 69 50 | 45 100| 200 | 150 |-40 ... +125 | -55 2... +150 120 BCW 69 R . BcW 70 50 | 45 100| 200 | 150 |~40 ... +4125 | -55 ... +150 1260 BcW 70 R BOW 74 50 | 45 100 | 200 | 450 |-40 ... +125 | -55 ... +150 110 BOW 71 R . BCW 72 50 | 45 100 | 200 | 150 |-40'... #125 | -55 ,.. +150 200 BCW 72 R BCX 17* 45 1000| 340 | 150 |-40 ... #125 | -65 ... +150 1004/ BCX 17 R* BCX 18 25 1000 | 310 | 150 |~40 ... +425 | ~65 ... +150 -|a00%/ BCX 18 RB : BCX 197 45 1000 | 310 | 150 |-40 .., +125 | -65 ... +150] 4008 BCX 19 R* BCX 20% 25 1000 | 310 | 150 |-40 .., +125] -65 ... +150 1004/ BCX 20 R* a stopnie wejsoiowe maze J ezestotliwodei; b stopnie matej czestotliwosci niskoszumow e stopnie sterujgce i wyjciowe sredniej mocy 3/ 17 ray Ip = 0,5 As Ip = 0,05 Aj pray Ig = 150 mA; Ugg = 2 V; pray Ip =1 A; x nowe uruchomtenta20 44 12 43 | 14 45 46 47 18 49 /180/ 125 260 | 150 | 6 10 0,25 :10 N \d CE 45 /290/ 240 500 7520/ 450 900 /290/ 240 500 | 150 | 6 10 0,25 4 N a CE 45 /520/ 450 900 ; ; $5 150 15 150 |/250/ | 6 10 0,2 40 P a cE 45 110 240 \| 425 260 200 480 240 500 65. 150 15 150 |/250/ | 6 10 0,2 40 P a | -ce as] 110 240 125 260 } 200 480 240 500 4 400 850 450 900 1 200 430 240 s00 | /250/ | 6 10 0,2 ry P a } 0B 45. 400 850 450 900 420 215 /150/ | 7 10 0,3 10 P CE 46 260 500 /150/ | 7 40 0,3 40 a CE 46 410 220 /300/ | 4 10 0,25 10 M a CE 46 200 450 /300/ | 4 10 0,25 20 x a CE 46 ab . * 420 800 /300/ | 4 10 0,25 10 N a | cE 46 430 215 /150/ | 7 10 0,3 10 Pp Pn CE 46 Pe. 260 500 /150/ | 7 40 0,3 40 P a CE 46 110 220 /300/ | 4 40 0,25 40 N a | cE 46 :200 450 /300/ | 4 10 0,25 10 N a CE 46 10047 6004 soo | 8 10 0,6 P a. | cease 400%! 600% 100 | 8 10 o,a!/ P a CE 46 a00%/ eoof/ 200 | 5 10 o,6'/ N a | cE 46 soo4/ 6004/ 200 | 5 10 0,61/ N a CE 46 szumowe; c stopnie wejsciowe i sterujace mate} czestotliwosci; d& ukiady hybrydowe; af, 1 5 4A; Ty = 0,1 a; / pray Ip = 100 ma; Uy =.4 V / przy Ig = 10 mA; Upg = 10 V 41006 | 09% o 007] 9 ; te 002 | OFZ os ooz| a ee 9 e N ot 0z*o ot | s'v | oat | ose! set oF ott) Vv Lt | o00c | COT Q oz oz 80 dv9a 00s | ove | 08 ooz| @ go] N ot 02*o ot | atv | oot | o92| set or ott; git} 00e | COT g st sv Lo avog coe | ose | oss 00%| 9 @ 6L avo" 9v 3D ? d , so ot 9 |/oSszf 008] OFZ o8 ooz| @ gut | ost | oot 02 az 62 AVE . 00s | osy | oss 007| 9 OOS | OFZ 08 002) @ 092 | szt ore ott| v a SL avOa av 9] P d ot zo ot 9 |/0S2/] ost} sz ost] 99 | IA | a2F [ost | oor | s | sz | oF SL avo | oos| ove | ogy} | ooze] a o9z | get ov ott] v a. LL avoa ov 30 P a ot zo ot 9 |/0Sz/| Ost | a2 oat 9 | IA gut | ost | oot g oY os LL avOE . 006 | os? /02S/ 9 u 60 aVOd ey 30 P R , azo ot ee /062/ a gzt | ost | oof 2 02 oz 60 IVOR 008 | ost. /ots/ 9 ' 00 | OFZ /062/ a . u 80 avOE av 39 a oF azo ot | . 9 | est | oot | set /oat/ v aut | Ost | oor | & oz 02 go avo" ; , oes | ov /o6z/ a Ww Lo avoT s 10 P a ot s2o ot 9 | ost | 092] a2t /oat/ v gut | ast | oot 3 oP at L0 4VO0 et ut ot | st w et | et] tt ot 6 8 L 9 9 e z t yaks /- /aka/ /4h4/ awe rem xeu ure xeu | uta xeu uUTta xeu |,xew yaw xeu xou xeu ap AU A. ad | sit 99 | a | va] A. A A ; eya : vaop a = . 9 nqorka -nao or8e2 doaad va s'os 1 Pay Fat tT 2 wage tT eTueZ9euzO , d va 2 * I : edurzy u-d-a va or = "r | a9, Age age x . . a 308 FD, kext 9995) 2; ory Itty fF, [9095] 9, | Od, /0md, [089, /9 = ae kekx kx Z y que, / eusoyues3 L1jouRr, 08? 9/ ouzokgekzeqyezeqo Axg0nure? / /0582 = 4/ euzoy % d. oeds 99g oujetoeds Aoow feyew rosomipoysdzo foyeu AsoysAzued ZZ 43A oy kead . A OT = n va oT /t AZz Bq yea ogt = oy kead ye Fopomt {3038920 Gaqeu caommssoxe TT perm gz Fosoazyeoyesiso fazum sotfn19eqs ~ eupposton Apezya @ vt=% ty to = Ty tera I euophiaqy Apergn op ez ao| a /82'0/ ot | 2 fos 7608 ooz | 60 | oot ost | ast] = 6 avoa} oos | oFz} ogF ooz| 22 z d , z'o ot L j/oot/| 092 | Szti oe OTT) Vv gut | Got | OOT 02 92 6L avoay ' oos | OFZ] O8F ooz} , 092 | Set} oF OTT} | . ee m0 d ot zo ot L |/OOE/] OST | SL ost s9 | IA @LT | OOF | COT 92 oc SL dvog ~ oos | ov] ogF ooz| ooz | cat] ang ott] v . ze 4 d ot zo ot L j/oot/| ost | s2 ost $9 | IA gut | OO | COT sy os LL. dVoa 0sz, OOF} 9f /2oat 4209 ot Z 19D e d / /OT/ oe} os 7zcot 720 9 Lt] 008 -| OOOT ov 09 et dvoa , eosr| | /200'| oF | ez 719 3 XR nt /0T/ sz] os 72008 y2ov | 9 gut] oo8 | OOOT 09 Oot} V Tt avod Jzo9t f259'| oF {2 | 7% . ee 30 N ut /OT/ gz} og /,200T 14208 9 SLt | 008 | CONT or | os Tt avod oo6 | ost| oss oor] 9 22 ao z N > o9 ot | o'r | ost | oos | ove ost coz] g2zt | oo | COT 02 oz 60 dvod et Lt ot Qt ot et at Tr ot 8 L 9 g c 2z t 442.3, Tranzystory matej czestotliwosci duze} mocy . Parametry graniczne tambo = 25/ Vepo | Yczo | Yeso| te Prot Pray | ty o toas tam *stg Grupa Oznaczenie _ wyronn viv fy A we} | % C. _max | max max max ; max max w 1 20 a tr) s |e 7 8 9 10 at BD 135: 45| 45 | 5 | 0,5| 6,5] 60 | 125 |-40 ... +100 |-55 ... +125 BD 136 as| 45 | 5 | 0,5] 6,5 80 125 |-40 ... +100 | -55 ... +125 BD 137 60. 6o | 5 0,5 | 6,5 | 60 | 125 |-40 ... +100 | -55 oe. #125 BD 138 60 | 60 5 |-0,5| 6,5] 60 | 125 }-40 ... +100 | =-55 2... +105 BD 139 sol so | 8 | 0,5 | G,5|. 60 | 125 |-40 ... #100 )-55 ... +125 BD 140 so | 80 | 5 0,5 6,5 | 66 | 125 |-40 ... +100) -55 ... #125 { BD 354 eo} 40 ls 13 42,5 45 | 475 [-25 26. +85 J -55 ... +175) A C BD 355 sol 40 | 5 | 3 | 12,5] 45 | 475 |-25 ... +85 |-85 20. 4475] 4 3 BD 643 45 | 45 | 5 |g |e2,5| 25 | 150 }-40 wee #100 | 40 22. +150 Bp 644* as} 45 | s | 8 [62,5] 25 | 250 |-20..,., +100] -40 ... +150 BD 645 g60| eo |. 5 | 8 | 62,5] 25 | 180 |=40 ... +100 | 40... +150 BD 646* 60 eo | 5 | 8 |62,5| 25 | 150.)-40... #10 | -10 2... +150 pp 647 go! so | 5 | 8 |62,5| 25 | 150 |-40 ... #400} -10 ... +150 bp 643 so| so | 5 | 8 | 62,5} 25 450 [40 we. #100 | -40 ... +150 BD 649 100 | 100 5 | 8 62,5 | 25 450 40 aoe 4100 | -40 22, +150 BD 650* 400} 100 | 5 | 8 {62,5} 25 | 150 |-40 ... +100 | =40 ... +150 . , . i BDP 279 301 25 | 3 | 7 |40. | 25 | 4150 |-0 ... +100} -40 ... +150 ppp 280 s0| 25 | 3 | t [40 | 28 | 150 -40 ... +100 | -40 ... +150 BDP 284 ao; 30 | 5 | 7 40 25 | 150 ]-40 ,,, +100 | -40 ... +150 BDP 282 40) 30 | 5 | t [40 25 | 150 |-40 ... +100 | 40 soe +150BD Parametry charakterystyczn /tamb = 25%/ a - . = Howe Pray tq Copo Prey Ucesat PT2Y irupa _ to | Uce Ucp Ip/lp N hast ot asto~ N=Ppon sowa- gba , P nie owa A Vv MHZ pF Vv V AA : ; - p-n-p min hax min | max /typ/ | /typ/| max 44 12 13 | 14 45- 16 47 18 49 20 24 22 40] 250 |-0,is| 2 | /200/ 0,5 0,5/0, 05 N b CE 39 40/250 | 0,15|- 2 | /150/ 0,5 0,5/0, 05 P b CE 39 40] 160 | 0,15] 2 /200/ 0,5 -0,5/0, 05 N b CE 39 % . : : 40/160 | 0,15] 2 | /150/ 0,5 0,5/0,05 d CE 39 40/160 | 0,15! 2 | /200/ 0,5 0,5/0,05 N b =| cE 39 40/160 | 0,15; 2 | /150/ 0,5 0,5/0,05 | P b CE 39 A 30] 90 | a 2 10 0,75 2/0,2 N a CE 24 2 30 | 150 c 100 | 300 A 30] 90 | 4 2 10 0,75 2/0,2 -P a CE 24 3 50 | 150 100 | 300 , 750 3 3 1 /100/ 10 2 y 3/0,012| N a CE 30 150 3 3 1 | /100/] ~ 10 2 3/0,o12| PP a CE 30 750 | 3 3 1 | /100/| 10 2 3/0,012| ON a CE 30 750 3 3 1 | /100/}| 140 2 3/0,012| -P a | CE 30 750 3 3 1.| /100/] 10 2 3/0,012| oN a | CE 30 750 3 3 1 /100/ 10 2 3/0, 012 P a CE .30 |. 750 3 3 1 | /100/| 10 2 3/0,012| WN a CE 30 150 3 3 1 | /100/ 10 2 3/0,012; P a CE 30 25 1 4 3 250 10 3,5 1/3 N e CE 30 25 4 4. 8 250 40 3,5 1/3 Pp c CE 30 30] 200 | 3 4 4 250 10 3,5 1/3 N c CE 30. 30| 200 | 3 4 40.] 250 | 40 3,5 1/3 P c cL 30 451 2 3. 4 5 6 |7 8 9 10 ii 12 os BDP 283 eo | so} 5 7 ao | 25 | 150} -40 ... +100 | -40 ... +150 30 | 200 | . BDP 284 so | 50 | 5 1 | 40 -| 28 | 150 |-40 ... +100 |-40 ... +150 30 | 200 | : BDP 285 so | 70 | .5 7 40 25 | 450 |-40 ... +1009 | -40 ... +150 30 | 200 |. BDP 286 so | 70 | 5s. | 7 | 40 | 25 | 150|-40.., +100] -40 ... +150 30 | 200 | : BDP 391 50 a0 5 15 16 25 | 150 |-40 ... +100 |-40 ... +150 20 | 150 BDP 392 so | 40 | 5 45 75 | 25 | 150|-40 ... +100} -40 ... +150 20 | 150 BDP 393 70 | 60 | 5 15 as | 28 | 150 |-40 ... +100 | -40 ... +150 20 | 150 BOP 394 zo | 6o | 8 | 15 | 75 | 25 | 150] -40 .., +200 | -40 .., +150 20 | 150 BDP 395 90 gO | 5& 15 16 25 |} 150 |-40 ... +100 {-40 ... +150 20 | 150 BDP 396 oo | so | s | as | 75 | 25 | 150-40... +100] -40 ... +150) 20 | 150 BDP 491* so | 40 | 5 | a8 |125 | 25 | 200} ~-40 .., +150] -40 ... +200 20 BDP 492* 50 | 40] 5 4s |125 | 28 | 200/-40 .., +150] -40 .,, +200 20 BDP 493* zo | eo | 5 | 15 [aes | 25 | 200)-40 ... 4150) -40 ... +200 20 por 494* | 70 60 5 15 | 125 a5 | 200 | -40 ... +150] -40 ... +200 20 ppp 495* | 90 | 80 | 5 45 | 126 | 25 | 200} -40 .,. +150] -40 ... +200 20 bpp 496 90 | so | 5 1s | 125 | 25 | 200] -40 ... +150} -40 ... +200 20. BDY 23 60 | 60 | 10 6 | 87,8| 25 | 200 |-40 .., +100] -55 ... +475] A 15 | 45 is 30 | 90 |: C 75 | 180 BMY 24 100 | 90 | 10, 6 a7,8| 75 | 200 |-40 ... +100] -55 ... #475] A 15 | 45] i B 30 90 } i c 75 | 480 i BDY 25 200 {140 | 10 | 6 87,5} 25 | 200 |~-40 .., 4100 | ~-55 ... #175] A 15 | 45 B 30 | 90 c 75 | 180\ u . a stopnte mocy, przetyczniki mocy b stopnie sterujyce Srednioj mocy, komplentarne @ przeticezniki mocy, stopnie mocy, stabilizatory nowe uruchomienia13 | 14 15 | 16 41 48 19 20 a1 | 22 200 | 2,5] 4 4 250 10. 3,5 1/3 N cE 30 200 | 2,5 |] 4 10 250 10 3,5 t/3 P c CE 30 200 | 2 4 4 250 10 3,5 1/3 N c> | CE 30 200 | 2 4 10 |: 280 | 10 3,5 1/3 P e CE 30 150 | 5 4 4 1,3 5/0,8 N a CE 30 150 | 5 4 4 1,3 5/0,%8 P a Ck 30 150 | 5 4 4 1,3 5/0,5 N a |cE 30 150 | 5 4 4 1,3 5/0,8 P a CE 30 iso | 5 | 4 4 1,3 5/0,5 N a | CE 30 150 | 5 4 4 1,3 5/0,5 P a ck 90 5 4 5 1,3 5/0,5 .N a CE 20 5 4 5 1,3 5/0,5 - P a CE 20 5 4 5 1,3 5/0, 5 N a CE 20 5 4 5 1,3 5/0,5 P a CE 20 5 4 6 4,3 5/0,5 N a CE 20 5 4 8 1,3 _ 8/0,5 P a CE 20 45 | 2 4 10 1 2/0,25 N CE 20 90 | 180 45 | 2 4 10 0,6 2/0,25 N CE 20 90 | 180 45 | 2 4 10 0,6 2/0,26 | N. 'e CE 20 180 . 46oe 3 3 N C/h ste ot ose| F z! ooc | of ost | ez oF L g OL os ss avag oe 2d d c/L se ot ose! oF s*z} o0z } oc ost | sz oF L z os 09 ve avaq oe 39 3 N e/L ste oT osz| + sz} coz} oe | ost | 32 or] 2 g os 09 es avdg oe 9 2 qd. t/L sfc ot osc} oF ] 002 | of ost | gz OF Li]. oc OF @8 dvad oe 49 9 N C/k gfe ot osz| ec] 002 | of ost | sz oF L S oc OF te dvaq ooe | oot] 92 \ ost | os a ee 59 2 d 2'0/@ oT OF OL oc tT] 06 oe v eLt | se | eter e 3 OF 09 s avaq coe | oot] 3 ost | og @ . . vz 9 B N z*o/z $Lo ot OL oc Tl 06 oc Vv gut | sp | eter e g OF 09 #9 avad 6e 499 q d .90'0/3'0 go /ost/ | st*o| ost | oF set | o9 |so | sto $ os 08 oF avag 6e FO} 4 N s0'0/so so /002/ } gtfol oot | oF gzt | o9 |sto9 | sto g o8 os 6c dvag 6e 70 a d s0o/e'o sfo- /ost/ | stfo} oot | oF set | o9 |s9 | sfo s os os | 8 avaa 6e ad q N $0'0/s 0 so /00@/ | sto| o9f | oF szt} co |s9 | so g o9 09 Le avag 6 30 qa 4 4 g0'0/so s0 /ost/ | atfo} ose | oF set | o9 |efo | eo S av SF 9 avag 6c do} 64 N $00/so so /002/ | stol| og2z | oF szt | o9 [sto | sto | oF gt se avag 6t eT Lt 9T St +I eT at TT | oT 6 eg L 9 s > e Zz t _ xeu xen (a44/ xow | wpw a0 xeu xeuw xeu xeu xeuw d-ued - vA. 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Tranzystory wielkiej czestotliwosci Parametry graniczne tomb = 25C/ po Vepo | cxo| Meso} Te |Peot | *3 | | bo yp Pr? amb totg oa eoe - - = Grupa V v | vi | ma | ow c c c max | max | max | max max max min | max 1 2 3 | 4 5 6 | 7 8 9 10 11 BF 167 40 | 30 | 4 25 1150 |175 |-40 ... +125 |-65 ... +175 25 BF 173 40 |] 25 4 25 |230 [175 |-40 ... +125 | -65 ... +175 40 BF 180 30 | 20 | 3 20 1450 [175 |~40 ... +125 | -55 ... +175 15 BP 184 30 | 20 | 3 20 |150 [175 |-40 ... +125 |-55 ,., +175 20 BF 182 30 | 20 | 3 20 1180 |475 |-40 ... +125 |-85 ... 4175 10 BF 183 30.| 20 | 3 20 {150 |475-[-40 ... 4125 |-85 ... +475 10 BF 194 30 | 20 | 4 30 1160 {125 |-40 ... +125 | -65 ... +125 67 | 225 BF 195 30 | 20 | 4 30 1160 |125 |~40 ... +125 |-65 ... +125 35 | 125 BF 196 40] 30 | 4 25 [160 |125 |-40 ... 4125 | -65 ... +125 30 BF 197 ao | 25 | 4 {25 |250 |125 |-40 ... +125 | -65 ... 4125 so | BF 200 go | 20 | 3 20 {150 |175 |=40 ... +125 |-55 ... +175 15 WF 214 30 | 30 | 4 30 |165 [175 |-40 ... 4125 | -55 ... +175 90 | 330 BF 245 30 | 30 | 4 30 |165 |4175 |-40 ... #125 | -55 4... +175 40 | 165 BF 240 40 | 40 4 25 |300 |150 [425 ... +85 |[-55 ... +150 67 | 220 BP 244 40] 40 | 4 25 |300 |150 |-25 ... +85 |-55 ... +150 36 | 125 BP 257 160 |160 | 5 | 100 [5 w/la75 |~40 ... 4125 |-55 24, 4175 25 BF 258 250 | 250 5 100 |5 w'/J175 [-40 ... #125 |-55 .., +175 25 BF 259 300 1300 | 5 | 100 [5 w'/li75 |-40 ... +125 |-55 4... 4175 25 Br 344 30 | 30 | 4 25 |3007| 150 |-25 ... +85 |-55 ... +150 29 pr 414 40} 30 | 4 25 |3002//1s0 |-40 ... +125 |-55 ... +150 30 bY 440% 40 | 40 | 4 25 |300/]150 |-40 ... +4125 |-55 ... +150 60 | 221 BP 444% 40 | 40 | 4 25 |3007/|150 |-40 ... +125 |-55 ... +150 30 | 42:BF Parametry charakterystyczne /tamb = 25C/ 4945 pray fn Croce pr2y Tbe C, przy UF przy Yop | te cuo/ | Uog Io | ce Vee | Fo | fp | om fzae /Ugp/| Uop/ /Bop/ a-p-n|%-| obu- P Wa- dowa Vv mA MHZ pF V pa mA Vv as v mA | NHz nie min : Prep a | max /typ/ max max typ 11 12 13 14 15 16 17 18 19 20 21 | 22 23 24 | 25 26 5 10 4 250 0,25 | 10 12 4 10 N ]a CE 25 ) 10 1 350 0,3 10 10 1 10 N | a | CB 25 5 10 2 500 | 0,4 10 4 2 10 | 8 10 2 800 N e CE 25 ) 10 2 400 0,4 10 4 2 10 N h CE 25 ) 10 2 550 0,5 10 6 2 10 N le CE 25 ) 10 | 2 | sso | o,5 10. 6'| 3 | 10 N |.e | cE 2s r | 2z5 | 10 1 150 4 10 17 5 19 | 1,5 | 10 1 0,2; N ja CE 36 ; | 1251 10 | 4 | 150 1: 10 11 5 | 10 | 4 10 | 1 {100 | N [a | cE 36 ) 10 4 250 0,3 10 12 4 10 N a CE 36 ; - 10 q 350 0,35 | 10 10: 1 10 N a CE 36 i 10 2 400 0,4 10 6 2 10 | 5 10 2 200 | N e CE 25 | 330 | 10 1 | 250 | 0,7 | 10 12 1 | 10 13,5 | 10 | 4 4a [on [a | ce 2s \ | 165 | 10 1 | 150 0,7 | 10 15 1 | 10 /3,5 | 10 | 4 a1] on [a | ce 25 "| 220 |] 10 1 | /430/ 0,34 |/10/ 4 /10/ | 1 0,3 N a CE 35 ; | 125 | 10 1 | /400/ 0,34 |/10/ 4 /10/ | 4 0,3 | N a | CE 35 10 30 40 N |g | CE 23 10 30 40 N ig CE 23 10 30 30 N g CE 23 ] - 10 -4 | /450/ 0,13 {/10/ 4 /10/ | 4 100 N d CE 35 10 1 | /400/ 2 /10/ | 1 100 P d CE 35 i | 220 | 40 1 | /250/ 0,4 |/10/; ; 3 /10/ |} 1 0,3| P d CE 35 1 | 425 | 10 1 |} /250/ 0,4 {/10/ 3 /10/ 1 1 0,3} P a CE 35 ac1 2 3 4 5 6 7 8 9 10 44 412 | 13 BF 457 160 | 160 5 100]1,2 Wj 150 | -40 ... 4100 | -55 ... +150 25 10 | 30 BF 458 250 | 250 5 100|1,2 | 150 |~40 ... +100 | -55 ... +150]. 25 10 | 30 BF 459 300 | 300 5 100}/1,2 W] 150 | -40 ... +100 | -55 ... +150 25 10 | 30 BP 469~ [250 | 250 5 30}41,25W| 150 | -40 ... +100 | -55 os. +150 50 20 | 25 BF 470~ |250 | 250 5 30|1,25| 150 |-40 ... +100 |-55 ... +150 50 20 | 25 BF 519 70 | so} 8 50| 300 | 150 |-40 ... 4125 | -55 ... 4175 | IL 20 35 6 | 10 | Lil 30 90 : v 70 | 170 f VI | 150 BF 520 so | 30 5 s0| 300 | 150 | -40 ... +125 | -55 ... +175] II 20 35 6 | 10 III 30 90 v 70 | 170 BF 521 30 15 5 s0| 300 | 150 | -40 ... +425 | -55 ... +4175] II 20 35 6 | 10 Ill 30 90 V 70-| 170 vI | 150 DF 619 10 50 5 50| 300 | 150 | -25 ... +85 |[-55 ... +450 A 20 35 6 | 10 B 30 90 c 10 | 170 p | 150 BF 620 50 | 30] 5 50] 300 | 150 /-25 ... +85 | -55 ... +150 A 20 35 6 | 10 B 30 90 Cc 70 | 170 D | 150 BF 621 30 15 5 50/ 300 | 150 /-25 ... +85 |-55 ... +150 A 20 35 6 | 10 B 30 90 Cc 70 | 170 D | 150 BFE 214% | 30 | 30: 4 30} 150 | 175 |-40 ... +125 | -55 ... +175 90 | 330] 10 1 BFE 214R* BFE 215* | 30 | sa} 4 30} 150 | 175 |-40 ... +125 | -55 ... +175 35 | 165] 10] 1 BFE 215R~* BFS 18* 30 20 5 30] 200 | 150 | -40 ... +125 | -55 ... +150 35 | 225] 10 1 BFS 16R* prs 19* | 30 | 20] 5 30] 200 | 150 |-40 ... +125 |-55 ... +150 65 | 225} 10] 4 BFS 19R* a porednia TV @ w2macniacze UHF , J b uniwersalne @ ukiady wysokonapigciowe matej mocy o ukiady hybrydowe h wzmacniacze UHF 2/ ad gtowice VHF, pogrednia AM/FM. x nowe uruchomientia13 14 15 46 ar | 18 | 19 | 20 | 21 | 22 23} 24 | 25 26 30 | /60/ | /4,5/ | 30 . . N | g | cE 39 30 | /60/ | /4,5/ | 30 n | g | cE 39 30 | /60/ | /4,5/ | 30 N | g | cE 39 25 so | /1,8/ | /30/] 90 | 10 | /20/ N | ge | cE 39 25 60 /1,8/ | /30/ 90 10 | /20/ P g cE 39 10 | 150 | /8/ /10/ | 500 5 |/10/ n {| pv | ce 22 10 | 150 | /8/ /10/ } 500 5 | /10/ n | pb | cE 22 10 | 150 | /8/ /10/| 500 5 | /10/ N {| bd | ce 22 10 | 150 | /6/ | /10/| 500 | 8 | /10/ b # | b | ce 3s 10 | 150 | /6/ /10/ | 500 5 | /10/ N | b | CE 36 10 | 150 | /6/ 710/| 500 | 5 | /10/ n | bp | cE 35 1 | 150 | 1 10 | 22 | 1 | 10 [3,5 | 1am|' # | 100] WN] o | CE 45 1 | 150 1 10 is | a2 | 10 [3,5 | 20] 1 | 200] N | c | cE 45 1 | /200/ 0,85 10 4 10 1 100 N c CE 46 a | /260/ 0,85 10 4 10 | 1 {| 100] N | o CE 46 / pray tonce < 60C 2/ prsy tia < 48C. 502.6. Tranzystory wielkiej czestotliwosci specjaine Parametry graniczne /tonp = 25C/ Parametry Ucpo | Uceo | YEBO I Prot | 3 Noy, PrZy fo | s2e5 P I Oznaczenie wyrobu Vv Vv Vv mA mv % mA NHz pF max max max max max max min | max min max 1 2 3 4 5 6 7 a 9 10 11 BRAP 15 "30 30 4 30 | 165 175 40 165 4 150 | 0,7 BFAP 57 160 | 160 5 100 sw 475 25 30 40 BRAY 58 aso | 250 s | 100 5s wY| 175 25 30 40 BPAP 59 300 | 300 5 100 5s W/| 175 25 30 40 BFAP 80 30 20 3 20 | 150 475 415 2 500 | 0,4 " BRAP 89 30 20 3 20 | 150 175 10 2 830 | 0,5 a giswibe Var, posrednia AM/FM 1/ prey tease S cue b wzmacniacze VIF d ukzady wysoknapieciowe 2.7. Tranzystory polowe zlaczone (FET): kanat n Parametry graniczne /tomb = 25C/ Yen | Yas | te jPeot | ty Ings Przy . . t t Ozna~ amb st woe U.. U czenie 6 ho cs | ps wyrobu v Vv mi | my % % % rr v Vv max | max {| max | max | max min | max eds 1 2 3 4 5 6 1 8 9 10 1a] 12 BF 245 | 30 30 10 | 360 | 150 | -40 .., +100]-55 ... +150] A 2 | 6,5 0 iS | -0, /d og 6 115 i, c 12. [25 3, BPR 307] 25 25 5 | 200 | 150 | -40 ... +125/-65 ... +150 4 [10 0 10 BFR 31*| 25 25 5 | 200 | 150 | -40 ... +125{-65 ... +150 1|5 0 10 e uklady hybrydowe f wzmacniacze niskoszumowe xX howe uruchomieniaBF spec Parametry charakterystyczne /tomb = 25C/ Choes przy Too eo przy F przy N cE Io Uo. I, fp fepen Zasto- P- sowa- Obudowa pF Vv. ps mA aB Vv thd Adz nie x Pp-ne-p max max max 11 | 12 13 14 15 16 47 18 49 20 2a 0,7 10 15 1 3,5 10 1 100 N a CE 25 N a CE 23 N a CE 23 N da CE 23 0,4 10 4 2 7 10 2 800 N d CE 25 0,5 10 6 3 N b CE 25 Parametry churaxterstyczne /tomb = 25%%/ Veg przy Yess ore PY2y Close przy _ ps Yos| Tp Yos| Jp Uns | "as | *p |288t-! opu- dowa v v v {| jia V v | na pP v |v [sg | ote cin |/typ/| max min | max max 12 13 14 15 16 17 18 19 20 | 22 22 23 24 15 -0,4 -2,2 415 200 j-0,5 -8 15 10 1,1 20 a1 1 f CE 35 ~-1,6 -3,8 -3,2 -7,5 10 f-4/ 10 50 1,5- 1 c CE 46 10. /-2/ 10 | 50 1,5 1 ec |CE 46 512.8. Tranzystory przetaczajace /t,,, = -40c ... +125c, t.., = -65C ... +150C/ ste Parametry graniczne /tombd = 25C/ Parsmetry chai Yepo| Ycuo | Yeno | tc | Feo | *y Nog PF2Y fy | Scuo Pr2y | Uce Oznaezenie Ver | Ie Ucp wyrobu Vv Vv v bus ni %& vo | ma | Milz pF Vv nt max max max max max max | min | max min max may A 2 3 4 5 6 7 8 g 10 141 12 13 14 BSV 527, 20 12 5 100 200 150 40 120 1 10 400 4 5 ac BSV 52R x nowe uruchonienia e 2.9. Tranzystory duzej mocy wysokonapieciowe Parametry. graniczne /t,,, = 25C/ Yono | Ycro | eno f te | Peot F2Y 5 t t > . r Oznaczenie Meps/ /P/ toase ab stg wyrobu . v v' Vv A w % c % c max max max max mux max mii 4 2 3 4 5 6 1 8 9 10 BU 2047 1300 | 600 5 2,5 10 90 115 |-40 .,. +100 | -65 .., 4115 BU 205% 1500 | 700 5 2,5 10 90 415 |-40 ... +100 | -65 ... +415 : BU 206 1700 soo | 5) 2,5 10 | 90 115 [-40 .., +100 | -65 1... +415 BU 126 /150/} 300 6 8 30 50 125 |-65 ... +125 1-65 ... +125 1 BU 326* /800/| 375 6 6 60 50 150 |-65 1... 4125 | -Go ... +150 1 BUP 406* | 400 | 200 | 6 1 60 25 150 BUP 407~* 330 150 6 1 60 25 150 BUP 323 500 350 8 10 175 25 200 15: BUYP 52 120 70 5 5 /50/ | 25 150 |-40 ... +100 | -40 ... +150 1 BUYP 53 80 50 5 5 /50/ 25 150 {-40 ... +100 | -40 ... +150]. 2 BUYP 54 ' 40 30 5 5 /50/ 25 150 |-40 .., +100} -40 ... 4150] 2 a@ uktady odchylenia poziomegzo ce uktady przet.czajrce mocy, stubilizutory, wz:acniacze b uktady zaptonovwe d zasilieze inpulsoweBS etry charakterystyczne /tomb a 25C/ y Vor sat Przy t, pray bon PFZY tore przy cB | I/ly 1/I, To/tp Te/Ty | nepen | 288tO | opuao~ i wa Vv nV mA ns mA ns | mA | aos mA P nie Ppe-n-p max max max | max . 13 14 15 16 4? 18 49 20 24 22 | 23 24 5 400 50/5 13 10/10 12 10/3 18 10/3 N |ukzady| CE 46 . hybry- dowe varametry charakterystyczne /tamb = 25C/ Note przy fr | ce sat PTY . | I, u I,/t N Zasto- |Obudo= c CE cr n=pen jsowanie wa A v MHZ v A/A nin : min max /typ/ max . ai 12 13 14 15 16 a7 18 19 5 2,0 2 5 /7,8/ | 5 2/4 N a CE 20 5 2,0 2 5 /1,5/ | 5 2/1 N a ..| CE 20 j 1,8 2 5 | /1,8/] 5 2/1 N a | cE 20 j 15 60 4 5 6 10 2,5/0,25 N a CE 20 ) 15 0,6 5 6 10 2,5/0,25 N a CE 20 10 1 5/0,5 N a CE 30 10 1 5/0,5 N a CE. 30 150 2000 3 6 1,5 -3/0,06 | WN b CE 20 ) 10 0,5 5 10 0,35 0,5/0,05 N c CE 20 20 0,5 5. |.10 0,35 0,5/0,05 N c CE 20 20 0,5 5 10 0,35 0,5/0,05 N CE 20 cniacze mocy x nowe uruchomienia 52103 . ~BZTTTqQe4s ~ Xoo : eovufepucoemsa . { aobfezotsz Of FO j-ezad ApezRn N so/s 2 ot s0 ot ost SZ os s s OL ot _&e aong oT gt FT eT eT tT oT 6 8 : Ls. 9 ; s ec : 2 T r xew uty ut =| | xew xem | xem xou xew xen , v/v A 2ri 3 3 & v. A A A Sa letuemosegsez | U-E-a nqorka -opnqn a 5 as00 aTuezovUzO N I/*I t a kzxd 388 29, Ly fzrd Bey t, kzad Ig 9, | O@9, | 0899 | 080, 1 98% = ane, euzos4ekr0qyHereyo AxryomeIey /9g92% = ame, euzotuesr fkaqomerzeg coeds ng - uyefoeds emoreedeuoyosAm Asow feznp AsoysAzuel) 017 532.11. Rysunki obudw 020_ Tr, es . [ce 227018 CB6 cE 23|70 39] |cB7e125 Eg : J &S [Ce 24470 68 cB 72 CE25/10721 |CB4 BFAP(S, BFI67, 173, |BleEtcImM 214) 215 oa CE 30}TO220) pozostate ET BJC IMCay % in| BF245 OIS-I1G BF240~1, BF4401 BjElc pozostate EIBEC i 35|To 92 B97 . S ag eer: ' i ! ! 2 BFI94 ~ 197 B 4 pozostate ET 5 CE 36 CB 13 ti Y Lette ihe 4 8 i va a 2 yf , ] \ een nee sr it 2 2 CE 39]TO 126S0T34 CB 16wersja nom. BILEIC wersja R EY BYC CE45 425 17273 wersja nom. E}BIC wersja R BIE [Cc BFR 30 31 S$|DIG BFR 30R3IR DiS |G CE46 $0T23|