Microminiature devices transistors primarily intended for hybrid, thin and thick film circuits book 1 parts 1 and 2 3 Maximum Ratings at f v at e FE CElsat) Type = 5 Veso Veo Ica) Tj Prot min, max. Ic min, max: Ic Ip Nearest No. 5 gs 0, at25 type in 6 ae (vy (Yb ima) (Pc) (mW) (mA) (MHz) (Vv) (mA) (mA) TO-18 envelope N-P-N TRANSISTORS BCW31R SOT-23 X1 30 20 100 150 200 110 220 2.0 300* 0.25 10 0s BC1O8A BCW32R 200 450 BC108B8 BCW33R 420 800 8c108C BCW71R SOT-23 X1 50 45 100 150 200 +110 220 2.0 300% 0.25 10 0.5 BC107A BCW72R 200 450 8C107B BCx19 SOT-23 X7 50 45 600 150 310 100 600 100 200* 0.62 500 50 BC337 BCX20 30 25 BC338 BCXS4 SOT89 AM 45 45 1A 150 Iw 40 250 150 130* 05 500 50 BD135 BCX5S 60 60 40 160 BDt37 BCX56 100 80 40 160 BD139 BFQI7 soTt-29 AM 40 25 150 150 iw 25 - 180 1.2G* ~ _ - BFWIGA BFQ18 30 25 150 1w 30 - 150 3.5G* BFRO4 BFQI18 20 16 75 500 25 _ 50 5.5G* BFR96 BFRS3 SOT-23 X7 18 10 50 150 180 25 - 50 2.0G* - - - BFWws30 BFR92 SOT-23 X7 20 15 25 150 180 25 - 14 5.0G* - - - BFRSO BFRe3 15 12 35 30 BFRO1 BFS17R = =SOT-23. X1 25 15 25 150 200 25 150 2.0 1300* - - - BFYSO BFS20R SOT-23 X1 30 20 #25 = 150 200 40 = 70 275 _ - - BF173 BFT26 SOT-23. X7 8 5 25 150 30 20 40* 1.0 1200 0.475 1.0 0.1 BFT24 BSS64 SOT-23. X7 120 80 100 150 200 20 - 40 60 0.7 4 04 BSS38 BSV62R SOT-23 Xi 20 12 100 150 200 40 120 10 400 0.25 10 1.0 BSX20 P-N-P TRANSISTORS BCW29R SOT-23 X1 -30 ~-20 100 150 200 +120 260 2.0 150 0.3 10 0.5 BC178A BCW30R 215 500 6C178B BCW6SR SOT-23 X1 -50 45 100 150 200 120 260 20 150 0.3 10 0s BCI77A BCW70R 215 500 8C177B BCX17 SOT-23. X7 50 -46 500 150 310 100 600 100 =6100* 0.62 500 8C327 BCX18 -30 25 BC328 BCX51 SOT89 AM ~45 -45 1A 150 IW 40 250 150 5O* 0.5 500 BD136 BCX52 60 60 40 160 BD138 BCX53 100 80 40 160 BD140 BFT92 SOT-23. X7 20 ~15 25 150 180 _ 14 5G* - _ _ - BFT93 15 ~12 35 30 BSS63 SOT-23. X7-110 --100 100 1650 200 - 25 50 0.25 25 25 BSS68 *Typical N-CHANNEL JUNCTION FIELD EFFECT TRANSISTORS Outline SOT-23 8 Maximum Ratings Virves at ~Igss los at ive g 5 Voso Veso +g ig 8o max. Ip max. (Veg = 9) Vos 2 at min. max, 68 ) Wt) mad) PC) mV) (na) tn) (mA) (mV) BFR30 X2 25 --25 25 5.0 150 200 5.0 0.5 0.2 40 10 10 BFR31 25 10 5.0 10 21OUTLINES and DIMENSIONS (millimetres) B.S.3934 SO-16 Do.2 fa BS.3934 $O-10 DO-4 DO-3 A ___ 3 N J }~-_--- __-_- er @D ro 4 oo > eE SUPE (; \ - ek (O OF} 2 \ y co 3 por or F 10-32UNF Te 2A Tos an jjJ27 aA | BICTD]E | OF] OGT CH min. | min. max.}max.}|max.|max.j max. on 10.3 max. J 20.3max. 5 5 Alfalk]/35 151 11717.7 11.6 |1.4 |9.6 } 7.1 D 11,1max. N 11.5max. atu Eyelet Az|klal 35 | 49 117/85 /}1.9 /14 |9.7 | 71 Di 93max gt iemex Bly k [a A3ikial35 }5t li7/177 11.6 [1.4 196 17.4 . : D 201 B.S.3934 $0-13 DO-5 DO-14 DO-15 em 53 Ate_B va A V4'"x 2BUNF max | ; a ~ a kif 4 | x O \ ca { 60 J rr N p pc Tt 40 @D psa! min a aa TO Mx Nat 17.0 | 11.5 +e 265 max A B | gc | aD 10.72 min. max. | nom. } max. 1~TStaa Evelet | D1 /p0-7 25.4 | 7.6 | 052 | 2.5 are yelet| b2 |po14|25.4 | 7.6 |os | 33 Ie a | k p3 Ipo15!25.4 16.4 los | 3, DO-22 DO-30 14 SOD-47 20.4 W2"x ZOUNE 5.09 485 K-24 '95 465 158 FAI [148 420 O75 max 210 083 > be son tt 12.3 . [" | | 2024 nat 4 itz 81 tT c m 4 83 Yh afi | at gE [O 75 ; i : 742 fo i | FH 4 F | 0127} 3.0 a 1 i @238 | max | max I 928 270 T f 234 7 267 A A max @ 6.0max @ 635 63.5 max 6.25 lead bent at Tight angles - | A =concentricity tolerance = + 0.20 Pais Red cox oe te Mead These drawings give limited information for quick reference purposes. For equipment design more complete information should be obtained from individual data sheets in the Technica! Handbook or fram standard B.S, or JEDEC outline drawings. 56_ -____-__ A | | | A_19.43/18.67 @E 0.84/0.79 @B* 5.59/5.49 @F 1.57/1.52 OC 4.80/4.72 G 0.71/015 D 3.73 min. H 10.32nom. "These tolerances apply only over H Not tinned 4 max. le Ly 2 min. max. SOD-18 JM DO-31 DO-35 mi 2.92 + 2.59 + 226 0.6 4 2.03 7 aa 1 A>__-B TT le 1.75 7 _* _ 157 a k 158 | 2.34 cS C2 max 2.13 eC Too [L/4 + \ 2 ceramic glass lens So sal be 5.25 B [Cc | OD ai t 2 0.13 min. | max. | max. } max. G2tele For LED's the overall length = 3.60/297 25.4 1425 10.56 | 185 DO-37 SOD-17 SOD-49 D re | min. mounting width . f 76 CF i} a= a 3.4 056 = [me] max. \ k i (| ' a Los. 35 Ta _| min. max. min. Cathode indicated by the broad band of colour code lz max. SOD-23 75 73 , 1 Amin. 4 = 0.75max. - Gg [25] | ee hcs 2.6 L. 2.6 fe of 2.4 13 le-2.9 max. 4 fo2 (_ 4 J 57soos: MOM or 8.S.3934 SO 86 $0D-38 l18.0max.sle 14.5 min 1.60 061 1.75 163 153Hoaak}-155 "1.82 1 1 065 Lt 5.2max. y max. y_! | | F 2. t + 23 fe Nan3 v : = (25 1.2 max. f S Tag!. no +I 4 SS max. 3.7 (D . J . 2: | p F 160 | 160 | Fag?. 9182 . 10498 9152 . polarity TY 3.10 normal reverse 300 Tag 1 =base-plate: cathode anode Tag 2 : anode cathode SOD -39 SOD-42 716 6.65 ; 1.42 1.32 1.8 32 1.42 1171 122 17122 SI 117 0.58 af 0.43 08) _t _ | | /ay s[oten cee t - ze 254 i ee 2 1 ' 1.0 i 12.7 min. ' ' 14.0 min. +4 }i------24 3 t 7 | Pt aC] KD ozs 6O256 = OL75 P2}ef[c 871 11.82 @ 3.12 846000 OT 10.85 2.98 4 Se ass 3.63 i" tox. + | AP tt 021 k 1.80 Cathode {ot | A 1.50 | G1.62 . . Heat sink | A { : A | Anode 1.53 1.62 ent 9241 9419 9485 | 04% = 2.41 A- 153 231 399 max 399 231 O57 0.25 max. _. x 45 chamfer TTT A=concentricity tolerance = 0.13 A= concentricity tolerance = 0.13 These drawings give fimited information for quick reference purposes. For equipment design more complete information should be obtained from individual data sheets in the Technical Handbook or from standard 8.S. or JEDEC outline drawings. 58ia Pressure must SOD-46 a SOD-50 avoid flexing Preferred area of flange kK 78 * 13 of pressure x Y , 30 | x teri |z 0 9 oO o 0 a k|066 135 1.80 122 163 1.63 061 119 1.75 |maxye3 158 0.32 | I | @ 019 le [~ T T ; 090 A A 069 038) 9398 Pressure to be 160 _ 025 520 0.25 avoided in this x : Y ZBL * area A =concentricity tolerance = 0.15 SOD-51 SOD-52 } 15.5 min. min. mounting width in! i : L 1 pet ae pee oe Lk | tt a 10 f F a 3c max. \- 5.0 4 t 1.6 max. 5 0.19max. n+ te 7 62 \, 7 The coloured end indicates the cathode SOT-23 I 35-4 SOT-25 |____Connections 2 Talal. ro 1{2/3 t 45 fo 19 vile|ble ain eb abot 25 | O95 | v2 [1b 4 fr _ as 75-41 f | Au + 13 25 T | max. max. 5 3 oa That 07] | L104 : 1.2 *# 29 3 ff max. rad. 035 | | 0.2(3x) ! |" L254 [254] [[ 421 1.85 re Tenet 1.8 (30) 59SOT-48/2 max fated! or + identification + 1S a r 0147 oF 10.107 6.5 min (4x) ry plastic c 7 ) 6.35 ~ fi , metal t 80-4 a 8~32UNC 12.0 | 127 30 TV eon)2.7 . ii _}575[2: Zi|c|ble + bet. 7 1.05 max. 25 ae Z2iclelb 27 0.75 max. mn max. SOT-48/3 ES SOT-48/4 HEADER SOT-55 1.0 034 Ht Meo a e 3.0 | pt 4" x 2BUNF + 7. aCe |e 14 - i - 8,4 @ kg leg 34 | 5 7 ye. , 13.5 85 2 att holes oe 21 __ 125 7271 le 27.2 26.8 These drawings give limited information for quick reference purposes. Far equipment design more complete information should be obtained fram individual data sheets in the Technical Handbook or from standard 8.S. ar JEDEC outline drawings. 60ft" max __-+| 7 25 [ [ON = 50 965 11.0 mx 65 300 fan | max mn L 5 16 _ 575 iy) ie ae 5.25 at L256 poh haart }0T-70 SOT-80 k#- 34 max 7 ax + 9-49 4 tr imax 048 ryt 7 Y id max | | 105 Et metal se F 23, +1 | 47min poe 30 max 7 oo it t | B }-12.7 min _| oak | 104 18 285 PHL mn 17 uP 1 2 4 [Bmx mA a4 AKI | a | = _{5.08 JEL SOT-89 wy SOT-100 02.65 max C Fo Tb 43 | imax J 3.3 7 to (2x)[ e \]_ 4%) e - c( Y | - max t L max eth ul TL] eye yet t x | ozs" [" | [3 37 2. 644 44 mx 4-15 | max max max le-- 3.0 >| 61SOT-103 Lo SOT-105 10-32 UNF 2.107 ap 76 min (4x) \ 4 a - d 97 98 et Ys * CTs of i 198 i 24 | a 45 189 42] -75 max 27 1.50_,|] 7.2 1.0 4.05max 25 10.72 7! max 27 max Ee B.S.3934 SO-21/SB3-10 TO-1 ARI B.S.3934 SO-5B/SB2-2 TO-3 A _ 1.5 max 4 aut 2 6.48 a 4 > + max 1.8 59 F AR1 | AR2__ | AR3 - 16.9 t + 26. 6max = 4 . b | 9.4 sh res | max min 315 | 16 1.6 9.5max| 9.5max | 8.63max SrSo WN oO 33 ge . | =x c B.S.3934 $0-3/SB3-3B TO-5 B.S.3934 S0-12A/SB3-6A TO-18 048 1] 2 3 ATt| e@] b| c+env. AT2} S| d | geenv. AT3| di g is+env, AT4| k| -Ja AS1: collector connected to case ATS! al Ik AS2: base connected to case AT6| k a These drawings give limited information for quick reference purposes. For equipment design more complete information should be obtained fram individual data sheets in the Technical Handbook or from standard B.S. or JEDEC outline drawings. 62TO-18 B.S.3934 SO-3/SB3-3A TO-39 (with lens) b mane 048 tt 4 re VY 85 1.0 max ) J | max dL = cs c 51 |. ae | 66 127 3 69 12.7 94 max min max min max AVI: b+ case AV5: .b. cell connections AV2: case isolated c.metal case AV3, c+case AV6: red spot indicates AV4: . cathode +ve@ connection b.gate c.anode+case B.S.3932 $0-36 TO-48 TO-60 42 3.2 1/4" x 2BUNF 4 - thee 34 3 (DI 7.6max 10-32UNF i" M1 in . f max 12.4 max | bata -=> i 4 a k E> fT 6.35 at] (O i= J 31 T 226 Fe 12 a | mm 76 228 1 . 14.0 max 11.50 11.5 15, 10.72 1 max 10.72 max For triacs read TI instead of k Emitter connected to envelope T2instead of a B.S.3934 SO-35A TO-64 LY4 TO-71 185 10-32UNF max 0.48 9.3 max [ ria q | we j_. .} 483 ( Fe max \ Tinned i 1.98 ~_ 12.7 ma k- | min + 35 max 28 11.5 fins Sin 10720 mae Pin! 1 [2[3[/4]5]6 ] For triacs read 11 instead of k AzZ1 (21 [ez fc2[b2lbi fcr | T2 instead of a AzZ2|s1 [dt [gt |s2{d2[g2 | 63B.S.3934 $0-12A/SB4-3 TO -72 TO-92 variant u7, 1.16 max Pink? 1213 ye ey 048, |/BBI je | b/c TK =o max | BB2|bje@|c 4.8 SF BB3|}d|sjg ae] max BB4lg|a}k min a ; pps| bic le _ SSF 5.3 sle 12.7 254 k- 53 min 58 52 27___i imax tr Te 0.48 1 2 13]. 4 4 BAt | b |e | c | s+envelope BA2| | bi c | s+envelope BA3| s | d| g | screen +envelope BA4 | d |g2|g1| s+b+ envelope BAS| d | s| g | 5+ envelope diameter within 2.5 max BAG | k | gkigaj a is uncontrolled B.S.3934 SO-30C TO-94 EL) TO-103 08 _ ke ue 7 : }+_- 01 SF Cathode ' 3 2, te at S2lS2 | Sa ek o5 | 20, k [etel yg On | le max max 9 M8 A max = a 0 3 F 1 = ea 5 Too 4 ki t | EC eh1 iF bes Cathode LJ + Stud thread 14 45 min MI2x1.5 Height tobe allowed if cathode 9 13 7 teads at rightanges lead is bent at right angles hom + {max A 285max|O1 158max |S4 3.8min 165 G40 @O1 24tmax |O2 190max (OT 8 .3max 155 N nomen 1 Seer O12 4.2max For triacs read Tl instead of k Ni 3.0max |S2 96min T2 instead of a ea 10-220 10.2+ oe 43 fe 4 ate wW n 153 min ae Pin] 1]213 mn BFi| blcle 11213 BF2|TI |T21 g 0.85 06 F. -_ 15S BF3|k |- Ja 254254 > eee CST These drawings give limited information for quick reference purposes, For equipment design more complete information should be obtained from individual data sheets in the Technical Handbook or from standard 8.S. or JEDEC outline drawings. 64/ ot 147 0.05 _-* 95 : Lis, tr 5.85 270 75 max | e . ft 1 I 0127 b | 0.02 Flange is earth connection (-) 16 Output lead O- tnput lead ol 23 10 26 i 3.5max >--- te. 0 FT > 5 Supply lead (+) H] 1.98 0.31 1.83 0.23 min min Vt Me i 89 4 eo | Reference plane for rf. admittance 535 | 4.60 83 3.43 3.33 259 95793 ~F Heatsink negative 3.48 UNC 2A 0.81 0.71 65B.$.3934 $O0-26 Ee (All dimensions max.) 15 5 max epee 0.75 o fT = + =- Si, 10.2 5.08 oY 7 | |508 le 6 rae " = } | le Be - | 5.08 | + | | 1.05 max a 19min _ f- 22.5 max +5 Smax+ A 245 max Heatsink y= = face I BS1 | BS2 3 typ. | max > OD 23. | 21 TT + vw = 35 | 346 bt . 17 | 152 chet, |_|. 96 5 5.05 4 tt a1 7 1 1 3 3 | 55 1max 1.1max 4 She ar ~ s 5.08 15.08 '5.08 amS Som 5 | 37 s| 3! i 48 | 48 OG These drawings give limited information for quick reference purposes, For equipment design more complete information should be obtained from individual data sheets in the Technical Handbook or from standard B.S. or JEDEC outline drawings. 66Direction of light 6 g / Tinned copper leads 2121 4 T 8.8 | | - Stress reliet band "Il eT Der 4 at max U. 7 | 37min 1.5 max + 47.6 _ 23 sw. (O6dia.) Sensitive area Fixing hotles 52 dia. 53 1.4 47 , 09 k- PRIS ! ! 1 15.5 +}+_37 53 | i Incident max min 4.7 |! ' radiation 4 5 . ' i 1 / a Ta hor tt ey f 5.2 beef Lj Lt ta @ eC Jae | ee a | 0.43 | 2.1 39 6 37 max @04 Tinned > 2.54 fe Transparent k 5 | ansp [1 5am tre 0043 7 3 window -_ | 8 iv = 5 @015 | Sensitive area Substrate 0.7 thick 67Sensitive layer be-22 max --+| e175 - i. v Incident light | 42 hes 138 max ----- 7 | | 7} 4 at yrs Yap} | Y As M 285 y] a Ay M4 : n re Mi @37 i 23 37 e | 4 \ ; By) H al 45eet le 355 _4l | 38 Surface aluminised q q Flexible | mirror Position of leads sensitive area 7 75 lon 13.8 _,] Glass dewar with $ 205 glass window Direction of radiation 1-- 29.13 max -> OO eS 2.0, 7 10 he amin a 15 | 05 2 9g aaa max al Timed je Sensitive {fixing holes) area | 20, | max 6.8max > 0.7 R097 tT SY 30 | iS j 4d 027 2.04 3.0 | ea 7 24 dt Wn 68 IAN Field of view 10 023 7 mox H 100x 100 RN min fo3e 2 3 | | | y 22 . RNY 07 \ k(-)10.6 ats) | oss Sapphire . window 0.45 0.2 thick 965 2.8 9.65 915 2.3 9.15 These drawings give limited information for quick reference purposes. For equipment design more complete information should be obtained from individual data sheets in the Technical Handbook or fram standard B.S. or JEDEC outline drawings. 68 ~ Fesoa t fy str (ia) 4.90 Or Z 7 os | 988 oa [7 ae 4+ #k- 12.54 to 0 F 35 12.7_ 20 min seating plane \ 4 | 3.3 r max 14 min = @B CGI k(-) a(+) |30-3.17 2.4-26 58-63 CG2 a(+) k(-) |3.0-317 2.4-26 5.8-6.3 CG3 k(-) a(+) |3.3max 2.65-317 48-63 a CHI 2.2 3.35 0.95 1.25 CH2 35 455 1.85 2.15 CUO Dp 32 31 O 0.55 Typ F 39 0.45 43 15.24 1.27 f 4 ; 3b 2.54 c3 254 , =) 1254 [rs PBs. Pin |1/2/3 4 5 CKija/k]b] c @ CK2|k | a] elomitted| 7.0 6.7 > 4 5.0 | WwW TLL Cathode connected to envelope max Output @ Pin [1 1213/4 CLIijajkielc ClL2 |ejcjalk 69 296 peor a =I 5,8 Cathode pinni 08 ade pinning Common anode pins 3,14, Az1, B=13, C=10, D=8, =7,F=2, G=l1,H(dp)=6 poet 765 = x AM WW = Tes * ni 05 6.20 6x 15:24 6. 10 2.54 fe 25 B J oem ff Common anode pins via G | 1,4,9,10,18 | a) qt Cathode pinning , a 995 A=2,Bz217,C=14 F E D=13,E=8,F=3 G=15,H(dp) =12 These di give limited is for quick For individual data sheets in the Technical Handbook or fram standard | 8.S. or JEDEC outline drawings, 70 design more complete information should be obtained from