MONOLITHIC DARLINGTON TYPES HERMETIC PLASTIC 1 = 10A mox. (= 10A mex. ig = 8A max. le = 8 A max. 1=8 A max. te = 10 A max. Ig = <10A max. le = 10 A max. Ig = 10A max. max c max Py = 36 W max. Py = 90 W max. Py 100 W max. Py = 100 W max. Py = 100 W max. Py = 40 W max. Py = GOW max. PL = 70W max. P= 70W max, {TO-66) (T0-3) (To-3) (TO-3) (F0-3) VERSAWATT VERSAWATT VERSAWATT VERSAWATT (70-220) (T0-220) (TO-220) (10-220) 136 x 136 136 x 136 136 x 136 136 x 136 136 x 136 136 x 136 136 x 136 136 x 136 136 x 136 Family Designation 2N6337 2N6385 2N6385 2N6385 RCA8350 2N6388 RCA8203 BDX33 BDX34 (N-P-N] {N-P-N] (N-P-N} (N-P-N] {P-N-P] [N-P-N] [P-N-P] {N-P-N} [P-N-P] RCA 2N6534 1000 2N6055 2N6383 RCA8250 2N6386 RCA8203 BDX33 BDX34 VcEo = 80V VceEolsus) = 60 V Vceolsus) = 60V | VcEpisus) = 40 V VegRteus)= ~40V Vegolsus) = 40V | Vceg(s4s)_ any Vogptsus)=45V Vcepisus) -45V hee = 1000 min bee = 1000 min hee = 750 min hee = 1000 min. h, gz 1000 min. AEE = 1000 min. hep = 1000 min. ho. = 750 min h.. =750 min, @5A @34 @44 @5A Fee 5A @3A @-3A FOr PEGA A ton = 1.5 ys typ ton = Tus typ. ton = tus typ. ton = 1 Hs typ. t =0.5 ps typ. ton = 1 us typ t = 0.5 ps typ. =1 =05 t= 4 ps typ ty = 3s typ. ty = Bus typ ty = 3ustyp. on ty = 3s typ. on 12 ton ps typ fon = .5 Us typ . 1 . t,= 1.2 us typ. _ f= 1-2 vs typ. tf= 3 ps typ tf = 1.2 ys typ ts= 2s typ ty = 1 us typ. t, = Tus typ. ts = 1 us typ. ty= 1 ustyp ee tee tust ty lps typ. 1, = bus typ. is = } ps typ is = Tus typ File No. 594 File No. 563 File No. 609 File No. 610 Fite No. 693 File No,694 RCA 2N6535 1001 2N6056 2N6384 RCA8350A 2N6387 RCA8203A BDX33A BDX34A VCEO = 100 Vceolsus} = 80 V Vceolsus) = 80 V Vceolsus) = 60 V V ncp(sus)= -60V VeEotsus} = 60 V V acp(sus) = -60V V_co(sus) =60V V_~cp(sus)-60V - _ CER CER CER CER hEE = 500 min hee = 1000 min. | hEE = 750 min. hee = 1000min. | |, = 1000 min. hee = 1000 min | 4, = 1000 min. hep = 750 min. he, =750 min. @IA @3A @4A @5A Fea SA @5A Fem 5A feaa Fou ton = 1.5 ys typ lon = V us typ. ton = 1 us typ ton = ts typ. ton 0.5 ps typ. ton = 1 Hs typ ton? 0.5 ps typ. ton = 1p sec typ ton = 0.5 ps typ t= 4 ys typ te = Sus typ. te= Sustyp. ty = 3s typ. 1 =1.2 te = Sustve t= 1.2 ps ty te= 3 psec typ te= 1.2 us typ ts=2 18 typ ts= Tus typ. ts = Tus typ. ts = 1 as typ. 7 162 os typ. ts = 1 us tve 7 fo BS IyP- tg= 1 sec typ ts=1 ys typ t= lps typ. t= 1 ys typ. 594 563 609 610 693 694 2N6536 2N6385 RCA8350B 2N6388 RCA8203B BDX33B BDX34B = v = = : =- = - VCEO = t00v Ceo s0V Vogpises) -80V Vceotsu) 80Vv Vcen(ss) 80V Vegptus) Bov Vecertse*) B0V HEE = 1000 min FE min. heg= 1000 min. FE * min. hb, = 1000 min. he, =750 min, beg =750 min. @5A @5A tes A @5Aa Fee 5 A FEoaa Fe@3a ton = 1.5us typ ton 3 Vas we. = 0.5 ps typ. ton = 1 xs typ. t = 0.5 ps typ. ton = 1 sec typ ton = 0.5 ps typ te =4 ps typ te SHS typ. 1.2 t= Sus typ. . t= 3 ps typ t= 1.2 us tye = -2 ps typ. = t, = 1.2 ps typ. tg = 2 ps typ ts" Tus typ. ts Tas typ f " tg= 1 ps typ ts = 1 ps typ t= lps tye t= 1 us typ. 609 610 693 694 2N6537 BDX33C BDX34C VCEO = 120V . _ heE = 1000 min Ve_p(sus)= 100V Vetus) 100v @3A hep =750 min. hpp=750 min, ton= 1.5 . . . @3Aa @3A ion ~ 1.9 US typ Pellet sizevalues shown are edge dimensions _ = te = 4 ps typ . aan : ton = Tp sec typ ton = 0.5 ps typ tg= Zps typ in thousands-of-an-inch (mils). t= Bus typ 1g = 1.2 ys typ TA designations (e.g. TA8351) in this tg= Tus typ ts = 1 ys typ bookiet are Developmental-Type devices. File No. (e.g. Fite No. 594), where shown, 693 694 relates to data bulletin. BDX33D Vcenss)= 120V ho. =750 min. FE@SA ton = 1 ys tye te= 3 us typ ts= 1 ps typ 6932N6534 2N6535 2N6536 2N6537 40349 Darlington TO-66 Darlington TO-66 Darlington TO-66 Darlington TO-66 General Purpose, Low & Medium Power PRO-ELECTRON TYPES BDX33 BDX33A BDX338 BDX33C BDX33D Darlington, TO-220 AB Darlington, TO-220 AB Darlington, TO-220 AB Darlington, TO-220 AB Darlington, TO-220 AB PRO-ELECTRON TYPES BDX34 BDX34A BDX34B BDX34C Dartington, TO-220 AB Darlington, TO-220 AB Darlington, TO-220 AB Darlington, TO-220 AB 2N6537 FAMILY [N-P-N] (silicon) P+ = 36 W Gain Bandwith = 20 MHz @ 1 MHz it TO-39 TO-220 AB VERSAWATT TO-220 AB 80 80 80 1000-10000 |5}34705| 5 | so] 2 5 | 001 | 28 | 5 100 100 100 1000-10000} 3| 3] 05] 5 | 100] 3 3 | 0006] 28 | 3 100 100 100 1000-10000 |5|3) 05] 5 |100} 2 5 | 001 | 28 | 5 120 120 120 1000-10,000|3|3] 05] 5 |120] 2 3 | 0006] 28 | 3 40349 FAMILY [n-p-n] (silicon) fy = 1.5 MHz min; PT = 8.75 W max 140 - 160 30-125 |0.19 4 2 11000] 90 | 05 |0.15/0.015) 1.1 10.15 *ICER-HA BDX33 Darlington FAMILY [n-p-n] (silicon ) PT = 70W_ Gain Bandwith = 20 MHz min @ = 1 MHz hee Icey-mA Vee_lsat)V Vee-V Veeo!sus) | Veen'sus) | Vcey(sus) le T Vee] Temp-C |Vce tlc | lp ig Vv v v A \ vj} 28 |150| Vv A\f. kK 45 45 45 750 | 4 | 3 | 05%} 10] 207 25 | 4 looos] 25] 4 60 60 60 750 | 4 3 105! 10 30125 | 4 fooogl 25/ 4 80 80 80 750 | 3 | 3 7.05% 10%) 40725 | 3 joooe} 25] 3 100 100 100 750 | 3 | 3 | 05%] 10% sof 25 | 3 Jooos] 25| 3 120 120 120 70 | 3 | 3 [| os! 10% col 25s | 3 jooosf 25| 3 i ili *\ce0 BDX34 Darlington FAMILY [p-n-p] (silicon) Py = 7O0W = Gain Bandwith = 20 MHz min @ = 1 MHz - 45 - 45 ~45 750 -4 |-3 [-05@| ;9@/-20 [-25 | -4 |-0.008]-25| 4 -60 - 60 - 60 750 |-4 |-3 f-05] 10@-30 |-25 |-4 |.o.008]-25| 4 -80 - 80 - 80 750 -3 |-3 |-05| -10%-40 [-25 |-3 |oooel-25] 3 -100 -100 -100 750 +|-3 |-3 -os} -10%-50 |-25 |-3 |goo6] 25] 3 *IcEO VERSAWATT 28