Fast Asymmetric Thyristors Type Vprm Varm | ras) trem |! dt | travaalte Viroy| tr | (di/dt).,| tq) | (dw/dt)y | Ver | lar | Pinuc | ty max! outline Vv Vv A | kA} As | ALC Vo} mQ) Altus us Vius Vo] mA/CW! C Vosm = Vorm VarMc) 10ms | 10ms 180 ty = ty = | DINIEC DIN JEC ty = ty = 180 t=1 [18 tyimax | tymax | @L SiN | tymax | tyjmax| 747-6 747-6 | 25C | 25C| el sin "108 A 158 S! 600...1300* | 15 (50); 400 | 2,5 30 158/85 | 1,30) 2,0 400 Ds 15 | C= 500] 2,7 | 300|0,117/ 125 116 Cs 12 | F=1000 Bs 10 AS 82) A 198 S| 600...1300* |} 15 (50) | 400 | 2,7 | 36,5 | 198/85 | 1,10] 1,3 400 Es 20 | C= 500/ 2,7 | 300] 0,117] 125 116 Ds 15 | F=1000 A 358 S/ 600...1300* | 15 (50) | 800 | 5,0 125 | 358/85 | 1,30; 0,9 500 Ds #15 | C= 500} 2,7 | 300 | 0,053] 125 117 Cs 12 | F=1000 Bs 10 AS 82) A 438 S| 600...1300* | 15 (50) | 900 | 5,5 | 151 438/85 | 1,10) 0.6 500 Fs 25 | C= 500] 2,7 | 300 / 0,053! 125 117 Es 20 | F=1000 Ds 15 @ A901 S| 2500, 2800 | 20 (25) | 2200! 16,0 | 1280] 900/85 | 1,45] 0,3 250 Ps 55 |F=1000/] 2,5 | 300] 0,021] 125 118 B@ A931S/| 1800, 2000 | 20 (25) | 2200] 16,0 | 1280| 930/85 | 1,35) 0,3 300 GS 30 |F=1000| 2,5 | 300 | 0,021] 125 118 Fs 25 WNot for new design " With fast inverse diode * Delivery for large quantities on request ?) Vorm 5 1000 V Cc = aed c 230 7 L - c 2 + t J tH " f ce aly | is | +] t + i=] s - I PS | 4 ; [ 40,1 as A a} t @3,5"" un A deepth = 202 A 93,5 x 2 deep 023 230 on both sides on both sides 93,5 x 2 deep HK on both sides plug 2,8 x 0,8 mak! g lo 1 | | ~4 al G plug 1 2 28x08 116 W7 118 M5x11 24-1 plug screwing depth r Moxi5 2a screw Bu 08 35 28.5" 5 : : ee ET \ 2a eV | an! | AT Yi yoo |) (as a fof Ean 3 a Py, 4 119 22 120 121Fast Asymmetric Thyristor Modules Type Vprm Vanm | bramsm) Its | J i2dt | Irava/te|Veroy} tr | (di/dt)er| ty? | (difdt)e! Ric | Rinck| tymax | Outline Vv Vv A A As | APC | V | mQ! Avs Us Vius | C/W SCM C Vosm= | (Vaancoy) 10 ms,| 10 ms,| 180 el | t= | t,= | DINIEC DIN IEC | 180 el Voam tb=1ps Yjmax | by max sin tyjmax| timex | 747-6 747-6 sin *108 Baseplate = 20 mm AD 50 F /800...1300% 15 120 1300 | 8,45 50/85 | 1,3 | 3,75 120 E< 20/C= 500] 0,45 | 0,16 125 119 [50] 76/56 D< 15 |F= 1000 C< 12 B< 10 A< 8 AD 60F |800...1300% 15 150 1450] 10,5 60/85 | 1,2 | 2,80 120 E< 20 /C= 500! 0,39 | 0,16 125 119 [50] 95/56 D< 15 |F = 1000 C< 12 B< 10 < 8? Baseplate = 34 mm AD 96S |800...1300% 15 200 | 2350 | 27,6 95/85 | 1,3) 2,15 400 D< 15 /C= 500; 0,23 | 0,06 125 120 {50] 127/67 C< 12 |/F=1000 B< 10 A< 8 AD 116 S |800...13007 15 220 2600 | 33,8 | 115/85 | 1,1 | 1,45 400 E< 20/C= 500) 0,23 | 0,06 125 120 {50) 140/74 D< 15|}F=1000 Baseplate = 50 mm AD 180 S /|800...1300 15 350 | 4800} 115 | 180/85] 1,3 | 0,90 500 D< 15/C= 500) 0,13 | 0,04 125 121 [50] 223/73 C< 12|F=1000 B< 10 A< 8?) AD 220 S |800...1300% 15 410 | 5200; 135 | 220/85 | 1,1 | 0,60 500 F< 25|C= 500) 0,13 | 0,04 125 121 {50} 261/75 E< 20 |F=1000 De< 15 Most types of the power modules have beenUL-recognized .) With fast inverse diode *Delivery for large quantities on request 2 Voam < 1000 V Insulated cells Type Va Vams CTl-value Iso- ty (max) Rinck Rthc-c clamping Finax weight outline class typ) force V Vv C CIW CAN kN kN g ISO 57/26 | 6400 2520 250 tla 150 0,010 0,099 20 30 260 122 ISO 75/26 | 5900 2250 250 Ila 150 0,005 0,052 40 45 460 123 ISO 65/35 | 10600 4180 250 lila 150 0,010 0,146 20 30 350 124 ISO 120/35 | 11700 4400 250 ha 150 0,002 0,030 45 70 1650 125 ISO 120/59 on request Mech. values refer to the material of the case Insulating material: AINISOPACK Modules Type Vorm: Varm | lrrmsm | lesm | J izdt lo/te Vito) rr Ric | Pinck | tymax | outline V A A As ALC V m2 C/W C/W C Vosm = Vorm | 10 ms, 10 ms, ty =tyjmax | ty=tymex | per arm} per arm Vasm = Veam + | tvimax ty max 100 V Single phase diode bridges DD B2U 15N 800...1600 12 480 1150 15/95 0,75 7,5 7,8 0,6 150 126 Three phase diode bridges DDB6U 20N 800...1600 15 480 1150 20/87 0,75 7,5 107) 0,9 150 127 MDDB6U 60N 1000...1600 $0 500 1250 60/110 0,80 6,8 1,77 0,2 150 129 WDDB6U 85N 1000...1600 60 550 1510 85/100 0,75 5,5 1,457 0,2 150 129A mDDB6U 70N 1000...1600 60 550 1500 70/110 0,75 5,8 1,57 0,2 150 129 mDDB6U 90N 1000...1600 75 850 3600 90/110 0,80 4,1 1,157 0,2 150 129 m@ DD B6U 110N 1000...1600 90 950 4500 | 110/110 0,75 3,4 0,957) 0,2 150 129 mODOD B6U 130N 1000...1600 100 1150 6600 130/110 0,80 2,7 0,8 0,2 150 129 vWDD B6U 145N 1000...1600 100 1000 5000 145/100 0,75 3,1 0,897 0,2 150 129A DD B6U 160N 1000...1600 120 1350 9100 | 160/110 0,75 2,2 0,687 0,2 150 129 WDD B6U 205N 7000...1600 120 1375 9450 205/100 0,75 2,2 0,597) 0,2 150 129A Three phase bridges, fully controlled miTB6C GON 600...1600 50 500 1250 60/85 1,05 8,0 1,3 0,2 125 128 mTTB6C 75N 600...1600 60 580 1680 75/85 1,00 6,0 1,1 0,2 125 128 MTT BEC 90N 600...1600 75 750 2810 90/85 1,05 5,2 0,86) 0,2 125 128 VITB6C 95N 1000...1200 75 620 1920 95/85 0,95 5,5 0,82) 0,2 125 129B mTTB6C 110N 600...1600 90 870 3780 | 110/85 1,00 4,2 0,75" 0,2 125 128 wiTB6C 135N 1000...1200 100 900 4050 135/85 0,95 4,3 0,59?) 0,2 125 129B wiTB6ec 165N 1000...1200 120 1200 7200 165/85 0,95 3,2 0,49?) 0,2 125 129B Three phase bridges, half controlled @TDB6HK 60N 600...1600 50 500 1250 60/85 1,05 8,0 1,3 0,2 125 128 MTOBGHK 75N 600...1600 60 580 1680 75/85 1,00 6,0 1,1 0,2 125 128 mIDB6HK 90N 600...1600 75 750 2810 90/85 1,05 5,2 0,86 Q,2 125 128 WIDB6HK 95N 1000...1200 75 620 1920 95/85 0,95 5,5 0,82) 0,2 125 129B WTD BEHK 110 N 600...1600 90 870 3780 110/85 1,00 4,2 0,759 0,2 125 128 WTD B6HK 135 N 1000...1200 100 900 4050 135/85 0,95 4,3 0,59? 0,2 125 129B wWTD B6HK 165 N 1000...1200 120 1200 7200 165/85 0,95 3,2 0,497) 0,2 125 129B Single phase bridges, fully controlled mTTB2C 70N 600...1600 75 750 2810 70/85 1,05 5,2 0,757 0,2 125 128 @MiTB2C 85N 600...1600 90 870 3780 85/85 1,00 4,2 0,65 0,2 125 128 Single phase bridges, half controlled mITDB2HZ 70N 600...1600 75 750 2810 70/85 1,05 5,2 0,75") 0,2 125 128 MTDB2HZ 385N 600...1600 90 870 3780 85/85 1,00 42 0,657) 0,2 125 128 Single phase bridges, haif controlled, with free-wheeling diode @ TD B2HKF 70 N 600...1600 75 750 2810 70/85 1,05 5,2 0,757 0,2 125 128 TD B2HKF 85 N 600...1600 90 870 3780 85/85 1,00 4,2 0,65 0,2 125 128 Three phase AC switches mTTWSC 80N 600...1600 75 750 2810 | (80/85) 1,05 5,2 0,75) 0,2 125 128 wiTwac 85N 1000..1600 75 620 1920 | 85/85 0,95 5,5 0,7 0,2 125 129B mITWw3c 95N 600...1600 90 870 3780 (95/85) 1,00 4,2 0,65 0,2 125 128 witws3c 115N 1000..1600 100 900 4050 115/85 0,95 43 0,5 0,2 125 129B WITW3C 145N 1000..1600 120 1200 7200 145/85 0,95 3,2 0,42 0,2 125 129B Most types of the power modules have beenUL-recognized 180 el Sinus ) 120 el Square mnot for new des ign New type129 836 Cathode 0 b> Cathode 25 g 8 Nt fs L 40,1 03,5O'x 3,5 deep max. 7 03,5 x3,5eep , na on both Zoe | 4 on both sides \ 1 wr g Ww | Th +0.2y 3,5*0.2 deep 23,5025 3,502 dee p 93,5 3, | on both sides on both sides 122 123 124 125 0.8 screwing depth fillister head screw = marking nace) M5x 1124-1 like ] = : | wee n 38 g i qs > " | 7NT as a Y fo nu td a Fe Fi | Ne i | ! | a iL i iL a f t 7 st 3 23! 5 8 ai = gas a a 1 24.240.3 24,.220.3 4126 28.5 127 28.5 128 ~ maxeay depth filister head screw marking 1 > 3 ' > 5 , max 8,5, M5x 11 24-1 like t xf 1 1 5 a | 4 zest | KI at +e t T T i Lo Jot weal tet he" LA 2 2 2 2 de Le al Le Le] 2 te ae KI a CT TO 6 A B c A B c TT B6C TD B6HK TD B2HKF 94 1 3 1 3 1 2 3 1 2 3 Le} Ley 44 Le 2fN if 2 YS 2) 1} 1 1 1 1 - ~ 1 1 i KI i i id le Let e y 2 2 2 N 1ST 1 2 3} 11 L1 , WT [td A 4 5 | A 8 C A [ c A B c DD B6U TT Bac TD B2HZ TT Ww3c