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| Absolute Maximum Ratings Symbol VCES VCGR IC ICM VGES Ptot Tj, (Tstg) Visol humidity climate Conditions 1) RGE = 20 k Tcase = 25/80 C Tcase = 25/80 C; tp = 1 ms per IGBT, Tcase = 25 C AC, 1 min. DIN 40 040 DIN IEC 68 T.1 Tcase = 25/80 C Tcase = 25/80 C; tp = 1 ms tp = 10 ms; sin.; Tj = 150 C tp = 10 ms; Tj = 150 C Values ... 123 D 1200 1200 50 / 40 100 / 80 20 310 - 40 . . .+150 (125) 2 500 Class F 40/125/56 50 / 40 100 / 80 550 1500 Units V V A A V W C V SEMITRANS(R) M IGBT Modules SKM 50 GB 123 D SKM 50 GAL 123 D Diodes IF= - IC IFM= - ICM IFSM I2t A A A2s SEMITRANS 2 Characteristics Symbol V(BR)CES VGE(th) ICES IGES VCEsat VCEsat gfs CCHC Cies Coes Cres LCE td(on) tr td(off) tf Eon 5) Eoff 5) Diodes 8) VF = VEC VF = VEC VTO rT IRRM Qrr Conditions 1) VGE = 0, IC = 1 mA VGE = VCE, IC = 2 mA Tj = 25 C VGE = 0 VCE = VCES Tj = 125 C VGE = 20 V, VCE = 0 IC = 40 A VGE = 15 V; IC = 50 A Tj = 25 (125) C VCE = 20 V, IC = 40 A per IGBT VGE = 0 VCE = 25 V f = 1 MHz min. typ. max. - 6,5 1 - 200 3(3,7) - - 350 4000 600 300 30 - - - - - - 2,2 - 1,2 22 - - 0,4 0,7 0,05 Units V V mA mA nA V V S pF pF pF pF nH ns ns ns ns mWs mWs V V V m A C C/W C/W C/W GB GAL VCES - 4,5 5,5 - 0,3 - 3 - - - 2,5(3,1) - 2,7(3,5) 30 - - - - - - - - - - - - - - - - - - - - - 3300 500 220 - 70 60 400 45 7 4,5 1,85(1,6) 2,0(1,8) - - 23(35) 2,3(7) - - - VCC = 600 V VGE = + 15 V / - 15 V3) IC = 40 A, ind. load RGon = RGoff = 27 Tj = 125 C Features * MOS input (voltage controlled) * N channel, Homogeneous Si * Low inductance case * Very low tail current with low temperature dependence * High short circuit capability, self limiting to 6 * Icnom * Latch-up free * Fast & soft inverse CAL diodes8) * Isolated copper baseplate using DCB Direct Copper Bonding Technology * Large clearance (10 mm) and creepage distances (20 mm). Typical Applications: B 6 - 85 * Three phase inverter drives * Switching (not for linear use) 1) 2) 3) 5) 8) IF = 40 A VGE = 0 V; IF = 50 A Tj = 25 (125) C Tj = 125 C Tj = 125 C IF = 40 A; Tj = 25 (125) C2) IF = 40 A; Tj = 25 (125) C2) Thermal Characteristics per IGBT Rthjc per diode Rthjc per module Rthch Tcase = 25 C, unless otherwise specified IF = - IC, VR = 600 V, - diF/dt = 800 A/s, VGE = 0 V Use VGEoff = -5 ... -15 V See fig. 2 + 3; RGoff = 27 CAL = Controlled Axial Lifetime Technology. Case and mech. data B 6 - 86 SEMITRANS 2 (c) by SEMIKRON 0898 B 6 - 81 SKM 50 GB 123 D... Tj = 125 C VCE = 600 V VGE = + 15 V RG = 27 Fig. 1 Rated power dissipation Ptot = f (TC) Fig. 2 Turn-on /-off energy = f (IC) Tj = 125 C VCE = 600 V VGE = + 15 V IC = 40 A 1 pulse TC = 25 C Tj < 150 C Fig. 3 Turn-on /-off energy = f (RG) ICpuls /IC 502rso.vpo Fig. 4 Maximum safe operating area (SOA) IC = f (VCE) ICSC/ICN 502soas.vpo 2,5 2 Tj < 150 C VGE = + 15 V RGoff = 27 IC = 40 A 12 10 8 1,5 6 1 4 Note: *Allowed numbers of short circuit:<1000 *Time between short circuit:>1s Tj < 150 C VGE = + 15 V tsc < 10 s L < 25 nH ICN = 40 A 0,5 2 0 0 500 1000 1500 VCE [V] 0 0 500 1000 1500 VCE [V] Fig. 5 Turn-off safe operating area (RBSOA) Fig. 6 Safe operating area at short circuit IC = f (VCE) B 6 - 82 0898 (c) by SEMIKRON Tj = 150 C VGE > 15 V Fig. 8 Rated current vs. temperature IC = f (TC) ,& >$@ 9 9 9 9 9 9 ;54 ,& >$@ ;54 9 9 9 9 9 9 9&( >9@ Fig. 9 Typ. output characteristic, tp = 80 s; 25 C 9&( >9@ Fig. 10 Typ. output characteristic, tp = 80 s; 125 C ,& >$@ ;54 Pcond(t) = VCEsat(t) . IC(t) VCEsat(t) = VCE(TO)(Tj) + rCE(Tj) . IC(t) VCE(TO)(Tj) 1,5 + 0,002 (Tj - 25) [V] typ.: rCE(Tj) = 0,02 + 0,00008 (Tj - 25) [] max.: rCE(Tj) = 0,03 + 0,00010 (Tj - 25) [] valid for VGE = + 15 +2 [V]; IC > 0,3 ICnom -1 Fig. 11 Saturation characteristic (IGBT) Calculation elements and equations Fig. 12 Typ. transfer characteristic, tp = 80 s; VCE = 20 V 9*( >9@ (c) by SEMIKRON 0898 B 6 - 83 SKM 50 GB 123 D... 9*( >9@ 0,1 1 Coss Crss Ciss ;54 C [nF] 100 502C.vpo 9 9 ICpuls = 50 A 10 VGE = 0 V f = 1 MHZ 4* >Q&@ W >QV@ 0 10 20 30 40 VCE [V] Fig. 13 Typ. gate charge characteristic W >QV@ ;54 Fig. 14 Typ. capacitances vs.VCE ;54 WGRII WGRQ Tj = 125 C VCE = 600 V VGE = + 15 V RGon = 27 RGoff = 27 induct. load WGRII WGRQ WU Tj = 125 C VCE = 600 V VGE = + 15 V IC = 40 A induct. load WU WI WI ,& >$@ 5* >:@ : Fig. 15 Typ. switching times vs. IC Fig. 16 Typ. switching times vs. gate resistor RG ' && ' 0*%;/6 P %M S #* ' *( [' 60 (411 , $ Fig. 17 Typ. CAL diode forward characteristic Fig. 18 Diode turn-off energy dissipation per pulse B 6 - 84 0898 (c) by SEMIKRON (c) by SEMIKRON 0796 B 6 - 85 SKM 50 GB 123 D... SEMITRANS 2 Case D 61 UL Recognized File no. E 63 532 SKM 50 GB 123 D Dimensions in mm SKM 50 GAL 123 D Case D 62 ( D 61) Case outline and circuit diagrams Mechanical Data Symbol M1 M2 a w Conditions to heatsink, SI Units to heatsink, US Units for terminals, SI Units for terminals US Units (M6) (M5) min. 3 27 2,5 22 - - Values typ. max. - 5 - 44 - 5 - 44 - 5x9,81 - 160 Units Nm lb.in. Nm lb.in. m/s2 g This is an electrostatic discharge sensitive device (ESDS). Please observe the international standard IEC 747-1, Chapter IX. Eight devices are supplied in one SEMIBOX A without mounting hardware, which can be ordered separately under Ident No. 33321100 (for 10 SEMITRANS 2) Larger packaging units of 20 or 42 pieces are used if suitable Accessories B 6 - 4. SEMIBOX C - 1. B 6 - 86 0898 (c) by SEMIKRON |
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