A438 S Elektrische Eigenschaften Electrical properties Hochstzulassige Werte Maximum rated values - t, =-4o"c...t",,,, Periodische VorwartsSpitzensperrspannung repetitive peak forward off-state voltage Vorwarts-Stospitzenspannung Periodische RuckwartsSpitzensperrspannung Periodische RuckwartsSpitzensperrspannung nach der Kommutierung Durchlastrom-Grenzeffektivwert Dauergrenzstrom non repetitive peak forward off-state voltage repetitive peak reverse voltage repetitive peak reverse voltage after commutation RMS on-state current average on-state current t,, = -40c...t,,,,,, tc = 05C tc = 56C ITAVM Stostrom-Grenzwert surge current t, = 25"C, t, = 10 ms ITSM Grenzlastintegral Si*dt-value t, = t, max, t, = IO Ins t, = 25C t, = 10 n-s t, = t, mm, tp = 10 Ins jiZdt Kritische Stromsteilheit critical rate of rise of onstate current vo 5 67% "DR,.,, fo = 50 Hz (di/dt),, critical rate of rise of off-state voltage ~~=lOV,i~~=1,2A,di~/dt=1,2Alps tvi = ta max, Y~ = 67% VDR~ WW,r Kritische Spannungssteilheit 600,800 V 1000,1100 v 1200,1300* V kl,, VDSM = VDRM t,,=-4o"c...t",,, t, = 1 ps VRRM 15 v VRRM(C) 50 v 900 ITRMSM 5. Kannbuchstabel5th letter C 5. Kennbuchstabe/Sth letter F Charakteristische Werte 438 573 6,2 5,5 192 151 A A A kA kA kA's kA2s 500 A/Is 500 1000 v//.ls Vlps Characteristic values Durchlaspannung Schleusenspannung Ersatzwiderstand Zundstrom Zundspannung Nicht zundender Steuerstrom Nicht zundende Steuerspannung Haltestrom Einraststrom on-state voltage threshold voltage slope resistance gate trigger current gate trigger voltage gate non-trigger current gate non-trigger voltage holding current latching current t, = tvi max, iT = 1500 A VT t"j = t, max vT(TQ t, = f max t, = 25C vg = 12 V rT t, = 25C vg = 12 V VGT max. IGT t, = t, mBx, "0 = 12 v IGD t, = t, maxz VD = 035 VD,, t, = 25"C, "~g = 12 V, RA = 10 Q t, = 25C vg = 12 V, R~I< 2 10 R VGD max. max. 43 max. IL 2,l 1,l 0,6 300 2,7 10 0,25 300 1,2 v v rn0 mA V mA V mA A 50 250 134 15 20 25 mA mA ps Irs') CIS') Irs') IGM = 1,2 A, diG/dt = 1,2 Alps, t, = 20 VS Vorwarts- u. Ruckwarts-Sperrstrom forward off-state and reverse Currents t, = t, m&x, VD = VORM. YR = VRRM max. max. max. iD ifl Zundverzug Freiwerdezeit Thermische Eigenschaften gate controlled delay time circuit commutated turn-off time t, = 25C iGM = 1,2 A, disldt = 1,2 A!ws siehe Techn. ErLlsee Techn. Inf. b t, D: E: F: fur anodenseitige Kuhlung thermal resistance, junction to case for two-sided cooling 0 = 180"el, sin R thJC for anode-sided cooling DC t3 = 180" el, sin RthJC(A) DC fur kathodenseitige Kuhlung for cathode-sided cooling e = 180" el, sin RthJC(K) DC Ubergangswarmewiderstand thermal resistance, case to heatsink beidseitigltwo-sided einseitiglone-sided max. junction temperature Operating temperature storage temperature Hochstzul. Sperrschichttemperatur Betriebstemperatur Lagertemperatur l tv, max t COP tstg m 0,053"CIW 0,05 "CIW 0,088"CIW 0,085 "CIW 0,123"CIW 0,12 "CIW 0,Ol "CIW 0,02 "CIW 125C -4O... + 125C -4o... + 140C . Si-pellets with pressure contact Clamping force weight Creepage distance humidity classification Vibration resistance outline F G DIN 40040 f=50Hz DIN 41814-152A4 Fur groere Stuckzahlen bitte Liefertermin erfragenlDelivery for larger quantities on request 1) mit antiparalleler Diodelwith inverse paralleled diode 142 RthcK max. max. max. max. max. max. max. max. Mechanical orooerties I Si-Elemente mit Druckkontakt Anprekraft Gewicht Kriechstrecke Feuchteklasse Schwingfestigkeit Mabild - Thermal properties Innerer Warmewiderstand fur beidseitige Kuhlung Mechanische Eiaenschaften max. max. tYP. 4,5...9 kN 100 g 17 mm c 50 m/s* Seite/page 154 - A 438 S t 0.14 0.12 52 u L 0.10 : ; tc 0.08 N 0.06 0.04 0.02 0 lo3 lo' 1.IOE,ll Bild/Fig. 17 Transienter innerer Warmewiderstand ZclhjJc = f(t), DC Transient thermal impedance ZOhjJc = f(t), DC 1 Beidseitige Kuhlung/two-sided cooling 2 Anodenseitige Kuhlunglanode side cooling 3 Kathodenseitige Kuhlunglcathode side cooling 10" 10' t Cs3 -t BildlFig. 16 ZundverzuglGate controlled delay time t9,, = f(io& t, = 25"C, dio/dt = iGMH ps a - Maximaler VerlauWLimiting Characteristic b - Typischer Verlaufmypical Characteristic 10' l>58 2 3 4 5 6 * 102 2 3456S103 2 BildlFig. 19 Steuercharakteristik mit ZundbereichenlGate va = f(io), V. = 12 V 4 5 6 s 104 Characteristic with triggering areas Parameter: SteuerimoulsdauertTriaaer 3 iG [mA] - IT a oulse duration t, Hochstzulassige Spitzensteuerverlustleistung/ Max. rated peak gate power dissipation PoM Imsl 10 1 Wl 20 b c 0.5 40 60 Analytische Elemente des transienten Warmewiderstandes ZlhJc fur DC Analytical elements of transient thermal impedance ZthJC for DC Analytische Funktion/analytical function: nmax Z m.lc = c R,hn (1 - EXP (-t/Tn)) n=l 145 Terms & Conditions of Usage Attention The present product data is exclusively subscribed to technically experienced staff. 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