EUPEC A 438 S$ Typenreihe/Type range 600 800 1000 1100 1200 1300* Elektrische Eigenschaften Electrical properties Hochstzulassige Werte Maximum permissible values Vor 600...1300 V VarM 15 V VaRM(c) tp = 1 us 50 Vv ITRMSM 900 A Itavm to = 85C 438 A te = 66C 573 A lrsm b= 10 ms, ys 45C 6,2 kA tp = 10 ms, ty = ty max 5,5 kA Ji@dt tp = 10 ms, ty, < 45C 192 kA?s tp = 10 ms, ty = ty max 151 kA?s (di/dt),, nicht per./non rep. 2000 = A/us perirep., itm = 1,5 KA, vp = 0,67 Vpam, ty = ty max 500 = A/us ig = 1,2 A, digit = 1,2 A/us (dv/dt)o = Vp = 87% Vor, ty = ty max C: 400 Vips F: 1000 Vins Charakteristische Werte Characteristic values Vr ty = ty max ip = 1,5 kA 2,1 Vv Vito) ty = hj max 11 6V tr ty = by max 0,6 mQ Ver ty = 25C, vp = 12 V, Ra = 10 2,7 V let ty = 25C, vp = 12 V, Ay = 100 300 mA ty = bymax: Yo = 12 V, Ra = 102 10 mA ty ty = 25C, Vp = 12 V, Ra = 102 300 mA Ie ty = 25C, vp = 12 V, Rax = 10 2 1200 mA ig = 1,2 A, digidt = 1,2 A/us, ty = 20 us ip ty = ty max: Yo = Vor 50 mA ip fy = ty max: VR = VaRM 250 mA tga ig = 1,2 A, digit = 1,2 A/us 1.4 ps ty Priifoedingungen sishe 3.4.3.2/ D: 15 us) test conditions see 3.4.3.2 E: 20 us) F: 25 ps) Cautt ty = 25C, f = 10 kHz 7,5 nF Thermische Eigenschaften Thermal properties Pinuc = 180el, sinus <= 0,053C/W pc < 0,05 C/W Rinuoyay = 180el, sinus = 0,088C/W pc < 0,085C/W Rinucw = 180el, sinus = 0,123C/W Dc = 0,12 C/W Rinck 0,02 CAV ty max 125C ty op = 40C....4125C tetg - 40C...+140C Mechanische Eigenschaften Mechanical properties G 100 g M F 5,5...8 KN 17mm Case DIN 41814-1652 A 4 Seite/page 198 * Fdr grBere Stickzahien bitte Liefertermin erfragen/ Delivery for larger quantities on request 14) mit antiparalleler Diode/with inverse paralleled diode 172 SeE DD 3403297 0000554 205 MBUPEC T= 25-\A 3 2 [a] iT 10% 8 6 4 103 8 6 4 3 101 2 4 6 8 102 2 4 6 8103 2 4 6 8 10% 403851 tp [vs}|) - Bild/Fig. 1 10 8 te = 80C [a] to [kHz] 10? 101 2 4 6 8 102 2 4 63813 2 4 6 810 Ab38S2 tp ws] s Bild/Fig. 2 10% 8 te =100C [a] fo [kHz] itt 3 2 103 8 6 4 3 2 10? . 10! 2 4 6 8 10? 2 4 6 8103 2 4 6 Bw A638 83 tp [us] Bild/Fig. 3 Steuergenerator: pulse generator: iq = 24 A, ty = 148, RC-Glied: R [Q] = 002 voy [V] ig = 24 A, ty = 148, Cs 0,22 uF Cs 0.22 uF if tml 7 let, at t- Te 1EUPEC 102 10! 2 3 4 5 6 8 102 2 3 AG38S4 Bild/Fig. 4 tdip fat [Ags] o tes 80C 103 fo[kHz] "3 6 410 5 20 25 107 101 2 3 4 5 6 8 10? 2 3 A388 5 s dit sat [Ajus] om Bild/Fig. 5 103 8 {a} itw 5 4 3 102 a 6 Ss 101 2 3 4 5 6 8 102 2 3 ANB SS saipidt [Ayus] om Bild/Fig. 6 Steuergenerator: pulse generator: ig = 24 A, t= 1u8, ig = 24A,to= 148, RC network: R [Q] = 0.02 vpy [V1 C s 0,33 uF C s 0.33 uF if Ty | +dipidt dipiat \ LL 7 2 t 1 fa 10? 10! 2 4 XN An3S7 Bild/Fig. 7 10% 2 [a] 'T 6 8 02 10? 101 2 4 A L38s8 Bild/Fig. 8 104 8 [A] 'T 10? 101 2 4 ALES 9 6 8 107 Bild/Fig. 9 Sfeuergenerator: ig = 2,4 A, ty = 148, AC-Glied: R [Q] = 002 voy [V1 C < 033 uF ScE D MM 3403297 OO00555 14) MBUPEC T-25-1L9 tdty/dt 50 Alus wtot [ws] 4 6 83 2 4 6 BK tw [os] tdi /dt * 100 A/us Wtot [ws] 4 6 8103 2 4 6 810 tw (s| rdizidt = 200 A/us Wot [Ws] 4 6 8103 2 4 6 8104 tw [us| pulse generator: ig = 24 A, i,= 148, RC network: R [Q] = 0.02 voy [V) C =< 033 uF Veu = 15 V 173EUPEC A 438 S [a] 104 ' yn w = wo nv Ww hk OO 101 2 4 689? A 4308 10 Bild/Fig. 13 S5eE D MM 3403297 OO0O0SSb 0848 MHUPEC T-25=19 Weot [Ws] fo / / 2 nue Qo90 @-30 9070 Q050 9,010 to 2 3 456 8107 2 3456 8107 2 3 456 810! 4 6 8103 2 4 6 81m arses e t [5] > tp [us] Bild/Fig. 16 Transienter innerer Warmewiderstand Zanuc Transient thermal impedance, junction to case, Znuc beidseitige Kihlung/iwo-sided cooling 2000 7 1800 | 0160 2 thuc 1000 500 fo) oc 0 as 1,0 AKIO SIZ Bild/Fig. 14 (zu Bildfto Fig. 13) Steuergenerator: ig = 2,4 A, ty = 1 XS, RC-Glied: R [Q] = 0,02 voy [V) C < 0,22 uF 174 20 25 30 45 woo 2 34 680% 2 34 680' 2 34 6810" 2 34 6 80! A SShsae t S|) _ vy () _. Bild/Fig. 17 Transienter innerer Warmewiderstand Zanic Transient thermal impedance, junction to case, Zanic beidseitige Kihlungfiwo-sided cooling pulse generator: ig = 24A,t,= 148, RC network: R [Q] = 0.02 vow [V) C < 0.22 uF Vaw = 18 VEUPEC 024 Fen] Rtngc 920 FRengc( Kk 16 Rthac Rtnac Q12 150 180 A 438311 8 fret] - Bild/Fig. 18 Innerer Warmewiderstand/Thermal resistance, junction to case Rinse: beidseitige Khiung/double-sided cooling Anica. anodenseitige Kihlung/anode-sided cooling Ainsciy: Kathodenseitige Kihlung/cathode-sided cooling als Funktion des Stromflu6winkels/versus current conduction angle, f = 50 Hz. 3 | 2 , ww Wh 1 3.456 38104 'g [A] 10! 2 3 456 8 107 2 3456 610 2 aise 57 Bild/Fig. 19 Ztuindbereich und Spitzensteuerleistung bei Vp = 6 V. Gate characteristic and peak gate power dissipation at vp = 6 V. Parameter: 1 2 3 Steuerimpulsdauer/Pulse duration t, imsj 10 1 0,5 Hchsizulassige Spitzensteuerleistung/ Maximum allowable peak gate power [Ww] 20 40 60 1 3.456 8104 ig &>Aae 10 2 3 456 8 102 2 3456 e107 2 A156 Se Bild/Fig. 20 Zundverzug tyg Gate controlled delay time tgg 52E D MM 3403297 0000557 T14 MMUPEC 1-25-19 1 2 3 4 5 z, RimnlCAv} [0.0105 [0,00283 |0,0167 |0,0188 | 0,00116 me ns! 0,00113 | 0,0258 0,0511 0,429 2,49 z, Pinl2cAv] |0,0094 [0,00974 |o,0182 |o0161 | 0,016 mow Ta isl 0,000084 |0,0167 | 0,204 0,821 5 2 RimlecAw] [0.00928 [o,0145 |o,008e8 |0,0401 | 0,0475 men Ts. [sl 0.000939 |0,0285 | 0,156 1,12 9,1 Tabelle/Table 1 GrBen des thermischen Ersatzschaltbilds fur Gleichstrom Quantities of the thermal equivalent circuit for direct current Zc: beidseitige Kihlung/double-sided cooling Znscay. aNodenseitige Kihlung/anode-sided cooling Zniciy kathodenseitige Kiihlung/cathode-sided cooling 175