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| European PowerSemiconductor and Electronics Company GmbH + Co. KG Leistungsgleichrichterdioden Power Rectifier Diodes D 758 N 1,1 o 23 Kathode Cathode 14 8,5 1,1 o 23 Anode o3,5 +0.1 x 2 tief / depth beidseitig / on both sides .7 max 4 2 19,5 41 VW K July 1996 D 758 N Elektrische Eigenschaften Electrical properties Hochstzulassige Werte Periodische Spitzensperrspannung Maximum rated values repetitive peak reverse voltage tvj = -40C... t vj max VRRM 200, 400 600, 800 * V V V A A 1) A kA kA kA 2s kA 2s Stospitzensperrspannung Durchlastrom-Grenzeffektivwert Dauergrenzstrom non-repetitive peak reverse voltage tvj = +25C... t vj max RMS forward current mean forward current tc = 115 C tc = 130 C VRSM = V RRM IFRMSM IFAVM + 50 1195 760 630 Stostrom-Grenzwert surge forward current 2 tvj = 25C, t p = 10 ms tvj = t vj max , tp = 10 ms IFSM 2 10,3 8,8 Grenzlastintegral I t-value tvj = 25C, t p = 10 ms tvj = t vj max , tp = 10 ms It 530,45 387,2 Charakteristische Werte Durchlaspannung Schleusenspannung Ersatzwiderstand Sperrstrom Characteristic values on-state voltage threshold voltage slope resistance reverse current tvj = t vj max , iF = 2,3 kA tvj = t vj max tvj = t vj max tvj = t vj max , V R = V RRM VT VT(TO) rT iR max. max. 1,45 0,70 0,31 20 V V m mA Thermische Eigenschaften Innerer Widerstand Thermal properties thermal resistance, junction to case beidseitig/two-sided, =180 sin beidseitig/two sided, DC Anode/anode, =180 sin Anode/anode, DC Kathode/cathode, =180 sin Kathode/cathode, DC R thJC max. max. max. max. max. max. R thCK max. max. tvj max tc op tstg 0,067 C/W 0,063 C/W 0,104 C/W 0,100 C/W 0,174 C/W 0,170 C/W 0,015 C/W 0,030 C/W 180 -40...+150 -40...+150 C C C Ubergangs-Warmewiderstand thermal resistance,case to heatsink beidseitig /two-sided einseitig /single-sided Hochstzul.Sperrschichttemperatur Betriebstemperatur Lagertemperatur max. junction temperature operating temperature storage temperature Mechanische Eigenschaften Si-Element mit Druckkontakt Anprekraft Gewicht Kriechstrecke Feuchteklasse Schwingfestigkeit Mabild Mechanical properties Si-pellet with pressure contact clamping force weight creepage distance humidity classification vibration resistance outline DIN 40040 f = 50 Hz 50 Seite/page = 21 mm Gehauseform/case design T F G typ. 3,8...7,6 75 25 kN g mm C m/s 2 * Bitte Liefertermin erfragen /Delivery on request D 758 N 3,0 1,0 2,5 i F [kA] 2,0 0,6 idt 0,8 (normiert) 1,5 0,4 1,0 0,5 0,2 0 0 D758N_1 0,5 1,0 1,5 v F [V] 2,0 0 0 1 2 3 4 5 6 7 tp [ms] 8 9 10 D758N_4 Bild/Fig. 1 Grenzdurchlakennlinie Limiting forward characteristic=i f (v F F) tvj = 180 C tvj = 25 C Bild / Fig. 2 Normiertes Grenzlastintegral / Normalized it p idt = f(t ) 10 IF(0V)M IF(0V)M vR 10 IF(0V)M [kA] 9 vR IF(0V)M 9 [kA] 8 8 7 1c 1a +1b 7 1a 2a 6 2a 6 1b 1c 5 2b 5 2c 2b 4 4 3 0 D758N_6 2c 3 0 D758N_5 0,1 0,2 t [s] 0,3 0,1 0,2 t [s] 0,3 Bild / Fig. 3 Grenzstrom / Maximum overload forward current I = f(t) F(0V)M 1 - IFAV(vor) = 0 A; vj = tC = 25 C t 2 - IFAV(vor) = 760 A; C = 115 C; vj = 180 C t t a - v 50 V R b - v = 0,5 V R RRM c - vR = 0,8 V RRM Bild / Fig. 4 Grenzstrom / Maximum overload forward current I = f(t) F(0V)M 1 - IFAV(vor) = 0 A; v j = t = 25 C t C 2 - IFAV(vor) = 760 A; C = 115 C; vj = 180 C t t a - v 50 V R b - v = 0,5 V R RRM c - v = 0,8 V R RRM D 758 N 2 i FM [A] 800 400 RthJC [C/W ] 0,08 T 10 Qr [As] 3 9 8 7 6 5 200 100 50 25 4 0,06 T 3 2 0,04 0,02 10 2 9 8 7 T 6 0 30 D758N_3 60 90 120 150 [el] 180 5 0,1 D758N_7 1 10 -diF /dt [A/s] 100 Bild / Fig. 5 Differenz zwischen den Warmewiderstanden fur Pulsstrom und DC Difference between the values of thermal resistance for pulse current and DC Parameter: Stromkurvenform / Current waveform Bild / Fig. 6 Sperrverzogerungsladung / Recovered charge f(-di /dt) r= Q F tvj = tvjmax; vR 0,5 V RRM; VRM = 0,8 V RRM Beschaltung / Snubber: C = 1 F; R = 3,9 Parameter: Durchlastrom / Forward current i FM 0,20 3 Analytische Elemente des transienten Warmewiderstandes Z DC thJC fur Analytical elements of transient thermal impedance Z DC thJC for Kuhlg. Cooling Pos. n n [s] n [s] n [s] 1 2 3 4 5 6 7 0,15 Z (th)JC [C/W] 2 1 2 3 Rthn C/W 0,000110 0,00193 0,00751 0,03415 0,0193 0,00002 0,000245 0,00181 0,0569 0,006464 0,0118 0,0278 0,377 0,03744 0,0213 0,103 1,26 0,0211 5,2 Rthn C/W 0,000096 0,0018 0,000017 0,000243 0,0014 0,10 Rthn C/W 0,000048 0,002232 0,00673 0,0387 0,000009 0,00024 0,00172 0,0543 0,00929 0,113 0,556 3,41 1 - Beidseitige Kuhlung / Two-sided cooling 1 2 - Anodenseitige Kuhlung / Anode-sided cooling 3 - Kathodenseitige Kuhlung / Cathode-sided cooling 0,05 Analytische Funktion / Analytical function nmax ZthJC = Rthn(1-EXP(-t/ n)) n=1 10 -2 10-1 10 0 10 1 102 0 10-3 D758N_2 t [s] Bild / Fig. 7 Transienter innerer Warmewiderstand Transient thermal impedance Z = f(t), DC thJC 1 - Beidseitige Kuhlung / Two-sided cooling 2 - Anodenseitige Kuhlung / Anode-sided cooling 3 - Kathodenseitige Kuhlung / Cathode-sided cooling |
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