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| Key Parameters VRRM = 2600 IFAVM = 1020 IFSM = 11.5 VF0 = 0.87 rF = 0.39 V A kA V m Avalanche Rectifier Diode 5SDA 09D2604 Doc. No. 5SYA 1121 - 01 Apr-98 Features * * * * * Optimized for line frequency rectifiers Low on-state voltage, narrow VF-bands for parallel operation Self protected against transient overvoltages Guaranteed maximum avalanche power dissipation Industry standard housing Blocking Part number VRRM VRSM IRRM PRSM 5SDA 09D2604 2600 2860 5SDA 09D2304 2300 2530 50 70 50 mA kW kW 5SDA 09D2004 2000 2200 Condition f tP tP tP = 50 Hz = 10 ms = 20 s = 20 s tP Tj Tj Tj Tj = 10 ms = 160C = 160C = 45C = 160C VRRM Mechanical data FM a Mounting force min. max. Acceleration Device unclamped Device clamped Weight Surface creepage distance Air strike distance 10 kN 12 kN 50 m/s 2 200 m/s 0.25 kg 30 mm 20.5 mm 2 m DS Da ABB Semiconductors AG ABB Semiconductors AG 5SDA 09D2604 On-state IFAVM IFRMS IFSM It VF0 rF VF min VF max 2 Max. average on-state current Max. RMS on-state current Max. peak non-repetitive surge current Limiting load integral Threshold voltage Slope resistance On-state voltage On-state voltage 1020 A 1600 A 11.5 kA 12.5 kA 66010 A s 650103 A s 0.87 V 0.39 m 1.35 V 1.50 V 2 3 2 Half sine wave, TC = 85C tp tp tp tp IF IF = = = = 10 ms 8.3 ms 10 ms 8.3 ms Tj = Tj = 160C 25C Tj = 160C After surge: VD = VR = 0V = 1000 - 3000 A = 1800 A Thermal Tj RthJC Storage and operating junction temperature range Thermal resistance junction to case RthCH Thermal resistance case to heat sink 80 K/kW 80 K/kW 40 K/kW 16 K/kW 8 K/kW Anode side cooled Cathode side cooled Double side cooled Single side cooled Double side cooled 45 40 Zth 35 30 25 20 15 Fm =10...12 kN Double Side Cooling -40...160C Analytical function for transient thermal impedance: ZthJC(t) = i R (K/kW) i (s) 1 20.95 0.396 R (1- e i i =1 2 10.57 0.072 3 7.15 4 -t/ i ) 4 1.33 [K/kW] 10 5 0 10-3 2 3 4 5 67 0.009 0.0044 10-2 2 3 4 5 67 10-1 t [s] 2 3 4 5 56 100 2 3 4 5 67 101 For a given case temperature Tc at ambient temperature Ta the maximum on-state current can be calculated as follows: IFAVM = -VF0 + (VF0)2 + 4 * f * rf * P 2 * f 2 * rf or 2 IFAVM (A) T max (C) Rthja (K/kW) f= 2 P (W) Tc (C) RthJC (K/kW) for DC current for half-sine wave for 120el., sine for 60 el., sine VF0 (V) Ta (C) rF () where P= TJ max - TC Rthjc P= TJ max - TA Rthja 1 2.5 3.1 6 Doc. No. 5SYA 1121 - 01 Apr-98 ABB Semiconductors AG Fabrikstrasse 3 CH-5600 Switzerland Telephone +41 (0)62 888 6419 Fax +41 (0)62 888 6306 |
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