5SHX26L4503 Diode data On-state(see Fig 4) lFAVM Max average on-state current 315A Half sine wave, Tc=85C IFRMsMax. RMs on-state current 500A Max peak non-repetitive surg 16.katp 10 ms current 42.8KAt= 1 ms After surge 144×10°A2 10 ms V= VR=OV p?t Limiting load integral 0.91×105A2stb= 1 ms JOn-state voltage 7.05V lF 2200A Threshold voltage 3.08V lF=400-3000A Slope resistance 18mg2 Turn-off switching(see Fig. 5, 6, 11, 12) di/dt Max rate of rise of on-state 2200A千 115%C current 650 Aps VcL 3200V Reverse recovery current ≤900Av 2700VlF=2200A E Turn-off energy ≤4 u di/dt=550AusT=115°C 0.63 4.9pH 4 uF LCL 06H Gate Unit Power supply (see Fig 9 to 11) Without galvanic isolation to power V Gate Unit voltage 20±0.5Voc circuit PGin Gate Unit power consumption< 54W fs=500Hz,leA=915A,=0.9 Gate Unit power connector AMP 640389-4 MTA Friction Lock Header, right angle( Note 1) Optical control input/output Note 3(see Fig 9, 10, 11) Poncs Optical input power -21 dBm Optical noise power 45 dBm Valid for 1mm plastic optical fibre tical output powe -15 dBm ( POF) Poff sF Optical noise power < -50 dBm gLITCh Pulse width threshold 500 ns Max pulse width without response Receiver for command signal Agilent, Type HFBR-2528 sF Transmitter for status feedback Agilent, Type HFBR-1528 Note 2 Note1:Amp,www.amp.com Note2:AgilentTechnologieswww.semiconductor.agilent.com Note 3: Do not disconnect or connect fiber optic cables while light is on ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice. DOc. No. 5SYA1230-01 Feb 02 page 3 of 95SHX 26L4503 ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice. Doc. No. 5SYA1230-01 Feb. 02 page 3 of 9 Diode Data On-state (see Fig. 4) IFAVM Max. average on-state current 315 A IFRMS Max. RMS on-state current 500 A Half sine wave, TC = 85 °C 16.9 kA tp = 10 ms Tj = 115 °C IFSM Max. peak non-repetitive surge current 42.8 kA tp = 1 ms After surge: 1.44×106 A2 s tp = 10 ms VF = VR = 0V I 2 t Limiting load integral 0.91×106 A2 s tp = 1 ms VF On-state voltage ≤ 7.05 V IF = 2200 A VF0 Threshold voltage 3.08 V Tj = 115 °C rF Slope resistance 1.8 mΩ IF = 400 - 3000 A Turn-off switching (see Fig. 5, 6, 11, 12) IF = 2200 A Tj = 115 °C di/dtcrit Max. rate of rise of on-state current 650 A/µs VCL = 3200 V Irr Reverse recovery current ≤ 900 A VCL = 2700 V IF = 2200 A Err Turn-off energy ≤ 4 J di/dt = 550 A/µs Tj = 115 °C Rs = 0.63 Ω Li = 4.9 µH CCL = 4 µF LCL = 0.6 µH Gate Unit Power supply (see Fig. 9 to 11) VGDC Gate Unit voltage 20 ±0.5 VDC Without galvanic isolation to power circuit. PGin Gate Unit power consumption ≤ 54 W fS = 500 Hz, ITGQ AV = 915 A, δ = 0.9 X1 Gate Unit power connector AMP 640389-4 MTA Friction Lock Header, right angle (Note 1) Optical control input/output Note 3 (see Fig. 9, 10, 11) Pon CS Optical input power > -21 dBm Poff CS Optical noise power < -45 dBm Pon SF Optical output power > -15 dBm Poff SF Optical noise power < -50 dBm Valid for 1mm plastic optical fibre (POF) tGLITCH Pulse width threshold ≤ 500 ns Max. pulse width without response CS Receiver for command signal Agilent, Type HFBR-2528 Note 2 SF Transmitter for status feedback Agilent, Type HFBR-1528 Note 2 Note 1: AMP, www.amp.com Note 2: Agilent Technologies, www.semiconductor.agilent.com Note 3: Do not disconnect or connect fiber optic cables while light is on