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VSM ITAVM ITRMS ITSM VT0 rT = = = = = = 5200 V 1800 A 2830 A 29000 A 1.02 V 0.320 m Bi-Directional Control Thyristor 5STB 17N5200 Doc. No. 5SYA1036-03 Sep. 01 * Two thyristors integrated into one wafer * Patented free-floating silicon technology * Designed for traction, energy and industrial applications * Optimum power handling capability * Interdigitated amplifying gate. The electrical and thermal data are valid for one thyristor half of the device. Blocking Part Number VSM VRM ISM IRM dV/dtcrit VRM is equal to VSM up to Tj = 110C 5STB 17N5200 5200 V 4400 V 5STB 17N5000 5000 V 4200 V 400 mA 400 mA 2000 V/s 5STB 17N4600 4600 V 4000 V Conditions f = 5 Hz, tp = 10ms f = 50 Hz,tp = 10ms VSM VRM Tj = 125C @ Exp. to 0.67xVSM Mechanical data FM Mounting force nom. min. max. a Acceleration Device unclamped Device clamped m DS Da Weight Surface creepage distance Air strike distance 50 m/s2 100 m/s2 2.9 kg 53 mm 22 mm 90 kN 81 kN 108 kN ABB Semiconductors AG reserves the right to change specifications without notice. 5STB 17N5200 On-state ITAVM ITRMS ITSM I2t Max. average on-state t Max. RMS on-state current Max. peak non-repetitive surge current Limiting load integral 1800 A 2830 A 29000 A 31000 A 4205 kA2s 3990 kA2s VT VT0 rT IH IL On-state voltage Threshold voltage Slope resistance Holding current 1.68 V 1.02 V 0.320 m 50-250 mA 25-150 mA Latching current 100-500 mA 50-300 mA Tj Tj Tj Tj = 25C = 125C = 25C = 125C tp tp tp tp IT IT = = = = = = 10 ms Tj = 125C 8.3 ms After surge: 10 ms VD = VR = 0V 8.3 ms 2000 A 1000 - 3000 A Tj = 125C Half sine wave, TC = 70C Switching di/dtcrit Critical rate of rise of on-state current 250 A/s 500 A/s Cont. f = 50 Hz VD 0.67VDRM , Tj = 125C 60 sec. f = 50Hz VD = 0.4VDRM ITRM = 3000 A IFG = 2 A, tr = 0.5 s IFG = 2 A, tr = 0.5 s td tq Qrr Delay time Turn-off time min max 3.0 s 700 s VD 0.67VDRM ITRM = 3000 A, Tj = 125C dvD/dt = 20V/s VR > 200 V, diT/dt = -1.5 A/s Recovery charge 4000 As 5200 As Triggering VGT IGT VGD IGD VFGM IFGM VRGM PG Gate trigger voltage Gate trigger current Gate non-trigger voltage Gate non-trigger current Peak forward gate voltage Peak forward gate current Peak reverse gate voltage Maximum gate power loss 2.6 V 400 mA 0.3 V 10 mA 12 V 10 A 10 V 3W Tj = 25C Tj = 25C VD = 0.4VRM VD = 0.4VRM Tj = 125C Tj = 125C ABB Semiconductors AG reserves the right to change specifications without notice. Doc. No. 5SYA1036-03 Sep. 01 page 2 of 6 5STB 17N5200 Thermal Tj Tstg RthJC Operating junction temperature range Storage temperature range Thermal resistance junction to case -40...125 C -40...150 C 22.8 K/kW 22.8 K/kW 11.4 K/kW RthCH Thermal resistance case to heat sink Analytical function for transient thermal impedance: Anode side cooled Cathode side cooled Double side cooled Single side cooled Double side cooled 4 K/kW 2 K/kW ZthJC [K/kW] 15 180 sine: add 1 K/kW 180 rectangular: add 1 K/kW 120 rectangular: add 1 K/kW 60 rectangular: add 2 K/kW ZthJC(t) = a Ri(1 - e i =1 i Ri(K/kW) i(s) 1 6.77 0.8651 2 2.51 0.1558 3 1.34 0.0212 n - t/ i ) 4 10 5 Fm = 81..108 kN Double-side cooling 0 0.001 BN1 0.78 0.0075 0.010 0.100 1.000 10.000 t [s] Fig. 1 Transient thermal impedance junction to case. On-state characteristic model: VT = A + B iT + C ln(iT +1) + D IT Valid for iT = 500 - 4000 A A 1.309 B 0.00008 C -0.125 D 0.026 Fig. 2 On-state characteristics. Fig. 3 On-state characteristics. ABB Semiconductors AG reserves the right to change specifications without notice. Doc. No. 5SYA1036-03 Sep. 01 page 3 of 6 5STB 17N5200 Tcase (C) 130 Double-sided cooling 125 120 115 110 105 100 95 90 85 80 75 70 0 500 1000 1500 2000 2500 DC 180 rectangular 180 sine 120 rectangular 3000 ITAV (A) Fig. 4 On-state power dissipation vs. mean onstate current. Turn - on losses excluded. Fig. 5 Max. permissible case temperature vs. mean on-state current. Fig. 6 Surge on-state current vs. pulse length. Half-sine wave. Fig. 7 Surge on-state current vs. number of pulses. Half-sine wave, 10 ms, 50Hz. ABB Semiconductors AG reserves the right to change specifications without notice. Doc. No. 5SYA1036-03 Sep. 01 page 4 of 6 5STB 17N5200 5STB 17N5200 Fig. 8 Gate trigger characteristics. Qrr(As) 30000 Fig. 9 Max. peak gate power loss. IRM(A) 103 800 700 600 500 400 300 20000 ITRM = 3000 A Tj = Tjmax ITRM = 3000 A Tj = Tjmax 104 8000 7000 6000 5000 5STB 17N5200 4000 3000 200 102 5STB 17N5200 80 70 60 2000 1 2 3 4 5 6 7 8 910 30 20 -diT/dt (A/s) 30 1 2 3 4 5 6 7 8 910 -diT/dt (A/s) 20 30 Fig. 10 Recovery charge vs. decay rate of onstate current. Fig. 11 Peak reverse recovery current vs. decay rate of on-state current. Turn - off time, typical parameter relationship. 1.3 f 2 (-di T /dt) 1.2 1.1 5STB 17N5200 1.0 0 4 8 12 16 20 - diT/dt (A/s) 24 28 32 Fig. 12 tq/tq1 = f1(Tj) Fig. 13 tq/tq1 = f2(-diT/dt) Fig. 14 tq/tq1 = f3(dv/dt) tq = tq1 * f1(Tj) * f2(-diT/dt) * f3(dv/dt) tq1 :at normalized values (see page 2) tq : at varying conditions ABB Semiconductors AG reserves the right to change specifications without notice. Doc. No. 5SYA1036-03 Sep. 01 page 5 of 6 5STB 17N5200 Turn-on and Turn-off losses Won (Ws/pulse) 5 4 3 2 5STB 17N5200 Won (Ws/pulse) 3.0 2.5 2.0 1.5 1.0 0.5 0.0 0 1 2 3 4 5 6 7 5STB 17N5200 tp = 1 ms tp = 2 ms tp = 5 ms tp = 10 ms di/dt = 10 A/s di/dt = 5 A/s di/dt = 2 A/s di/dt = 1 A/s 1 0 0 1 2 3 4 5 6 7 8 8 IT (kA) IT (kA) Fig. 15Won = f(IT, tP), Tj = 125 C. Half sinusoidal waves. Fig. 16Won = f(IT, di/dt), Tj = 125 C. Rectangular waves. Woff (Ws/pulse) 10 9 8 7 6 5 5STB 17N5200 Woff (Ws/pulse) 18 16 14 12 10 8 5STB 17N5200 ITRM = 8000 A ITRM = 6000 A ITRM = 4000 A di/dt di/dt di/dt di/dt = 10 A/s = 5 A/s = 2 A/s = 1 A/s 4 3 2 1 0 0.0 0.4 0.8 1.2 1.6 2.0 2.4 6 4 2 0 0.0 0.4 0.8 1.2 1.6 2.0 2.4 2.8 V0 (kV) V0 (kV) 2.8 Fig. 17Woff = f(V0, IT), Tj = 125 C. Half sinusoidal waves. tP = 10 ms. Fig. 18Woff = f(V0,di/dt), Tj = 125 C. Rectangular waves. ABB Semiconductors AG reserves the right to change specifications without notice. ABB Semiconductors AG Fabrikstrasse 3 CH-5600 Lenzburg, Switzerland Telephone Fax Email Internet +41 (0)62 888 6419 +41 (0)62 888 6306 abbsem@ch.abb.com www.abbsem.com Doc. No. 5SYA1036-03 Sep. 01 |
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