V 900 V DS I 25C 36 A D E3M0065090D R 65 m DS(on) Silicon Carbide Power MOSFET E-Series Automotive N-Channel Enhancement Mode Features Package 3rd generation SiC MOSFET technology High blocking voltage with low On-resistance High speed switching with low capacitances Fast intrinsic diode with low reverse recovery (Qrr) Halogen free, RoHS compliant Automotive Qualified (AEC-Q101) and PPAP Capable Benefits Higher system efficiency Reduced cooling requirements Increased power density Increased system switching frequency Applications Renewable energy EV battery chargers High voltage DC/DC converters Marking Part Number Package Switch Mode Power Supplies E3M0065090D TO-247-3 E3M0065090 Maximum Ratings (T = 25 C unless otherwise specified) C Parameter Value Unit Test Conditions Note Symbol Drain - Source Voltage 900 V VGS = 0 V, ID = 100 A V DSmax V Gate - Source Voltage -8/+18 V Note: 1 GSmax V Gate - Source Voltage (Recommended operating values) -4/+15 V Note: 2 GSop 35 Fig. 19 V = 15 V, T = 25C GS C I Continuous Drain Current A D 23 V = 15 V, T = 100C GS C I Pulsed Drain Current 90 A Pulse width t limited by T Fig. 22 D(pulse) jmax P Power Dissipation 125 W T =25C, T = 150 C Fig. 20 P C J D -55 to T , T Operating Junction and Storage Temperature C J stg +150 1.6mm (0.063) from case for T Solder Temperature 260 C L 10s 1 Nm Mounting Torque M3 or 6-32 screw M d 8.8 lbf-in Note (1): When using MOSFET Body Diode V = -4V/+18V GSmax Note (2): MOSFET can also safely operate at 0/+15 V 1 E3M0065090D Rev. A, 08-2018Electrical Characteristics (T = 25C unless otherwise specified) C Symbol Parameter Min. Typ. Max. Unit Test Conditions Note V Drain-Source Breakdown Voltage 900 V V = 0 V, I = 100 A (BR)DSS GS D 1.7 2.1 3.5 V VDS = VGS, ID = 5 mA V Gate Threshold Voltage Fig. 11 GS(th) 1.6 V V = V , I = 5 mA, T = 150C DS GS D J I Zero Gate Voltage Drain Current 1 100 A V = 900 V, V = 0 V DSS DS GS I Gate-Source Leakage Current 10 250 nA V = 15 V, V = 0 V GSS GS DS 65 84.5 VGS = 15 V, ID = 20 A Fig. 4, R Drain-Source On-State Resistance m DS(on) 5, 6 90 VGS = 15 V, ID = 20A, TJ = 150C 13.6 VDS= 20 V, IDS= 20 A g Transconductance S Fig. 7 fs 11.6 V = 20 V, I = 20 A, T = 150C DS DS J Ciss Input Capacitance 660 Fig. 17, VGS = 0 V, VDS = 600 V C Output Capacitance 60 oss pF 18 f = 1 MHz C Reverse Transfer Capacitance 4.0 rss AC V = 25 mV E C Stored Energy 16 J Fig. 16 oss oss E Turn-On Switching Energy (Body Diode FWD) 226 ON V = 400 V, V = -4 V/15 V, I = 20A, DS GS Fig. 26, D J Note 3 R = 2.5, L= 77 H, T = 150C J G(ext) E Turn Off Switching Energy (Body Diode FWD) 36 OFF td(on) Turn-On Delay Time 35 V = 400 V, V = -4 V/15 V DD GS tr Rise Time 11 I = 20 A, R = 2.5 , D G(ext) ns Fig. 27 Timing relative to V DS t Turn-Off Delay Time 23 d(off) Inductive load t Fall Time 9 f , R Internal Gate Resistance 4.7 f = 1 MHz V = 25 mV G(int) AC Q Gate to Source Charge 7.5 gs V = 400 V, V = -4 V/15 V DS GS Q Gate to Drain Charge 12 I = 20 A gd nC D Fig. 12 Per IEC60747-8-4 pg 21 Q Total Gate Charge 30.4 g (T = 25C unless otherwise specified) Reverse Diode Characteristics C Symbol Parameter Typ. Max. Unit Test Conditions Note 4.8 V V = -4 V, I = 10 A GS SD Fig. 8, V Diode Forward Voltage SD 9, 10 4.4 V V = -4 V, I = 10 A, T = 150 C GS SD J I Continuous Diode Forward Current 23.5 A V = -4 V, T = 25C Note 1 S C GS I Diode pulse Current 90 A Note 1 S, pulse V = -4 V, pulse width t limited by T jmax GS P t Reverse Recover time 35 ns rr V = -4 V, I = 20 A, V = 400 V GS SD R Note 1 Q Reverse Recovery Charge 150 nC rr dif/dt = 950 A/s, T = 150 C J I Peak Reverse Recovery Current 5.6 A rrm Thermal Characteristics Symbol Parameter Max. Unit Test Conditions Note R Thermal Resistance from Junction to Case 1.0 JC C/W Fig. 21 RJA Thermal Resistance From Junction to Ambient 40 Note (3): Turn-off and Turn-on switching energy and timing values measured using SiC MOSFET Body Diode 2 E3M0065090D Rev. A, 08-2018