Package. Symbol Parameter Value Unit Test Conditions Note V GS = 15 V, T C = 25 C Fig. 19 A 7.5 V GS = 15 V, T C = 100 C.

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1 C3M29D Silicon Carbide Power MOSFET C3M TM MOSFET Technology N-Channel Enhancement Mode Features Package V DS I 25 C R DS(on) 9 V 11.5 A 2 mω C3M 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 Benefits Higher system efficiency Reduced cooling requirements Increased power density Increased system switching frequency Applications Renewable energy Lighting High voltage DC/DC converters Telecom Power Supplies Induction Heating Part Number Package Marking C3M29D TO-27-3 C3M29 Maximum Ratings (T C = 25 C unless otherwise specified) Symbol Parameter Value Unit Test Conditions Note V DSmax Drain - Source Voltage 9 V V GS = V, I D = 1 μa V GSmax Gate - Source Voltage (dynamic) -/+19 V AC (f >1 Hz) Note: 1 V GSop Gate - Source Voltage (static) -/+15 V Static Note: 2 I D Continuous Drain Current 11.5, T C = 25 C Fig. 19 A 7.5, T C = 1 C I D(pulse) Pulsed Drain Current 22 A Pulse width t P limited by T jmax Fig. 22 P D Power Dissipation 5 W T C =25 C, T J = 15 C Fig. 2 T J, T stg Operating Junction and Storage Temperature 5 to +15 C T L Solder Temperature 26 C 1.6mm (.63 ) from case for 1s M d Mounting Torque 1. Nm lbf-in M3 or 6-32 screw Note (1): When using MOSFET Body Diode V GSmax = -V/+19V Note (2): MOSFET can also safely operate at /+15 V 1 C3M29D Rev. A, 3-217

2 Electrical Characteristics (T C = 25 C unless otherwise specified) Symbol Parameter Min. Typ. Max. Unit Test Conditions Note V (BR)DSS Drain-Source Breakdown Voltage 9 V V GS = V, I D = 1 μa V GS(th) Gate Threshold Voltage V V DS = V GS, I D = 1.2 ma 1.6 V V DS = V GS, I D = 1.2 ma, T J = 15ºC I DSS Zero Gate Voltage Drain Current 1 1 μa V DS = 9 V, V GS = V I GSS Gate-Source Leakage Current 1 25 na, V DS = V R DS(on) g fs Drain-Source On-State Resistance Transconductance C iss Input Capacitance 15 Fig , I D = 7.5 A Fig., mω 35, I D = 7.5 A, T J = 15ºC 5, V DS= 15 V, I DS= 7.5 A S 3.1 V DS= 15 V, I DS= 7.5 A, T J = 15ºC pf V GS = V, V DS = 6 V Fig. 17, C oss Output Capacitance 2 1 f = 1 MHz C rss Reverse Transfer Capacitance 2 VAC = 25 mv E oss C oss Stored Energy.5 μj Fig. 16 Fig. 7 E ON Turn-On Switching Energy (Body Diode FWD) 57 E OFF Turn Off Switching Energy (Body Diode FWD) 6 μj V DS = V, V GS = - V/15 V, I D = 7.5 A, R G(ext) = 2.5Ω, L= 22 μh, T J = 15ºC Fig. 26, 29 Note 3 t d(on) Turn-On Delay Time 26 t r Rise Time 1 t d(off) Turn-Off Delay Time 17.5 t f Fall Time 7.5 ns V DD = V, V GS = - V/15 V I D = 7.5 A, R G(ext) = 2.5 Ω, Timing relative to V DS Inductive load R G(int) Internal Gate Resistance 26 Ω f = 1 MHz, V AC = 25 mv Q gs Gate to Source Charge 2. Q gd Gate to Drain Charge 3. Q g Total Gate Charge 9.5 nc V DS = V, V GS = - V/15 V I D = 7.5 A Per IEC677-- pg 21 Fig. 27, 29 Note 3 Fig. 12 Reverse Diode Characteristics (T C = 25 C unless otherwise specified) Symbol Parameter Typ. Max. Unit Test Conditions Note V SD Diode Forward Voltage. V V GS = - V, I SD = A. V V GS = - V, I SD = A, T J = 15 C Fig., 9, 1 I S Continuous Diode Forward Current 16.5 A V GS = - V Note 1 I S, pulse Diode pulse Current 22 A V GS = - V, pulse width t P limited by T jmax Note 1 t rr Reverse Recover time 2 ns Q rr Reverse Recovery Charge 7 nc I rrm Peak Reverse Recovery Current 3. A V GS = - V, I SD = A, V R = V dif/dt = 6 A/µs, T J = 15 C Note 1 Thermal Characteristics Symbol Parameter Max. Unit Test Conditions Note R θjc Thermal Resistance from Junction to Case 2.3 R θja Thermal Resistance From Junction to Ambient C/W Fig. 21 Note (3): Turn-off and Turn-on switching energy and timing values measured using SiC MOSFET Body Diode 2 C3M29D Rev. A, 3-217

3 Typical Performance T J = 5 C tp = < 2 µs V GS = 13 V tp = < 2 µs V GS = 13 V V GS = 11 V V GS = 9 V V GS = 7 V V GS = 11 V V GS = 9 V V GS = 7 V Figure 1. Output Characteristics T J = 5 ºC Figure 2. Output Characteristics T J = 25 ºC T J = 15 C tp = < 2 µs V GS = 13 V I DS = 7 A t p < 2 µs V GS = 11 V V GS = 9 V V GS = 7 V On Resistance, R DS On (P.U.) Junction Temperature, T J ( C) Figure 3. Output Characteristics T J = 15 ºC Figure. Normalized On-Resistance vs. Temperature 6 5 t p < 2 µs I DS = 7 A t p < 2 µs On Resistance, R DS On (mohms) T J = 15 C T J = 5 C On Resistance, R DS On (mohms) V GS = 11 V V GS = 13 V Junction Temperature, T J ( C) Figure 5. On-Resistance vs. Drain Current For Various Temperatures Figure 6. On-Resistance vs. Temperature For Various Gate Voltage 3 C3M29D Rev. A, 3-217

4 Typical Performance V DS = 2 V tp < 2 µs T J = 15 C T J = 5 C V GS = - V V GS = V V GS = -2 V Gate-Source Voltage, V GS (V) T J = 5 C t p < 2 µs -2 Figure 7. Transfer Characteristic for Various Junction Temperatures Figure. Body Diode Characteristic at 5 ºC V GS = - V V GS = -2 V V GS = V -1 V GS = - V V GS = -2 V V GS = V -1 T J = 25 C t p < 2 µs -2 T J = 15 C t p < 2 µs -2 Figure 9. Body Diode Characteristic at 25 ºC Figure 1. Body Diode Characteristic at 15 ºC Threshold Voltage, V th (V) Conditons V GS = V DS I DS = 1.2 ma Gate-Source Voltage, V GS (V) I DS = 7.5 A I GS = 1 ma V DS = V Junction Temperature T J ( C) Gate Charge, Q G (nc) Figure 11. Threshold Voltage vs. Temperature Figure 12. Gate Charge Characteristics C3M29D Rev. A, 3-217

5 Typical Performance V GS = V V GS = 5 V V GS = 1 V -1 V GS = V V GS = 5 V V GS = 1 V -1 T J = 5 C t p < 2 µs -2 t p < 2 µs -2 Figure 13. 3rd Quadrant Characteristic at 5 ºC Figure 1. 3rd Quadrant Characteristic at 25 ºC V GS = V V GS = 1 V V GS = 5 V -1 Stored Energy, E OSS (µj) 6 2 T J = 15 C t p < 2 µs Drain to Source Voltage, V DS (V) Figure 15. 3rd Quadrant Characteristic at 15 ºC Figure 16. Output Capacitor Stored Energy 1 C iss V AC = 25 mv f = 1 MHz 1 C iss V AC = 25 mv f = 1 MHz Capacitance (pf) 1 1 C oss Capacitance (pf) 1 1 C oss C rss C rss Figure 17. Capacitances vs. Drain-Source Voltage ( - 2V) Figure 1. Capacitances vs. Drain-Source Voltage ( - 9V) 5 C3M29D Rev. A, 3-217

6 Typical Performance Drain-Source Continous Current, I DS (DC) (A) T J 15 C Maximum Dissipated Power, P tot (W) T J 15 C Case Temperature, T C ( C) Case Temperature, T C ( C) Figure 19. Continuous Drain Current Derating vs. Case Temperature Figure 2. Maximum Power Dissipation Derating vs. Case Temperature Junction To Case Impedance, Z thjc ( o C/W) 1 1E SinglePulse 1E-3 1E-6 1E-6 1E-6 1E-3 1E-3 1E-3 1 Time, t p (s) Limited by R DS On 1 ms 1 µs T C = 25 C D =, Parameter: t p ms 1 µs Figure 21. Transient Thermal Impedance (Junction - Case) Figure 22. Safe Operating Area V DD = 6 V R G(ext) = 2.5 Ω V GS = -V/+15 V FWD = C3M29D L = 22 μh V DD = V R G(ext) = 2.5 Ω V GS = -V/+15 V FWD = C3M29D L = 22 μh Switching Loss (uj) 15 1 E Total E On Switching Loss (uj) 1 6 E Total E On 5 E Off 2 E Off Drain to Source Current,I DS (A) Drain to Source Current,I DS (A) Figure 23. Clamped Inductive Switching Energy vs. Drain Current (V DD = 6V) Figure 2. Clamped Inductive Switching Energy vs. Drain Current (V DD = V) 6 C3M29D Rev. A, 3-217

7 Typical Performance Switching Loss (uj) 1 6 V DD = V I DS = 7.5 A V GS = -V/+15 V FWD = C3M29D L = 22 μh E Total E On Switching Loss (uj) 1 6 I DS = 7.5 A V DD = V R G(ext) = 2.5 Ω V GS = -V/+15 V FWD = C3M29D L = 22 μh E Total E On 2 2 E Off E Off External Gate Resistor RG(ext) (Ohms) Junction Temperature, T J ( C) Figure 25. Clamped Inductive Switching Energy vs. R G(ext) Figure 26. Clamped Inductive Switching Energy vs. Temperature Times (ns) V DD = V I DS = 7.5 A V GS = -V/+15 V FWD = C3M29D L = 22 μh t d(on) t d(off) t r External Gate Resistor RG(ext) (Ohms) t f Figure 27. Switching Times vs. R G(ext) Figure 2. Switching Times Definition 7 C3M29D Rev. A, 3-217

8 Test Circuit Schematic Q 1 R G V GS= - V C3M29D V DC Q 2 R G C3M29D D.U.T Figure 29. Clamped Inductive Switching Test Circuit Note (3): Turn-off and Turn-on switching energy and timing values measured using SiC MOSFET Body Diode as shown above. C3M29D Rev. A, 3-217

9 T V Package Dimensions Package TO-27-3 Recommended Solder Pad Layout U W Pinout Information: Pin 1 = Gate Pin 2, = Drain Pin 3 = Source Inches Millimeters POS Min Max Min Max A A A b b b b b c D D D E E E E E e.21 BSC 5. BSC N 3 3 L L ØP Q S T U V 2 2 W 2 2 TO C3M29D Rev. A, 3-217

10 Notes RoHS Compliance The levels of RoHS restricted materials in this product are below the maximum concentration values (also referred to as the threshold limits) permitted for such substances, or are used in an exempted application, in accordance with EU Directive 211/65/ EC (RoHS2), as implemented January 2, 213. RoHS Declarations for this product can be obtained from your Cree representative or from the Product Documentation sections of REACh Compliance REACh substances of high concern (SVHCs) information is available for this product. Since the European Chemical Agency (ECHA) has published notice of their intent to frequently revise the SVHC listing for the foreseeable future,please contact a Cree representative to insure you get the most up-to-date REACh SVHC Declaration. REACh banned substance information (REACh Article 67) is also available upon request. This product has not been designed or tested for use in, and is not intended for use in, applications implanted into the human body nor in applications in which failure of the product could lead to death, personal injury or property damage, including but not limited to equipment used in the operation of nuclear facilities, life-support machines, cardiac defibrillators or similar emergency medical equipment, aircraft navigation or communication or control systems, air traffic control systems. Related Links C2M PSPICE Models: SiC MOSFET Isolated Gate Driver reference design: SiC MOSFET Evaluation Board: Copyright 217 Cree, Inc. All rights reserved. The information in this document is subject to change without notice. Cree, the Cree logo, and Zero Recovery are registered trademarks of Cree, Inc. Cree, Inc. 6 Silicon Drive Durham, NC 2773 USA Tel: Fax: C3M29D Rev. A, 3-217

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