CCS050M12CM2 1.2kV, 50A Silicon Carbide Six-Pack (Three Phase) Module Z-FET TM MOSFET and Z-Rec TM Diode
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1 CCS5M12CM2 1.2kV, 5A Silicon Carbide Six-Pack (Three Phase) Module Z-FET TM MOSFET and Z-Rec TM Diode Features Ultra Low Loss Zero Reverse Recovery Current Zero Turn-off Tail Current High-Frequency Operation Positive Temperature Coefficient on V F and V DS(on) Cu Baseplate, AlN DBC System Benefits Enables Compact and Lightweight Systems High Efficiency Operation Ease of Transistor Gate Control Reduced Cooling Requirements Reduced System Cost V DS R DS(on) (T J = 25 C) E OFF (T J = 15 C) Package 1.2 kv 25 mω.6 mj Applications Solar Inverters UPS and SMPS Induction Heating Regen Drives 3-Phase PFC Motor Drives Part Number Package Marking CCS5M12CM2 Six-Pack CCS5M12CM2 Maximum Ratings (T C = 25 C unless otherwise specified) Symbol Parameter Value Unit Test Conditions Notes V DS Drain - Source Voltage 1.2 kv V GS Gate - Source Voltage +25/-1 V I D Continuous Drain Current 87 V GS = 2V, T C =25 C A 61 V GS = 2V, T C =9 C Fig. 21 Datasheet: CCS5M12CM2,Rev. A I D(pulse) Pulsed Drain Current 25 A Pulse width t P = 5 μs Rate limited by T jmax,t C = 25 C T J Junction Temperature 15 C T C,T STG Case and Storage Temperature Range -4 to +15 C V isol Case Isolation Voltage 2.5 kv DC, t=1min L Stray Stray Inductance 3 nh Measured from pins to M Mounting Torque 5. Nm G Weight 18 g P D Power Dissipation 337 W T C = 25ºC, T J 15ºC Subject to change without notice. 1
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 1.2 kv V GS, = V, I D = 1 ua V GS(th) Gate Threshold Voltage 2.3 V DS = 1 V, ID = 2.5 ma 1.6 V V DS = 1 V, ID = 2.5 ma, T J = 15ºC I DSS Zero Gate Voltage Drain Current 2 1 μa V DS = 1.2 kv, V GS = V I GSS Gate-Source Leakage Current.5 μa V GS, = 2 V, V DS = V R DS(on) g fs On State Resistance Transconductance C iss Input Capacitance 2.81 C oss Output Capacitance.393 C rss Reverse Transfer Capacitance mω VGS = 2 V, ID = 5 A Fig V GS = 2 V, I D = 5 A, T J = 15ºC 5,6,7 22 V DS = 2 V, ID = 5 A 21 S V DS = 2 V, ID = 5 A, T J = 15ºC nf V DS = 8V, V GS = V f = 1MHz, V AC = 25mV Fig. 8 Fig. 16,17 E on Turn-On Switching Energy 1.1 mj E Off Turn-Off Switching Energy.6 mj V DD = 6V, V GS = +2V/-5V I D = 5A, R G = 2Ω Inductive Load = 2 μh T J = 15ºC Note: IEC Definitions Fig. 18 R G Internal Gate Resistance 1.5 Ω f = 1MHz, V AC = 25mV Q G Gate Charge 18 nc V DD= 8V, I D= 5A Fig. 15 Resistive Switching t d(on) Turn-on delay time 21 ns t r(on) V SD fall time 9% to 1% 3 ns t d(off) Turn-off delay time 5 ns V DD = 8V, R LOAD = 8 Ω V GS = +2/-2V, R G = 3.8 Ω T J = 25ºC Note: IEC Definitions t f(off) V SD rise time 1% to 9% 19 ns Module Application Note: The SiC MOSFET module switches at speeds beyond what is customarily associated with IGBT based modules. Therefore, special precautions are required to realize the best performance. The interconnection between the gate driver and module housing needs to be as short as possible. This will afford the best switching time and avoid the potential for device oscillation. Also, great care is required to insure minimum inductance between the module and link capacitors to avoid excessive V DS overshoots. 2 CCS5M12CM2,Rev. A
3 Free-Wheeling SiC Schottky Diode Characteristics Symbol Parameter Min. Typ. Max. Unit Test Conditions Note V SD Diode Forward Voltage Q C Total Capacitive Charge.28 μc V I F = 5A, V GS = 2.2 I F = 5A, T J = 15ºC 3.42 I F = 25A, V R = 1V di F/dt = 5 A/μs, T J = 25ºC V R=V, f = 1MHz, T J = 25ºC C Total Capacitance.23 nf V R=4V, f = 1MHz, T J = 25ºC.18 V R=8V, f = 1MHz, T J = 25ºC I F Continuous Forward Current 5 A V GS = -5V, T case = 1ºC Thermal Characteristics Symbol Parameter Min. Typ. Max. Unit Test Conditions Note R thjcm Thermal Resistance Juction-to-Case for MOSFET R thjcd Thermal Resistance Juction-to-Case for Diode C/W 3 CCS5M12CM2,Rev. A
4 Typical Performance 2 16 T J = -4 C t p < 5 µs V GS = 2 V 2 16 t p < 5 µs V GS = 2 V Drain Current, I DS (A) 12 8 Drain Current, I DS (A) 12 8 V GS = 1 V 4 V GS = 1 V Figure 1. Typical Output Characteristics T J = -4ºC Figure 2. Typical Output Characteristics T J = 25ºC Drain Current, I DS (A) T J = 15 C t p < 5 µs V GS = 2 V V GS = 1 V On Resistance, R DS On (p.u.) I DS = 5 A V GS = 2 V t p < 5 µs Junction Temperature, T J ( C) Figure 3. Typical Output Characteristics T J = 15ºC Figure 4. Normalized On-Resistance vs. Temperature 6 5 V GS = 2 V t p < 5 µs T J = 15 C I DS = 5 A t p < 5 µs On Resistance, R DS On (mω) T J = -4 C T J = 125 C On Resistance, R DS On (mω) T J = -4 C T J = 15 C Drain Source Current, I DS (A) Gate Source Voltage, V GS (V) Figure 5. Normalized On-Resistance vs. Drain Current For Various Temperatures Figure 6. Normalized On-Resistance vs. Gate-Source Voltage for Various Temperatures 4 CCS5M12CM2,Rev. A
5 Typical Performance On Resistance, R DS On (mω) V GS = 12 V V GS = 14 V V GS = 16 V V GS = 18 V V GS = 2 V I DS = 5 A t p < 5 µs t p < 5 µs V DS = 2 V T J = 15 C T J = 1 C Junction Temperature, T J ( C) Figure 7. On-Resistance vs. Temperature for Various Gate-Source Voltages Gate-Source Voltage, V GS (V) Figure 8. Transfer Characteristic for Various Junction Temperatures V GS = -5 V V GS = -2 V V GS = V -5 Drain-Source Currnmt, I DS (A) -5 T J = -4 C tp < 5 µs -1 V GS = -2 V V GS = -5 V V GS = V tp < 5 µs -1 Figure 9. Diode Characteristic at -4ºC Figure 1. Diode Characteristic at 25ºC V GS = V V GS = 1 V V GS = -5 V V GS = V -5 V GS = 2 V -5 V GS = -2 V T J = 15 C tp < 5 µs -1 T J = -4 C tp < 5 µs -1 Figure 11. Diode Characteristic at 15ºC Figure 12. 3rd Quadrant Characteristic at -4ºC 5 CCS5M12CM2,Rev. A
6 Typical Performance V GS = V V GS = V V GS = 1 V V GS = 2 V -5 V GS = 1 V -5 tp < 5 µs -1 V GS = 2 V T J = 15 C tp < 5 µs -1 Figure 13. 3rd Quadrant Characteristic at 25ºC Figure 14. 3rd Quadrant Characteristic at 15ºC 2 1 Gate-Source Voltage, V GS (V) V DS = 8 V I DS = 5 A I GS = 1 ma Capacitance (pf) f = 1 MHz V AC = 25 mv C ISS C OSS C RSS Gate Charge (nc) Figure 15. Typical Gate Charge Characteristics Figure 16. Typical Capacitances vs. Drain-Source Voltage ( - 25V) 1 1 C ISS V DD = 6 V T J = 15 C L = 2 µh R G = 2 Ohms V GS = +2V/-5V E on Capacitance (pf) 1 1 C OSS C RSS Switching Loss (mj) E off f = 1 MHz V AC = 25 mv Figure 17. Typical Capacitances vs. Drain-Source Voltage ( - 1V) Drain to Source Current, I DS (A) Figure 18. Inductive Switching Energy vs. Drain Current For V DS = 6V, R G = 2 Ω 6 CCS5M12CM2,Rev. A
7 Typical Performance Switching Loss (mj) V DD = 8 V T J = 15 C L = 2 µh R G = 2 Ohms V GS = +2V/-5V E on E off Maximum Dissipated Power, P tot (W) T J 15 C Drain to Source Current, I DS (A) Figure 19. Inductive Switching Energy vs. Drain Current For V DS = 8V, R G = 2 Ω Case Temperature, T C ( C) Figure 2. Power Dissipation Derating Curve Drain-Source Continuous Current, I DS (DC) (A) T J 15 C Case Temperature, T C ( C) Figure 21. Continuous Current Derating Curve 7 CCS5M12CM2,Rev. A
8 Package Dimensions (mm) 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, or weapons systems. Copyright 213 Cree, Inc. All rights reserved. The information in this document is subject to change without notice. Cree and the Cree logo are registered trademarks and Z-Rec is a trademark of Cree, Inc. 8 CCS5M12CM2,Rev. A Cree, Inc. 46 Silicon Drive Durham, NC 2773 USA Tel: Fax:
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