New Product Bulletin 1200V Voltage Resistance SiC MOSFETs SCT2080KE / SCH2080KE Provides simultaneous high voltage resistance, low ON resistance, high-speed switching, and fast recovery Product Outline ROHM’s 1200V SiC MOSFETs provide low loss during high frequency operation. In particular, switching loss is reduced by 90% compared with Si IGBTs, decreasing both chip size and costs. In addition, improved processes related to crystal defects and optimized device structure ensure high reliability. ROHM also offers the industry’s first* SiC MOSFET that integrates an SiC-SBD in the same package for low VF, making it ideal for inverter applications and more. *ROHM June 2012 survey Turn OFF Characteristics 25 Vdd=400V Rg=5.6Ω 20 15 Switching loss reduced 90% Current (A) ROHM SiC MOSFETs achieve high-speed switching and high voltage resistance not possible with their silicon counterparts.As a result, turn OFF loss is reduced by over 90%, while high-speed diode recovery characteristics reduce loss by 73% over silicon IGBTs during operation for minimal power consumption. 10 Innovations such as gate oxidizing conditions enable an ON resistance per-unit-area 29% lower than conventional products, resulting in the lowest ON resistance at 1200V in the TO-247 MOSFET class*. In addition, low ON resistance is maintained even at high temperatures, and no voltage rise ensures low loss even during light loads. VDS-ID (Ta=25°C) 30 Si-IGBT 5 SiC-MOSFET 0 50 ID (A) Time (nsec) 10 100 (30kHz over) operation, contributing to end-product miniaturization. ON Loss OFF Loss Conduction Loss 0 80 73% lower loss 60 1 2 15.90 20.95 20 SiC-MOSFET 7.95 SiC-MOSFET and SiC-SBD integrated into a single package ROHM’s SCH2080KE SiC MOSFET integrates an SiC-SBD for low VF, reduced switching loss, low ON resistance, and low recovery loss, making it ideal for inverter applications. In addition, fewer components are required, contributing to greater space savings. 3.00 20.18 Si-IGBT Drain 3 VDS (V) External Dimensions vs. IGBT 40 0 0 Si SJMOS 900V 15 SiC JFET 1200V 4 1.98 5.03 1.20 2.03 5.45 SiC-MOSFET (Vgs=18V) SJ MOS (Vgs=10V) IGBT (Vgs=15V) SiC JFET (Vgs=3V) 5 5 (Unit : mm) 3.91 used during high-frequency Loss (W) peripheral components to be 5 0 0 1 2 3 VDS (V) 4 5 A pplications • Industrial equipment • Power conditioners and more 5.62 but also enables smaller (at 30kHz drive) 6.17 120 3.61 Loss Comparison 4.32 energy savings and efficiency, SiC-MOSFET 1200V 10 SiC-MOSFET (Vgs=18V) SJ MOS (Vgs=10V) IGBT (Vgs=15V) SiC JFET (Vgs=3V) 3.81 SiC not only provides greater Si IGBT 1200V 20 Si IGBT 1200V 15 VDS-ID (Ta=150°C) 25 Si SJMOS 900V 20 100 150 200 250 300 350 400 450 30 SiC JFET 1200V SiC -MOSFET 1200V 25 0 -5 ■ VDS-ID characteristics comparison ID (A) ■ Low switching loss contributes to improved energy savings and increased miniaturization 3.0° 2.40 <Circuit Examples> Step-Down Chopper etc SiC-MOSFET Inverter 0.60 Motor SBD ■ Lineup Gate BVDSS RDS(on) Package SCT2080KE 1200V 80mΩ TO-247 SCH2080KE 1200V 80mΩ TO-247 Part No. (SiC-MOSFET) Source Body Diode (SiC-MOSFET+SiC SBD)