GC2X10MPS12-247
1200V 20A SiC Schottky MPS™ Diode
April 2019 Rev1.3 www.genesicsemi.com/schottky_mps/GC2X10MPS12-247.pdf Page 1 of 7
Silicon Carbide Schottky Diode
Features Package
• High Avalanche (UIS) Capability
• Enhanced Surge Current Capability
• Superior Figure of Merit QC/IF
• Low Thermal Resistance
• 175 °C Maximum Operating Temperature
• Temperature Independent Switching Behavior
• Positive Temperature Coefficient of VF
• Extremely Fast Switching Speed
TO-247-3
Advantages Applications
• Low Standby Power Losses
• Improved Circuit Efficiency (Lower Overall Cost)
• Low Switching Losses
• Ease of Paralleling without Thermal Runaway
• Smaller Heat Sink Requirements
• Low Reverse Recovery Current
• Low Device Capacitance
• Low Reverse Leakage Current
• Boost Diode in Power Factor Correction (PFC)
• Switched Mode Power Supply (SMPS)
• Uninterruptible Power Supply (UPS)
• Motor Drives
• Freewheeling / Anti-parallel Diode in Inverters
• Solar Inverters
• Electric Vehicles (EV) & DC Fast Charging
• Induction Heating & Welding
Absolute Maximum Ratings (At TC = 25 °C Unless Otherwise Stated)
Parameter Symbol Conditions Values Unit
Repetitive Peak Reverse Voltage
(Per Leg) VRRM 1200 V
Continuous Forward Current
(Per Leg / Per Device) IF
TC= 25 °C, D = 1 41 / 82
A
TC = 100 °C, D = 1 28 / 56
TC = 161 °C, D = 1 10 / 20
Non-Repetitive Peak Forward Surge
Current, Half Sine Wave (Per Leg) IF,SM TC= 25 °C, tP = 10 ms 80 A
TC= 150 °C, tP = 10 ms 64
Repetitive Peak Forward Surge Current,
Half Sine Wave (Per Leg) IF,RM TC= 25 °C, tP = 10 ms 48 A
TC= 150 °C, tP = 10 ms 34
Non-Repetitive Peak Forward Surge
Current (Per Leg) IF,max T
C = 25 °C, tP = 10 µs 400 A
i2t Value (Per Leg) ∫i2dt TC= 25 °C, tP = 10 ms 32 A2s
Non-Repetitive Avalanche Energy
(Per Leg) EAS L = 3 mH, IAS = 10 A 150 mJ
Diode Ruggedness (Per Leg) dV/dt VR= 0 ~ 960 V 200 V/ns
Power Dissipation (Per Leg / Per Device) Ptot T
C= 25 °C 214 / 428 W
Operating and Storage Temperature Tj , Tstg -55 to 175 °C
* Per Device
VRRM = 1200 V
IF (Tc = 100 °C) = 56 A *
QC = 54 nC *
Case
A K A
Case
Case
K