SCS312AH
650V, 12A, THD, High Surge Resistance, Silicon-carbide (SiC) SBD

Shorter recovery time, enabling high-speed switching.

Data Sheet Buy * Sample *
* This is a standard-grade product.
For Automotive usage, please contact Sales.

Product Detail

 
Part Number | SCS312AHGC9
Status | Recommended
Package | TO-220ACP
Unit Quantity | 1000
Minimum Package Quantity | 50
Packing Type | Tube
RoHS | Yes

Specifications:

Grade

Standard

Reverse Voltage[V]

650

Continuous Forward Current[A]

12.0

Total Power Dissipation[W]

78

Junction Temperature(Max.)[°C]

175

Storage Temperature (Min.)[°C]

-55

Storage Temperature (Max.)[°C]

175

Features:

  • Shorter recovery time
  • Reduced temperature dependence
  • High-speed switching possible
  • High surge current capability

Design Resources

 

Documents

White Paper

  • Cutting-Edge Web Simulation Tool “ROHM Solution Simulator” Capable of Complete Circuit Verification of Power Devices and Driver ICs

Technical Articles

Schematic Design & Verification

  • [NEW]Application Note for SiC Power Devices and Modules
  • Calculation of Power Dissipation in Switching Circuit
  • Method for Monitoring Switching Waveform
  • Importance of Probe Calibration When Measuring Power: Deskew
  • Impedance Characteristics of Bypass Capacitor

Thermal Design

  • Method for Calculating Junction Temperature from Transient Thermal Resistance Data
  • Notes for Temperature Measurement Using Thermocouples
  • Two-Resistor Model for Thermal Simulation
  • Notes for Temperature Measurement Using Forward Voltage of PN Junction
  • What is a Thermal Model? (SiC Power Device)
  • How to Use Thermal Models
  • Measurement Method and Usage of Thermal Resistance RthJC
  • Precautions When Measuring the Rear of the Package with a Thermocouple

Tools

Simulations (Login Required)

ROHM Solution Simulator is a new web-based electronic circuit simulation tool that can carry out a variety of simulations, from initial development that involves component selection and individual device verification to the system-level verification stage. This makes it possible to quickly and easily implement complete circuit verification of ROHM power devices and ICs, in simulation circuits under close to actual conditions, significantly reducing application development efforts.
  • AC-DC PFC A001: BCM VIN=200V IIN=2.5A
  • AC-DC PFC A002: BCM Diode-Bridge-Less VIN=200V IIN=2.5A
  • AC-DC PFC A004: CCM VIN=200V IIN=2.5A
  • AC-DC PFC A005: CCM 2-Phase VIN=200V IIN=5A
  • AC-DC PFC A006: CCM Synchro VIN=200V IIN=2.5A
  • AC-DC PFC A011: DCM VIN=200V IIN=2.5A
  • AC-DC PFC A012: DCM 2-Phase VIN=200V IIN=5A
  • AC-DC PFC A013: DCM 3-Phase VIN=200V IIN=7.5A
  • DC-DC Converter C006: Buck Converter Vo=250V Io=20A
  • DC-DC Converter C007: Buck Converter 2-Phase Vo=250V Io=40A
  • DC-DC Converter C010: Flyback Converter VIN=800V Vo=25V Io=10A
  • DC-DC Converter C011: Forward Converter VIN=500V Vo=25V Io=10A
  • DC-DC Converter C014: Quasi-Resonant Converter VIN=800V Vo=25 Io=10A

Models

  • SCS312AH SPICE Simulation Evaluation Circuit
  • SCS312AH SPICE Model
  • SCS312AH Thermal Model (lib)

Packaging & Quality

Package Information

  • Package Dimensions
  • Moisture Sensitivity Level
  • Anti-Whisker formation

Environmental Data

  • About Flammability of Materials
  • Compliance of the ELV directive
  • Report of SVHC under REACH Regulation

Export Information

  • About Export Administration Regulations (EAR)