To meet the application needs of high-efficiency and high-power conversion systems, Inventchip Technology (IVCT) has developed 4 parts of 1200V 60A SiC Schottky Barrier Diode (SBD) products. Among them, the TO247-2 packaged device part IV2D12060T2Z meets the automotive-grade reliability standard (AEC-Q101), with a maximum operating junction temperature of 175℃. It can withstand a surge current impact of up to 300A for 10ms. The forward voltage (Vf) has a positive temperature coefficient, which is beneficial for current balance when diodes are applied in parallel. Moreover, it can maintain stable operation at high temperatures, ensuring high efficiency and reliability of the system.

Product Introduction 

Based on the mature SiC SBD process technology of Zhejiang Inventchip SiC Wafer Fab, Inventchip Technology (IVCT) has developed these 4 new parts, which inherit excellent product performance and reliability. They have passed strict reliability tests such as 1000-hour High Voltage-High Temperature Reverse Bias (HV-HTRB) test and High Voltage-High Temperature High Humidity Reverse Bias (HV-H3TRB) test. The part list is as follows:

The main product features and application advantages are as follows: 

Maximum operating junction temperature of 175℃, suitable for high-power applications; 

High surge current withstand capability, ensuring system safety and reliability; 

Extremely fast reverse recovery, enabling fast switching, reducing switching losses and electromagnetic interference (EMI); 

Fast switching response speed, which can improve system efficiency and reduce system volume and weight; 

Temperature-independent switching behavior, ensuring stable switching performance at various temperatures, and improving the environmental adaptability and reliability of the system; 

The forward voltage (Vf) has a positive temperature coefficient, which is beneficial for current balance in multi-tube parallel connection and improves the flexibility and scalability of the system; 

Can be paralleled with MOSFET for freewheeling, reducing switching and conduction losses. 

Typical Application Scenarios 

Photovoltaic boost converters 

Inverter freewheeling diodes 

Vienna 3-phase PFC 

Charging pile modules 

Switching power supplies