All-Silicon Carbide Junction Transistors-Diodes offered in a 4 Leaded mini-module

Co-packaged SiC Transistor-Diode combination in a robust, isolated, 4-Leaded, mini-module packaging reduces Turn-On energy losses and enables flexible circuit designs for high frequency power converters

DULLES, VA, May 13, 2015 — GeneSiC Semiconductor, a pioneer and global supplier of a broad range of Silicon Carbide (SiC) power semiconductors today announces the immediate availability of 20 mOhm-1200 V SiC Junction Transistor-Diodes in an isolated, 4-Leaded mini-module packaging that enables extremely low Turn-On energies losses while offering flexible, modular designs in high frequency power converters. The use of high frequency, high voltage and low on-resistance capable SiC Transistors and Rectifiers will reduce the size/weight/volume of electronics applications requiring higher power handling at high operating frequencies. These devices are targeted for use in a wide variety of applications including induction heaters, plasma generators, fast chargers, DC-DC converters, and switched mode power supplies.

Silicon Carbide Junction Transistor Co-pack Rectifier SOT-227 Isotop

1200 V/20 mOhm Silicon Carbide Junction Transistor Rectifier-Copackaged in an Isolated SOT-227 package providing separate Gate Source and Sink capability

Co-packaged SiC Junction Transistors (SJT)-SiC Rectifiers offered by GeneSiC are uniquely applicable to inductive switching applications because SJTs are the only widebandgap switch offers >10 microsec repetitive short circuit capability, even at 80% of the rated voltages (eg. 960 V for a 1200 V device). In addition to the sub-10 nsec rise/falls times and a square reverse biased safe operation area (RBSOA), the Gate Return terminal in the new configuration significantly improves the ability to reduce the switching energies. These new class of products offers transient energy losses and switching times that are independent of junction temperature. SiC Junction Transistors from GeneSiC are gate-oxide free, normally-off, exhibit positive temperature co-efficient of on-resistance, and are capable of being driven at low Gate voltages, unlike other SiC switches.
SiC Schottky Rectifiers used in these mini-modules show low on-state voltage drops, good surge current ratings and industry’s lowest leakage currents at elevated temperatures. With temperature independent, near-zero reverse recovery switching characteristics, SiC Schottky rectifiers are ideal candidates for use in high efficiency circuits.
“GeneSiC’s SiC Transistor and Rectifier products are designed and manufactured to realize low on-state and switching losses. A combination of these technologies in an innovative package promises exemplar performance in power circuits demanding wide bandgap based devices. The mini-module packaging offers great design flexibility for use in a variety of power circuits like H-Bridge, Flyback and multi-level inverters” said Dr. Ranbir Singh, President of GeneSiC Semiconductor.
Product released today include
20 mOhm/1200 V SiC Junction Transistor/Rectifier Co-pack (GA50SICP12-227):
• Isolated SOT-227/mini-block/Isotop package
• Transistor Current Gain (hFE) >100
• Tjmax = 175oC (limited by packaging)
• Turn On/Off; Rise/Fall Times <10 nanoseconds typical.

All devices are 100% tested to full voltage/current ratings. The devices are immediately available from GeneSiC’s Authorized Distributors.

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About GeneSiC Semiconductor Inc.

GeneSiC Semiconductor Inc. is a leading innovator in high-temperature, high-power and ultra-high-voltage silicon carbide (SiC) devices, and global supplier of a broad range of power semiconductors. Its portfolio of devices includes SiC-based rectifier, transistor, and thyristor products, as well as Silicon diode modules. GeneSiC has developed extensive intellectual property and technical knowledge that encompasses the latest advancements in SiC power devices, with products targeted towards alternative energy, automotive, downhole oil drilling, motor control, power supply, transportation, and uninterruptible power supply applications. In 2011, the company won the prestigious R&D100 award for commercializing ultra-high voltage SiC Thyristors.