Engineered for demanding purposes like EV charging, vitality storage, motor drives, and renewable platforms, these modules ship low switching losses, excessive energy density, and simplified system integration.
SemiQ Inc., has launched its newest line of 1200 V SiC MOSFET Six-Pack Modules, designed to assist engineers construct extra compact, energy-efficient, and cost-optimized high-voltage programs. These new modules combine rugged, high-speed switching SiC MOSFETs constructed on planar expertise, that includes strong gate oxide and a dependable physique diode for enhanced sturdiness. Housed in a three-phase bridge configuration, the design additionally contains break up DC destructive terminals, press-fit terminal connections, and a Kelvin supply for correct voltage referencing — all engineered to simplify system integration and enhance operational stability.
Examined to face up to over 1350 V with 100% wafer-level burn-in (WLBI), the modules ship the efficiency and reliability important for a variety of high-demand purposes. These embrace EV quick charging stations, AC/DC converters, vitality storage programs, motor drives, energy issue correction (PFC) increase converters, induction heating programs, UPS models, and renewable vitality platforms.
The important thing options are:
- Helps steady drain present as much as 30 A
- Handles pulsed drain present as much as 70 A
- Compact module measurement: 62.8 x 33.8 x 15 mm
The modules ship quick and environment friendly switching efficiency, that includes turn-on energies starting from 0.1 to 0.54 mJ and turn-off energies between 0.02 and 0.11 mJ. Switching instances are equally spectacular, falling inside a variety of 56 to 105 nanoseconds, enabling high-speed operation and improved system effectivity.
The product household is launching with three key variants: GCMX020A120B2T1P (20mΩ) – Energy dissipation: 263 W,GCMX040A120B2T1P (40mΩ) – Energy dissipation: 160 W and GCMX080A120B2T1P (80mΩ) – Energy dissipation: 103 .
SiC modules mix excessive energy density with low switching losses and optimized thermal efficiency, providing engineers higher design flexibility and improved effectivity. The modules are rated for operation at junction temperatures as much as 175°C and have easy heatsink mounting to simplify meeting.
