onsemi NxT2023N065M3S EliteSiC MOSFETs
onsemi NxT2023N065M3S EliteSiC MOSFETs are high-performance 650V Silicon Carbide (SiC) MOSFETs with a typical RDS(on) of 23mΩ and excellent thermal and switching characteristics. These MOSFETs feature low effective output capacitance, high efficiency, fast switching, and ultra-low gate charge. The NxT2023N065M3S MOSFETs support continuous drain currents up to 72A and operate across a wide temperature range from -55°C to 175°C. These MOSFETs are RoHS-compliant, halide-free, and housed in a compact T2PAK-7L package. The NVT2023N065M3S EliteSiC MOSFET is AEC-Q101 qualified, making it ideal for automotive-grade applications such as on-board chargers and DC-DC converters in EV/HEV platforms. The NTT2023N065M3S EliteSiC MOSFET is suitable for SMPS, solar inverters, UPS, energy storage, and EV charging infrastructure.
Features
- Typical RDS(on) = 23mΩ @ VGS = 18V
- Low effective output capacitance
- Ultra-low gate charge
- NVT2023N065M3S is qualified according to AEC-Q101
- 100% UIS tested
- Halide-free and RoHS-compliant with exemption 7a
- Pb-free 2LI (on second-level interconnection)
- T2PAK-7L with CASE 763AC package
Applications
- NTT2023N065M3S:
- Designed for industrial applications such as:
- Switch Mode Power Supplies (SMPS)
- Solar inverters
- Uninterruptible Power Supplies (UPS)
- Energy storage
- EV charging infrastructure
- Designed for industrial applications such as:
- NVT2023N065M3S:
- Automotive-qualified (AEC-Q101 compliant):
- On-board and off-board EV chargers
- Automotive DC-DC converters for EV/HEV systems
- Automotive-qualified (AEC-Q101 compliant):
Specifications
- 650V drain-to-source voltage
- -8V/+22V gate-to-source voltage
- 72A at 25°C and 53A at 100°C continuous drain current
- 288W at TC=25°C power dissipation
- 174A pulsed drain current
- 0.52°C/W thermal resistance (RJC)
- 74nC ultra-low gate charge
- Turn-on delay of 24ns, turn-off delay of 50ns at 25°C
- EON = 98µJ, EOFF = 29µJ turn-on/off low switching losses
- -55°C to +175°C wide operating temperature range
Circuit Diagram
Dimension Diagram
