Silicon carbide (SiC) MOSFETs provide superior performance compared to traditional silicon devices under hightemperature and high-power conditions, making them particularly valuable for power electronics applications requiring highfrequency switching and high-energy efficiency. As the electric vehicle (EV) market expands, these devices are commonly packaged into six-pack modules, which can show their different electrical characteristics between the bare-die device and the package due to packaging that improves heat dissipation and other properties. This study uses bare-die SiC MOSFETs to explore their intrinsic characteristics and evaluate their performance in a half-bridge configuration. A half-bridge circuit was constructed, and performance was assessed by varying driving frequencies (10 kHz and 50 kHz) and adjusting the duty cycle between 20% and 80%. Analysis revealed that, at a fixed switching frequency, the average output voltage and average output current are proportional to the duty cycle.