Experimental characterization and numerical analysis of the 4H-SiC p-i-n diodes static and transient behaviour

Steady-state and turn-off switching characteristics of aluminium-implanted 4H-SiC p-i-n diodes designed for high-current density operation, are investigated experimentally and by mean of numerical simulations in the 298-523K temperature range.The diodes present circular structure with a diameter of 350 mm and employ an anode region with an aluminium depth profile peaking at6E19/cm^3 at the surface. The profile edge and the junction depth are located at 0.2 and 1.35 mm, respectively. At room temperature the measured forward current density is close to 370A/cm2 at 5V with an ideality factor alwaysless than 2 before high-current injection or device-series resistance became dominant. The transient analysis reveals a strong potential of this diodes for use in high-speed, high-power applications, especially at high temperature, with a very low turn-off recovery time (80 ns) in the whole range of test conditions.The simulated results match the experimental data, showing that the switching performance is mainly due to the poor minority charge carrier lifetime estimated to be 15ns for these implanted devices.