250 V Thin-Layer SOI Technology With Field pLDMOS for High-Voltage Switching IC

A 250 V thin-layer SOI technology based on a 1.5-μm-thick SOI layer is developed for high-voltage (HV) switching IC. HV thin-layer silicon on insulator (SOI) field p-channel LDMOS (pLDMOS) with thick gate oxide layer, SOI RESURF n-channel LDMOS (nLDMOS) with thin gate oxide layer, and low-voltage CMOS are monolithically integrated. Compared with the conventional SOI technology integrating field pLDMOS, the thickness of SOI layer is reduced from above 5 μm to only 1.5 μm. The field implant (FI) technology is adopted to eliminate channel discontinuity underneath the bird´s beak and achieve shallow junction depth to avoid back gate (BG) punchthrough breakdown for the field pLDMOS. A BG punchthrough model is presented with simulation results. The field pLDMOS with breakdown voltage (BV) of -329 V and RESURF nLDMOS with BV of 338 V are experimentally realized. A 250 V switching IC using the field pLDMOS and RESURF nLDMOS as the level-shift and the output stage is also presented based on the developed thin-layer SOI technology.