Abstract

A new superjunction lateral double-diffused MOS with the semi-insulating poly silicon (SIPOS SJ-LDMOS) has been proposed in this letter, for the first time, with the complete three-dimensional reduced surface field (3D-RESURF). The SIPOS SJ-LDMOS along the three dimensions are subject to the electric field modulation, which achieves the complete 3D-RESURF effect. The simulated breakdown voltage (BV) for the unit length of the drift region is improved to 19.4 $\mathrm {V}/ \mu \text{m}$ . The drift region with the high concentration compared with the conventional LDMOS can be depleted completely in the OFF-state to obtain the high BV. Moreover, the majority carrier accumulation can be formed to further decrease $R_{\mathrm {\scriptscriptstyle ON},\textrm {sp}}$ (specific on resistance) during the ON-state operation. Three effects have been combined to SIPOS SJ-LDMOS for the superjunction ideal, electric field modulation and the majority carrier accumulation by SIPOS. The tradeoff between the BV and $R_{\mathrm {\scriptscriptstyle ON},\textrm {sp}}$ has been improved to break through the silicon limit. The results show that the experimental $R_{\mathrm {\scriptscriptstyle ON},\textrm {sp}}$ of SIPOS SJ-LDMOS is 18 $\text{m}\Omega \cdot \textrm {cm}^{2}$ with the tested BV of 376 V, which is less than that of 31.1 $\text{m}\Omega \cdot \textrm {cm}^{2}$ for the $N$ -buffer SJ-LDMOS with the simulated BV of 287 V, and far less than 71.8 $\text{m}\Omega \cdot \textrm {cm}^{2}$ for the conventional LDMOS with the simulated BV of 254 V for the same drift region length of 20 $\mu \text{m}$ .

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