Impact of Sub-m Wafer Thinning on Latch-Up Risk in DTCO/STCO Scaling Era

Sub- mu m wafer thicknesses are an essential enabler for the high-density nano through silicon via (nTSV) in design-technology co-optimization (DTCO) and system-technology co-optimization (STCO) scaling options. The measurement and TCAD results prove that decreasing the wafer thickness to 0.3 mu m is beneficial to latch-up prevention due to lower beta -gain, which originates from the strong recombination in well-base regions. Moreover, the current flow for sub- mu m Si thickness will be impacted and confined in a thinner bulk region. Additionally, the internal guard rings (GRs) efficiency increases by nearly 100% for 0.3 mu m Si thickness. On the contrary, the holding voltage is unchanged due to the dominant impact of increased well resistances over beta -gain reduction. Also, the thermal impact on sub- mu m Si thickness further increases latch-up risk due to reduced heat dissipation.