W.M. Huang, K. Papworth, M. Racanelli, J. John, J. Foerstner, H. Shin, H. Park, B. Hwang, T. Wetteroth, S. Hong, H. Shin, S. Wilson, S. Cheng
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TFSOI CMOS technology for sub-1 V microcontroller circuits
For the first time, a sub-1 V microcontroller CPU core is demonstrated using Thin-Film-Silicon-On-Insulator (TFSOI) CMOS technology. Yield sensitivity of the microcontroller circuit blocks (including the CPU, SRAM and ROM) to variations of the 0.5 /spl mu/m process technology is investigated. The low-voltage circuit yield of the CPU is found to be more sensitive to isolation stress-induced device defect leakage than the SRAM and ROM circuits. The stress-induced leakage also causes abnormal frequency vs. V/sub DD/ behavior with the CPU. CPU yield comparable to bulk CMOS, combined with a /spl sim/2/spl times/ maximum clock frequency enhancement, is achieved with the optimized low-leakage TFSOI process.
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