Optimization and scaling of CMOS-bipolar drivers for VLSI interconnects |
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| Abstract: | In this paper, rules are presented for the optimized design of CMOS-bipolar drivers for large capacitive loads typical of VLSI interconnects. Simulations and closed-form solutions show that the n-p-n bipolar transistors have to be operated in the high-level injection mode, and that their sizes have to be tailored to the two-thirds power of the load, and it scales with the two-thirds power of the base width of the n-p-n transistor and with the one-third power of the channel length of the MOS transistor. For comparison, the CMOS cascade with a tailored second stage is shown to have competitive potential at the expense of an area being approximately 2.5 times larger than that of a CMOS-bipolar stage. |
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