Low-power LSI circuit technologies for portable terminal equipment

This paper surveys trends in and prospects for low power LSI circuits technologies for portable terminal equipment, in which low-voltage operation of LSIs will be emphasized because this equipment will be battery-powered. Since this brings about serious operation speed degradation of LSIs, however, it will become more and more important how to operate them faster under low-supply voltage. We propose two new circuit techniques that make it possible to operate LSIs at high speed even when the supply voltage is very low (1-2 V corresponding to one or two battery cells). The new low-voltage RF LSI circuit technique, developed using silicon bipolar technology and using a novel current-folded mixer architecture for the modulator, result in a highly linear modulator that operates at 2 V. Its power consumption is less than 2/3 that of previously reported ICs. And for a low voltage baseband LSI we propose the multi-threshold CMOS (MTCMOS) technique, which uses two sets of threshold-voltage levels so that the LSI can operate at high speed when driven by a 1-V power supply. The multithreshold CMOS architecture enabled us to create LSIs that operate faster than conventional CMOS circuits using high-threshold-voltage MOSFETs. When operating with a 1-V power supply, our LSIs are three times faster than the conventional ones.