This paper describes a sub-1-V power-supply, which is useful for self-powered short-range wireless systems with ambient energy sources. A variable-stage DC-DC converter, which consists of multi-stage switched capacitor circuits and has intermittent operation with an external capacitor, makes it possible to extend the time for self-powered operation. We fabricated a variable-stage DC-DC converter and an intermittent operation circuit with a 0.8-µm CMOS/SOI process. We also applied the sub-1-V power-supply system to a self-powered short-range wireless system and verified its effectiveness.

This paper describes an ultralow-power multi-threshold (MT) CMOS/SOI circuit technique that mainly uses fully-depleted MOSFETs. The MTCMOS/SOI circuit, which combines fully-depleted low- and medium-Vth CMOS/SOI logic gates and high-Vth power-switch transistors, makes it possible to lower the supply voltage to 0.5 V and reduce the power dissipation of LSIs to the 1-mW level. We overview some MTCMOS/SOI digital and analog components, such as a CPU, memory, analog/RF circuit and DC-DC converter for an ultralow-power mobile system. The validity of the ultralow-voltage MTCMOS/SOI circuits is confirmed by the demonstration of a self-powered 300-MHz-band short-range wireless system. A 1-V SAW oscillator and a switched-capacitor-type DC-DC converter in the transmitter makes possible self-powered transmission by the heat from a hand. In the receiver, a 0.5-V digital controller composed of a 8-bit CPU, 256-kbit SRAM, and ROM also make self-powered operation under illumination possible.