Delay and Power Monitoring Schemes for Minimizing Power Consumption by Means of Supply and Threshold Voltage Control in Active and Standby Modes

Abstract

This paper describes newly developed delay and power monitoring schemes for minimizing power consumption by means of the dynamic control of supply voltage V/sub DD/ and threshold voltage V/sub TH/ in active and standby modes. In the active mode, on the basis of delay monitoring results, either VDD control or VTH control is selected to avoid any oscillation problem between them. In V/sub DD/ control, on the basis of delay monitoring results, VDD is adjusted so as to be maintained at the minimum value at which the chip is able to operate for a given clock frequency. In V/sub TH/ control, on the basis of power monitoring results, VTH is adjusted so as to maintain a certain switching current I/sub SW//leakage current I/sub LEAK/ ratio known to indicate minimum power consumption. In the standby mode, the precision of power monitoring (which detects optimum body bias by comparing subthreshold current I/sub SUBTH/ to substrate current I/sub SUB/) is improved by taking into consideration both the effects of lowering V/sub DD/ and the effects of the presence of gate-oxide leakage current. Experimental results with a 90-nm CMOS device indicate that use of the proposed power monitoring results in the successful minimizing of power consumption. It does so by making it possible to: 1) maintain the I/sub SW//ILEAK ratio in the active mode and 2) detect optimum body bias conditions (I/sub SUBTH/=ISUB) within an error of less than 20% with respect to actual minimum leakage current values in the standby mode.