Adiabatic switching for power dissipation reduction in complementary metal-oxide semiconductor (CMOS) gates of portable battery-powered devices

Abstract

Electrical power dissipation in portable battery-powered devices has become worrisome to both consumers and producers of these devices. The need for this work is to investigate the practical low-power circuit solution for electrical power dissipation reduction in portable battery-powered devices. Experiments are performed on electrical power dissipation in Adiabatic switching and that of Complementary Metal-Oxide Semiconductor (CMOS) switching gates. The experiments are performed with the use of an electronic software simulator TINA TI MT to simulate Adiabatic and CMOS switching circuits. The results obtain from simulated circuits are analyzed. The difference between electrical power dissipation in Adiabatic switching and CMOS switching reveals that Adiabatic switching reduces electrical power dissipation in portable battery-powered devices. This reduction in electrical power dissipation of battery-powered devices lowers the average electrical power consumption and lowers heat generation.