Title :
High-voltage power delivery through charge recycling
Author :
Rajapandian, Saravanan ; Shepard, Kenneth L. ; Hazucha, Peter ; Karnik, Tanay
Author_Institution :
Dept. of Electr. Eng., Columbia Univ., New York, NY, USA
fDate :
6/1/2006 12:00:00 AM
Abstract :
In this paper, we describe a technique for delivering power to a digital integrated circuit at high voltages, reducing current demands and easing requirements on power-ground network impedances. The design approach consists of stacking CMOS logic domains to operate from a voltage supply that is a multiple of the nominal supply voltage. DC-DC downconversion is performed using charge recycling without the need for explicit downconverters. Experimental results are presented for the prototype system in a 0.18-μm CMOS technology operating at both 3.6 V and 5.4 V. Peak energy efficiencies as high as 93% are demonstrated at 3.6 V.
Keywords :
CMOS logic circuits; DC-DC power convertors; digital integrated circuits; 0.18 micron; 3.6 V; 5.4 V; CMOS logic; DC-DC conversion; charge recycling; digital integrated circuit; high-voltage power delivery; power management; power-ground network impedance; voltage supply; CMOS logic circuits; CMOS technology; Digital integrated circuits; Energy efficiency; Impedance; Logic design; Prototypes; Recycling; Stacking; Voltage; DC–DC conversion; power delivery; power management;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2006.874314
