Title :
Power Reduction Techniques in Megabit DRAM´s
Author :
Kimura, Katsutaka ; Itoh, Kiyoo ; Hori, Ryoichi ; Etoh, Jun ; Kawajiri, Yoshiki ; Kawamoto, Hiroshi ; Sato, Katsuyuki ; Matsumoto, Tetsuro
fDate :
6/1/1986 12:00:00 AM
Abstract :
Power dissipation in dynamic random-access memories (DRAM´s) is described. Power reduction techniques are summarized and a comparison is made of NMOS and CMOS for individual circuits focusing on power dissipation for full- Vcc precharge and half- Vcc precharge, decoder, and clock generator. These results are then applied to actual 1-Mbit chips. The CMOS approach with a half-Vcc precharge is found to result in a power dissipation of just half that for NMOS, which is, verified through experiments on 1-Mbit CMOS and NMOS chips. Furthermore, from estimating power dissipation for DRAM chips larger than 1 Mbit, it is thought that the critical point for power-supply transition from the existing 5 V is around the 16-Mbit level.
Keywords :
Power dissipation; Random-access memories; CMOS technology; Circuits; Clocks; Decoding; MOS devices; Parasitic capacitance; Power dissipation; Power generation; Random access memory; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1986.1052538
