Title :
A bitline leakage compensation scheme for low-voltage SRAMs
Author :
Agawa, Ken´ichi ; Hara, Hiroyuki ; Takayanagi, Toshinari ; Kuroda, Tadahiro
Author_Institution :
Syst. LSI Res. & Dev. Center, Toshiba Corp., Kawasaki, Japan
fDate :
5/1/2001 12:00:00 AM
Abstract :
A bitline leakage current of an SRAM, induced by leakage current of the transmission transistors in the cells that are associated with the bitline, increases as the threshold voltage (VTH) of the transistors is reduced for high performance at low power-supply voltage (VDD). The increased bitline leakage causes slow or incorrect read/write operation of an SRAM because the leakage current acts as noise current for a sense amplifier. In this paper, the problem has been solved from a circuitry point of view, and the scheme which detects the bitline leakage current in a precharge cycle and compensates for it during a read/write cycle is proposed. Employing this scheme, the SRAM with 360-μA bitline leakage current can perform a read/write operation at the same speed as one that has no bitline leakage current. This enables a 0.1-V reduction in VTH, and keeps the VTH and delay scalability of a high-performance SRAM in technology progress. An experimental 8-Kb SRAM with 256 rows is fabricated in a 0.25-μm CMOS technology, which demonstrates the effectiveness of the scheme
Keywords :
CMOS memory circuits; SRAM chips; compensation; integrated circuit noise; leakage currents; low-power electronics; 0.25 micron; 360 muA; 8 Kbit; CMOS technology; bitline leakage compensation scheme; delay scalability; incorrect read/write operation; leakage current; low-voltage SRAMs; noise current; power-supply voltage; precharge cycle; read/write cycle; sense amplifier; threshold voltage; transmission transistors; CMOS technology; Circuit noise; Delay; Leak detection; Leakage current; Low voltage; Operational amplifiers; Random access memory; Scalability; Threshold voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
