Title :
Cell-plate-line/bit-line complementary sensing (CBCS) architecture for ultra low-power DRAMs
Author :
Hamamoto, Takeshi ; Morooka, Yoshikazu ; Asakura, Mikio ; Ozaki, Hideyuki
Author_Institution :
ULSI Lab., Mitsubishi Electr. Corp., Hyogo, Japan
fDate :
4/1/1996 12:00:00 AM
Abstract :
In the realization of gigabit scale DRAMs, one of the most serious problems is how to reduce the array power consumption without degradation of the operating margin and other characteristics. This paper proposes a new array architecture called cell-plate-line/bit-line complementary sensing (CBCS) architecture which realizes drastic array power reduction for both read/write operations and refresh operations, and develops a large readout voltage difference on the bit-line and cell-plate-line. For read/write operations, the array power reduces to only 0.2%, and for refresh operations becomes 36%, This architecture requires no unique process technology and no additional chip area. Using a test device with a 64-Mb DRAM process, the basic operation has been successfully demonstrated. This new memory core design realizes a high-density DRAM suitable for the 1-Gb level and beyond with power consumption significantly reduced
Keywords :
CMOS memory circuits; DRAM chips; memory architecture; 64 Mbit to 1 Gbit; CBCS architecture; array power consumption reduction; cell-plate-line/bit-line complementary sensing; dynamic RAM; gigabit scale DRAM; read/write operations; refresh operations; ultra low-power DRAM; Circuits; Degradation; Energy consumption; Leakage current; Plastic packaging; Plastics; Power dissipation; Power generation; Random access memory; Read-write memory; Testing; Ultra large scale integration; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
