Title :
A 1.8-V 256-Mb Multilevel Cell NOR Flash Memory With BGO Function
Author :
Ogura, Taku ; Hosoda, Masahiro ; Ogawa, Tomoya ; Kato, Tamiyu ; Kanda, Akihiko ; Fujisawa, Tomoyuki ; Shimizu, Satoshi ; Katsumata, Masafumi
Author_Institution :
Memory Design Dept., GENUSION Inc, Hyogo
Abstract :
This paper describes a 1.8-V-only 256-Mb four-level-cell (2 b/cell) NOR flash memory with background operation (BGO) function fabricated in a 130-nm CMOS self-aligned shallow trench isolation (SA-STI) process technology. The new memory array architecture is adopted in which the flash source is connected by local interconnect to reduce the source resistance and constrain the floating-gate coupling effect. The mirrored current sensing read architecture for multilevel-cell operation at a supply voltage of 1.8 V has realized a fast asynchronous random access time (67 ns) and burst read at 54 MHz. A high speed and high reliability of program/erase cycling (100 k) has been achieved by dual-step pulse program algorithm and optimized erase sequence. Page program time and block erase time are 1.54 ms/2 kb and 538 ms/1 Mb, respectively
Keywords :
CMOS integrated circuits; NOR circuits; flash memories; isolation technology; memory architecture; random-access storage; 1.8 V; 130 nm; 256 Mbit; 54 MHz; 67 ns; BGO function; SA-STI process technology; asynchronous random access time; background operation function; block erase time; current sensing read architecture; dual-step pulse program algorithm; flash source; floating-gate coupling effect; memory array architecture; multilevel cell NOR flash memory; multilevel-cell operation; optimized erase sequence; page program time; program/erase cycling; self-aligned shallow trench isolation process technology; CMOS process; CMOS technology; Costs; Digital signal processing; Flash memory; Memory architecture; Random access memory; Read-write memory; Space technology; Voltage; Background operation (BGO); NOR flash memory; block redundancy; channel initiated secondary electron (CHISEL); dual-step pulse (DSP) programming; local interconnect (LIC); mirrored current sensing (MCS) read; multilevel cell (MLC);
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2006.883319
