Title :
A 130-mm2, 256-Mbit NAND flash with shallow trench isolation technology
Author :
Imamiya, Kenichi ; Sugiura, Yoshihisa ; Nakamura, Hiroshi ; Himeno, Toshihiko ; Takeuchi, Ken ; Ikehashi, Tamio ; Kanda, Kazushige ; Hosono, Koji ; Shirota, Riichiro ; Aritome, Seiichi ; Shimizu, Kazuhiro ; Hatakeyama, Kazuo ; Sakui, Koji
Author_Institution :
ULSI Device Eng. Lab., Toshiba Corp., Yokohama, Japan
fDate :
11/1/1999 12:00:00 AM
Abstract :
A 256-Mbit flash memory has been developed using a NAND cell structure with a shallow trench isolation (STI) process. A tight bit-line pitch of 0.55 μm is achieved with 0.25-μm STI. The memory cell is shrunk to 0.29 μm2, which realizes a 130-mm2 , 256-Mbit flash memory. Peripheral transistors are scaled with memory cells in order to reduce fabrication process steps. A voltage down converter, which generates 2.5-V constant internal power source, is applied to protect the scaled transistors. An improved bit-line clamp sensing scheme achieves 3.8-μs first access time in spite of long and tight pitch bit-line. A 1-kbyte page mode with 35-ns serial data out realizes 25-Mbyte/s read throughput. An incremental step pulse with a bit by bit verify scheme programs 1-k cells in 1-V Vt distribution within 200 μs. That realizes 4.4-Mbyte/s programming throughput
Keywords :
CMOS memory circuits; NAND circuits; flash memories; isolation technology; 0.25 micron; 0.55 micron; 1 V; 2.5 V; 256 Mbit; 3.8 mus; 35 ns; 4.4 Mbyte/s; NAND cell structure; NAND flash memory; STI process; bit-line clamp sensing scheme; scaled transistor protection; shallow trench isolation technology; voltage down converter; Audio recording; CD recording; Fabrication; Flash memory; Isolation technology; Power generation; Protection; Solid state circuits; Throughput; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
