Title :
New High-Density Differential Split Gate Flash Memory With Self-Boosting Function
Author :
Wen Chao Shen ; Te-Liang Lee ; Hsin-Wei Pan ; Zhi-Sung Yang ; Yue-Der Chih ; Chiu-Wang Lien ; Ya-Chin King ; Chrong Jung Lin
Author_Institution :
Dept. of Electron. Eng., Nat. Tsing Hua Univ., Hsinchu, Taiwan
Abstract :
This letter presents a novel high density differential split gate flash memory with self-boosting function realized by 0.18- μm embedded memory technology from Taiwan Semiconductor Manufacturing Company. The cell has a pair of symmetric floating gates to perform differential read for storage electrons in the dual gate. Besides, a simple and nondecoding self-boosting operation is built in to automatically boost threshold levels of the symmetric cells to prevent a long-term charge loss or data degradation problem. Since the cell process and tip erase structure are totally inherited from the proven split-gate flash technology, the highly efficient program and erase performances are remained in the new cell. This implemented self-boosting operation provides a promising solution for reliable embedded memory for advanced CMOS technology.
Keywords :
CMOS memory circuits; flash memories; integrated circuit reliability; random-access storage; Taiwan Semiconductor Manufacturing Company; advanced CMOS technology; cell process; data degradation; differential read; dual gate; embedded memory technology; high-density differential split gate flash memory; long-term charge loss; nondecoding self-boosting operation; program and erase performances; reliable embedded memory; self-boosting function; split-gate flash technology; storage electrons; symmetric cells; symmetric floating gates; tip erase structure; Ash; Electron devices; Logic gates; Nonvolatile memory; Programming; Reliability; Split gate flash memory cells; Differential read; flash memory; nonvolatile memory (NVM); self-recovery; split gate flash memory cells;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2013.2271498
