DocumentCode
1115676
Title
Compact modeling of a flash memory cell including substrate-bias-dependent hot-electron gate current
Author
Sonoda, Ken Ichiro ; Tanizawa, Motoaki ; Shimizu, Satoshi ; Araki, Yasuhiro ; Kawai, Shinji ; Ogura, Taku ; Kobayashi, Shin Ichi ; Ishikawa, Kiyoshi ; Eimori, Takahisa ; Inoue, Yasuo ; Ohji, Yuzuru ; Kotani, Norihiko
Author_Institution
Renesas Technol. Corp., Hyogo, Japan
Volume
51
Issue
10
fYear
2004
Firstpage
1726
Lastpage
1733
Abstract
We propose a compact model for a Flash memory cell that is suitable for circuit simulation. The model includes a hot-electron gate current model that considers not only channel hot electron injection but also channel initiated secondary electron injection to express properly substrate bias dependence of gate current. Tunneling gate current for erasing is expressed by the BSIM4 tunneling gate current model. Good agreement between measured and simulated results of both programming and erasing characteristics for 130-nm technology Flash memory cells indicates that our model is useful in designing and optimizing circuit for Flash memories.
Keywords
EPROM; circuit optimisation; circuit simulation; flash memories; hot carriers; hot electron transistors; integrated circuit modelling; 130 nm; BSIM4 tunneling gate current model; EPROM; channel hot electron injection; channel initiated secondary electron injection; charge injection; circuit design; circuit optimization; circuit simulation; compact modeling; flash memory cell; hot carriers; hot-electron gate current model; substrate bias dependence; substrate-bias-dependent hot-electron gate current; Channel hot electron injection; Character generation; Circuit simulation; Design optimization; Energy consumption; Equivalent circuits; Flash memory; Flash memory cells; MOSFET circuits; Secondary generated hot electron injection; Charge injection; EPROM; hot carriers;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/TED.2004.834915
Filename
1337187
Link To Document