A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance

Roger Lo; Pei Ying Du; Tzu Hsuan Hsu; Chen Jun Wu; Jung Yi Guo; Chun Min Cheng; Hang Ting Lue; Yen Hao Shih; Tuo-Hung Hou; Kuang Yeu Hsieh; Chih Yuan Lu

doi:10.1109/IMW.2015.7150273

A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance

Roger Lo, Pei Ying Du, Tzu Hsuan Hsu, Chen Jun Wu, Jung Yi Guo, Chun Min Cheng, Hang Ting Lue, Yen Hao Shih, Tuo-Hung Hou, Kuang Yeu Hsieh, Chih Yuan Lu

Institute of Electronics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

Double-trapping bandgap engineered SONOS (DT BE-SONOS) [1] was proposed to provide both fast erase speed and deep erase by means of a second nitride trapping layer and an additional blocking oxide on top of BE-SONOS. Although this provides excellent erase performance but the additional layers increase the EOT and subsequently the erase voltage, thus it is desirable to minimize their impact. This work investigates exhaustively the effect of thinning down the blocking layers. Since the ISPP and high temperature retention charge loss are mainly dominated by the ONO thickness of BE-SONOS below the blocking layers, reducing the blocking layer thickness has only minor impact on ISPP and retention. Moreover, erase saturation is determined by the dynamic balance of channel hole injection and gate electron injection. Experimental data show that reducing the thickness of the oxide between two trapping layers has little impact on erase saturation once the gate injected electrons are efficiently suppressed by the top most oxide. We have also investigated retention improvement by various oxides. By using HQ-SiO2 to replace the top tunnel ONO the trapped electron out-tunneling is reduced. Thus retention may be improved without increasing the effective oxide thickness.

Original language	English
Title of host publication	2015 IEEE 7th International Memory Workshop, IMW 2015
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1-4
Number of pages	4
ISBN (Electronic)	9781467369312
DOIs	https://doi.org/10.1109/IMW.2015.7150273
State	Published - 17 May 2015
Event	2015 7th IEEE International Memory Workshop, IMW 2015 - Monterey, United States Duration: 17 May 2015 → 20 May 2015

Publication series

Name	2015 IEEE 7th International Memory Workshop, IMW 2015

Conference

Conference	2015 7th IEEE International Memory Workshop, IMW 2015
Country/Territory	United States
City	Monterey
Period	17/05/15 → 20/05/15

Keywords

BE-SONOS
DT BE-SONOS
HQ-SiO2
nitride
reliability
retention
tunnel ONO

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10.1109/IMW.2015.7150273

Cite this

Lo, R., Du, P. Y., Hsu, T. H., Wu, C. J., Guo, J. Y., Cheng, C. M., Lue, H. T., Shih, Y. H., Hou, T-H., Hsieh, K. Y., & Lu, C. Y. (2015). A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance. In 2015 IEEE 7th International Memory Workshop, IMW 2015 (pp. 1-4). [7150273] (2015 IEEE 7th International Memory Workshop, IMW 2015). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IMW.2015.7150273

@inproceedings{8256fd17342d4475a91f79d9ecd9b926,

title = "A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance",

abstract = "Double-trapping bandgap engineered SONOS (DT BE-SONOS) [1] was proposed to provide both fast erase speed and deep erase by means of a second nitride trapping layer and an additional blocking oxide on top of BE-SONOS. Although this provides excellent erase performance but the additional layers increase the EOT and subsequently the erase voltage, thus it is desirable to minimize their impact. This work investigates exhaustively the effect of thinning down the blocking layers. Since the ISPP and high temperature retention charge loss are mainly dominated by the ONO thickness of BE-SONOS below the blocking layers, reducing the blocking layer thickness has only minor impact on ISPP and retention. Moreover, erase saturation is determined by the dynamic balance of channel hole injection and gate electron injection. Experimental data show that reducing the thickness of the oxide between two trapping layers has little impact on erase saturation once the gate injected electrons are efficiently suppressed by the top most oxide. We have also investigated retention improvement by various oxides. By using HQ-SiO2 to replace the top tunnel ONO the trapped electron out-tunneling is reduced. Thus retention may be improved without increasing the effective oxide thickness.",

keywords = "BE-SONOS, DT BE-SONOS, HQ-SiO2, nitride, reliability, retention, tunnel ONO",

author = "Roger Lo and Du, {Pei Ying} and Hsu, {Tzu Hsuan} and Wu, {Chen Jun} and Guo, {Jung Yi} and Cheng, {Chun Min} and Lue, {Hang Ting} and Shih, {Yen Hao} and Tuo-Hung Hou and Hsieh, {Kuang Yeu} and Lu, {Chih Yuan}",

year = "2015",

month = may,

day = "17",

doi = "10.1109/IMW.2015.7150273",

language = "English",

series = "2015 IEEE 7th International Memory Workshop, IMW 2015",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "1--4",

booktitle = "2015 IEEE 7th International Memory Workshop, IMW 2015",

address = "United States",

note = "2015 7th IEEE International Memory Workshop, IMW 2015 ; Conference date: 17-05-2015 Through 20-05-2015",

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Lo, R, Du, PY, Hsu, TH, Wu, CJ, Guo, JY, Cheng, CM, Lue, HT, Shih, YH, Hou, T-H, Hsieh, KY & Lu, CY 2015, A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance. in 2015 IEEE 7th International Memory Workshop, IMW 2015., 7150273, 2015 IEEE 7th International Memory Workshop, IMW 2015, Institute of Electrical and Electronics Engineers Inc., pp. 1-4, 2015 7th IEEE International Memory Workshop, IMW 2015, Monterey, United States, 17/05/15. https://doi.org/10.1109/IMW.2015.7150273

A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance. / Lo, Roger; Du, Pei Ying; Hsu, Tzu Hsuan et al.
2015 IEEE 7th International Memory Workshop, IMW 2015. Institute of Electrical and Electronics Engineers Inc., 2015. p. 1-4 7150273 (2015 IEEE 7th International Memory Workshop, IMW 2015).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance

AU - Lo, Roger

AU - Du, Pei Ying

AU - Hsu, Tzu Hsuan

AU - Wu, Chen Jun

AU - Guo, Jung Yi

AU - Cheng, Chun Min

AU - Lue, Hang Ting

AU - Shih, Yen Hao

AU - Hou, Tuo-Hung

AU - Hsieh, Kuang Yeu

AU - Lu, Chih Yuan

PY - 2015/5/17

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N2 - Double-trapping bandgap engineered SONOS (DT BE-SONOS) [1] was proposed to provide both fast erase speed and deep erase by means of a second nitride trapping layer and an additional blocking oxide on top of BE-SONOS. Although this provides excellent erase performance but the additional layers increase the EOT and subsequently the erase voltage, thus it is desirable to minimize their impact. This work investigates exhaustively the effect of thinning down the blocking layers. Since the ISPP and high temperature retention charge loss are mainly dominated by the ONO thickness of BE-SONOS below the blocking layers, reducing the blocking layer thickness has only minor impact on ISPP and retention. Moreover, erase saturation is determined by the dynamic balance of channel hole injection and gate electron injection. Experimental data show that reducing the thickness of the oxide between two trapping layers has little impact on erase saturation once the gate injected electrons are efficiently suppressed by the top most oxide. We have also investigated retention improvement by various oxides. By using HQ-SiO2 to replace the top tunnel ONO the trapped electron out-tunneling is reduced. Thus retention may be improved without increasing the effective oxide thickness.

AB - Double-trapping bandgap engineered SONOS (DT BE-SONOS) [1] was proposed to provide both fast erase speed and deep erase by means of a second nitride trapping layer and an additional blocking oxide on top of BE-SONOS. Although this provides excellent erase performance but the additional layers increase the EOT and subsequently the erase voltage, thus it is desirable to minimize their impact. This work investigates exhaustively the effect of thinning down the blocking layers. Since the ISPP and high temperature retention charge loss are mainly dominated by the ONO thickness of BE-SONOS below the blocking layers, reducing the blocking layer thickness has only minor impact on ISPP and retention. Moreover, erase saturation is determined by the dynamic balance of channel hole injection and gate electron injection. Experimental data show that reducing the thickness of the oxide between two trapping layers has little impact on erase saturation once the gate injected electrons are efficiently suppressed by the top most oxide. We have also investigated retention improvement by various oxides. By using HQ-SiO2 to replace the top tunnel ONO the trapped electron out-tunneling is reduced. Thus retention may be improved without increasing the effective oxide thickness.

KW - BE-SONOS

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KW - HQ-SiO2

KW - nitride

KW - reliability

KW - retention

KW - tunnel ONO

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M3 - Conference contribution

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T3 - 2015 IEEE 7th International Memory Workshop, IMW 2015

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BT - 2015 IEEE 7th International Memory Workshop, IMW 2015

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2015 7th IEEE International Memory Workshop, IMW 2015

Y2 - 17 May 2015 through 20 May 2015

ER -

A Study of Blocking and Tunnel Oxide Engineering on Double-Trapping (DT) BE-SONOS Performance

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