簡易檢索 / 詳目顯示

回結果列表
研究生: 陳帥帆
Shuai-Fan Chen
論文名稱: 快閃記憶體操作與可靠度分析研究
Programming/Erase Operation and Reliability of Flash Memory
指導教授: 張廖貴術
Kuei-Shu Chang-Liao
口試委員:
學位類別: 碩士
Master
系所名稱: 原子科學院 - 工程與系統科學系
Department of Engineering and System Science
論文出版年: 2002
畢業學年度: 90
語文別: 中文
論文頁數: 95
中文關鍵詞: 快閃記憶體可靠度
外文關鍵詞: Flash Memory, Reliability
相關次數: 點閱:2下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 快閃記體身為非揮發記憶體,強調的是資料的保存,因此可靠度的特性相對非常重要。造成可靠度衰退的原因主要是在寫入與擦拭過程中,有大量的電子必須來回穿隧氧化層,造成氧化層受到傷害越來越嚴重,導致元件的老化而損壞。
    在本篇論文中研究嘗試利用漸增式寫入法改善快閃記憶體閘極氧化層受到寫入操作的傷害,結果發現:1.漸增式寫入臨界電壓改變較小但能接受。2.閘極干擾比傳統方波小。3.汲極干擾比傳統方波與自然指數上升波輕微。4.讀取干擾都很微弱以及50、70%的漸增波的讀取干擾較小。5.自然指數上升波形寫入可以有效的減少閘極干擾造成的臨界電壓改變。6.漸增式寫入臨界電壓改變會漸漸降低。7.本篇論文中所使用的寫入操作方式,汲極干擾對臨界電壓的影響皆很大,而且並沒有得到明顯改善。

    另外對擦拭法的改進利用二階段擦拭法,也就是在傳統擦拭過程後,加入一次輕微寫入的動作。二階段擦拭對元件的耐力能夠有效的提升,也能夠有效減少閘極干擾對臨界電壓的改變。同時避免過度擦拭造成記憶體陣列漏電的錯誤,可以有效集中擦拭後的臨界電壓分布,這對未來發展有很大的幫助。

    第一章 緒論 ………………………………………………………… 1 第二章 快閃記憶體元件操作簡介 ………………………………… 4 2.1寫入與擦拭機制(Program/Erase Mechanisms) …………… 4 2.1.1通道熱電子注入寫入(Channel Hot Electron Injection Programming)…………………………………………………… 4 2.1.2F-N穿隧寫入(Fowler-Nordheim Tunneling Programming) ………………………………………………… 6 2.1.3F-N穿隧擦拭(Fowler-Nordheim Tunneling Erase) … 6 2.2耐力(Endurance) …………………………………………… 7 2.2.1通道熱電子注入寫入 …………………………………… 8 2.2.2 F-N穿隧擦拭……………………………………………… 8 2.3過度擦拭(Overerase) ……………………………………… 10 2.4干擾(Disturbance) ………………………………………… 13 2.5電荷保持 ……………………………………………………… 14 第三章 寫入擦拭操作與量測實驗 ………………………………… 27 3.1閘極耦合參數量測 …………………………………………… 27 3.1.1利用臨界電壓(Threshold Voltage)之量測方式……… 27 3.1.2利用次臨界斜率(Subthreshold Slope)之量測方式… 28 3.1.3利用最大線性傳輸電導(Linear Transconductance)量測方式…………………………………………………………… 29 3.2寫入與擦拭偏壓決定 ………………………………………… 30 3.2.1寫入偏壓決定 …………………………………………… 30 3.2.2擦拭偏壓決定 …………………………………………… 32 3.3閘極漸增式寫入(Ramp Gate Programming) ………………… 32 3.4二階段擦拭(2 Step Erase)…………………………………… 33 3.5電荷汲取法(charge pumping method) ……………………… 34 第四章 實驗結果與討論 …………………………………………… 44 4.1傳統單一方波寫入 …………………………………………… 44 4.1.1傳統單一方波寫入的閘極干擾 ………………………… 44 4.1.2傳統單一方波寫入的汲極干擾 ………………………… 45 4.1.3傳統單一方波寫入的讀取干擾 ………………………… 46 4.1.4傳統單一方波寫入的耐力 ……………………………… 46 4.1.5傳統單一方波寫入的電荷汲取法量測(Charge Pumping Method) ………………………………………………………… 47 4.1.6傳統單一方波寫入對擦拭速度的影響 ………………… 48 4.2漸增式寫入 …………………………………………………… 48 4.2.1漸增式寫入的閘極干擾 ………………………………… 49 4.2.2漸增式寫入的汲極干擾 ………………………………… 50 4.2.3漸增式寫入的讀取干擾 ………………………………… 50 4.2.4漸增式寫入的耐力 ……………………………………… 51 4.2.5漸增式寫入對擦寫速度的影響 ………………………… 52 4.3二階段擦拭 …………………………………………………… 52 4.3.1二階段擦拭的閘極干擾 ………………………………… 53 4.3.2二階段擦拭的汲極干擾 ………………………………… 53 4.3.3二階段擦拭的讀取干擾 ………………………………… 54 4.3.4二階段擦拭的耐力與臨界電壓分布 …………………… 54 4.3.5二階段擦拭法對擦寫速度的影響 ……………………… 55 第五章 結論 ……………………………………………………… 91 參考文獻……………………………………………………………… 92

    1. B. Dipert and M. Levy, “Designing with Flash memory,” Published by Annabooks, 1993.
    2. Yamada, Y Hiwa, T. Tamane, K. Amemiya, Y. Ohshima and K. Yoshikawa, “Degradation Mechanism of Flash EEPROM Programming After Program/Erase Cycles”, Imternational Electron Devices Meeting, P.23, 1993.
    3. Yoshkawa, S. Mori, E. Sakagami, Y. Kaneko and N. Arai,” Lucky Hole Injection Induced by Band-To-Band Tunneling Leakage in Stacked Gate Transistors”, International Electron Devices Meeting, P.577, 1990.
    4. Kume, H. Yamaoto, T. Adachi, T. Hagiwara, K. Komori, T. Nishimoto, A. Koike, S. Meguro, T. Hayashida and T. Tsukada,” A Flash-Erase EEPROM Cell with an Asymetric Source and Drain Structure”, International Electron Devices Meeting, P.560, 1987.
    5. Chan, J. Chen, P.K. Ko and C. Hu,” The Impact of Gate-Induced Drain Leakage Current on MOSFET Scaling”, International Electron Devices Meeting, P.718, 1987.
    6. K. T. San, C. Kaya and T.P. Ma,” Effect of Erase Source Bias on Flash EEPROM Device Reliability”, IEEE Trans. Electron Dev. Vol. 42, No. 7, P.150, Jan. 1995.
    7. Kodama, K. Oyama, H. Shirai, K. Saitoh, T. Okazawa and Y. Hokari,” Symmetrical Side Wall (SSW)-DSA Cell for a 64M Bit Flash Memory”, International Electron Devices Meeting, P.303, 1991.
    8. Aritome, R. Kirisawa, T. Endoh, N. Nakayama, R. Shirota, K. Sakui, K. Ohuchi and F. Masuoka,” Extended Data Retention Characteristics After more Than 10e4 Write and Erase Cycles in EEPROMs”, International Reliability Physics Symp., P.259, 1990.
    9. Aritome, R. Shirota, R. Kirisawa, T. Endoh, R. Nakayama, K. Sakui and F. Masuoka,” A Reliable Bi-Polarity Write/Erase Technology in Flash EEPROMs,” International Electron Devices Meeting, P.111, 1990.
    10. Ong, A. Fazio, N. Mielke, S. Pan, N. Righos, G. Atwood and S. Lai,” Erratic Erase in ETOX Flash Memory Array”, VLSI Symp. On Tech. P.83, 1993.
    11. Cappeletti, R. Bez, D. Cantarelli and L. Fratin,” Failure Mechanisms of Flash Cell in Program/Erase Cycling”, International Electron Devices Meeting, P.291, 1994.
    12. Kynett, A. Baker, M. Fandrich, G. Hoekstra, O. Jungroth, J. Kreifels and S. Wells,” An In-System Reprogrammable 256K CMOS Flash Memory”, International Solid-State Circuits Conference, P.132, 1988.
    13. Kynett, M. Fandrich, J. Anderson, P. Dix, O. Jungroth, J. Kreifels, R.A Lodenquai, B. Vajdic, S. Wells, M. Winston and L. Yang,” A 90ns One Million Erase/Program Cycle 1-Mbit Flash Memory”, Jounal of Solid-State Circuit Vol. 24,P.1259, Oct. 1989.
    14. Naruke, S. Yamada, E. Obi, S. Taguchi and M. Wada,” Anew Flash Erase EEPROM Cell With Sidewall Select-Gate on its Source Side”, International Electron Devices Meeting, P.603, 1989.
    15. Yamada, T. Suzuki, E. Obi, M. Oshikiri, K. Naruke and M. Wada,” A Self- Convergence Erasing Scheme for a Simple Stacked Gate Flash EEPROM”, International Electron Devices Meeting, P.307, 1991.
    16. Danny P. Suum, Craing T. Swift, Jack M. Higman, William J. Taylor, K.T. Chang, K.M. Chang and John R. Yeargain,” A Novel Band-To-Band Tunneling Induced Convergence Mechanism for Low Current, High Density Flash EEPROM Applications”, International Electron Devices Meeting, P.41, 1994.
    17. Verma and N. Mielke,” Reliability Performance of ETOX Based Flash Memory”, International Reliability Physics Symp, P.158, 1998.
    18. Haddad, C. Chang, B. Swaminathan and J. Lien,” Degradation Due to Hole Trapping in Flash Memory Cells”, IEEE Electron Dev. Lett., Vol.10, No3, P.117, Mar. 1989.
    19. Adam Brand, Ken Wu, San Pan and David Chin,” Novel Read Disturb Failure Mechanism Induced by Flash Cycling”, International Reliability Physics Symp, P.127, 1993
    20. Neal R.Mielke,” New EPROM Data-Loss Mechanisms”, IEEE International Reliability Physics Symp, P.106, 1983.
    21. Mori, N. Arai, Y. Kaneko and K. Yoshikawa,” Polyoxide Thinning Limitation and Superior ONO Interpoly Dielectric for Nonvolatile Memory Device”, IEEE Trans. on Electron Dev. Vol38, No.2, Feb. 1991.
    22. Mori, E. Sakagami, H. Araki, Y. Kaneko, K. Narita, Y. Ohshima, N. Arai and K. Yoshikawa," ONO Inter-poly Dielectric Scaling for Nonvolatile Memory Applications", IEEE Trans. on Electron Dev. Vol.38, No.2,Feb.1991.
    23. Pan, K. Wu, P. Freiberger, A.Chatterjee, G. Sery,” A Scaling Methodology for Oxide-Nitride-Oxide Interpoly Dielectric for EPROM Application”, IEEE Trans. on Electron Dev. Vol.37, No.6, P.1439, Jun. 1990.
    24. Pan, K. Wu , D. Chin, G. Sery, J. Kiely,” High-Temperature Charge Loss Mechanism in Floating-Gate EPROM with an Oxide-Nitride-Oxide(ONO) Interpoly Stacked Dielectric”,IEEE Electron Dev.Lett., Vol.12,No.9,P.506,Sep.1991.
    25. Mori, Y.Y. Araki, M. Sato, H. Tsunoda, E. Kamiya, K. Yoshikawa, N. Arai and E. Sakagami,” Thickness Scaling Limitation Factors of ONO Interpoly Dielectric for Nonvolatile Memory Devices”, IEEE Trans. on Electron Dev. Vol.43, No.1,P.47,1996.
    26. David A.Baglee and Michael C. Smayling,” The Effects of Write/Erase Cycling on Data Loss in EEPROMs”, International Electron Devices Meeting,P.624,1985.
    27. Mondon, O.Roux-dit-Buisson, Ph. Candelier, B. Guillaumot, F. Martin and G. Reimbold,” Electron Trapping/Detrapping and Current Leakage in Flash E2PROM Cells Using Nitride-Oxide or Oxide-Nitride-Oxide Interpoly Dielectric,” Non-Volatile Memory Workshop,P.3.6,1995.
    28. Neal R. Mielke,” New EPROM Data_Loss Mechanisms”, IEEE International Reliability Physics Symp,P.106,1983.
    29. 姚裕源,”分離閘快閃記憶體之新式耦合參數萃取研究”,國立清華大學碩士論文,1999.
    30. David Esseni,et al.”Trading-off programming speed and current absorption in Flash memories with the ramped-gate programming tech.”IEEE,2000
    31. K. Oyama et al.,” A novel erasing technology for 3.3V Flash memory with 64Mb capacity and beyond”, IEEE IEDM Tech. Dig., P.607-610,1992.
    32. Kemal Tamer San,” Hot-Carrier Effects in Flash Erasable Programmable Read-Only Memory Devices”, Yale university,1994.
    33. B. Doyle, M. Bourcerie, J.C. Marchetaux, and A. Boudou,” Interface state creation and charge trapping in the medium-to-high gate voltage range (Vd/2 < Vg < Vd) during hot-carrier stressing of n-MOS Transistors”, IEEE Trans. Elect. Dev. Vol. ED-37,No. 3, P.744, 1990.
    34. J. S. Witters et al.,” Degradation of tunnel-oxide floating gate EEPROM device and the correlation with high field current-induced degradation of thin gate oxide.”, IEEE Trans. Elect. Dev. Vol. ED-36,No. 9, P.1663-1682, 1989.

    無法下載圖示 全文公開日期 本全文未授權公開 (校內網路)
    全文公開日期 本全文未授權公開 (校外網路)
    全文公開日期 本全文未授權公開 (國家圖書館:臺灣博碩士論文系統)
    QR CODE