• DocumentCode
    3543680
  • Title

    Design innovations to optimize the 3D stackable vertical gate (VG) NAND flash

  • Author

    Chun-Hsiung Hung ; Hang-Ting Lue ; Shuo-Nan Hung ; Chih-Chang Hsieh ; Kuo-Pin Chang ; Ti-Wen Chen ; Shih-Lin Huang ; Tzung Shen Chen ; Chih-Shen Chang ; Wen-Wei Yeh ; Yi-Hsuan Hsiao ; Chieh-Fang Chen ; Shih-Cheng Huang ; Yan-Ru Chen ; Guan-Ru Lee ; Chih-W

  • Author_Institution
    Macronix Int. Co., Ltd., Hsinchu, Taiwan
  • fYear
    2012
  • fDate
    10-13 Dec. 2012
  • Abstract
    The design architecture for 3D vertical gate (VG) NAND Flash is discussed in detail. With the unique structure of 3D VG and its decoding method, we have developed several important design innovations to optimize this technology: (1) “Shift-BL scramble” to average the BL capacitances, providing uniform CBL´s for various memory layers; (2) Optimized read waveforms to suppress the hot-carrier induced read disturb in the page reading mode; (3) Novel reverse read with “multi-Vt sensing technique” for different memory layers to compensate the Vt variation due to the layer-to-layer process difference; (4) Program inhibit method and technique to minimize the “Z-directional” self-boosting program disturb in 3D stackable memory. Optimized chip-level performances with excellent memory window for SLC and MLC operations are demonstrated on a 2-layer 3D VG NAND chip.
  • Keywords
    NAND circuits; decoding; flash memories; 2-layer 3D VG NAND chip; 3D stackable vertical gate NAND flash; BL capacitances; MLC operations; SLC operations; chip-level performances; decoding method; design innovations; hot-carrier induced read disturb suppression; layer-to-layer process difference; memory layers; memory window; multi-Vt sensing technique; program inhibit method; read waveforms optimization; shift-BL scramble; z-directional self-boosting program disturb; Arrays; Capacitance; Flash memory; Programming; Sensors; Stress;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Electron Devices Meeting (IEDM), 2012 IEEE International
  • Conference_Location
    San Francisco, CA
  • ISSN
    0163-1918
  • Print_ISBN
    978-1-4673-4872-0
  • Electronic_ISBN
    0163-1918
  • Type

    conf

  • DOI
    10.1109/IEDM.2012.6479015
  • Filename
    6479015