Z-Interference and Z-Disturbance in Vertical Gate-Type 3-D NAND

Z-Interference and Z-Disturbance in Vertical Gate-Type 3-D NAND

In vertical gate (VG)-type 3-D NAND, reducing either channel polycrystalline silicon (PL) or intersilicon dioxide (OX), or both, allows packing more cells in a fixed volume. However, when programming cells in such an array, the neighbor top/bottom cells suffer significant threshold voltage (V t ) sh...

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Veröffentlicht in:IEEE transactions on electron devices 2016-03, Vol.63 (3), p.1047-1053
Hauptverfasser: Yeh, Teng-Hao Elton, Wei-Chen Chen, Hsu, Tzu-Hsuan Bruce, Du, Pei-Ying Penny, Chih-Chang Hsieh, Hang-Ting Lue, Yen-Hao Shih, Ya-Chin King, Chih-Yuan Lu
Format: Artikel
Sprache:eng
Schlagworte:
Algorithm design and analysis
Arrays
Channels
Couplings
Density
Electric potential
Guidelines
Logic gates
Optimization
Programming
Silicon
Three dimensional
Vertical gate (VG)-type 3-D NAND flash
Z-disturbance
Z-interference
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Zusammenfassung:In vertical gate (VG)-type 3-D NAND, reducing either channel polycrystalline silicon (PL) or intersilicon dioxide (OX), or both, allows packing more cells in a fixed volume. However, when programming cells in such an array, the neighbor top/bottom cells suffer significant threshold voltage (V t ) shift due to two unique mechanisms. The first mechanism is the fringing field of the programmed charges (Z-interference), whereas the second one is the degraded inhibited potential affected by the programmed PL channel, which is grounded (Z-disturbance). Z-interference happens before Z-disturbance, so it is more critical to the memory window. Optimizing PL/OX thickness or engineering the PL sidewall profile can balance the constraint of Z-interference and the demand of higher memory density. They are important guidelines when designing VG-type 3-D NAND memory.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2016.2520965