• DocumentCode
    1329165
  • Title

    Modeling and Simulation of Charge-Pumping Characteristics for LDD-MOSFET Devices With LOCOS Isolation

  • Author

    Tahi, Hakim ; Djezzar, Boualem ; Nadji, Bacharia

  • Author_Institution
    Microelectron. & Nanotechnol. Div., Centre de Dev. des Technol. Av. (CDTA), Algiers, Algeria
  • Volume
    57
  • Issue
    11
  • fYear
    2010
  • Firstpage
    2892
  • Lastpage
    2901
  • Abstract
    We propose a model for the so-called constant-amplitude charge-pumping (CP) characteristics, giving the Elliot Gaussian-like CP current curve (ICP-VL) of lightly doped drain (LDD) MOSFET with local oxidation of silicon (LOCOS). This method is based on modulation of the contributing active-channel area (AG) to the ICP-VL curve, depending on the position of the high and low levels of the gate signal voltage. In addition, it allows to separate and clarify the contribution of all MOSFET regions (such as the effective channel, LDD, LOCOS, and LDD subdiffusion under the LOCOS) to the amount of ICP-VL curves. We have simulated this model and compared with experimental CP data. The model shows a very good correlation with experimental ICP-VL curves, particularly for transistors with short channel gate lengths (LG ≤ 1 μm). However, as the channel gate length increases, the model matches only for rising and falling ICP-VL curve edges, corresponding to the contribution of LDD and LOCOS regions, respectively. Moreover, we have demonstrated that the deviation, which was observed between the CP model and experimental data at the maximum plateau of ICP-VL characteristics, depends on the gate pulse fall time and vanishes for large fall time. This difference has been found to behave like a geometric component, since it depends on gate length and fall time and disappears for both short gate lengths and long fall times.
  • Keywords
    MOSFET; charge pump circuits; semiconductor device models; Elliot Gaussian-like CP current curve; LDD-MOSFET devices; LOCOS Isolation; characteristics; constant-amplitude charge-pumping; lightly doped drain MOSFET; Electron traps; MOSFET circuits; Semiconductor process modeling; Silicon; Transistors; Charge pumping (CP); lightly doped drain (LDD); local oxidation of silicon (LOCOS);
  • fLanguage
    English
  • Journal_Title
    Electron Devices, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9383
  • Type

    jour

  • DOI
    10.1109/TED.2010.2068300
  • Filename
    5580041