IEEE Journal of the Electron Devices Society (Jan 2017)

A New Electron Bridge Channel 1T-DRAM Employing Underlap Region Charge Storage

  • Jyi-Tsong Lin,
  • Wei-Han Lee,
  • Po-Hsieh Lin,
  • Steve W. Haga,
  • Yun-Ru Chen,
  • Abhinav Kranti

DOI
https://doi.org/10.1109/JEDS.2016.2633274
Journal volume & issue
Vol. 5, no. 1
pp. 59 – 63

Abstract

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We experimentally demonstrate a new type of silicon-based capacitorless one-transistor dynamic random access memory (1T-DRAM) with an electron-bridge channel. The fabrication steps are fully compatible with modern CMOS technology. An underlap device structure is exploited and positive charges are primarily stored in drain-side and source-side p-type pseudo-neutral regions under the oxide spacer. These regions are isolated by the gate/drain or gate/source depletion regions during programming and read “1” operations which facilitates the device to achieve a 4-second-long retention time at room temperature. The carrier mobility of the electron-bridge 1T-DRAM also exhibits reduced dependence on temperature, thereby the programming window remains viable at high temperatures, while also maintaining 26% of the retention performance at 358 K. The benefits of the planar cell enable the realization of a scalable vertical channel structure.

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