Low voltage eeprom/nvram transistors and making method

Abstract

A new FET device configuration for electrically programmable memories (EPROM), flash/electrically erasable and programmable read-only memories (EEPROM), and non-volatile Random Access Memory (NVRAM) which adds vertical components to a previously planar floating gate cell structure; efficiency of electron injection from the channel to floating gate is enhanced by many orders of magnitude because electrons accelerated in the channel penetraite in the direction of movement, straight into the floating gate. The floating gate resides over a series of arbitrary horizontal and vertical channel region components, the key topological feature being that the vertical channel resides near the drain, allowing electrons to penetrate straight into the floating gate. In contrast, the prior art relies on the indirect process of electron scattering by phonon and the 90 degree upward redirection of motion to the floating gate used by conventional Channel Hot Electron EPROM and EEPROM cells. With the feature of the vertical injection step, high injection efficiency can be achieved at much lower operating voltages, and program time is decreased, which has been a limiting factor in EEPROM applications. Operation at lower voltages improves reliability and overall process complexity. The feature of high injection efficiency at low drain voltage also makes multi-level storage easier and more controllable since the storage of electrons can be controlled by a single control gate voltage. This high efficiency, low voltage, step channel enables a single polysilicon EPROM transistor. Also, a double polysilicon EEPROM transistor with the vertical injection step near drain can achieve erase capability of polysilicon to polysilicon, something that could only be practically built with a triple polysilicon EEPROM cell, in prior art. This combination of a low voltage program and poly to poly erase in a double polysilicon split gate cell with the vertical injection step achieves the non-volatile RAM feature of write 0 (program) or 1 (erase) for a selected word line (control gate) at once. Fabrication methods for the vertical injection step channel near drain are also be described.