The threshold voltage of the flash memories varies with respect to the applied voltages at the respective terminal of a memory cell. This paper presents the modeling of the threshold voltage variation for an embedded spacer-trapping memory cell. The effects such as velocity saturation of the transistor and the band-to-band tunneling mechanism have been incorporated in the model. The proposed memory model has been simulated in a standard 0.18 μm CMOS technology. The output results of the proposed model using Verilog-A shows 94.9 ms of erasing time for the programing time of 33.4 ms and for a memory speed of 10 kHz. An increment of 930 mV of the threshold voltage during the programming mode has been recorded.
A threshold voltage modeling for a spacer-trapping memory cell using Verilog-A / H. Shrimali, V. Liberali - In: Synthetic LNA/DNA nano-scaffolds for highly efficient diagnostics of nucleic acids and autoimmune antibodies / [a cura di] I.K. Astakhova. - [s.l] : CRC, 2014. - ISBN 9781482258271. - pp. 529-532 (( convegno MEMS, Fluidics, Bio Systems, Medical, Computational and Photonics tenutosi a Washington nel 2014.
A threshold voltage modeling for a spacer-trapping memory cell using Verilog-A
H. ShrimaliPrimo
;V. LiberaliUltimo
2014
Abstract
The threshold voltage of the flash memories varies with respect to the applied voltages at the respective terminal of a memory cell. This paper presents the modeling of the threshold voltage variation for an embedded spacer-trapping memory cell. The effects such as velocity saturation of the transistor and the band-to-band tunneling mechanism have been incorporated in the model. The proposed memory model has been simulated in a standard 0.18 μm CMOS technology. The output results of the proposed model using Verilog-A shows 94.9 ms of erasing time for the programing time of 33.4 ms and for a memory speed of 10 kHz. An increment of 930 mV of the threshold voltage during the programming mode has been recorded.
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