Design of a 128-Mb SOI DRAM Using the Floating Body Cell (FBC)

Ohsawa, Takashi; Fujita, Katsushi; Hatsuda, K.; Higashi, Taneaki; Shino, T.; Minami, Y.; Nakajima, H.; Morikado, M.; Inoh, K.; Hamamoto, T.; Watanabe, Soichi; Fujii, Shuso; Furuyama, T.

doi:10.1109/jssc.0051.859018

Cited by 19 publications

(9 citation statements)

References 15 publications

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“…Some kinds of capacitor-less DRAM cell have been proposed and developed [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17]. Floating body cell (FBC) is a promising candidate in view of its simple structure and scalability.…”

Section: Introductionmentioning

confidence: 99%

Overview and future challenges of floating body RAM (FBRAM) technology for 32nm technology node and beyond

Hamamoto

Ohsawa

2009

Solid-State Electronics

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Section: Introductionmentioning

confidence: 99%

Overview and future challenges of floating body RAM (FBRAM) technology for 32nm technology node and beyond

Hamamoto

Ohsawa

2009

Solid-State Electronics

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“…With standard retention polarization [2,4,5], source and drain bias to 0V, the drain and source junctions are forward biased when a "1" state is set. It results in quick signal loss for "1" state.…”

Section: Bias (Volt)mentioning

confidence: 99%

“…It results in injection of electrons in memory floating body. To avoid it, a possible way is to add local wordlines (WL) [5]. But, this solution increases significantly silicon area due to needed additional WL switch.…”

Section: Bias (Volt)mentioning

confidence: 99%

“…The reference may consist of multiple reference cells generating a mean current value that reduces the dispersion of the reference [2,5] .To guarantee a correct read of the bitcell state, it is necessary that the reference cell current to be greater than the current of all memory cells programmed to "0", and less than the one of all memory cells programmed to "1". Fig.…”

Section: Transistor Dispersion Impactmentioning

confidence: 99%

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1T-capacitorless bulk memory: Scalability and signal impact

Gouya

Malinge²,

Garni³

et al. 2007

ESSDERC 2007 - 37th European Solid State Device Research Conference

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The 1-transistor floating body (1TFB) memory presents a possible solution for embedded memories, as it appears to scale, and does so with standard processing. This study investigates the signal limits of 1TFB memory as technology scales. It shows that although the signal ∆Vth remains nearly constant with scaling, the memory cells become susceptible to disturbance because the amount of stored charge decreases. In addition, the transistor mismatch increases with scaling, thus limiting the ability of conventional sensing methods to correctly read the memory.

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“…Because the cell is composed of one transistor, FBC has simple and compact structure. In this case, back gate is used for the charge accumulation in the body [8][9][10]. This structure is the modified double gate configuration.…”

Section: Floating Body Cellmentioning

confidence: 99%

Advanced memory concepts for DRAM and nonvolatile memories

Horiguchi

2006

Solid-State Electronics

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Design of a 128-Mb SOI DRAM Using the Floating Body Cell (FBC)

Cited by 19 publications

References 15 publications

Overview and future challenges of floating body RAM (FBRAM) technology for 32nm technology node and beyond

Overview and future challenges of floating body RAM (FBRAM) technology for 32nm technology node and beyond

1T-capacitorless bulk memory: Scalability and signal impact

Advanced memory concepts for DRAM and nonvolatile memories

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