Energy-Band-Engineered Unified-RAM (URAM) Cell on Buried Substrate for Multifunctioning Flash Memory and 1T-DRAM
IEEE Transactions on Electron Devices(2009)
摘要
A band-offset-based unified-RAM (URAM) cell fabricated on a Si/Si1-yCy substrate is presented for the fusion of a nonvolatile memory (NVM) and a capacitorless 1T-DRAM. An oxide/nitride/oxide (O/N/O) gate dielectric and a floating-body are combined in a FinFET structure to perform URAM operation in a single transistor. The O/N/O layer is utilized as a charge trap layer for NVM, and the floating-body is used as an excess hole storage node for capacitorless 1T-DRAM. The introduction of a pseudomorphic SiC-based heteroepitaxial layer into the Si substrate provides band offset in a valence band. The FinFET fabricated on the energy-band-engineered Si1-yCy substrate allows hole accumulation in the channel for 1T-DRAM. The band-engineered URAM yields a cost-effective process that is compatible with a conventional body-tied FinFET SONOS. The fabricated URAM shows highly reliable NVM and high-speed 1T-DRAM operations in a single memory cell.
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关键词
dram chips,mos memory circuits,mosfet,epitaxial layers,flash memories,silicon compounds,valence bands,wide band gap semiconductors,finfet structure,si1-ycy,band-offset-based uram cell,body-tied finfet sonos,buried substrate,capacitorless 1t-dram,charge trap layer,energy-band-engineered unified-ram cell,excess hole storage node,hole accumulation,multifunctioning flash memory,nonvolatile memory,oxide-nitride-oxide gate dielectric,pseudomorphic heteroepitaxial layer,single memory cell,valence band,band offset,sonos,sic,body-tied finfet,nonvolatile memory (nvm),unified-ram (uram),explosives,cost effectiveness,capacitors
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