A 0.25-μm 3.0-V 1T1C 32-Mb nonvolatile ferroelectric RAM with address transition detector and current forcing latch sense amplifier scheme

Mun-Kyu Choi Mun-Kyu Choi,Heung-Jin Joo Heung-Jin Joo,Byung-Gil Jeon Byung-Gil Jeon,Hyun-Ho Kim Hyun-Ho Kim,Nakwon Jang Nakwon Jang,Yoon-Jong Song Yoon-Jong Song,Byung-Jun Min Byung-Jun Min,Dong-Jin Jung Dong-Jin Jung,Sung-Yung Lee Sung-Yung Lee,Kinam Kim Kinam Kim

doi:10.1109/jssc.2002.802357

Mun-Kyu Choi Mun-Kyu Choi, Heung-Jin Joo Heung-Jin Joo + Show 8 more

https://doi.org/10.1109/jssc.2002.802357

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Abstract

Nonvolatile 32-Mb ferroelectric random access memory (FRAM) with-a 0.25-/spl mu/m design rule was developed by using an address transition detector (ATD) control scheme for the application to SRAM and applying a common plate folded bit-line cell scheme with current forcing latch sense amplifier (CFLSA) for increasing sensing margin, and adopting a dual bit-line reference voltage generator (DBRVG) for high noise immunity. Compared to a conventional FRAM device, the total chip size is reduced by 10.87%, which was achieved by using a single section data line (SSDL) and removing large gate-oxide capacitors, which is typically used for reference voltage generator for 1T1C FRAM. Furthermore, the imbalance of reference bit-line capacitance and main bit-line capacitance was resolved by using the CFLSA technique.

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