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An Asymmetric-Voltage-Biased Current-Mode Sensing Scheme for Fast-Read Embedded Flash Macros

2015; Institute of Electrical and Electronics Engineers; Volume: 50; Issue: 9 Linguagem: Inglês

10.1109/jssc.2015.2424972

1558-173X

Meng‐Fan Chang, Yu-Fan Lin, Yen‐Chen Liu, Jui-Jen Wu, Shin-Jang Shen, Wu-Chin Tsai, Yu-Der Chih,

Advancements in Semiconductor Devices and Circuit Design

Current-mode sense amplifiers (CSA) are commonly used in eNVM, because of their fast read speed at large bitline (BL) loads and small cell read currents. However, conventional CSAs are unable to achieve fast random read access time (T AC ), due to significant summed input offsets (I OS-SUM ) at read-path. This work proposes a calibration-based asymmetric-voltage-biased CSA (AVB-CSA) to suppress IOS-SUM and enable high-speed sensing without the need for run-time offset-cancellation operations. This work then fabricated two 90 nm AVB-CSA 1 Mb Flash testchips (with and without BL-length test-modes). The AVB-CSA eFlash macros with 512 rows achieved T AC of 3.9 ns at nominal VDD (1.2 V). The BL-length test-mode experiments confirmed a 1.53× improvement in TAC using AVB-CSA with a BL-length of 2048-rows operating at VDD=0.8 V.