Title :
An Offset-Tolerant Fast-Random-Read Current-Sampling-Based Sense Amplifier for Small-Cell-Current Nonvolatile Memory
Author :
Meng-Fan Chang ; Shin-Jang Shen ; Chia-Chi Liu ; Che-Wei Wu ; Yu-Fan Lin ; Ya-Chin King ; Chorng-Jung Lin ; Hung-Jen Liao ; Yu-Der Chih ; Yamauchi, Hiroyuki
Author_Institution :
Dept. of Electr. Eng., Nat. Tsing-Hua Univ., Hsinchu, Taiwan
Abstract :
Decreasing read cell current (ICELL) has become a major trend in nonvolatile memory (NVM). However, a reduced ICELL leaves the operation of the sense amplifier (SAs) vulnerable to bitline (BL) level offset and SA input offset. Thus, small- ICELL NVMs suffer from slow read speed or low read yield. In this study, we propose a new current-sampling-based SA (CSB-SA) to suppress the offset due to device mismatch, while maintaining tolerance for insufficient precharge time. These features enable CSB-SA to achieve a read speed 6.3 ×-8.1× faster than previous SAs, for sensing 100 nA ICELLs on a 2 K-cell bitline. We fabricated a CMOS-logic-compatible, 90 nm, 512 Kb OTP macro, using the CSB-SA. This OTP macro achieves a random access time of 26 ns for reading sub-200 nA ICELL. Measurements confirm that this 90 nm CSB-SA is also capable of sub-100 nA sensing.
Keywords :
CMOS logic circuits; CMOS memory circuits; amplifiers; random-access storage; CMOS-logic-compatible; CSB-SA; NVM; SA input offset; current 100 nA; current 200 nA; current-sampling-based SA; offset-tolerant fast-random-read current-sampling-based sense amplifier; size 90 nm; small-cell-current nonvolatile memory; time 26 ns; Clamps; Couplings; MOS devices; Noise; Nonvolatile memory; Sensors; Transistors; OTP; Sense amplifier; current sampling; nonvolatile memory; offset tolerant;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2012.2235013
