New Current-Mirror Sense Amplifier Design for High-Speed SRAM Applications

Abstract

This study presents a new current-mirror sense amplifier (CMSA) design for high-speed static random access memory (SRAM) applications. The proposed CMSA can directly sense the current of memory cell and only needs two transistor stages cascaded from VDD to GND for achieving the low-voltage operation. Moreover, the sensing speed of the proposed CMSA is independent of the bit-line capacitances and is only slightly sensitive to the data-line capacitances. Based on the simulation with using the TSMC 0.25-μm 2P4M CMOS process parameter, the proposed CMSA can effectively work at 500 MHz--1 GHz with working voltage as low as 1.5 V. Simulated results show that the proposed CMSA has a much speed improvement compared with the conventional sense amplifiers. Also, the effectiveness of the proposed CMSA is demonstrated with a read-cycle-only memory system to show the good performance for SRAM applications.