Study of SEU Sensitivity of SRAM-Based Radiation Monitors in 65-nm CMOS (original) (raw)

IEEE Transactions on Nuclear Science, 2021

Abstract

This article presents a static random access memory (SRAM)-based flexible radiation monitor. The monitor was fabricated in a 65-nm CMOS technology and it is designed as an application-specific integrated circuit, which comprises 768k bits SRAM cell matrix with individual power supply and a digital control core with a serial peripheral interface (SPI). By adjusting the core voltage of the SRAM matrix, the radiation sensitivity was made flexible. Also, SRAM cells with different threshold voltages were implemented to get further extension on tunable sensitivity range. The monitor has been tested under heavy ions with a linear energy transfer (LET) from 1.5 to 48.5 textMeVcdottextcm2\text {MeV}\cdot \text {cm}^{2}textMeVcdottextcm2 /mg, high-energy (50–186 MeV) and low-energy (0.7–5 MeV) protons, and 14-MeV and thermal neutrons. An analysis was performed on how single-event upset sensitivity changes while tuning the supply voltage under different radiation environments. The results show that the monitor has the potential for space and facility applications.

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