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In this work, the total ionizing dose(TID) effect on 130 nm partially depleted(PD) silicon-on-insulator(SOI) static random access memory(SRAM) cell stability is measured. The SRAM cell test structure allowing direct measurement of the static noise margin(SNM) is specifically designed and irradiated by gamma-ray. Both data sides’ SNM of 130 nm PD SOI SRAM cell are decreased by TID, which is different from the conclusion obtained in old generation devices that one data side’s SNM is decreased and the other data side’s SNM is increased. Moreover, measurement of SNM under different supply voltages(Vdd) reveals that SNM is more sensitive to TID under lower Vdd. The impact of TID on SNM under data retention Vddshould be tested, because Vddof SRAM cell under data retention mode is lower than normal Vdd.The mechanism under the above results is analyzed by measurement of I–V characteristics of SRAM cell transistors.
In this work, the total ionizing dose (TID) effect on 130 nm partially depleted (PD) silicon-on-insulator (SOI) static random access memory (SRAM) cell stability is measured. Both data sides’ SNM of 130 nm PD SOI SRAM cells are decreased by TID, which is different from the conclusion obtained in old generation devices that one data side’s SNM is decreased and the other data side’s SNM is increased. Moreover, the measurement of SNM under different supply voltages (Vdd) reveals that SNM is more sensitive to TID under lower Vdd. The impact of TID on SNM under data retention Vddshould be tested, because Vddof SRAM cell under data retention mode is lower than normal Vdd. The mechanism under the above results is analyzed by measurement of I-V characteristics of SRAM cell transistors.