0000000000133025

AUTHOR

M. Lisiansky

showing 5 related works from this author

Compact instrumentation for radiation tolerance test of flash memories in space environment

2010

Aim of this work is the description of a test equipment, designed to be integrated on board of a microsatellite, able to investigate the radiation tolerance of non-volatile memory arrays in a real flight experiment. An FPGA-based design was adopted to preserve a high flexibility degree. Besides standard Program/Read/Erase functions, additional features such as failure data screening and latch-up protection have been implemented. The instrument development phase generated, as a by-product, a non-rad-hard version of the instrument that allowed performing in-situ experiments using 60Co and 10 MeV Boron irradiation facilities on Ground. Preliminary measurement results are reported to show the i…

EngineeringTolerance analysisbusiness.industrySystem testingSettore ING-INF/01 - ElettronicaFlash memorySpace equipmentNon-volatile memoryNon-volatile memoryFPGA-based instrumentationRadiation hardneInstrumentation (computer programming)businessField-programmable gate arrayRadiation hardeningInstrumentationComputer hardwareSpace environment
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Ionizing radiation effects on Non Volatile Read Only Memory cells

2012

Threshold voltage (V-th) and drain-source current (I-DS) behaviour of nitride read only memories (NROM) were studied both in situ during irradiation or after irradiation with photons and ions. V-th loss fluctuations are well explained by the same Weibull statistics regardless of the irradiation species and total dose. Results of drain current measurements in-situ during irradiation with photons and ions reveal a step-like increase of I-DS with the total irradiation dose. A brief physical explanation is also provided.

Nuclear and High Energy PhysicsPhotonMaterials sciencebusiness.industrynitride read-only memories (NROM)Nitrideradiation hardnessFlash memoriesFlash memoryIonizing radiationThreshold voltageIonoxide/nitride/oxide (ONO)Terms—Flash memories nitride read-only memories (NROM) oxide/nitride/oxide (ONO) radiation hardness.Nuclear Energy and EngineeringOptoelectronicsIrradiationElectrical and Electronic EngineeringbusinessRadiation hardening
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Radiation effects in nitride read-only memories

2010

Abstract We report on the influence of different types of radiation on the nitride read-only memories (NROM®). The memory cells were irradiated by light ions (Boron), X-rays and γ-rays. Memory transistor parameters, such as threshold voltage and subthreshold drain leakage were studied as a function of the accumulated radiation dose and compared to the as-programmed (-erased) devices parameters. Their time evolution was registered in the range from few hours up to 5 months after the irradiation. The NROM® cells showed good radiation robustness up to high accumulated doses. Sufficient program margin (difference of threshold voltage in the programmed state and the read-out voltage level) remai…

Radiation effectDEVICERadiationNitrideNONVOLATILE MEMORYmemorieX-raygamma-rayIrradiationElectrical and Electronic EngineeringSafety Risk Reliability and QualityNROMHEAVY-ION EXPOSURELeakage (electronics)business.industryChemistrySubthreshold conductionElectrical engineeringX-rayCondensed Matter PhysicsRadiation effectlight ionsAtomic and Molecular Physics and OpticsSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsThreshold voltageCELLSOptoelectronicsbusinessMicroelectronics Reliability
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Threshold Voltage Variability of NROM Memories After Exposure to Ionizing Radiation

2012

Threshold voltage (V-th) behavior of nitride readonly memories (NROMs) was studied after irradiation with photons (gamma-and X-rays), light and heavy ions. Both programmed and nonprogrammed single cells were investigated. The data suggest that two main physical phenomena are contributing to V-th variation and that the V-th loss and the variability can be modeled by a Weibull statistics with a shape parameter k similar to 2.2 regardless of the irradiation species and total dose. The same peculiarities were found in large memory arrays, confirming the results from single-cell studies but with significantly larger statistics. Hence, once the irradiation dose is known, the V-th loss distributio…

Materials sciencePhotonbusiness.industryoxide-nitride-oxide (ONO)radiation hardnessFlash memoriesShape parameterElectronic Optical and Magnetic MaterialsThreshold voltageIonizing radiationNon-volatile memoryFlash memories nitride read-only memories (NROMs) oxide–nitride–oxide (ONO) radiation hardness.nitride read-only memories (NROMs)OptoelectronicsIrradiationElectrical and Electronic EngineeringbusinessRadiation hardeningWeibull distribution
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Radiation tolerance of NROM embedded products

2010

Radiation tolerance of NROM memories is demonstrated at the level of industrial 4 Mbit memory embedded modules, specifically not designed for operation in radiation harsh environments. The memory fabricated in 0.18 um technology remains fully functional after total ionization doses exceeding 100 krad. The tests were performed by irradiating with γ-rays (60Co source) and 10 MeV 11B ions in active (during programming/erase and read-out) and passive (no bias) modes. Comprehensive statistics were obtained by using large memory arrays and comparison of the data with the parameters of irradiated single cells allowed deep understanding of the physical phenomena in the irradiated NROM devices for b…

Nuclear and High Energy PhysicsMaterials scienceONOradiation effectbusiness.industryFloating gate memorieRadiationSettore ING-INF/01 - ElettronicaSettore FIS/03 - Fisica Della Materialaw.inventionNon-volatile memoryCapacitorRadiation toleranceNuclear Energy and EngineeringlawLogic gatePhysical phenomenaOptoelectronicsIrradiationElectrical and Electronic EngineeringbusinessRadiation hardeningradiation hardening
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