Characterization of simple devices as well as complex circuits, in two commercial 0.25{micro} processes, demonstrates a high level (up to 58 Mrad) radiation tolerance of these technologies. They are also very likely to be immune to single event gate damage according to the results from 200 MeV-protons irradiation
International audienceThis paper investigates the TID sensitivity of silicon-based technologies at s...
Radiation hardness is a major concern for electronics in high luminosity colliders for high energy p...
Commercial microchips work well in their intended environments. However, generic microchips will not...
Abstract In this paper, we present a new radiation tolerant CMOS standard cell library, and demonst...
International audienceIndividual transistors, resistors and shift registers have been designed using...
%title\\ \\In the recent years, intensive work has been carried out on the development of custom ICs...
ABSTRACT A new pixel readout prototype has been developed at CERN for high-energy physics applicati...
A new pixel readout prototype has been developed at CERN for high- energy physics applications. This...
Integrated Circuits in space suffer from reliability problems due to the radiative surroundings. Hig...
This talk will review progress and status of testing of deep submicron CMOS technology for tolerance...
Individual transistors, resistors and shift registers have been designed using radiation tolerant la...
This thesis discusse s th e issues r elated to the us e of enclosed-gate layou t trans isto rs and ...
This paper presents a study of the ionizing radiation tolerance of analog parameters of 0.18-um CMOS...
This paper reports the radiation tolerance study of a commercial 65 nm technology, which is a strong...
The radiation environment present in some of today's High-Energy Physics (HEP) experiments and in sp...
International audienceThis paper investigates the TID sensitivity of silicon-based technologies at s...
Radiation hardness is a major concern for electronics in high luminosity colliders for high energy p...
Commercial microchips work well in their intended environments. However, generic microchips will not...
Abstract In this paper, we present a new radiation tolerant CMOS standard cell library, and demonst...
International audienceIndividual transistors, resistors and shift registers have been designed using...
%title\\ \\In the recent years, intensive work has been carried out on the development of custom ICs...
ABSTRACT A new pixel readout prototype has been developed at CERN for high-energy physics applicati...
A new pixel readout prototype has been developed at CERN for high- energy physics applications. This...
Integrated Circuits in space suffer from reliability problems due to the radiative surroundings. Hig...
This talk will review progress and status of testing of deep submicron CMOS technology for tolerance...
Individual transistors, resistors and shift registers have been designed using radiation tolerant la...
This thesis discusse s th e issues r elated to the us e of enclosed-gate layou t trans isto rs and ...
This paper presents a study of the ionizing radiation tolerance of analog parameters of 0.18-um CMOS...
This paper reports the radiation tolerance study of a commercial 65 nm technology, which is a strong...
The radiation environment present in some of today's High-Energy Physics (HEP) experiments and in sp...
International audienceThis paper investigates the TID sensitivity of silicon-based technologies at s...
Radiation hardness is a major concern for electronics in high luminosity colliders for high energy p...
Commercial microchips work well in their intended environments. However, generic microchips will not...