Design techniques for radiation hardening of integrated circuits in commercial CMOS technologies are presented. Circuits designed with the proposed approaches are more tolerant to both total dose and to single event effects. The main drawback of the techniques for radiation hardening by design is the increase of silicon area, compared with a conventional design
International audienceThe behaviour of Integrated Circuits (IC), in Space, the high atmosphere or ev...
A practical guide to the effects of radiation on semiconductor components of electronic systems, and...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environ-ments such as ...
Design techniques for radiation hardening of integrated circuits in commercial CMOS technologies are...
Commercial microchips work well in their intended environments. However, generic microchips will not...
Les travaux de cette thèse sont axés sur le durcissement à la dose cumulée des circuits analogiques ...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
New generation electronic devices have become more and more sensitive to the effects of the natural ...
Abstract In this paper, we present a new radiation tolerant CMOS standard cell library, and demonst...
A unique methodology, silicon transfer to arbitrary substrates, has been developed under this progra...
The purpose of this thesis work is to investigate circuit design techniques to improve the robustnes...
This thesis work presents the numerical device analysis of ionizing radiation induced single-event ...
Ionizing radiation, such as high energy electromagnetic radiation and particle radiation, has an ...
This paper proposes a methodology to design radiation-hardened ICs, suitable for space applications ...
The development of a hardened silicon power transistor for operation in severe nuclear radiation env...
International audienceThe behaviour of Integrated Circuits (IC), in Space, the high atmosphere or ev...
A practical guide to the effects of radiation on semiconductor components of electronic systems, and...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environ-ments such as ...
Design techniques for radiation hardening of integrated circuits in commercial CMOS technologies are...
Commercial microchips work well in their intended environments. However, generic microchips will not...
Les travaux de cette thèse sont axés sur le durcissement à la dose cumulée des circuits analogiques ...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
New generation electronic devices have become more and more sensitive to the effects of the natural ...
Abstract In this paper, we present a new radiation tolerant CMOS standard cell library, and demonst...
A unique methodology, silicon transfer to arbitrary substrates, has been developed under this progra...
The purpose of this thesis work is to investigate circuit design techniques to improve the robustnes...
This thesis work presents the numerical device analysis of ionizing radiation induced single-event ...
Ionizing radiation, such as high energy electromagnetic radiation and particle radiation, has an ...
This paper proposes a methodology to design radiation-hardened ICs, suitable for space applications ...
The development of a hardened silicon power transistor for operation in severe nuclear radiation env...
International audienceThe behaviour of Integrated Circuits (IC), in Space, the high atmosphere or ev...
A practical guide to the effects of radiation on semiconductor components of electronic systems, and...
In this paper, we discuss the diagnosis of particle-induced failures in harsh environ-ments such as ...