The evolution of highly miniaturized electronic and mechanical systems will be accompanied by new problems and issues regarding the radiation response of these systems in the space environment. In this paper we discuss some of the more prominent radiation problems brought about by miniaturization. For example, autonomous micro-spacecraft will require large amounts of high density memory, most likely in the form of stacked, multichip modules of DRAM's, that must tolerate the radiation environment. However, advanced DRAM's (16 to 256 Mbit) are quite susceptible to radiation, particularly single event effects, and even exhibit new radiation phenomena that were not a problem for older, less dense memory chips. Another important trend in micro-s...
A search of literature concerning the long term effects of nuclear radiation on electronic parts was...
We present the results of single event effects (SEE) testing and analysis investigating the effects ...
The effects of radiation on Nano-Scale Transistors is a primary concern for space level applications...
The sensitivity of MEMS devices to radiation is reviewed, with an emphasis on radiation levels repre...
Abstract Spacecraft performance requirements drive the utilization of commercial-off-the-shelf (COTS...
Commercial nonvolatile memory technology is attractive for space applications, but radiation issues ...
The slides present a brief snapshot discussing electronics and exploration-related challenges. Radia...
Effects on the internal spacecraft electronics due to exposure to the natural and enhanced space rad...
The USU Materials Physics Group (MPG) has conducted survivability tests of the effects of space and ...
The space radiation environment can have serious effects on spacecraft electronics. The effect of in...
The natural space radiation environment can be considered harsh for semiconductor electronics that m...
Recent progress in microsystems technologies make them suitable for space research and development d...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Recent progress in microsystems technologies make them suitable for the space research and developm...
Mechanisms that control the response of MOS and bipolar devices to ionizing radiation in the natural...
A search of literature concerning the long term effects of nuclear radiation on electronic parts was...
We present the results of single event effects (SEE) testing and analysis investigating the effects ...
The effects of radiation on Nano-Scale Transistors is a primary concern for space level applications...
The sensitivity of MEMS devices to radiation is reviewed, with an emphasis on radiation levels repre...
Abstract Spacecraft performance requirements drive the utilization of commercial-off-the-shelf (COTS...
Commercial nonvolatile memory technology is attractive for space applications, but radiation issues ...
The slides present a brief snapshot discussing electronics and exploration-related challenges. Radia...
Effects on the internal spacecraft electronics due to exposure to the natural and enhanced space rad...
The USU Materials Physics Group (MPG) has conducted survivability tests of the effects of space and ...
The space radiation environment can have serious effects on spacecraft electronics. The effect of in...
The natural space radiation environment can be considered harsh for semiconductor electronics that m...
Recent progress in microsystems technologies make them suitable for space research and development d...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Recent progress in microsystems technologies make them suitable for the space research and developm...
Mechanisms that control the response of MOS and bipolar devices to ionizing radiation in the natural...
A search of literature concerning the long term effects of nuclear radiation on electronic parts was...
We present the results of single event effects (SEE) testing and analysis investigating the effects ...
The effects of radiation on Nano-Scale Transistors is a primary concern for space level applications...