Using the GSI heavy ion microprobe and a special hardware circuit for upset and latchup detection we have for the first time simultaneously imaged upset- and latchup-sensitive regions of a 2k*8 bit static RAM (HM 65162) for different LET values of the beam and various operating voltages. Additionally we have mapped the scanned area by secondary electron imaging and ion induced charge imaging to create a data set as comprehensive as possible for the description of single event processes
The nuclear microprobe has proven to be a useful tool in radiation testing of integrated circuits. T...
The ESA SEU-Monitor, a 2 Gbit DDR2 SDRAM and a 100 V n-channel power MOSFET have been irradiated at ...
A commercial CMOS image sensor was irradiated with heavy ion beams in the several MeV energy range. ...
The single event upset (SEU) imaging has been applied at the GSI heavy ion microprobe to determine t...
Following our work on simultaneous imaging of single-event-upsets (SEU) and single-event-latchups (S...
An imaging technique is described which produces micron-resolution maps of the single-event upset se...
The first simultaneous microbeam mapping of single event upset (SEU) and latchup (SEL) in the CMOS R...
An improved state-space analysis of the CMOS static RAM cell is presented. Introducing the concept o...
A new form of microscopy has been developed which produces micron-resolution maps of where single ev...
A dedicated high-speed 18 Kbit static memory featuring synchronous mode, parity and dual port access...
As an important spaceborne electronic device, the static random access memory (SRAM) device is inevi...
The latch-up phenomenon in CMOS ICs is studied by means of a SEM observation technique that is based...
The latch-up phenomenon in CMOS ICs is studied by means of a SEM observation technique that is based...
A dedicated high-speed 18 Kbit static memory featuring synchronous mode, parity and dual port access...
A beam of energetic ions has been used to study the upset sensitivity of various device elements on ...
The nuclear microprobe has proven to be a useful tool in radiation testing of integrated circuits. T...
The ESA SEU-Monitor, a 2 Gbit DDR2 SDRAM and a 100 V n-channel power MOSFET have been irradiated at ...
A commercial CMOS image sensor was irradiated with heavy ion beams in the several MeV energy range. ...
The single event upset (SEU) imaging has been applied at the GSI heavy ion microprobe to determine t...
Following our work on simultaneous imaging of single-event-upsets (SEU) and single-event-latchups (S...
An imaging technique is described which produces micron-resolution maps of the single-event upset se...
The first simultaneous microbeam mapping of single event upset (SEU) and latchup (SEL) in the CMOS R...
An improved state-space analysis of the CMOS static RAM cell is presented. Introducing the concept o...
A new form of microscopy has been developed which produces micron-resolution maps of where single ev...
A dedicated high-speed 18 Kbit static memory featuring synchronous mode, parity and dual port access...
As an important spaceborne electronic device, the static random access memory (SRAM) device is inevi...
The latch-up phenomenon in CMOS ICs is studied by means of a SEM observation technique that is based...
The latch-up phenomenon in CMOS ICs is studied by means of a SEM observation technique that is based...
A dedicated high-speed 18 Kbit static memory featuring synchronous mode, parity and dual port access...
A beam of energetic ions has been used to study the upset sensitivity of various device elements on ...
The nuclear microprobe has proven to be a useful tool in radiation testing of integrated circuits. T...
The ESA SEU-Monitor, a 2 Gbit DDR2 SDRAM and a 100 V n-channel power MOSFET have been irradiated at ...
A commercial CMOS image sensor was irradiated with heavy ion beams in the several MeV energy range. ...