The latch-up phenomenon in CMOS ICs is studied by means of a SEM observation technique that is based on capacitively coupled voltage contrast and is characterized by digital beam control and image acquisition. Passivated devices are studied at low beam energies, without interfering with their electrical behavior. The comparison between images taken in the latched and nonlatched state allows reliable identification of the latch-up current paths and thus of the latched site. The performance of the technique is demonstrated by three examples which refer to one standard and two custom CMOS ICs
The main purpose of this project is to study the latchup phenomenon in submicrometer CMOS devices an...
The dependence of the latch-up susceptibility on layout parameters is studied on four stripe structu...
This paper defines the latch-up failure mechanism in CMOS, analyzes methods and tools to detect it, ...
The latch-up phenomenon in CMOS ICs is studied by means of a SEM observation technique that is based...
The Digital Differential Voltage Contrast in a SEM has been applied to the observation of the latch-...
SEM stroboscopic voltage contrast techniques allow one to observe with high voltage resolution the t...
The paper demonstrates some techniques for the localization of parasitic paths responsible for the l...
The scanning electron microscopy (SEM) technique for the study of the local sensitivity to latch-up ...
A technique is presented for using the scanning electron microscope (SEM) in the electron-beam-induc...
An electron beam testing system was established for a complete and detailed analysis of latch-up in ...
An electron beam testing system has been developed for complete and detailed analysis of latchup in ...
One of the most hazardous reliability problems for CMOS IC's is due to the latch-up failure mechanis...
The paper describes techniques for the identification of parasitic paths leading to latch-up in CMOS...
An electron beam testing system was established foe a complete and detailed analysis of latch-up in ...
Custom CMOS ICs are very attractive for automotive applications; in the tough automotive environment...
The main purpose of this project is to study the latchup phenomenon in submicrometer CMOS devices an...
The dependence of the latch-up susceptibility on layout parameters is studied on four stripe structu...
This paper defines the latch-up failure mechanism in CMOS, analyzes methods and tools to detect it, ...
The latch-up phenomenon in CMOS ICs is studied by means of a SEM observation technique that is based...
The Digital Differential Voltage Contrast in a SEM has been applied to the observation of the latch-...
SEM stroboscopic voltage contrast techniques allow one to observe with high voltage resolution the t...
The paper demonstrates some techniques for the localization of parasitic paths responsible for the l...
The scanning electron microscopy (SEM) technique for the study of the local sensitivity to latch-up ...
A technique is presented for using the scanning electron microscope (SEM) in the electron-beam-induc...
An electron beam testing system was established for a complete and detailed analysis of latch-up in ...
An electron beam testing system has been developed for complete and detailed analysis of latchup in ...
One of the most hazardous reliability problems for CMOS IC's is due to the latch-up failure mechanis...
The paper describes techniques for the identification of parasitic paths leading to latch-up in CMOS...
An electron beam testing system was established foe a complete and detailed analysis of latch-up in ...
Custom CMOS ICs are very attractive for automotive applications; in the tough automotive environment...
The main purpose of this project is to study the latchup phenomenon in submicrometer CMOS devices an...
The dependence of the latch-up susceptibility on layout parameters is studied on four stripe structu...
This paper defines the latch-up failure mechanism in CMOS, analyzes methods and tools to detect it, ...