Scanning microscopy in microcircuit failure analysis
Abstract
A three-phase microcircuit failure analysis procedure is presented. In the first phase, the device is nondestructively tested and the data obtained is correlated with the circumstances surrounding the failure event. The device is then subjected to a limited nondestructive analysis dominated by optical and scanning electron microscopy (SEM). Knowing that microcircuits usually fail from manufacturing defects or misuse, the analyst looks for one of the probable mechanisms. The SEM has two special operating modes that provide unique data for nondestructive analysis: voltage contrast and conductive current. These are used with other SEM modes and surface analysis techniques to analyze complicated microcircuits. The last phase includes the destructive procedures. The end product of these analyses is a corrective action that will yield a highly reliable system.
- Publication:
-
American Society of Mechanical Engineers
- Pub Date:
- December 1978
- Bibcode:
- 1978asme.meetQ....N
- Keywords:
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- Electron Microscopy;
- Failure Analysis;
- Integrated Circuits;
- Microelectronics;
- Nondestructive Tests;
- Chips (Electronics);
- Damage;
- Data Correlation;
- Defects;
- Microminiaturized Electronic Devices;
- Microscopy;
- Secondary Emission;
- X Ray Spectroscopy;
- Electronics and Electrical Engineering