Conductive Atomic Force Microscopy (C-AFM) is a useful tool for both electrical failure analysis (EFA) and physical failure analysis (PFA). In this paper, the root cause of a physical failure in an analysis image was verified from the evidence of two-dimensional AFM profile depth measurement. The other analysis technique, which is electrical parameter extraction by contacting I-V spectroscopy measurement, was also utilized to locate the possible defects. As a result, the failure mechanism was illustrated with an AFM topography image, which showed the silicon surface profile after removal of cobalt salicide (self-alignment silicide) by dilute HF. The vertical junction leakage path was identified with a C-AFM image.

Scanning Capacitance Microscopy (SCM) has been extensively used for identifying doping issues in semiconductor failure analysis. In this paper, the root causes of two recent problems -- bipolar beta loss and CMOS power leakage -- were verified using SCM images. Another localization method, layer-by-layer circuit repair with IROBIRCH detection, was also utilized to locate possible defects. The resulting failure mechanism for bipolar beta loss is illustrated with a schematic cross section, which shows the leakage path from the emitter to the base. In the case of CMOS power leakage, the abnormal implantation of the Pwell region was identified with the Plane view SCM image.