This paper aims to presents a new method of investigation of local properties of conformal coatings utilized in microelectronics.
Abstract
Purpose
This paper aims to presents a new method of investigation of local properties of conformal coatings utilized in microelectronics.
Design/methodology/approach
It is based on atomic force microscopy (AFM) technique supplemented with the ability of local electrical measurements, which apart from topography acquisition allows recording of local impedance spectra, impedance imaging and dc current mapping. Potentialities of the proposed AFM-assisted approach have been demonstrated on commercially available epoxy-coated electronic printed boards in as-received state and after six-year service.
Findings
The technique proved to be capable of identification, spatial localization and characterization of conformal coating defects.
Practical implications
The proposed approach can be utilized for assessment of protective film state in such demanding fields as electronics or electrotechnics where the classical techniques of anticorrosion coatings investigation cannot be employed due to small element dimensions and relatively low coating thickness.
Originality/value
The approach adopted by the author is novel in the field of organic coatings investigation.