A Structured Approach for Rapid Identification of Fault-Sensitive Nets in Analog Circuits

Abstract

The traditional body of literature on analog testing deals with propagation of faults to the output nets of the circuit. Often the set of detectable faults remains unsatisfactory because suitable stimuli cannot be found for propagating certain faults to the output. Existing technology supports capturing of the state of internal nets of a circuit, thereby enhancing the scope of detecting faults by observing their effect on internal nets. This approach is feasible only if the number of internal nets probed by the built-in test structure is very few. This paper presents a structured approach that identifies the sensitive nets, namely a well chosen small subset of internal nets that are affected by these faults. We utilize the speed of DC analysis and some common behavioral aspects of analog signals to find out this subset. We report dramatic improvement in fault coverage on several circuits including benchmarks.