Abstract: A hot-carrier injection (HCI) test that permits rapid screening of integrated circuit wafers susceptible to possible HCI-induced failures is disclosed. A method is described that determines transistor stress voltages that results in a transistor HCI-induced post-stress drain current differing from a pre-stress drain current within a desired range. These stress voltages are determined using a wafer with acceptable HCI susceptibility. Additional wafers to be tested are first tested using a described method that uses the determined transistor stress voltages to quickly screen the wafers for HCI susceptibility and, if HCI susceptibility is found, then additional conventional HCI testing may be applied to the susceptible wafers.

Abstract: The breakdown of an ultra-thin dielectric layer is detected by applying a test signal to the layer. Measurements are taken of noise signals present in the layer during the application of the test signal. At breakdown, a significant increase occurs in the amplitude of the measured noise signals. Similarly, fluctuations in quiescent current, I.sub.DDQ, (I.sub.DDQ noise signals), rather than the values of I.sub.DDQ, are utilized during testing as the basis for detecting defects in integrated circuits.

Abstract: The breakdown of an ultra-thin dielectric layer is detected by applying a test signal to the layer. Measurements are taken of noise signals present in the layer during the application of the test signal. At breakdown, a significant increase occurs in the amplitude of the measured noise signals.