Abstract: A sensor for on-chip monitoring the effects of operating conditions on a circuit, Integrated Circuit (IC) chips including the sensors, and a method of monitoring operating condition effects on-chip circuits, e.g., for the occurrence of electromigration. The sensor includes a multi-fingered driver associated with a monitored circuit, sensitive to known circuit parameter sensitivities. Sense and control logic circuit selectively driving the multi-fingered driver, and selectively monitoring for an expected multi-fingered driver response.

Abstract: A sensor for on-chip monitoring the effects of operating conditions on a circuit, Integrated Circuit (IC) chips including the sensors, and a method of monitoring operating condition effects on-chip circuits, e.g., for the occurrence of electromigration. The sensor includes a multi-fingered driver associated with a monitored circuit, sensitive to known circuit parameter sensitivities. Sense and control logic circuit selectively driving the multi-fingered driver, and selectively monitoring for an expected multi-fingered driver response.

Abstract: An eFuse reference cell on a chip provides a reference voltage that is greater than a maximum voltage produced by an eFuse cell having an unblown eFuse on the chip but less than a minimum voltage produced by an eFuse cell having a blown eFuse on the chip. A reference current flows through a resistor and an unblown eFuse in the eFuse reference cell, producing the reference voltage. The reference voltage is used to create a mirrored copy of the reference current in the eFuse cell. The mirrored copy of the reference current flows through an eFuse in the eFuse cell. A comparator receives the reference voltage and the voltage produced by the eFuse cell. The comparator produces an output logic level responsive to the voltage produced by the eFuse cell compared to the reference voltage.