Gate drive under-voltage detection

What is claimed is: 1 . An inverter comprising: a phase switch having an insulated gate; a complementary transistor pair adapted to receive a supply voltage and a PWM signal to alternately charge and discharge the insulated gate; a comparator comparing a voltage at the insulated gate with a reference voltage representing a gate drive fault to generate a first logic signal; a latch sampling the first logic signal when the PWM signal has a value corresponding to charging the insulated gate; and a logic circuit inhibiting charging of the insulated gate when the latched logic signal indicates the gate drive fault. 2 . The inverter of claim 1 wherein the gate drive fault is an under-voltage fault of the supply voltage. 3 . The inverter of claim 2 wherein the reference voltage is configured to indicate the under-voltage fault whenever the supply voltage is less than 90% of a target value. 4 . The inverter of claim 1 wherein the gate drive fault includes an insulation fault of the insulated gate and a conduction fault of the complementary transistor pair. 5 . The inverter of claim 1 wherein the latch is triggered by a falling edge of the PWM signal. 6 . The inverter of claim 1 further comprising a second comparator for comparing a voltage across the phase switch to a second reference voltage indicative of an On state of the phase switch, wherein the latch is triggered by the second comparator when the on state is detected. 7 . The inverter of claim 1 wherein the latch is comprised of a D-type flip-flop. 8 . A method of detecting a gate drive fault of an insulated gate phase switch in an inverter of an electrified vehicle, comprising: coupling a PWM signal to a complementary transistor pair to alternately charge and discharge the insulated gate of the phase switch during charge and discharge phases of the PWM signal, respectively; comparing a voltage at the insulated gate to a reference voltage representing a gate drive fault to generate a first logic signal; latching the first logic signal once during the charge phase of the PWM signal; and inhibiting the charging of the insulated gate after the latched logic signal indicates the gate drive fault. 9 . The method of claim 8 wherein the gate drive fault is an under-voltage fault of the supply voltage, and wherein the reference voltage is configured to indicate the under-voltage fault whenever the supply voltage is less than 90% of a target value. 10 . The method of claim 8 wherein the gate drive fault includes an insulation fault of the insulated gate and a conduction fault of the complementary transistor pair. 11 . The method of claim 8 wherein the latching step is triggered by a falling edge of the PWM signal. 12 . The method of claim 8 further comprising the step of: comparing a voltage across the phase switch to a second reference voltage indicative of an on state of the phase switch; wherein the latching step is triggered by the second comparator when the on state is detected. 13 . An under-voltage detector comprising: an inverter phase switch having an insulated gate; a transistor pair using a supply voltage to charge and discharge the gate; a comparator generating a logic signal when a gate voltage is less than a reference; a latch for sampling the logic signal during charging of the gate; and a logic circuit inhibiting charging of the gate when the latched logic signal indicates an under-voltage of the gate.