Detection circuit for an active discharge circuit of an X-capacitor, related active discharge circuit, integrated circuit and method

The invention claimed is: 1. A device, comprising: a discharge circuit; a capacitor coupled to the discharge circuit; and a detection circuit coupled to the discharge circuit and including: a sensor circuit coupled to the capacitor; a comparator configured to: compare a sensor signal from the sensor circuit with a lower threshold value and determine whether the sensor signal is greater than the lower threshold value; and compare the sensor signal with an upper threshold value and determine whether the sensor signal is lower than the upper threshold value; an elaboration circuit configured to generate a first control signal indicating whether the sensor signal is increasing and a second control signal indicating whether the sensor signal is decreasing; and a dynamic threshold generator circuit configured to: vary the lower threshold value and the upper threshold value of the comparator as a first function of the first control signal to increase a first value of a smaller one of the lower threshold value and the upper threshold value to a first new value that is greater than a value of a larger one of the lower threshold value and the upper threshold value in response to the first control signal; and vary the lower threshold value and the upper threshold value of the comparator as a second function of the second control signal to decrease a second value of the larger one of the lower threshold value and upper threshold value to a second new value that is less than the smaller one of the lower threshold value and the upper threshold value in response to the second control signal. 2. The device of claim 1 wherein the comparator further includes: a first comparator configured to generate a first comparison signal indicating whether the sensor signal is greater than the lower threshold value; and a second comparator configured to generate a second comparison signal indicating whether the sensor signal is greater than the upper threshold value. 3. The device of claim 2 wherein the elaboration circuit is further configured to: generate, based on the first comparison signal and the second comparison signal from the comparator, the first control signal indicating whether the sensor signal is greater than both of the upper threshold value and lower threshold value; and generate, based on the first comparison signal and the second comparison signal from the comparator, the second control signal indicating whether the sensor signal is smaller than both of the upper threshold value and the lower threshold value. 4. The device of claim 3 , further comprising a timer circuit configured to: set a discharge enable signal to a first logic level in response to the timer circuit being reset via a reset signal; determine a time elapsed since the timer circuit has been reset via the reset signal; and in response to the time elapsed exceeding a timeout value, set the discharge enable signal to a second logic level to discharge the capacitor with the discharge circuit. 5. The device of claim 4 wherein the timer circuit is configured to reset the timer circuit with the reset signal in response to the first comparison signal and the second comparison signal indicating that the sensor signal is greater than both of the first threshold value and second threshold value. 6. A method, comprising: detecting an AC oscillation at a capacitor by: comparing a sensor signal, indicative of a voltage at the capacitor, with a lower threshold value and determining whether the sensor signal is greater than the lower threshold value: comparing the sensor signal with an upper threshold value and determining whether the sensor signal is lower than the upper threshold value; increasing a first value of a smaller one of the lower threshold value and the upper threshold value to a first new value that is greater than a second value of a larger one of the lower threshold value and the upper threshold value in response to a first control signal indicating a sensor signal is greater than the values of the upper threshold value and the lower threshold value; and decreasing a third value of the greater one of the lower threshold value and the upper threshold value to a second new value that is less than the value of the larger one of the lower threshold value and the upper threshold value in response to a second control signal indicating the sensor signal is less than the values of the upper threshold value and the lower threshold value. 7. The method of claim 6 wherein detecting that the AC oscillation includes: detecting at least one of a leading edge or a falling edge of a comparison signal that is indicative of whether the sensor signal is between the lower threshold and the upper threshold values; incrementing a count value indicating a time between the at least one of the leading edge or the falling edge of the comparison signal; and determining whether the count value has reached a time threshold value. 8. The method of claim 7 , further comprising discharging the capacitor in response to the count value reaching the time threshold value. 9. A device, comprising: a discharge capacitor; a voltage sensor coupled to the discharge capacitor and configured to output a signal representative of a voltage of the discharge capacitor; a first comparator coupled to the voltage sensor and configured to compare the signal to a first threshold; a second comparator coupled to the voltage sensor and configured to compare the signal to a second threshold; an elaboration circuit coupled to the first and second comparators, the elaboration circuit including: an AND gate coupled to the first and second comparators; and a NOR gate coupled to the first and second comparators, wherein the AND gate and the NOR gate together indicate whether the signal is greater than, less than or between the first and second thresholds; and a dynamic threshold generator circuit coupled to the first and second comparators and to the elaboration circuit. 10. The device of claim 9 wherein the dynamic threshold generator circuit is coupled to an output of the AND gate and an output of the NOR gate. 11. The device of claim 9 further comprising a timer circuit coupled to the elaboration circuit. 12. The device of claim 11 wherein the timer circuit is coupled to an output of the AND gate. 13. The device of claim 9 , further comprising a rectifier coupled between the discharge capacitor and the voltage sensor, the rectifier including: a first diode coupled to the discharge capacitor; a second diode coupled to the discharge capacitor; a first resistor coupled to the first and second diode; and a second resistor. 14. The device of claim 13 wherein a node between the first and second resistor is coupled to an input of each of the first and the second comparators. 15. The device of claim 9 further comprising a discharge circuit coupled to the capacitor, the discharge circuit including: a first diode coupled to the capacitor; a second diode coupled to the capacitor; and a switch coupled to the first and second diode. 16. The device of claim 15 further comprising a timer circuit coupled to the elaboration circuit, the timer circuit is coupled to an output of the AND gate, and the switch is coupled to an output of the timer circuit. 17. The device of claim 9 wherein the dynamic threshold generation circuit further includes: a processing unit coupled to the AND gate and to the NOR gate; a first digital to analog converter coupled to the processing unit; and a second digital to analog converter coup