Method to recover from current loop instability after cycle by cycle current limit intervention in peak current mode control

1 . A method of controlling a switching voltage regulator, comprising: detecting current-limit events indicating a maximum inductor current threshold has been exceeded; controlling a compensation voltage that determines a duty cycle and thereby an inductor current to reduce the inductor current and eliminate the occurrence of current-limit events; detecting whether a time for which no current-limit events have been detected exceeds a time step threshold; and controlling the compensation voltage to increase the duty cycle and thereby the inductor current in response to the time exceeding the time step threshold. 2 . The method of claim 1 , wherein the time step threshold is constant. 3 . The method of claim 1 , wherein the time step threshold is programmable. 4 . The method of claim 3 , wherein the time step threshold an integer number of switching cycles of the voltage regulator. 5 . The method of claim 1 , wherein controlling the compensation voltage to increase the duty cycle and thereby the inductor current in response to the time exceeding the time step threshold further comprises incrementing a value of the compensation voltage responsive to subsequent occurrences of the time exceeding the time step threshold. 6 . The method of claim 5 , wherein incrementing the value of the compensation voltage responsive to subsequent occurrences of the time exceeding the time step threshold: detecting the occurrence of two consecutive occurrences of the time exceeding the time step threshold; and after detecting the occurrence of two consecutive occurrences of the time exceeding the time step threshold, incrementing the value of the compensation voltage responsive to the each subsequent occurrence of the time exceeding the time step threshold. 7 . The method of claim 1 further comprising: incrementing a maximum inductor current count in response to the detection of each current-limit event; decrementing a value of the compensation voltage responsive to the maximum inductor current count reaching a threshold value; and resetting the maximum inductor current count responsive to the maximum inductor current count reaching the threshold value. 8 . A switching voltage regulator configured to generate an output voltage, the switching voltage regulator including a maximum current control circuit configured to detect current-limit events indicating a maximum inductor current threshold has been exceeded and to control a compensation voltage that determines a duty cycle and an inductor current being supplied by the regulator to eliminate the occurrence of current-limit events, the maximum current control circuit further configured to detect whether a time for which no current-limit events have been detected exceeds a time step threshold and to control the compensation voltage to increase the duty cycle and thereby the inductor current in response to the time exceeding the time step threshold. 9 . The switching voltage regulator of claim 8 , wherein the maximum current control circuit comprises: a clamper circuit coupled to a compensation node on which the compensation voltage is provided, the clamper circuit configured to control a value of the compensation voltage responsive to an analog compensation control node voltage; an digital-to-analog converter coupled to the clamper circuit and configured to generate the analog compensation control voltage responsive to a compensation count; and maximum current control logic coupled to the digital-to-analog converter and configured to control the value of the compensation count responsive to current-limit events being detected. 10 . The switching voltage regulator of claim 9 further comprising an error amplifier having a first input configured to receive a feedback voltage derived from the output voltage and a second input configured to receive a reference voltage, the error amplifier having an output coupled to the compensation node and being configured to generate the compensation voltage when no current-limit events are detected during operation of the voltage regulator. 11 . The switching voltage regulator of claim 10 further comprising a switching circuit coupled to an inductor through which the inductor current flows, the switching circuit having a boost topology and controlling the flow of current through the inductor responsive to the compensation voltage to generate the output voltage on an output node. 12 . The switching voltage regulator of claim 8 , wherein the maximum current control circuit is configured to maintain the time step threshold constant independent of a switching frequency of the switching voltage regulator. 13 . The switching voltage regulator of claim 8 , wherein the maximum current control circuit is configured to adjust the value of the time step threshold responsive to a programmable time step threshold value. 14 . The switching voltage regulator of claim 13 , wherein the maximum current control circuit is configured to adjust the time step threshold to equal an integer number of switching cycles of the voltage regulator. 15 . The switching voltage regulator of claim 8 , wherein the maximum current control circuit is configured, responsive to detecting that the time for which no current-limit events have been detected exceeds the time step threshold, to increment a value of the compensation voltage responsive to subsequent occurrences of the time exceeding the time step threshold. 16 . The switching voltage regulator of claim 15 , wherein the maximum current control circuit is configured to detect the occurrence of two consecutive occurrences of the time exceeding the time step threshold and thereafter increment the value of the compensation voltage responsive to the each subsequent occurrence of the time exceeding the time step threshold. 17 . An electronic device, comprising: a filter configured to be coupled to an alternating current power source; a rectifier coupled to the filter and configured to generate a rectified input voltage; a switching voltage regulator coupled to the rectifier to receive the rectified input voltage and to generate an output voltage from the rectified input voltage, the switching voltage regulator including a maximum current control circuit configured to detect current-limit events indicating a maximum inductor current threshold has been exceeded and to control a compensation voltage that determines a duty cycle and an inductor current being supplied by the regulator to eliminate the occurrence of current-limit events, the maximum current control circuit further configured to detect whether a time for which no current-limit events have been detected exceeds a time step threshold and to control the compensation voltage to increase the duty cycle and thereby the inductor current in response to the time exceeding the time step threshold; and electronic circuitry coupled to the switching voltage regulator to receive the output voltage. 18 . The electronic device of claim 1 , wherein the electronic circuitry comprises computer circuitry. 19 . The electronic device of claim 17 , wherein the maximum current control circuit comprises: a clamper circuit coupled to a compensation node on which the compensation voltage is provided, the clamper circuit configured to control a value of the compensation voltage responsive to an analog compensation control node voltage; an digital-to-analog converter coupled to the clamper circuit and configured to generate the analog compensation control voltage responsive to a compensation count;