Multi-phase switching regulator incorporating phase current balance circuit

The invention claimed is: 1. A multi-phase current mode hysteretic modulator for generating a plurality of pulse width modulation (PWM) signals for driving a plurality of power stages in a plurality of phases, each power stage receiving an input voltage and delivering a phase current through a respective inductor to an output node to which an output capacitor and a load are connected, the plurality of PWM signals being generating in response to a feedback voltage signal indicative of a regulated output voltage at the output node, the current mode hysteretic modulator comprising: a phase current balance circuit configured to generate a phase current balance control signal for each phase to balance the phase current between the plurality of phases, the phase current balance control signal for each phase being indicative of a difference between a slope-compensated emulated phase current signal of the respective phase and an average phase current signal, wherein the phase current balance control signal for each phase is combined with a voltage control loop error signal and compared with the slope-compensated emulated phase current signal for the respective phase to generate a duty cycle control signal to control a duty cycle of the PWM signal of the respective phase, the duty cycle control signals being generated for the plurality of phases to control the phase currents delivered by the plurality of power stages. 2. The multi-phase current mode hysteretic modulator of claim 1 , wherein the phase current balance control signal for each phase is combined with a voltage control loop error signal to generate a phase control signal for each phase; and wherein the phase control signal is compared to the slope-compensated emulated phase current signal for the respective phase to generate the duty cycle control signal for the respective phase. 3. The multi-phase current mode hysteretic modulator of claim 2 , further comprising: a voltage control loop coupled to receive the feedback voltage signal indicative of the regulated output voltage and a target voltage and to generate the voltage control loop error signal indicative of a difference between the feedback voltage signal and the target voltage. 4. The multi-phase current mode hysteretic modulator of claim 3 , wherein the voltage control loop comprises: a first error amplifier receiving the feedback voltage signal indicative of the regulated output voltage and the target voltage, the first error amplifier generating the voltage control loop error signal indicative of the difference between the feedback voltage signal and the target voltage on an output terminal; a plurality of modulating comparators, each modulating comparator being associated with a respective phase and having a first input terminal receiving the phase control signal of a respective phase and a second input terminal receiving the slope-compensated emulated phase current signal of the respective phase, each modulating comparator generating the duty cycle control signal for the respective phase, the duty cycle control signal being a reset signal; and a plurality of latch circuits, each latch circuit being associated with a respective phase and having a reset input terminal coupled to receive the reset signal from the modulating comparator of a respective phase, a set input terminal coupled to receive a clock signal of the respective phase, and an output terminal generating the PWM signal for the respective phase to drive the respective power stage, the PWM signal having an on-duration defining a duty cycle of the PWM signal and an off-duration, wherein the set signal initiates the on-duration of the PWM signal and the reset signal terminates the on-duration of the PWM signal. 5. The multi-phase current mode hysteretic modulator of claim 1 , wherein the phase current balance circuit is coupled to receive slope-compensated emulated phase current signals generated for the plurality of phases, each slope-compensated emulated phase current signal being indicative of an expected current level of the phase current being delivered by a respective power stage and incorporating a slope compensation signal. 6. The multi-phase current mode hysteretic modulator of claim 1 , further comprising: a plurality of ramp signal generator circuits, each ramp signal generator circuit being associated with a respective phase and receiving the PWM signal of a respective phase, each ramp signal generator circuit comprising a switched capacitor circuit implementing charge scaling to generate the slope-compensated emulated phase current signal for the respective phase. 7. The multi-phase current mode hysteretic modulator of claim 6 , wherein the modulator comprises a peak current buck modulator and each of the plurality of ramp signal generators generates the slope-compensated emulated phase current signal having an up-ramp being proportional to the input voltage during the on-duration of the PWM signal of the respective phase and having a down-ramp being proportional to the output voltage during the off-duration of the PWM signal of the respective phase. 8. The multi-phase current mode hysteretic modulator of claim 1 , wherein the phase current balance circuit further comprises: a signal average circuit receiving the slope-compensated emulated phase current signals of the plurality of phase and generating the average phase current signal indicative of the average current value of the slope-compensated emulated phase current signals of all of the phases; and a plurality of amplifier circuits, each amplifier circuit being associated with a respective phase and receiving the average phase current signal and the slope-compensated emulated phase current signal for a respective phase, each amplifier circuit generating the phase current balance control signal for the respective phase indicative of a difference between the slope-compensated emulated phase current signal of the respective phase and the average phase current signal. 9. The multi-phase current mode hysteretic modulator of claim 8 , wherein the plurality of amplifier circuits comprise: a plurality of operational transconductance amplifiers, each operational transconductance amplifier having an non-inverting input terminal coupled to receive the average phase current signal and an inverting input terminal coupled to receive the slope-compensated emulated phase current signal for a respective phase, each operational transconductance amplifier generating an output current signal indicative of the difference between the slope-compensated emulated phase current signal for the respective phase and the average phase current signal; and a plurality of current-voltage converting circuits, each current-voltage converting circuit being coupled to receive the output current signal from a respective operational transconductance amplifier of a respective phase and to provide a voltage signal being the phase current balance control signal, wherein the phase current balance control signal is added to or subtracted from the voltage control loop error signal to generate the combined signal for each phase. 10. The multi-phase current mode hysteretic modulator of claim 9 , wherein each of the plurality of current-voltage converting circuits comprises a parallel resistor-capacitor circuit. 11. The multi-phase current mode hysteretic modulator of claim 1 , wherein the modulator comprises one of a peak current buck modulator, a peak current boost modulator, a valley current buck modulator and a valley current boost modulator. 12. A method of balancing phase currents in a multi-phase voltage regulator, the method comprising: generating a plurality of pulse width modul