Multi-phase resonant converter and method of controlling it

That which is claimed is: 1. A switching multi-phase resonant voltage converter comprising: a plurality of primary windings; a plurality of secondary windings magnetically coupled to each of the plurality of primary windings; a plurality of inductor-inductor-capacitor (LLC) resonant circuits each coupled to a respective one of said plurality of primary windings; said plurality of primary windings being coupled to have a neutral point that is electrically floating and said plurality of secondary windings having a neutral point coupled to a reference voltage; a plurality of sensors configured to sense winding currents; a comparison circuit configured to generate phase control signals based upon comparison of the winding currents; and a control circuit configured to generate pulse width modulation (PWM) driving signals based upon the phase control signals. 2. The switching multi-phase resonant voltage converter of claim 1 , wherein the neutral point comprises one of a real neutral point and a virtual neutral point. 3. The switching multi-phase resonant voltage converter of claim 1 , wherein said plurality of primary windings comprises a plurality of primary windings coupled in a star configuration. 4. The switching multi-phase resonant voltage converter of claim 3 , further comprising: an output terminal coupled to said plurality of secondary windings; and a multi-phase rectifying bridge coupled between the output terminal and another terminal not being in common with the plurality of secondary windings. 5. The switching multi-phase resonant voltage converter of claim 1 , wherein said plurality of primary windings are coupled in a polygon configuration. 6. The switching multi-phase resonant voltage converter of claim 1 , wherein said plurality of secondary windings are coupled in a star configuration. 7. The switching multi-phase resonant voltage converter of claim 1 , wherein said multi-phase resonant voltage converter comprises a PWM controlled three-phase resonant voltage converter. 8. The switching multi-phase resonant voltage converter of claim 1 , further comprising a plurality of half-bridges configured to power respective ones of said plurality of primary windings; and wherein said control circuit is configured to generate the PWM driving signals for respective ones of said plurality of half-bridges. 9. The switching multi-phase resonant voltage converter of claim 1 , wherein said plurality of sensors is configured to sense winding currents flowing through each of said plurality of primary windings. 10. The switching multi-phase resonant voltage converter of claim 1 , wherein said plurality of sensors is configured to sense winding currents flowing through each of said plurality of secondary windings. 11. The switching multi-phase resonant voltage converter of claim 1 , wherein said plurality of sensors is configured to sense the winding currents during off phases. 12. The switching multi-phase resonant voltage converter of claim 1 , further comprising a switch configured to ground the neutral point when a load decreases below a threshold. 13. A switching multi-phase resonant voltage converter comprising: a plurality of primary windings; a plurality of secondary windings magnetically coupled to respective ones of the plurality of primary windings; a plurality of half-bridges configured to power respective ones of said plurality of primary windings; a plurality of inductor-inductor-capacitor (LLC) resonant circuits each coupled to a respective one of said plurality of primary windings; said primary and secondary windings each being coupled to have a respective neutral point that is electrically floating; a switch configured to selectively ground the neutral point of said plurality of primary windings when a load decreases below a threshold; and a control circuit configured to generate pulse width modulation (PWM) driving signals for said plurality of half-bridges based upon phase control signals. 14. The switching multi-phase resonant voltage converter of claim 13 , wherein said plurality of primary windings is equal in number to said plurality of secondary windings. 15. The switching multi-phase resonant voltage converter of claim 13 , wherein the neutral point comprises one of a real neutral point and a virtual neutral point. 16. The switching multi-phase resonant voltage converter of claim 13 , wherein said plurality of primary windings are coupled in a star configuration. 17. The switching multi-phase resonant voltage converter of claim 13 , wherein said plurality of primary windings are coupled in a polygon configuration; and wherein said plurality of secondary windings are coupled in a star configuration. 18. The switching multi-phase resonant voltage converter of claim 13 further comprising: an output terminal coupled to said plurality of secondary windings; and a multi-phase rectifying bridge coupled between the output terminal and another terminal not being in common with the plurality of secondary windings.