Apparatuses and related methods for a wireless power receiver using coupled inductors

What is claimed is: 1 . A wireless power receiver, comprising: one or more receive coils configured to generate an AC power signal responsive to a wireless power signal; two or more inductors configured with tightly coupled windings that share a common leakage inductance; two or more switching circuits, each switching circuit operably coupled to a corresponding one of the two or more inductors; and control logic configured to operate switches of the two or more switching circuits such that each of the two or more switching circuits and its corresponding one of the two or more inductors are operated to shift between an energy storage mode for one or more phases of a switching period and an energy transfer mode for other phases of the switching period and the phases combine to comprise an entirety of the switching period. 2 . The wireless power receiver of claim 1 , wherein: the one or more receive coils comprise three receive coils; the two or more inductors comprise three inductors; and three combined coils are formed wherein each combined coil comprises one of the three receive coils and one of the three inductors such that the three combined coils are configured with the tightly coupled windings that share the common leakage inductance. 3 . The wireless power receiver of claim 1 , wherein: the two or more inductors comprise N inductors, wherein N is a positive integer; the two or more switching circuits comprise N switching circuits; and the control logic is configured to operate the N switching circuits for each of the N inductors such that the energy storage mode is enabled for about 1/N of the switching period. 4 . The wireless power receiver of claim 1 , wherein: the two or more inductors comprise N inductors, wherein N is a positive integer; the two or more switching circuits comprise N switching circuits; and the control logic is configured to operate the N switching circuits for each of the N inductors such that the energy storage mode is enabled for about (1−1/N) of the switching period. 5 . The wireless power receiver of claim 1 , wherein: the one or more receive coils comprise a same number of coils as a number of the two or more inductors; and the two or more switching circuits each comprise four transistors in a bridge configuration operated to perform an AC-DC rectifying function during the one or more phases of the switching period for that switched inductor circuit. 6 . The wireless power receiver of claim 5 , wherein: the two or more inductors comprise N inductors, wherein N is a positive integer; the two or more switching circuits comprise N switching circuits; and the control logic is configured to operate the N switching circuits for each of the N inductors such that the energy transfer mode is enabled for about (1−1/N) of the switching period. 7 . The wireless power receiver of claim 1 , further comprising a rectifier operably coupled to the one or more receive coils and configured to rectify an AC signal from the one or more receive coils to a DC rectified power signal and wherein: the two or more switching circuits are coupled in parallel such that each comprise two switches in a buck regulator configuration operably coupled between the DC rectified power signal and a first side of a corresponding inductor of the two or more inductors; second sides of each inductor of the two or more inductors are coupled together as an output power signal; and the control logic is configured to control the two switches to perform a buck regulator function during the one or more phases of the switching period for its corresponding inductor. 8 . The wireless power receiver of claim 7 , wherein: the two or more inductors comprise N inductors, wherein N is a positive integer; the two or more switching circuits comprise N switching circuits; and the control logic is configured to operate the N switching circuits for each of the N inductors such that the energy transfer mode is enabled for about (1−1/N) of the switching period. 9 . A wireless power enabled apparatus, comprising: a wireless power receiver, including: one or more receive coils configured to generate an AC power signal responsive to a wireless power signal; two or more switched inductor circuits operably coupled to the one or more receive coils, each switched inductor circuit comprising: an inductor; and two or more switches operably coupled to the inductor; and control logic configured to operate the two or more switches such that the two or more switches and the inductor are operated to shift between an energy storage mode for one or more phases of a switching period and an energy transfer mode for other phases of the switching period and the phases combine to comprise an entirety of the switching period; wherein the inductors from each of the two or more switched inductor circuits include tightly coupled windings that share a common leakage inductance. 10 . The wireless power receiver of claim 9 , wherein: the one or more receive coils comprise three receive coils; the two or more inductor circuits comprise three inductors; and three combined coils are formed wherein each combined coil comprises one of the three receive coils and one of the three inductors such that the three combined coils are configured with the tightly coupled windings that share the common leakage inductance. 11 . The wireless power enabled apparatus of claim 9 , wherein the two or more switched inductor circuits comprises N switched inductor circuits and the control logic is configured to operate the two or more switches for each of the N switched inductor circuits such that the energy storage mode is enabled for about 1/N of the switching period, wherein N is a positive integer. 12 . The wireless power enabled apparatus of claim 9 , wherein the two or more switched inductor circuits comprises N switched inductor circuits and the control logic is configured to operate the two or more switches such that the energy storage mode is enabled for about (1−1/N) of the switching period, wherein N is a positive integer. 13 . The wireless power enabled apparatus of claim 9 , wherein: the one or more receive coils comprise a same number of coils as a number of the two or more switched inductor circuits; and the two or more switched inductor circuits each comprise: the inductor operably coupled in series with a corresponding one of the one or more receive coils; and the two or more switches comprise four transistors in a bridge configuration and enabled to perform an AC-DC rectifying function during the one or more phases of the switching period for that switched inductor circuit. 14 . The wireless power enabled apparatus of claim 13 , wherein: the one or more receive coils comprise three receive coils; the two or more switched inductor circuits comprises N switched inductor circuits, wherein N is a positive integer; and the control logic is configured to control the two or more switches such that the energy transfer mode is enabled for about (1−1/N) of the switching period. 15 . The wireless power enabled apparatus of claim 9 , further comprising a rectifier operably coupled to the one or more receive coils and configured to rectify an AC signal from the one or more receive coils to a DC rectified power signal and wherein: the two or more switched inductor circuits are coupled in parallel such that each comprise: the two or more switches as two switches in a buck regulator configuration operably coupled between the DC rectified power signal and a first side of the inductor; and a second si