Single inductor dual input buck converter with reverse capability

What is claimed is: 1. A dual input power converter comprising an inductor coupled between an intermediate node and an output of the dual input power converter; a first switching element coupled between a first input of the dual input power converter and the intermediate node; a second switching element coupled between a second input of the dual input power converter and the intermediate node; and a low-side switching element coupled between the intermediate node and a reference potential, wherein the dual input power converter is configured to: down-convert, during a first buck operation state, a first input voltage at the first input to an output voltage at the output, down-convert, during a second buck operation state, a second input voltage at the second input to the output voltage at the output; and up-convert, during a back-boost operation state, the output voltage to the second input voltage, wherein the back-boost operation state comprises a first sub-state and a second sub-state, and wherein the dual input power converter is configured to: during the first sub-state, open the first switching element, open the second switching element, and close the low-side switching element; and during the second sub-state, open the first switching element, and open the low- side switching element. 2. The dual input power converter of claim 1 , further comprising a storage capacitor coupled to the second input, wherein the dual input power converter is configured to switch from the first buck operation state to the back-boost operation state when a voltage across said storage capacitor falls below a target voltage. 3. The dual input power converter of claim 1 , wherein the dual input power converter is configured to generate, during the back-boost operation state, a negative inductor current flowing from the output, via the inductor, via the intermediate node, via the second switching element to the second input. 4. The dual input power converter of claim 1 , wherein the dual input power converter is configured to switch from the first sub-state to the second sub-state when a current through the low-side switching element reaches a threshold current. 5. The dual input power converter of claim 1 , wherein the dual input power converter is configured to, during the first buck operation state, alternately establish a magnetizing current path from the first input, via the first switching element, via the inductor to the output, and a demagnetizing current path from the reference potential, via the low-side switching element, via the inductor, to the output. 6. The dual input power converter of claim 1 , further comprising a fourth switching element coupled between first switching element and said intermediate node, wherein the dual input power converter is configured to close the fourth switching element during the first buck operation state, and to open the fourth switching element during the back-boost operation state. 7. The dual input power converter of claim 1 , wherein the dual input power converter is configured to switch from the first buck operation state to the second buck operation state if the input voltage falls below a threshold voltage. 8. A method of operating a dual input power converter comprising coupling an inductor between an intermediate node and an output of the dual input power converter; coupling a first switching element between a first input of the dual input power converter and the intermediate node; coupling a second switching element between a second input of the dual input power converter and the intermediate node; and coupling a low-side switching element between the intermediate node and a reference potential, wherein the method further comprises: down-converting, during a first buck operation state, a first input voltage at the first input to an output voltage at the output, down-converting, during a second buck operation state, a second input voltage at the second input to the output voltage at the output; and up-converting, during a back-boost operation state, the output voltage to the second input voltage, wherein the back-boost operation state comprises a first sub-state and a second sub-state, and wherein the method further comprises: during the first sub-state, opening the first switching element, opening the second switching element, and closing the low-side switching element; and during the second sub-state, opening the first switching element, and opening the low-side switching element. 9. The method of claim 8 , wherein the dual input power converter further comprises a storage capacitor coupled to the second input, and wherein the method comprises switching from the first buck operation state to the back-boost operation state when a voltage across said storage capacitor falls below a target voltage. 10. The method of any one of claims 8 , wherein the method comprises generating, during the back-boost operation state, a negative inductor current flowing from the output, via the inductor, via the intermediate node, via the second switching element to the second input. 11. The method of claim 8 , wherein the method comprises switching from the first sub-state to the second sub-state when a current through the low-side switching element reaches a threshold current. 12. The method of any one of claims 8 , wherein the method comprises, during the first buck operation state, alternately establishing a magnetizing current path from the first input, via the first switching element, via the inductor to the output, and a demagnetizing current path from the reference potential, via the low-side switching element, via the inductor, to the output. 13. The method of any one of claims 8 , wherein the dual input power converter comprises a fourth switching element coupled between first switching element and said intermediate node, and wherein the method comprises closing the fourth switching element during the first buck operation state, and opening the fourth switching element during the back-boost operation state. 14. The method of any one of claims 8 , wherein the method comprises switching from the first buck operation state to the second buck operation state if the input voltage falls below a threshold voltage.