Charging optimization

The invention claimed is: 1. A device, comprising: an input port configured to receive an electrical input having a corresponding input voltage; an output port configured to provide an electrical output having an output voltage and an output current; a measurement module configured to measure the output current; and a controller configured to: set the output voltage at a first level, lower than a level of the input voltage; receive a first measured output current value from the measurement module, the first measured output current value corresponding to the output voltage set at the first level; set the output voltage a second level, lower than the first level; receive a second measured output current value from the measurement module, the second measured output current value corresponding to the output voltage set at the second level; compare the first measured output current value and the second measured output current value; increase the output voltage to at least the first level if the second measured output current value is less than the first measured output current value; decrease the output voltage to at least the second level if the second measured output current value is the same as or greater than the first measured output current value; and determine, based on a series of previous output voltage levels, if the output voltage is switching back and forth between a higher voltage level and a lower voltage level, and in accordance with a determination that the output voltage is switching back and forth, set the output voltage at the higher voltage level. 2. The device of claim 1 , wherein the controller is configured to successively approximate a lowest output voltage level needed to support a measured output current value. 3. The device of claim 1 , comprising: a charging circuit comprising an input and an output; and a battery; wherein the input of the charging circuit is coupled to the output port and the output of the charging circuit is configured to charge the battery. 4. The device of claim 1 , further comprising a linear regulator or a switched mode regulator configured to set the output voltage to different voltage levels. 5. The device of claim 1 , wherein an output voltage level is intermittently increased to determine if an output current value increases, and the controller is further configured to verify that the output current value at the increased output voltage level is not limited below a defined load level. 6. The device of claim 1 , wherein the controller comprises a processor and a memory containing instructions. 7. The device of claim 1 , wherein the controller comprises a hardwired logic circuit, and the output port is connected to a charging circuit that is connected to a rechargeable battery, and the controller is further configured to compare the second measured output current value to a defined threshold output current and increase an output voltage level if the second measured output current value is less than the defined threshold output current, wherein the defined threshold output current is based on a lowest output voltage level allowing a defined output current value. 8. The device of claim 1 , further comprising a low pass filter configured to filter out a frequency component of the electrical output. 9. The device of claim 1 , further comprising a switched mode regulator, wherein the switched mode regulator is configured to be controlled by the controller. 10. The device of claim 1 , further comprising a linear regulator, wherein the linear regulator is configured to be controlled by the controller. 11. A device comprising: an input port configured to receive an electrical input having a corresponding input voltage; an output port configured to provide an electrical output having an output voltage and an output current; a converter configured to take alternating current as input and provide direct current as the output current; a measurement module configured to measure the output current; and a controller configured to: set the output voltage at a first level, lower than a level of the input voltage; receive a first measured output current value from the measurement module, the first measured ouput current value corresponding to the ouput voltage set at the first level; set the output voltage at a second level, lower than the first level; receive a second measured output current value from the measurement module, the second measured output current value corresponding to the output voltage set at the second level; compare the first measured output current value and the second measured output current value; increase the output voltage to at least the first level if the second measured output current value is less than the first measured output current value; decrease the output voltage to at least the second level if the second measured output current value is the same as or greater than the first measured output current value; and determine, based on a series of previous output voltage levels if the output voltage is switching back and forth between a higher voltage level and a lower voltage level, and in accordance with a determination that the output voltage is switching back and forth, set the output voltage at the higher voltage level. 12. The device of claim 11 , wherein the controller and the measurement module are integrated in a single package. 13. The device of claim 11 , wherein at least a portion of the converter, the controller, a regulator and the measurement module are integrated in a single package. 14. The device of claim 11 , wherein the measurement module comprises a sense resistor and the output port is connected to a charging circuit that is connected to a rechargeable battery, and the controller is further configured to compare the second measured output current value to a defined threshold output current and increase an output voltage level if the second measured output current value is less than the defined threshold output current, wherein the defined threshold output current is based on a minimum voltage level to maintain a charging current to the rechargeable battery. 15. The device of claim 11 , further comprising a linear regulator, wherein the linear regulator is configured to be controlled by the controller. 16. The device of claim 11 , further comprising a switched mode regulator, wherein the switched mode regulator is configured to be controlled by the controller. 17. A method executed by a controller, comprising: receiving, at an input port, an electrical input having a corresponding input voltage; setting an output voltage at a first level, lower than a level of the input voltage; receiving a first measured output current value from an output port, the first measured output current value corresponding to the output voltage set at the first level; setting the output voltage at a second level, lower than the first level; receiving a second measured output current value from the output port, the second measured output current value corresponding to the output voltage set at the second level; comparing the second measured output current value with the first measured output current value; increasing the output voltage to at least the first level if the second measured output current value is less than the first measured output current value; decreasing the output voltage to at least the second level if the second measured output current value is the same as of greater than the first measured output current value; and determining, based on a series of previous ou