Maximum power point tracking for low power energy harvesting

What is claimed is: 1. A controller for controlling a power converter, the controller configured to: receive, by a current sensor of the controller, a first amount of current from the power converter; in response to receiving the first amount of current, output, by a pulse modulation device of the controller, to the power converter, a pulse modulated signal defined by a first frequency; after outputting the pulse modulated signal defined by the first frequency, adjust, by the pulse modulation device, the pulse modulated signal from the first frequency to a second frequency; in response to adjusting the pulse modulated signal, receive, by the current sensor, a second amount of current from the power converter; re-adjust, by the pulse modulation device, based at least in part on a change from the first frequency to the second frequency, the first amount of current, and the second amount of current, the pulse modulated signal from the second frequency to a third frequency; and output, by the pulse modulation device and to the power converter, the pulse modulated signal defined by the third frequency. 2. The controller of claim 1 , wherein the pulse modulation device is configured to re-adjust the pulse modulated signal by increasing the frequency if: the second frequency is greater than the first frequency and the second amount of current is greater than the first amount of current, or the second frequency is less than the first frequency and the second amount of current is less than the first amount of current. 3. The controller of claim 1 , wherein the pulse modulation device is configured to re-adjust the pulse modulated signal by decreasing the frequency if: the second frequency is greater than the first frequency and the second amount of current is less than the first amount of current, or the second frequency is less than the first frequency and the second amount of current is greater than the first amount of current. 4. The controller of claim 1 , wherein the pulse modulation device is configured to adjust the pulse modulated signal by a predetermined amount. 5. The controller of claim 1 , wherein the controller is further configured to: receive, by an integrator of the controller, from the current sensor, a first value indicative of the first amount of current; receive, by the integrator and from the current sensor, a second value indicate of the second amount of current; and generate, by the integrator, a voltage by integrating a difference between the first value indicative of the first amount of current and the second value indicative of the second amount of current, wherein the integrator is configured to integrate the difference between the first value and the second value by a positive value when the integrator operates in a first mode; wherein the integrator is configured to integrate the difference between the first value and the second value by a negative value when the integrator operates in a second mode, and wherein the pulse modulation device is further configured to re-adjust the pulse modulated signal from the second frequency to the third frequency based on the voltage generated by the integrator. 6. The controller of claim 1 , further comprising an evaluation circuit, wherein the current sensor is further configured to: generate, based on the first amount of current, a first voltage indicative of the first amount of current; generate, based on the second amount of current, a second voltage indicative of the second amount of current, wherein the evaluation circuit is configured to: generate, based on the first voltage and the second voltage, a third voltage; and wherein the pulse modulation device is configured to re-adjust the pulse modulated signal from the second frequency to the third frequency by being configured to: receive, from the evaluation circuit, the third voltage; and re-adjust, based on the third voltage, the pulse modulated signal from the second frequency to the third frequency. 7. The controller of claim 6 , wherein the current sensor comprises: at least one transistor electrically disposed between the power converter and a load; and an amplifier circuit configured to: in response to generating the first voltage, output, to a controlling node of the at least one transistor and to the evaluation circuit, the first voltage; in response to generating the second voltage, output, to the controlling node of the at least one transistor and to the evaluation circuit, the second voltage; wherein outputting the first voltage and the second voltage to the controlling node of the at least one transistor causes the at least one transistor to turn-on such that current flows from the power converter to the load. 8. The controller of claim 1 , wherein the controller is configured to re-adjust the pulse modulated signal without disconnecting the power converter from a power source. 9. A method for controlling a power converter, the method comprising: receiving, by a current sensor of a controller, a first amount of current from the power converter; in response to receiving the first amount of current, outputting, by a pulse modulation device of the controller, a pulse modulated signal defined by a first frequency; after outputting the pulse modulated signal defined by the first frequency, adjusting, by the pulse modulation device, the pulse modulated signal from the first frequency to a second frequency; in response to adjusting the pulse modulated signal, receiving, by the current sensor, a second amount of current from the power converter; re-adjusting, by the pulse modulation device and based at least in part on a change from the first frequency to the second frequency, the first amount of current, and the second amount of current, the pulse modulated signal from the second frequency to a third frequency; and outputting, by the pulse modulation device and to the power converter, the pulse modulated signal defined by the third frequency. 10. The method of claim 9 , wherein re-adjusting the pulse modulated signal includes increasing, by the pulse modulation device, the frequency if: the second frequency is greater than the first frequency and the second amount of current is greater than the first amount of current, or the second frequency is less than the first frequency and the second amount of current is less than the first amount of current. 11. The method of claim 9 , wherein re-adjusting the pulse modulated signal includes decreasing, by the pulse modulation device, the frequency if: the second frequency is greater than the first frequency and the second amount of current is less than the first amount of current, or the second frequency is less than the first frequency and the second amount of current is greater than the first amount of current. 12. The method of claim 9 , wherein re-adjusting the pulse modulated signal comprises re-adjusting, by the pulse modulation device, the pulse modulated signal by a predetermined amount. 13. The method of claim 9 , further comprising: receiving, by an integrator of the controller, from the current sensor, a first value indicative of the first amount of current; receiving, by the integrator and from the current sensor, a second value indicate of the second amount of current; and generating, by the integrator, a voltage by integrating a difference between the first value indicative of the first amount of current and the second value indicative of the second amount of current, wherein integrating comprises integrating the difference between the first value and the second value by a positive value when the integrator operates in