Sensing and feedback for row on sun tracking method and system

The invention claimed is: 1. A solar power plant comprising: a solar tracker supporting a plurality of solar modules; a drive device coupled to the solar tracker and configured to rotate the solar tracker about an axis; a power strip supported by the solar tracker and configured to power the drive device; and a controller in communication with a memory, the memory storing instructions that when executed by the controller cause the controller to: determine a solar tracker target angle based on a topography of the solar power plant; and output a signal to the drive device to rotate the solar tracker to the solar tracker target angle. 2. The solar power plant of claim 1 , wherein the controller is further configured to: determine a diffuse angle adjustment based on weather data; and modify the solar tracker target angle using the diffuse angle adjustment. 3. The solar power plant of claim 2 , wherein the diffuse angle adjustment is a gain factor applied to the solar tracker target angle. 4. The solar power plant of claim 2 , wherein the controller further executes an instruction to determine whether the solar tracker is in a backtracking mode. 5. The solar power plant of claim 4 , wherein when in a backtracking mode, the diffuse angle adjustment is a diffuse backtracking angle adjustment. 6. The solar power plant of claim 2 , wherein the memory further stores a topography of the solar power plant. 7. The solar power plant of claim 2 , wherein the controller is configured determine the solar tracker target angle based additionally on a sun position angle. 8. The solar power plant of claim 7 , wherein the sun position angle is calculated from a latitude and longitude of the solar tracker and a time of day. 9. The solar power plant of claim 2 , further comprising a local solar measurement device, the local solar measurement device in communication with the controller and configured to capture weather data for a desired time period. 10. The solar power plant of claim 9 , wherein the controller is further configured to: monitor the weather data; and limit movement of the solar tracker when diffuse sunlight is detected. 11. The solar power plant of claim 10 , wherein the local solar measurement device is a photovoltaic reference cell. 12. The solar power plant of claim 2 , further comprising a topography module in communication with the controller and the power strip, the topography module configured to gather shading information of the power strip, the power strip comprising a solar panel. 13. A solar power plant comprising: a solar tracker supporting a plurality of solar modules; a drive device coupled to the solar tracker and configured to rotate the solar tracker about an axis; a power source supported by the solar tracker and configured to power the drive device; a tracker controller coupled to the solar tracker and in communication with the drive device and a power strip; an irradiance sensor configured to measure local irradiance; and a capture control module comprising: an input coupled to an irradiance sensor; an output coupled to the tracker controller; a look-up table including historical information correlating angles of the solar tracker and energy output of the solar power plant for a given irradiance; and an angle adjustment module configured to generate an angle adjustment or gain factor by processing information from the look-up table; wherein the capture control module is configured to output the angle adjustment or gain factor to the tracker controller to control the angle of the solar tracker. 14. The solar power plant of claim 13 , wherein the power source comprises a solar power source. 15. The solar power plant of claim 14 , further comprising a topography module in communication with the tracker controller, the topography module configured to gather shading information using the solar power source. 16. The solar power plant of claim 13 , wherein the capture control module further comprises a recording module configured to: record angles of the solar tracker and the energy output of the solar power plant for a given irradiance; and store the angles of the solar tracker and the energy output of the solar power plant for a given irradiance in the look-up table. 17. The solar power plant of claim 13 , wherein the tracker controller limits movement of the solar tracker when the local irradiance measured by the irradiance sensor indicates diffuse sunlight. 18. A solar power plant system, the system comprising: a plurality of solar trackers, each of the solar trackers including a plurality of solar modules; a tracker controller coupled to each solar tracker; at least one drive device coupled to each of the solar trackers; a solar power strip coupled to each solar tracker and configured to supply power to the tracker controller and the at least one drive device; an irradiance sensor configured to capture local weather information; a main controller in communication with each of the tracker controllers, each of the solar power strips, and the irradiance sensor, the main controller configured to: gather shading information using the solar power strip; receive local weather information from the irradiance sensor; and adjust the angles of the plurality of solar trackers using their respective tracker controllers based on the shading information and the local weather information. 19. The solar power plant system of claim 18 , wherein gathering shading information using the solar strip comprises communicating with each of the tracker controllers to: set each of the plurality of solar trackers to an initial position; set each of the plurality of solar trackers to normal tracking; set each of the plurality of solar trackers to a final position; and receive shading event instances of each of the plurality of solar trackers detected by their respective solar power strips. 20. The solar power plant system of claim 18 , wherein the main controller is further configured to: monitor the captured local weather information from the irradiance sensor; and limit movement of the solar tracker to maximize energy output when diffuse sunlight is detected in the captured local weather information.