Harvester fan speed control based on yield

What is claimed is: 1. A harvester having a harvesting structure for harvesting crop and a crop receptacle for receiving harvested crop, the harvester comprising: a crop conveying fan configured to operate at a fan speed to facilitate transfer of harvested crop from the harvesting structure to the crop receptacle by air; a control system for controlling the fan speed based on crop mass flow, the control system comprising: a crop mass flow feedback device for providing a crop mass flow feedback signal indicative of crop mass flow; and a controller in communication with the crop mass flow feedback device and configured to automatically lower the fan speed when the crop mass flow feedback signal indicates a lower crop mass flow and automatically raise the fan speed when the crop mass flow feedback signal indicates a higher crop mass flow; and a power module for supplying power to the crop conveying fan, the controller in communication with the power module and configured to decrease the power from the power module to lower the fan speed and increase the power from the power module to raise the fan speed. 2. The harvester of claim 1 , wherein the power module is at least one of a hydraulic motor, a mechanical drive, and an engine. 3. The harvester of claim 1 , further comprising a hydraulic system and a hydraulic system feedback device providing a hydraulic system signal indicative of hydraulic demand, the controller in communication with the hydraulic system feedback device and configured to automatically raise the power from the power module to a minimum power to support the hydraulic demand. 4. The harvester of claim 3 , further comprising an operator interface where an operator can set the minimum power. 5. The harvester of claim 1 , wherein the crop mass flow feedback device is a mass flow sensor and the crop mass flow feedback signal is at least one of a mass flow rate and a mass speed. 6. The harvester of claim 1 , wherein the crop mass flow feedback device is a pressure transducer coupled to the harvesting structure, the mass flow feedback signal is a harvesting structure drive pressure. 7. The harvester of claim 1 , wherein the crop mass flow feedback device is a speed sensor coupled to the harvesting structure, the mass flow feedback signal is the difference between an actual harvesting structure speed and a commanded harvesting structure speed. 8. The harvester of claim 1 , wherein the crop mass flow feedback device is an accelerometer coupled to the harvesting structure, the mass flow feedback signal is the acceleration change of the harvesting structure. 9. The harvester of claim 1 , wherein the harvester is a cotton harvester and the harvesting structure is at least one of a cotton picking unit and a cotton stripper header and the crop receptacle is a module builder. 10. A harvester having a harvesting structure for harvesting crop and a crop receptacle for receiving harvested crop, the harvester comprising: a power module for providing power; a hydrostatic system configured to compensate for the power provided by the power module to maintain a desired harvester speed and a desired harvesting structure speed; a crop conveying fan configured to operate at a fan speed to facilitate transfer of harvested crop from the harvesting structure to the crop receptacle by air; a control system comprising: a crop mass flow feedback device for providing a crop mass flow feedback signal indicative of crop mass flow; and a controller in communication with the crop mass flow feedback device and the power module, the controller configured to automatically decrease the power from the power module to lower the fan speed when the crop mass flow feedback signal indicates a lower crop mass flow and automatically increase the power from the power module to raise the fan speed when the crop mass flow feedback signal indicates a higher crop mass flow. 11. The harvester of claim 10 , wherein the power module is at least one of a hydraulic motor, a mechanical drive, and an engine. 12. The harvester of claim 10 , further comprising a hydraulic system and a hydraulic system feedback device for providing a hydraulic system signal indicative of hydraulic demand, the controller in communication with the hydraulic system feedback device and configured to automatically raise the power from the power module to a minimum power to support the hydraulic demand. 13. The harvester of claim 10 , further comprising an operator interface where an operator can set a minimum engine speed. 14. The harvester of claim 10 , wherein the crop mass flow feedback device is a mass flow sensor and the crop mass flow feedback signal is at least one of a mass flow rate and a mass speed. 15. The harvester of claim 10 , wherein the crop mass flow feedback device is a pressure transducer coupled to the harvesting structure, the mass flow feedback signal is a harvesting structure drive pressure. 16. The harvester of claim 10 , wherein the crop mass flow feedback device is a speed sensor coupled to the harvesting structure, the mass flow feedback signal is the difference between an actual harvesting structure speed and a commanded harvesting structure speed. 17. The harvester of claim 10 , wherein the crop mass flow feedback device is an accelerometer coupled to the harvesting structure, the mass flow feedback signal is the acceleration change of the harvesting structure. 18. The harvester of claim 10 , wherein the harvester is a cotton harvester and the harvesting structure is at least one of a cotton picking unit and a cotton stripper header. 19. The harvester of claim 1 , comprising a crop path from the harvesting structure to the crop receptacle, and the crop conveying fan is positioned outside the crop path.