Down pressure compensation for tillage baskets traveling at varying speeds

What is claimed is: 1. An agricultural tillage implement, comprising: a first frame configured to be moved in a travel direction; at least one second frame coupled with said first frame, the at least second frame including a frame portion oriented in the travel direction; at least one rolling basket assembly including the frame portion horizontally oriented and connected at one end to the second frame, pivotal bracket positioned above the frame portion, the pivotal bracket connected to a pivot arm which is connected to a sub-frame, and a rolling basket rotationally coupled to the sub-frame, wherein the pivot arm is configured in a downward extending arch above the sub-frame and rolling basket to support the sub-frame and rolling basket; and at least one actuator connected at one end to the frame portion and positioned above the frame portion, the at least one actuator connected at an opposite end to the pivotal bracket, wherein actuation of the at least one actuator results in movement of the pivotal bracket to move the pivot arm, sub-frame, and rolling basket; wherein the frame portion, the pivotal bracket, the at least one actuator, and the pivot arm are positioned above the rolling basket; and a pressure control system operatively connected to the at least one rolling basket assembly, the pressure control system including: at least one sensor coupled to the at least one rolling basket assembly for sensing a load exerted on the at least one rolling basket assembly by a ground surface and providing a downward pressure measurement signal; and a controller in communication with the at least one sensor and configured to control the adjustable downward force applied by the at least one actuator. 2. The agricultural tillage implement of claim 1 , wherein the controller receives the downward pressure measurement signal and automatically adjusts the adjustable downward force applied by the at least one actuator by determining whether the downward pressure measurement signal is within a desired downward force range in response to a variance of speeds during operation. 3. The agricultural tillage implement of claim 1 , wherein the at least one sensor is located between the pivot arm moveably connected to the at least one actuator and the sub-frame of the at least one rolling basket assembly. 4. The agricultural tillage implement of claim 1 , wherein the at least one sensor is located at a connection point between the sub-frame and the rolling basket. 5. The agricultural tillage implement of claim 1 , wherein the at least one actuator and the pressure control system are operatively connected to a tractor with an ISOBUS Class 3 system. 6. A rolling basket implement attached to an agricultural tillage implement having a first frame and at least one second frame, the second frame including a frame portion oriented in the travel direction, the rolling basket implement comprising: at least one rolling basket assembly including the frame portion horizontally oriented and connected at one end to the second frame, a pivotal bracket positioned above the frame portion, the pivotal bracket connected to a pivot arm which is connected to a sub-frame, and a rolling basket rotationally coupled to the sub-frame, wherein the pivot arm is configured in a downward extending arch above the sub-frame and rolling basket; and at least one actuator connected at one end to the frame portion and positioned above the frame portion, the at least one actuator connected at an opposite end to the pivotal bracket, wherein actuation of the at least one actuator results in movement of the pivotal bracket to move the pivot arm, sub-frame, and rolling basket; wherein the frame portion, the pivotal bracket, the at least one actuator, and the pivot arm are positioned above the rolling basket; and a pressure control system operatively connected to the at least one rolling basket assembly, the pressure control system including: at least one sensor coupled to the at least one rolling basket assembly for sensing a load exerted on the at least one rolling basket assembly by a ground surface and providing a downward pressure measurement signal; and a controller in communication with the at least one sensor and configured to control the adjustable downward force applied by the at least one actuator. 7. The rolling basket implement of claim 6 , wherein the controller receives the downward pressure measurement signal and automatically adjusts the adjustable downward force applied by the least one actuator by determining whether the downward pressure measurement signal is within a desired downward force range in response to a variance of speeds during operation. 8. The rolling basket implement of claim 6 , wherein the at least one sensor is located between the pivot arm moveably connected to the at least one actuator and the sub-frame of the at least one rolling basket assembly. 9. The rolling basket implement of claim 6 , wherein the at least one sensor is located at a connection point between the sub-frame and the rolling basket. 10. The rolling basket implement of claim 6 , wherein the at least one actuator and the pressure control system are operatively connected to a tractor with an ISOBUS Class 3 system.