Dual mode force control for surface engaging machinery

What is claimed is: 1. A control system comprising: a source of fluid; a cylinder actuator having: (i) a cylinder, and (ii) a piston movable within the cylinder and dividing an internal space of the cylinder into a first chamber and a second chamber; a pressure control valve; a pilot-operated valve having a pilot port that is fluidly coupled to the source; and a proportional control valve, wherein the pilot-operated valve operates in: (i) a first mode of operation, wherein the source provides fluid at a pressure level above a threshold pressure value, which actuates the pilot-operated valve via a pilot signal to the pilot port, thereby fluidly coupling the source through the pressure control valve and the pilot-operated valve to the first chamber, while fluidly coupling the source through the proportional control valve to the second chamber, and (ii) a second mode of operation, wherein the source provides fluid at a pressure level below the threshold pressure value, thereby causing the pilot-operated valve to be in an unactuated state, blocking fluid flow from the source through the pressure control valve to the first chamber, while fluidly coupling the source through the proportional control valve to the second chamber. 2. The control system of claim 1 , further comprising: a fluid reservoir, wherein the pressure control valve is a pressure reducing-relieving valve having: (i) an inlet port, (ii) an outlet port, and (iii) a drain port that is fluidly coupled to the fluid reservoir, wherein the pressure control valve is configured to reduce pressure level of fluid received at the inlet port and provide fluid having a reduced pressure level via the outlet port to the first chamber when the pilot-operated valve is actuated, and wherein the pressure control valve is configured to relieve fluid at the outlet port to the drain port when pressure level at the outlet port exceeds the reduced pressure level. 3. The control system of claim 1 , wherein the pilot-operated valve is disposed downstream from the pressure control valve, and interposed between the pressure control valve and the first chamber of the cylinder actuator, such that fluid discharged from the pressure control valve flows through the pilot-operated valve to the first chamber when the pilot-operated valve is actuated via the pilot signal. 4. The control system of claim 1 , wherein the pilot-operated valve is disposed upstream of the pressure control valve, and interposed between the source of fluid and the pressure control valve, such that when the pilot-operated valve is actuated via the pilot signal, the pilot-operated valve allows fluid flow from the source of fluid to the pressure control valve, which then provides fluid to the first chamber. 5. The control system of claim 1 , further comprising: a fluid reservoir, wherein in the second mode of operation, the first chamber is fluidly coupled to the fluid reservoir. 6. The control system of claim 1 , further comprising: a force sensor coupled to the piston and configured to provide force sensor information indicative of an actual force applied by the piston; and a controller performing operations including: receiving the force sensor information from the force sensor; and based on the force sensor information, sending a valve command signal to the proportional control valve to vary pressure level of fluid provided to the second chamber, thereby changing fluid force applied to the piston when the control system is in the first mode of operation. 7. The control system of claim 6 , wherein the controller performs further operations including: sending a valve command signal to the proportional control valve that renders the proportional control valve fully open; and sending a signal to the source of fluid to vary pressure level provided by the source to the second chamber when the control system is in the second mode of operation. 8. A surface engaging machine comprising: a plurality of row units, wherein at least one row unit of the plurality of row units has a surface engaging implement; and a control system having: a source of fluid, a cylinder actuator having: (i) a cylinder, and (ii) a piston movable within the cylinder and coupled to the surface engaging implement, wherein the piston divides an internal space of the cylinder into a first chamber and a second chamber, a pressure control valve, a pilot-operated valve having a pilot port that is fluidly coupled to the source of fluid, and a proportional control valve, wherein the pilot-operated valve operates in: (i) a first mode of operation, wherein the source provides fluid at a pressure level above a threshold pressure value, which actuates the pilot-operated valve via a pilot signal to the pilot port, thereby fluidly coupling the source through the pressure control valve and the pilot-operated valve to the first chamber at, while fluidly coupling the source through the proportional control valve to the second chamber, and (ii) a second mode of operation, wherein the source provides fluid at a pressure level below the threshold pressure value, thereby causing the pilot-operated valve to be in an unactuated state, blocking fluid flow from the source through the pressure control valve to the first chamber, while fluidly coupling the source through the proportional control valve to the second chamber. 9. The surface engaging machine of claim 8 , further comprising: a fluid reservoir, wherein the pressure control valve is a pressure reducing-relieving valve having: (i) an inlet port, (ii) an outlet port, and (iii) a drain port that is fluidly coupled to the fluid reservoir, wherein the pressure control valve is configured to reduce pressure level of fluid received at the inlet port and provide fluid having a reduced pressure level via the outlet port to the first chamber when the pilot-operated valve is actuated, and wherein the pressure control valve is configured to relieve fluid at the outlet port to the drain port when pressure level at the outlet port exceeds the reduced pressure level. 10. The surface engaging machine of claim 8 , wherein the pilot-operated valve is disposed downstream from the pressure control valve, and interposed between the pressure control valve and the first chamber of the cylinder actuator, such that fluid discharged from the pressure control valve flows through the pilot-operated valve to the first chamber when the pilot-operated valve is actuated via the pilot signal. 11. The surface engaging machine of claim 8 , wherein the pilot-operated valve is disposed upstream of the pressure control valve, and interposed between the source of fluid and the pressure control valve, such that when the pilot-operated valve is actuated via the pilot signal, the pilot-operated valve allows fluid flow from the source of fluid to the pressure control valve, which then provides fluid at a substantially constant pressure level to the first chamber. 12. The surface engaging machine of claim 8 , wherein the control system further comprises: a fluid reservoir, wherein in the second mode of operation, the first chamber is fluidly coupled to the fluid reservoir. 13. The surface engaging machine of claim 12 , further comprising: a force sensor coupled to the piston and configured to provide force sensor information indicative of an actual force applied by the piston on the surface engaging implement; and a controller performing operations including: receiving the force sensor information from the force sensor; and based on the force sensor information, sending a valve command signal to the proportional control valve to vary pressure level of fluid provided to the