System and method for controlling hydraulic pump operation within a work vehicle

The invention claimed is: 1. A system for controlling pump operation within a work vehicle, the system comprising: a pump including a swash plate, the pump configured to discharge hydraulic fluid into a fluid supply conduit for delivery to first and second hydraulic loads of an associated agricultural implement, the first hydraulic load being in parallel with the second hydraulic load; first and second fluid conduits fluidly coupled between the fluid supply conduit and the first and second hydraulic loads, respectively; first and second bleed conduits fluidly coupled to the first and second fluid conduits, respectively; a shuttle valve fluidly coupled to the first and second bleed conduits; a load sense conduit fluidly coupled to the shuttle valve, the load sense conduit configured to receive a portion of the hydraulic fluid from the first or second fluid conduit in which the hydraulic fluid is at a greater pressure; and a pump compensator assembly configured to control the operation of the pump, the pump compensator assembly comprising: a pump regulation actuator configured to adjust a position of the swash plate based on a flow of the hydraulic fluid received from the load sense conduit or the fluid supply conduit; a flow compensator valve fluidly coupled to the load sense conduit, the flow compensator valve configured to at least partially control the flow of the hydraulic fluid to the pump regulation actuator; and an electronically controlled pressure compensator valve fluidly coupled to the load sense conduit, the electronically controlled pressure compensator configured to at least partially control the flow of the hydraulic fluid to the pump regulation actuator, wherein the electronically controlled pressure compensator valve comprises a two-position proportional valve and an electric actuator configured to move the electronically controlled pressure compensator valve between first and second positions. 2. The system of claim 1 , wherein the electronically controlled pressure compensator valve comprises a pressure relief valve. 3. The system of claim 1 , wherein the electronically controlled pressure compensator valve is fluidly coupled to the fluid supply conduit. 4. The system of claim 3 , wherein, when the electronically controlled pressure compensator valve at the first position, the electronically controlled pressure compensator valve supplies the hydraulic fluid from the load sense conduit or the fluid supply conduit to the pump regulation actuator based on an operation of the flow compensator valve. 5. The system of claim 3 , wherein, when the electronically controlled pressure compensator valve at the second position, the electronically controlled pressure compensator valve supplies the hydraulic fluid from the fluid supply conduit to the pump regulation actuator. 6. The system of claim 1 , wherein the electronically controlled pressure compensator valve is configured to receive a pilot flow of the hydraulic fluid from the fluid supply conduit. 7. The system of claim 1 , further comprising: a computing system configured to control an operation of the electric actuator. 8. The system of claim 7 , further comprising: a first pressure sensor configured to capture data indicative of a first fluid pressure associated with the first hydraulic load; and a second pressure sensor configured to capture data indicative of a second fluid pressure associated with the second hydraulic load, wherein the computing system is communicatively coupled to the first and second pressure sensors, the computing system is configured to: determine the first fluid pressure of the first hydraulic load based on the data captured by the first pressure sensor; determine the second fluid pressure of the second hydraulic load based on the data captured by the second pressure sensor; and control the operation of the electric actuator based on the determined first or second fluid pressure having a greater value. 9. The system of claim 8 , further comprising: a third pressure sensor configured to capture data indicative of a fluid supply pressure of the hydraulic fluid being discharged by the pump; and a flow sensor configured to capture data indicative of a flow rate of the hydraulic fluid being discharged by the pump, wherein the computing system is communicatively coupled to the third pressure sensor and the flow sensor, the computing system configured to: determine the third fluid pressure of the hydraulic fluid being discharged by the pump based on the data captured by the third pressure sensor; determine the flow rate of the hydraulic fluid being discharged by the pump based on the data captured by the flow sensor; and control the operation of the electric actuator based on the determined third fluid pressure and the determined flow rate in addition to the determined first or second fluid pressure having the greater value. 10. The system of claim 1 , wherein the flow compensator valve is entirely fluidly controlled. 11. The system of claim 10 , wherein the flow compensator valve is configured to receive a first pilot flow of the hydraulic fluid from the fluid supply conduit and a second pilot flow of the hydraulic fluid from the load sense conduit. 12. The system of claim 10 , wherein the flow compensator valve is moveable between a first position at which the flow compensator valve supplies the hydraulic fluid from the load sense conduit to the electronically controlled pressure compensator valve and a second position at which the flow compensator valve supplies the hydraulic fluid from the fluid supply conduit to the electronically controlled pressure compensator valve. 13. A system for controlling pump operation within a work vehicle, the system comprising: a pump including a swash plate, the pump configured to discharge hydraulic fluid into a fluid supply conduit for delivery to first and second hydraulic loads of an associated agricultural implement, the first hydraulic load being in parallel with the second hydraulic load; first and second fluid conduits fluidly coupled between the fluid supply conduit and the first and second hydraulic loads, respectively; first and second bleed conduits fluidly coupled to the first and second fluid conduits, respectively; a shuttle valve fluidly coupled to the first and second bleed conduits; a load sense conduit fluidly coupled to the shuttle valve, the load sense conduit configured to receive a portion of the hydraulic fluid from the first or second fluid conduit in which the hydraulic fluid is at a greater pressure; and a pump compensator assembly configured to control the operation of the pump, the pump compensator assembly comprising: a pump regulation actuator configured to adjust a position of the swash plate based on a flow of the hydraulic fluid received from the load sense conduit or the fluid supply conduit; a flow compensator valve fluidly coupled to the load sense conduit, the flow compensator valve configured to at least partially control the flow of the hydraulic fluid to the pump regulation actuator; and an electronically controlled pressure compensator valve fluidly coupled to the load sense conduit, the electronically controlled pressure compensator configured to at least partially control the flow of the hydraulic fluid to the pump regulation actuator, wherein, when the electronically controlled pressure compensator valve at the first position, the electronically controlled pressure compensator valve occludes flow of the hydraulic fluid from the load sense conduit to the pump regulation actuator. 14. A system for controlling pump operation within a work ve