Open center to open center load sense conversion valve and hydraulic systems therewith

We claim: 1. An open center (OC)-open center load sense (OCLS) conversion valve configured to control flow from a hydraulic pump to first and second hydraulic functions, the OC-OCLS conversion valve comprising: a cartridge port configured to hold one of an OC cartridge and an OCLS cartridge; a load sense port; a pump supply port configured to connect to the hydraulic pump; a first function supply port configured to connect to a supply line connected to the first hydraulic function; a first function return port configured to connect to a return line connected to the first hydraulic function; a first downstream port configured to connect to the second hydraulic function; wherein when the OC cartridge is inserted in the cartridge port, regardless of any flow through the load sense port, flow that enters the OC-OCLS conversion valve through the pump supply port is directed to the first function supply port and flow that enters the OC-OCLS conversion valve through the first function return port is directed to the first downstream port; when the OCLS cartridge is inserted in the cartridge port and flow through the load sense port indicates a demand from the first hydraulic function, flow that enters the OC-OCLS conversion valve through the pump supply port is directed to the first function supply port and flow that enters the OC-OCLS conversion valve through the first function return port is directed to the first downstream port; and when the OCLS cartridge is inserted in the cartridge port and flow through the load sense port does not indicate a demand from the first hydraulic function, flow that enters the OC-OCLS conversion valve through the pump supply port and flow that enters the OC-OCLS conversion valve through the first function return port is directed to the first downstream port. 2. The OC-OCLS conversion valve of claim 1 , further comprising at least one additional downstream port, wherein any flow directed to the first downstream port is also directed to the at least one additional downstream port. 3. The OC-OCLS conversion valve of claim 1 , further comprising an internal load sense flow path hydraulically connected to the load sense port and the first function supply port. 4. The OC-OCLS conversion valve of claim 1 , wherein when the OCLS cartridge is inserted in the cartridge port, the OC-OCLS conversion valve functions as a priority valve. 5. The OC-OCLS conversion valve of claim 1 , wherein when the OCLS cartridge is inserted in the cartridge port, the OC-OCLS conversion valve functions as an unloading valve. 6. The OC-OCLS conversion valve of claim 1 , wherein: when a first OCLS cartridge is inserted in the cartridge port, the OC-OCLS conversion valve functions as a priority valve; and when a second OCLS cartridge is inserted in the cartridge port, the OC-OCLS conversion valve functions as an unloading valve. 7. The OC-OCLS conversion valve of claim 6 , wherein the first hydraulic function is a steering circuit and the second hydraulic function is a transmission control circuit. 8. The OC-OCLS conversion valve of claim 7 , further comprising an internal load sense flow path hydraulically connected to the load sense port and the first function supply port. 9. The OC-OCLS conversion valve of claim 8 , further comprising at least one additional downstream port, wherein any flow directed to the first downstream port is also directed to the at least one additional downstream port. 10. A hydraulic circuit comprising: a hydraulic pump; a first hydraulic function; a second hydraulic function; and an open center (OC)-open center load sense (OCLS) conversion valve configured to control flow from the hydraulic pump to the first and second hydraulic functions, the OC-OCLS conversion valve comprising: a cartridge port configured to hold one of an OC cartridge and an OCLS cartridge; a load sense port configured to connect to a load sense line for the first hydraulic function; a pump supply port configured to connect to the hydraulic pump; a first function supply port configured to connect to a supply line for the first hydraulic function; a first function return port configured to connect to a return line for the first hydraulic function; and a downstream port configured to connect to a supply line for the second hydraulic function; wherein when the OC cartridge is inserted in the cartridge port, regardless of any flow through the load sense port, flow that enters the OC-OCLS conversion valve through the pump supply port is directed to the first function supply port and flow that enters the OC-OCLS conversion valve through the first function return port is directed to the downstream port; when the OCLS cartridge is inserted in the cartridge port and flow through the load sense port indicates a demand from the first hydraulic function, flow that enters the OC-OCLS conversion valve through the pump supply port is directed to the first function supply port and flow that enters the OC-OCLS conversion valve through the first function return port is directed to the downstream port; and when the OCLS cartridge is inserted in the cartridge port and flow through the load sense port does not indicate a demand from the first hydraulic function, flow that enters the OC-OCLS conversion valve through the pump supply port and flow that enters the OC-OCLS conversion valve through the first function return port is directed to the downstream port. 11. The hydraulic circuit of claim 10 , wherein the first hydraulic function is a steering circuit and the second hydraulic function is a transmission control circuit. 12. The hydraulic circuit of claim 11 , wherein the steering circuit comprises: a manual steering circuit; and an automatic driving system. 13. The hydraulic circuit of claim 12 , wherein the steering circuit further comprises: a steering cylinder; wherein the manual steering circuit and the automatic driving system are hydraulically coupled in parallel between the OC-OCLS conversion valve and the steering cylinder. 14. The hydraulic circuit of claim of claim 13 , wherein the manual steering circuit includes a hydro-mechanical steering valve, and the automatic driving system includes an electrohydraulic steering valve, and the hydro-mechanical steering valve and the electrohydraulic steering valve are hydraulically coupled in parallel between the OC-OCLS conversion valve and the steering cylinder. 15. The hydraulic circuit of claim 13 , wherein the OC-OCLS conversion valve further comprises at least one additional downstream port, and any flow directed to the first downstream port is also directed to the at least one additional downstream port. 16. The hydraulic circuit of claim 13 , wherein the OC-OCLS conversion valve further comprises an internal load sense flow path hydraulically connected to the load sense port and the first function supply port. 17. The hydraulic circuit of claim 13 , wherein when the OCLS cartridge is inserted in the cartridge port of the OC-OCLS conversion valve, the OC-OCLS conversion valve functions as a priority valve. 18. The hydraulic circuit of claim 13 , wherein when the OCLS cartridge is inserted in the cartridge port of the OC-OCLS conversion valve, the OC-OCLS conversion valve functions as an unloading valve. 19. The hydraulic circuit of claim 13 , wherein: when a first OCLS cartridge is inserted in the cartridge port of the OC-OCLS conversion valve, the OC-OCLS conversion valve functions as a priority valve; and when a second OCLS cartridge is inserted in the cartridge port of