Dual pump fuel systems

What is claimed is: 1. A fuel pump system comprising: a main fuel pump between a system fuel inlet and a system fuel outlet; a main fuel flow path defined between the main fuel pump and the system fuel outlet; a support fuel pump between the system fuel inlet and the system fuel outlet; a pressure regulating valve (PRV) comprising: a PRV inlet in fluid communication with the main fuel flow path; a PRV outlet in fluid communication with the system fuel inlet; a PRV first control chamber on a side of a PRV spool and in fluid communication with the main fuel flow path and upstream of the PRV inlet; and a PRV second control chamber on an opposite side of the PRV spool from the PRV first control chamber; an electro-hydraulic servo valve (EHSV) comprising: a first port in fluid communication with the system fuel inlet; a second port in fluid communication with the system fuel outlet; and a control port in fluid communication with the PRV second control chamber; a valve assembly in fluid communication with the support fuel pump fluidically connecting the support fuel pump to the system fuel outlet and comprising: a pressure bypass valve (PBV) comprising: a PBV inlet in fluid communication with the support fuel pump; a PBV outlet in fluid communication with the PBV inlet and the PRV inlet, and downstream of the PRV first control chamber; a first PBV control chamber on a side of a PBV spool and in fluid communication with the support fuel pump, and a second PBV control chamber in fluid communication with the system inlet and on an opposite side of the PBV spool from the first PBV control chamber. 2. The fuel pump system as recited in claim 1 , wherein the support fuel pump has a higher output flow capacity than the main fuel pump. 3. The fuel pump system as recited in claim 1 , wherein the PBV is configured and adapted to translate between an open position and a closed position, wherein in the open position, fluid flow is permitted between the PBV inlet and the PBV outlet. 4. The fuel pump system as recited in claim 1 , wherein the valve assembly includes a second PRV in fluid communication with the support fuel pump. 5. The fuel pump system as recited in claim 4 , wherein the PRV is positioned between an upstream side and a downstream side of the support fuel pump. 6. The fuel pump system as recited in claim 1 , wherein the valve assembly includes a second EHSV in fluid communication with the support fuel pump between the support fuel pump and the system fuel outlet. 7. The system as recited in claim 1 , wherein the valve assembly includes a shut-off valve (SOV) in fluid communication with the support fuel pump between the support fuel pump and the system fuel outlet. 8. The fuel pump system as recited in claim 7 , wherein the SOV is configured and adapted to translate between an open position and a closed position, wherein in the open position, fluid flow is permitted between the support fuel pump and the system fuel outlet. 9. The fuel pump system as recited in claim 1 , wherein the main fuel pump and the support fuel pump are fixed displacement, positive displacement pumps. 10. A method for controlling a dual fuel pump system comprising: pumping fuel by a main fuel pump from a system fuel inlet through a main fuel flow path to a system fuel outlet; pumping fuel by a support fuel pump from the system fuel inlet into a support fuel path; exerting a first pressure on a first pressure bypass valve (PBV) control chamber of the PBV that is fluidically connected to the main fuel flow path; exerting a second pressure on a second PBV control chamber of the PBV that is fluidically connected to the support fuel path; actuating a solenoid fluidically connecting the main fuel flow path and the second PBV control chamber and thereby exerting the second pressure on the second PBV control chamber; and reacting to a sum of forces on the PBV and either connecting fuel flow in the support fuel path to the system fuel inlet or directing the fuel flow in the support fuel path to the main fuel flow path. 11. The method as recited in claim 10 , and further comprising modulating a fuel output rate of the main fuel flow path by controlling an electrohydraulic servo valve (EHSV) that actuates a pressure regulating valve (PRV) to direct a portion of fuel flow in the main fuel flow path to the system fuel inlet. 12. The method as recited in claim 11 , and further comprising: exerting a third pressure on a first PRV control chamber of the PRV that is fluidically connected to the main fuel flow path; and exerting a fourth pressure on a second PRV control chamber of the PRV that is fluidically connected to the EHSV. 13. The method as recited in claim 12 , and further comprising reacting to a sum of forces on the PRV and accordingly directing a proportion of the fuel flow in the main fuel flow path to the system fuel inlet. 14. A fuel pump system comprising: a main fuel pump fluidically between a system fuel inlet and a system fuel outlet; a main fuel flow path fluidically between an outlet of the main fuel pump and the system fuel outlet; a support fuel pump fluidically between the system fuel inlet and the system fuel outlet; a pressure regulating valve (PRV) comprising: a PRV inlet in fluid communication with the main fuel flow path; a PRV outlet in fluid communication with the system fuel inlet; a valve assembly in fluid communication with an outlet of the support fuel pump and fluidically connecting the outlet of the support fuel pump to the system fuel outlet, wherein the valve assembly comprises: a pressure bypass valve (PBV) comprising: a PBV inlet in fluid communication with the outlet of the support fuel pump; a PBV outlet in fluid communication with the PBV inlet and the PRV inlet; a first PBV control chamber on a side of a PBV spool and in fluid communication with the outlet of the support fuel pump; and a second PBV control chamber in fluid communication with the system inlet and on an opposite side of the PBV spool from the first PBV control chamber; and a solenoid inlet in fluid communication with the main fuel flow path; and a solenoid outlet in fluid communication with the second PBV control chamber and in fluid communication with the system fuel inlet. 15. The fuel pump system of claim 14 , wherein an orifice fluidically connects the solenoid outlet and the second PBV control chamber to the system fuel inlet. 16. The fuel pump system of claim 14 , wherein the solenoid inlet is downstream of the PRV inlet. 17. The fuel pump system of claim 14 , wherein the PBV further comprises: a second PBV outlet in fluid communication with the PBV inlet, and wherein a second orifice fluidically connects the second PBV outlet to the system fuel inlet. 18. The fuel pump system of claim 2 , and further comprising a solenoid, the solenoid comprising: a solenoid inlet in fluid communication with the main fuel flow path; and a solenoid outlet in fluid communication with the second PBV control chamber and in fluid communication with the system fuel inlet. 19. The fuel pump system of claim 2 , wherein an orifice fluidically connects the solenoid outlet and the second PBV control chamber to the system fuel inlet. 20. The fuel pump system of claim 2 , wherein the solenoid inlet is downstream of the PRV inlet.