Self-limiting regenerative pumping element start stage for high speed centrifugal engine fuel pump and associated method

I claim: 1. A pump system comprising: a pump including an inlet and outlet that communicate with a rotary kinetic pumping element for imparting energy to an associated pump fluid directed toward an associated downstream flow circuit; a regenerative start stage in selective fluid communication with the pump; a first valve that precludes fluid communication between the pump outlet and the associated downstream flow circuit until the pump reaches one of a predetermined pressure or flow threshold; an ejector having an inlet that communicates with the pump outlet and the elector having an outlet that communicates with the pump inlet; and a regulator valve that selectively regulates associated fluid to the regenerative start stage, wherein the regulator valve is responsive to a first signal taken from between the pump outlet and the first valve. 2. The pump system of claim 1 wherein the regulator valve is also responsive to a second signal from upstream of the pump inlet. 3. The pump system of claim 1 wherein the regulator valve is configured to supply inlet flow to the regenerative start stage until the pump provides at least one of predetermined flow and pressure requirements of the associated downstream flow circuit. 4. The pump system of claim 1 wherein the regulator valve receives flow directly from a system fluid source. 5. The pump system of claim 1 wherein the ejector re flow from the regenerative start stage during start-up. 6. The pump system of claim 1 wherein the ejector recirculates flow from the pump outlet to the pump inlet. 7. The pump system of claim 1 wherein the regenerative start stage contributes flow to both the ejector and the associated downstream flow circuit during start-up. 8. The pump system of claim 7 wherein the ejector receives flow from the regenerative start stage during start-up and is configured to recirculate the flow to the pump inlet. 9. The pump system of claim 8 wherein the ejector receives flow from the regenerative start stage until the pump provides at least one of predetermined flow and pressure requirements of the associated downstream flow circuit, and thereafter the ejector evacuates fluid from the regenerative start stage and thereby decouples the regenerative start stage from the pump system. 10. The pump system of claim 1 wherein the regenerative start stage receives system fluid through the regulator valve in a valve open position. 11. A method of providing flow to a flow circuit during start-up and transitioning to flow from a centrifugal pump, the method comprising: providing fuel from a fuel source to the centrifugal pump; during low speed starting of approximately less than 10% of engine shaft speed, directing flow from the fuel source to a regenerative start stage in order to supply an associated downstream flow circuit; during the low speed starting, a portion of the flow from the regenerative start stage is provided to an ejector that recirculates to an inlet of the centrifugal pump; providing a regulator valve to regulate flow from the fuel source through the regenerative start stage based on receiving a first signal taken from between an outlet of the centrifugal pump and a first valve downstream thereof, and a second signal from upstream of an inlet of the centrifugal pump and thereby monitoring a pressure differential between the inlet and outlet of the centrifugal pump; and once the centrifugal pump provides a predetermined level of at least one of the flow and pressure requirements of the associated flow circuit, terminating flow from the regenerative start stage to the associated main flow circuit. 12. The method of claim 11 wherein once the centrifugal pump provides the predetermined level of at least one of the flow and pressure requirements of the associated downstream flow circuit, the ejector removes fluid from the regenerative start stage in order to isolate the regenerative start stage from the system. 13. The method of claim 12 wherein a transition from flow requirements for the flow circuit includes initially supplying pressurized flow from the regenerative start stage and subsequently supplying pressurized flow from the centrifugal pump, and transitioning occurs when an outlet pressure of the centrifugal pump exceeds a pressure output of the regenerative start stage. 14. The method of claim 13 wherein once the centrifugal pump provides the predetermined level of at least one of the flow and pressure requirements of the associated downstream flow circuit, the ejector empties fluid from the regenerative start stage in order to isolate the regenerative start stage from the associated flow circuit. 15. The method of claim 11 further comprising driving the centrifugal pump and the regenerative start stage from a common shaft, and selectively reducing the power consumed by the regenerative start stage after start-up. 16. The pump system of claim 1 wherein the regulator valve has an inlet that receives flow directly from a system fluid source through a passage upstream of the pump. 17. The pump system of claim 16 wherein the regulator valve receives a second signal from upstream of the pump. 18. The pump system of claim 1 wherein the pump is a centrifugal pump. 19. The pump system of claim 18 wherein the regenerative start stage includes a rotating impeller with vanes to generate start-up flow or pressure for the associated downstream flow circuit. 20. The pump system of claim 19 wherein the regenerative start stage and the pump are driven by a common shaft.