High turn down ratio direct control for variable displacement pumps with flow sensing

What is claimed is: 1. A method comprising: Receiving sensor feedback from a flow sensing valve (FSV) indicative of flow demanded by a downstream system supplied from an outlet line of a variable displacement pump (VDP); operating an electrohydraulic servo valve (EHSV) such that a pressure of a control line for a bypass valve (BPV) is lower in response to the sensor feedback dropping below the predetermined low threshold of flow through the VDP; opening the BPV to redirect flow from the pump outlet line to a system inlet line in reaction to the pressure of the control line being lower; and controlling a second EHSV such that a second pressure of a second control line for a variable displacement mechanism of the VDP is varied, and thereby varying a pressure of the pump outlet line. 2. The method as recited in claim 1 , wherein the flow from the outlet line to the inlet line is recirculated at a constant base recirculation rate in response to the flow demanded by the downstream system being at or above the predetermined low threshold of flow through the VDP. 3. The method as recited in claim 2 , wherein the base recirculation rate is zero recirculation flow. 4. A system comprising: a variable displacement pump (VDP) fluidically connected to an inlet line and fluidically connected to a pump outlet line, wherein the VDP comprises a variable displacement mechanism configured to vary pressure to the pump outlet line; a bypass valve (BPV) comprising a BPV inlet fluidically connected with the pump outlet line, and a BPV outlet fluidically connected to a bypass line that feeds into the inlet line; an actuator comprising a first electrohydraulic servo valve (EHSV), wherein the first EHSV is fluidically connected to the BPV by a first control line; a lower-pressure line fluidically connecting the first EHSV to the inlet line; a higher-pressure line fluidically connecting the first EHSV to the pump outlet line; a flow sensing valve (FSV) fluidically connected to the pump outlet line, wherein the FSV comprises a sensor configured to generate sensed flow out of the pump outlet line; a controller connected to the first EHSV and configured to control recirculation flow through the BPV based on the sensed flow out of the pump outlet line and based on a predetermined low threshold of flow through the VDP, wherein: the controller is configured to: control the BPV to maintain a baseline flow through the BPV during a first flow condition in which requested flow from the downstream system is above the predetermined low threshold; and control the BPV to increase flow through the BPV above the baseline flow during a second flow condition in which the requested flow from the downstream system is at or below the predetermined low threshold; and a first position sensor connected to the BPV to provide sensor output indicative of a position of a valve member of the BPV, wherein the first position sensor is connected to the controller to provide a first feedback for controlling the BPV; a second electrohydraulic servo valve (EHSV) fluidically connected to the system inlet, fluidically connected to the pump output line, and fluidically connected with the variable displacement mechanism via a second control line, and wherein the controller is configured to actuate the variable displacement mechanism via the second EHSV. 5. The system of claim 4 , wherein: a second position sensor is connected to the variable displacement mechanism; the second position sensor is connected to the controller; the second position sensor is configured to provide a sensed variable displacement mechanism position to the controller; and the controller is configured to respond to the sensed variable displacement mechanism position by controlling the variable displacement mechanism. 6. The system of claim 5 , and further comprising a pressure sensor, wherein: the pressure sensor is connected to the pump outlet line; the pressure sensor is connected to the controller; the pressure sensor is configured to provide a sensed pressure of the pump outlet line to the controller; the controller is configured to respond to the sensed pressure of the pump outlet line by controlling the variable displacement mechanism and/or the BPV. 7. A system comprising: a system inlet; a system outlet downstream of the system inlet; a pump inlet line fluidically connected to the system inlet; a variable displacement pump (VDP) comprising: a variable displacement mechanism; a pump inlet fluidically connected to the pump inlet line; and a pump outlet fluidically connected to a pump outlet line; a bypass valve (BPV) comprising: a BPV inlet fluidically connected to the pump outlet line downstream of the pump outlet; a BPV outlet downstream of the BPV inlet; and a valve member configured to control flow between the BPV inlet and the BPV outlet; a bypass line fluidically connecting the BPV outlet to the pump inlet line; a flow sensing valve (FSV) fluidically connected to the pump outlet line and downstream of the pump outline line, wherein the FSV comprises a FSV sensor configured to provide a sensed output flow of the system outlet line to a controller; an actuator comprising a first electrohydraulic servo valve (EHSV), wherein the first EHSV comprises a first port, a second port, and a third port; a lower-pressure line fluidically connected to the system inlet line and fluidically connected to the first port of the first EHSV; a higher-pressure line fluidically connected to the pump outlet line and fluidically connected to the second port of the first EHSV; and a first control line fluidically connecting the third port of the first EHSV to a control chamber of the BPV; a first position sensor connected to the BPV and connected to the controller, wherein the first position sensor is configured to provide a sensed valve member position to the controller; and a second EHSV connected to the controller, wherein the second EHSV comprises a fourth port, a fifth port, and a sixth port; wherein: the fourth port is fluidically connected to the system inlet; the fifth port is fluidically connected to the pump output line; the sixth port is fluidically connected with the variable displacement mechanism via a second control line; and the controller is configured to actuate the variable displacement mechanism via the second EHSV; wherein the first EHSV is configured to vary flow from the BPV inlet to the BPV outlet by controlling a pressure of the first control line; wherein the controller is configured to actuate the variable displacement mechanism via the second EHSV; and wherein the controller is configured to open the first port of the first EHSV and close the second port of the first EHSV under a first flow condition wherein a requested flow from a downstream system is above a predetermined low threshold. 8. The system as recited in claim 7 , wherein the controller is configured to close the first port of the EHSV and open the second port of the EHSV under a second flow condition wherein a requested flow from a downstream system is at or below the predetermined low threshold. 9. The system as recited in claim 7 and further comprising a second position sensor connected to the controller, wherein the second position sensor is connected to the variable displacement mechanism and wherein the second position sensor is configured to provide a variable displacement mechanism position to the controller. 10. The system as recited in claim 9 , and further comprising a pressure sensor connected to the controller, wherein the pressure sensor is connected to the pump outlet line and wherein the pressure sensor is configured to provide a sensed pu