Method for lift pump control

The invention claimed is: 1. A method, comprising: when operating a high pressure pump in a default pressure mode with an electronically-controlled solenoid valve deactivated and direct injecting fuel via injectors of a high pressure fuel rail, pulsing a low pressure pump when pressure in the high pressure fuel rail decreases below a threshold; and when operating the high pressure pump in a variable pressure mode with the electronically-controlled solenoid valve activated, pulsing the low pressure pump based on presence of fuel vapor at an inlet of the high pressure pump. 2. The method of claim 1 , wherein pulsing the low pressure pump based on presence of fuel vapor includes pulsing the lower pressure pump between a zero voltage and a non-zero voltage only when fuel vapor is detected, and otherwise maintaining the low pressure pump at a zero voltage, and wherein pulsing the low pressure pump when pressure in the high pressure fuel rail decreases below the threshold includes pulsing the low pressure pump between a zero voltage and a non-zero voltage only when pressure in the high pressure fuel rail decreases below the threshold. 3. The method of claim 1 , wherein the high pressure pump is operated in the variable pressure mode, and wherein the pressure in the high pressure fuel rail is regulated via the electronically-controlled solenoid valve. 4. The method of claim 3 , wherein pulsing the low pressure pump includes pulsing the low pressure pump at full voltage, and wherein during the default pressure mode the high pressure pump is operated with a constant default pressure. 5. The method of claim 1 , wherein pulsing the low pressure pump includes pulsing the low pressure pump for durations between 150-250 milliseconds. 6. The method of claim 1 , further comprising, when operating the high pressure pump in the variable pressure mode, not pulsing the low pressure pump when pressure in the high pressure fuel rail decreases below the threshold. 7. The method of claim 1 , wherein when operating the high pressure pump in the variable pressure mode, presence of fuel vapor at the inlet of the high pressure pump is determined when an increase in pressure in the high pressure fuel rail during a pump stroke is less than an expected increase. 8. The method of claim 1 , wherein pressure in the high pressure fuel rail is measured via a fuel rail pressure sensor, and wherein the low pressure pump is pulsed based on a measurement of pressure during a compression stroke in the high pressure pump. 9. A system, comprising: a port fuel direct injection (PFDI) engine; a direct injection fuel pump including a piston, a compression chamber, a cam for moving the piston, a solenoid activated check valve positioned at an inlet of the direct injection fuel pump, and a pressure relief valve positioned upstream of the solenoid activated check valve for regulating pressure in the compression chamber during a default pressure mode; a high pressure fuel rail fluidically coupled to the direct injection fuel pump; a sensor coupled to the high pressure fuel rail for monitoring fuel rail pressure; a lift pump fluidically coupled to the high pressure fuel rail via the direct injection fuel pump; and a controller having executable instructions stored in a non-transitory memory for: during a first condition, pulsing the lift pump between zero voltage and a non-zero voltage only based on a decrease in pressure in the high pressure fuel rail below a threshold and otherwise maintaining the lift pump at zero voltage; and during a second condition, pulsing the lift pump between zero voltage and a non-zero voltage only based on detection of fuel vapor at an inlet of the direct injection fuel pump, and otherwise maintaining the lift pump at zero voltage, wherein the first condition includes operation of the direct injection fuel pump in the default pressure mode by deactivating the solenoid activated check valve, and wherein a default pressure of the direct injection fuel pump is determined by the pressure relief valve positioned upstream of the solenoid activated check valve. 10. The system of claim 9 , wherein the second condition includes operation of the direct injection fuel pump in a variable pressure mode, and wherein the solenoid activated check valve is activated and adjusted based on the pressure in the high pressure fuel rail. 11. The system of claim 10 , wherein during the second condition, the lift pump is not pulsed when pressure in the high pressure fuel rail decreases below the threshold. 12. The system of claim 10 , wherein fuel vapor at the inlet of the direct injection fuel pump is detected when a measured change in pressure of the high pressure fuel rail during a compression stroke of the direct injection fuel pump is lower than an expected change in pressure of the high pressure fuel rail.