Direct injection pump control strategy for noise reduction

What is claimed is: 1. A method of controlling a pump, comprising: providing the pump with a casing that defines a first chamber, a second chamber, a third chamber and a fourth chamber; providing a fluid inlet in the first chamber and a fluid outlet in the fourth chamber; providing a first movable valve member in the first chamber and a second movable valve member in the second chamber; providing a third movable valve member in the fourth chamber; providing a solenoid coil; during a suction stroke of the pump, moving a plunger in the third chamber away from the third chamber so that a volume of the third chamber increases to move the second valve member toward a stop and to cause the second valve member to collide against the stop; moving the third valve member against a valve seat to prevent fuel from exiting through the fluid outlet; during a pumping stroke of the pump, energizing the solenoid coil a first time to attract the first movable valve member toward the solenoid coil; moving the second movable valve member against a second valve seat; de-energizing the solenoid coil prior to a top dead center position of the plunger; and energizing the solenoid coil a second time, which is after the top dead center position and during the suction stroke. 2. The method of controlling a pump according to claim 1 , wherein the second movable valve member begins moving before the first movable valve member during the pumping stroke. 3. The method of controlling a pump according to claim 2 , further comprising: preventing fluid flow into the first chamber when the second movable valve member strikes the second valve seat. 4. The method of controlling a pump according to claim 2 , wherein the first movable valve member and the second movable valve member are physically separate pieces. 5. The method of controlling a pump according to claim 4 , wherein the first chamber and the second chamber are separated. 6. The method of controlling a pump according to claim 4 , wherein a wall defines a fluid passage between the first chamber and the second chamber. 7. The method of controlling a pump according to claim 6 , wherein energization and de-energization of the solenoid coil controls movement of the first movable valve member. 8. The method of controlling a pump according to claim 7 , wherein a second spring resides within the second chamber and biases the second movable valve member. 9. The method of controlling a pump according to claim 8 , wherein a first spring resides within the first chamber and biases the first movable valve member toward the second movable valve member. 10. The method of controlling a pump according to claim 1 , further comprising: after the top dead center position, moving the second movable valve member away from the second valve seat to permit fluid to flow from the fluid inlet through the first chamber and into the second chamber. 11. The method of controlling a pump according to claim 10 , further comprising: moving the first movable valve member against the second movable valve member. 12. The method of controlling a pump according to claim 1 , wherein the second energizing of the solenoid coil is a pulse. 13. The method of controlling a pump according to claim 1 , wherein the second energizing of the solenoid coil is, during the suction stroke, prior to a bottom dead center position of the plunger and after the top dead center position. 14. The method of controlling a pump according to claim 13 , wherein the second energizing of the solenoid coil is just after the top dead center position. 15. The method of controlling a pump according to claim 14 , wherein the second movable valve member is in contact with the first movable valve member when the plunger moves past the top dead center position. 16. The method of controlling a pump according to claim 1 , wherein the second movable valve member is drawn away from the first movable valve member on the second energizing of the solenoid coil. 17. The method of controlling a pump according to claim 1 , further comprising: moving the second movable valve member in the second chamber further against the stop, which is opposed to the second valve seat; and making the second movable valve member contact the stop, while the second movable valve member is in contact with the first movable valve member.