Control method of magnetic solenoid valve, control method of electromagnetically controlled inlet valve of high pressure fuel pump, and control device for electromagnetic actuator of electromagnetically controlled inlet valve

What is claimed is: 1. A control method of a magnetic solenoid valve for a high pressure fuel pump which comprises: a plunger rod biased by a spring; and an electromagnetic solenoid device which generates an electromagnetic force in a direction opposite to a biasing force of the spring corresponding to an electric current which flows in a solenoid, and is configured to control an operation of an inlet valve, wherein the inlet valve is provided adjacent to the plunger rod and is located on a pressurizing chamber side from an opening portion of a valve housing, and wherein the plunger rod is moved to a first position or a second position, thus respectively causing the plunger rod to be engaged with the inlet valve or causing an engagement between the plunger rod and the inlet valve to be released, the method comprising steps of: applying a first current to the solenoid, the first current generating a first electromagnetic force which is stronger than the biasing force of the spring and moves the plunger rod from the first position to the second position; subsequent to applying the first current, applying a limited current to the solenoid, the limited current having a value of zero or close to zero, and the plunger rod being kept around the second position during at least part of a compression stroke of the high pressure fuel pump; and subsequent to applying the limited current, applying a second current to the solenoid in a suction stroke of the high pressure fuel pump in which the inlet valve moves in an opening direction, the second current generating a second electromagnetic force which reduces energy of the plunger rod moving to the first position in the suction stroke, wherein a maximum value of the first current is larger than a maximum value of the second current, and wherein the second current decelerates the movement of the plunger rod after the inlet valve starts to move towards the pressurizing chamber side by a differential pressure during the suction stroke of the high pressure fuel pump and (i) before the inlet valve separated from the plunger rod strikes a stopper or (ii) before the plunger rod strikes the inlet valve. 2. The control method of a magnetic solenoid valve for a high pressure fuel pump according to claim 1 , wherein a period of applying the limited current is longer than a period of applying the second current. 3. The control method of a magnetic solenoid valve for a high pressure fuel pump according to claim 1 , wherein the limited current is applied to the solenoid during at least part of the compression stroke of the high pressure fuel pump. 4. The control method of a magnetic solenoid valve for a high pressure fuel pump according to claim 1 , wherein the limited current and the second current are applied to the solenoid only under a specific condition. 5. A control method of a high pressure fuel pump provided with an electromagnetically controlled inlet valve, wherein the high pressure fuel pump comprises: an inlet passage for introducing fuel into a pressurizing chamber; an outlet passage for discharging the fuel from the pressurizing chamber; a pressurizing member which reciprocates in the pressurizing chamber; an inlet valve provided between the inlet passage and the pressurizing chamber; a first spring biasing the inlet valve in a valve closing direction; an outlet valve provided between the outlet passage and the pressurizing chamber; and an electromagnetic actuator for controlling an operation of the inlet valve, wherein the electromagnetic actuator comprises: a second spring; a plunger rod biased by the second spring; and an electromagnetic solenoid device which generates an electromagnetic force in a direction opposite to a biasing force of the second spring corresponding to an electric current which flows in a solenoid, and is configured to control an operation of the inlet valve, wherein the inlet valve is provided adjacent to the plunger rod and is located on a side of the pressurizing chamber from an opening portion of a valve housing, and wherein the plunger rod is moved to a first position or a second position, thus respectively causing the plunger rod to be engaged with the inlet valve or causing an engagement between the plunger rod and the inlet valve to be released, and the control method of the high pressure fuel pump comprising steps of: applying a first current to the solenoid, the first current generating a first electromagnetic force which is stronger than the biasing force of the second spring and moves the plunger rod from the first position to the second position; subsequent to applying the first current, applying a limited current to the solenoid, the limited current having a value of zero or close to zero, and the plunger rod being kept around the second position during at least part of a compression stroke of the high pressure fuel pump; and subsequent to applying the limited current, applying a second current to the solenoid in a suction stroke of the high pressure fuel pump in which the inlet valve moves in an opening direction, the second current generating a second electromagnetic force which reduces energy of the plunger rod moving to the first position in the suction stroke, wherein a maximum value of the first current is larger than a maximum value of the second current, and wherein the second current decelerates the movement of the plunger rod the inlet valve starts to move towards the pressurizing chamber side by a differential pressure during the suction stroke of the high pressure fuel pump and (i) before the inlet valve separated from the plunger rod strikes a stopper or (ii) before the plunger rod strikes the inlet valve. 6. The control method of a high pressure fuel pump according to claim 5 , wherein when the pressurizing member of the pump almost reaches a top dead center, the electromagnetic actuator is controlled to the step of applying a limited current to the solenoid. 7. The control method of a high pressure fuel pump according to claim 6 , wherein the first current, the limited current, and the second current are applied during one stroke of the pressurizing member. 8. The control method of a high pressure fuel pump according to claim 7 , wherein the one stroke of the pressurizing member includes at least a pressurizing stroke and a suction stroke. 9. The control method of a high pressure fuel pump according to claim 5 , wherein the step of applying a limited current to the solenoid comprises steps of: holding the plunger rod at the second position; and subsequently, applying a zero current to the solenoid. 10. The control method of a high pressure fuel pump according to claim 9 , wherein when the pressurizing member of the pump almost reaches a top dead center, the electromagnetic actuator is controlled to the step of applying a zero current to the solenoid, and the electromagnetically controlled inlet valve is held at a position where the electromagnetically controlled inlet valve is closed due to a pressurized fuel pressure which acts in the valve closing direction against the biasing force of the spring. 11. A control device for controlling the electromagnetic actuator described in claim 5 , the control device comprising: a microcomputer; a driver circuit configured to allow conduction and interruption of an electric current which flows in the electromagnetic solenoid of the electromagnetic actuator based on an output from the microcomputer, wherein the microcomputer is configured to receive an operation state of a device to be controlled which is controlled by the electromagnetic actuator as an input, and output a start timing command and a finish timing command for the step of applying a first current to the solenoid, t