Control apparatus for fuel injector

The invention claimed is: 1. An apparatus, comprising: a controller that outputs a first injection pulse that makes a fuel injector inject fuel and a second injection pulse that makes the fuel injector inject fuel, which is to be output subsequently to the first injection pulse, the controller determining whether to output a third pulse in accordance with a measurement value of fuel pressure or a predictive value of the fuel pressure before the second pulse, and if the controller determines to output the third pulse, then the controller controls a driving current that is to be sent to a solenoid of the fuel injector by the third pulse in accordance with the measurement value of the fuel pressure or the predictive value of the fuel pressure, wherein the third pulse restrains a moving speed of a valve of the fuel injector which moves towards a closed state. 2. The apparatus according to claim 1 , wherein at least one of a maximum value of the driving current that is to be sent to the solenoid by the third pulse and a presence of the driving current that is to be sent to the solenoid by the third pulse is controlled in accordance with the measurement value or the predictive value of the fuel pressure. 3. The apparatus according to claim 2 , wherein the third pulse is changed in accordance with the measurement value or the predictive value of the fuel pressure. 4. The apparatus according to claim 2 , wherein an applying timing of the driving current that is to be sent to the solenoid by the third pulse is controlled in accordance with a driving current waveform for valve opening and closing, an engine rpm, and the number of injections in addition to the measurement value or the predictive value of the fuel pressure. 5. The apparatus according to claim 2 , wherein control is performed such that the third pulse is not output in a first operation area having an increased engine rpm and an increased fuel pressure, so that the driving current that is to be sent to the solenoid by the third pulse is prevented from flowing. 6. The apparatus according to claim 5 , wherein the control is performed such that the third pulse is output in a second operation area having an engine rpm similar to the engine rpm in the first operation area and a fuel pressure smaller than the fuel pressure in the first operation area, so that the driving current is sent to the solenoid. 7. The apparatus according to claim 6 , wherein the control is performed such that the third pulse is not output in a third operation area having an engine rpm similar to the engine rpm in the first operation area and the engine rpm in the second operation area and a fuel pressure further smaller than the fuel pressure in the second operation area, so that the driving current that is to be sent to the solenoid by the third pulse is prevented from flowing. 8. The apparatus according to claim 7 , wherein, in a case in which the control is performed for allowing the driving current to be sent to the solenoid by the third pulse, the first injection pulse is reduced in comparison with a case in which the control is not performed. 9. A control system that controls a driving current, comprising: a fuel injector, the fuel injector having a valve and a solenoid; and a control apparatus that outputs a first injection pulse that makes the fuel injector inject fuel and a second injection pulse that also makes the fuel injector inject fuel, the second injection pulse being output subsequently to the first injection pulse, the control apparatus also determining whether to output a third pulse in accordance with a measurement value of fuel pressure or a predictive value of the fuel pressure before the second pulse, and if the control apparatus determines to output the third pulse, then the control apparatus controls a driving current that is sent to the solenoid in accordance with the measurement value of the fuel pressure or the predictive value of the fuel pressure, wherein the third pulse restrains a moving speed of the valve as the valve moves towards a closed state. 10. The system according to claim 9 , wherein at least one of a maximum value of the driving current that is sent to the solenoid and a presence of the driving current that is sent to the solenoid is controlled in accordance with the measurement value or the predictive value of the fuel pressure. 11. The system according to claim 10 , wherein the third pulse is changed in accordance with the measurement value or the predictive value of the fuel pressure. 12. The system according to claim 10 , wherein an applying timing of the driving current that is sent to the solenoid is controlled in accordance with a driving current waveform for valve opening and closing, an engine rpm, and the number of injections in addition to the measurement value or the predictive value of the fuel pressure. 13. The system according to claim 10 , wherein control is performed such that the third pulse is not output in a first operation area having an increased engine rpm and an increased fuel pressure, so that the driving current that is sent to the solenoid is prevented from flowing. 14. The system according to claim 13 , wherein the control is performed such that the third pulse is output in a second operation area having an engine rpm similar to the engine rpm in the first operation area and a fuel pressure smaller than the fuel pressure in the first operation area, so that the driving current is sent to the solenoid. 15. The system according to claim 14 , wherein the control is performed such that the third pulse is not output in a third operation area having an engine rpm similar to the engine rpm in the first operation area and the engine rpm in the second operation area and a fuel pressure further smaller than the fuel pressure in the second operation area, so that the driving current that is sent to the solenoid is prevented from flowing. 16. The system according to claim according to claim 15 , wherein, in a case in which the control is performed for sending the driving current to the solenoid, the first injection pulse is reduced in comparison with a case in which the control is not performed. 17. An apparatus for controlling fuel injection, comprising: a controller that outputs a first injection pulse and a second injection pulse, the first injection pulse and second injection pulse causing injection of an amount of fuel, the second injection pulse being output subsequently to the first injection pulse, the controller also determining whether to output a third pulse in accordance with a measurement value of fuel pressure or a predictive value of the fuel pressure before the second pulse, and when the controller outputs the third pulse the controller also controls a driving current in accordance with the measurement value of the fuel pressure or the predictive value of the fuel pressure, wherein the third pulse restrains a speed of the injection of the amount of the fuel as the fuel injection moves towards a non-injecting state.