Fuel injection control device and fuel injection system

The invention claimed is: 1. A fuel injection control device that controls an operation of an injector that injects a fuel into an internal combustion engine, the fuel injection control device comprising: an electric controller to control an opening and closing of the injector by energizing a coil in the injector; and a booster circuit to boost a battery voltage that is a voltage supplied from a battery to generate a boost voltage, wherein the electric controller includes a computer programmed to at least perform: a valve-opening control to apply the boost voltage to the coil and then to apply the battery voltage to the coil to generate a required valve-opening force that is an attractive force required to start to open the injector, an open valve maintenance control to apply the battery voltage to the coil to generate an open valve maintenance force that is an attractive force holding the opening of the injector and is smaller than the required valve-opening force, after the valve-opening control, and a current correction control to correct a maximum value of a current flowing through the coil when the boost voltage is applied to the coil to increase the maximum value of the current flowing through the coil in the valve-opening control, according to a decreasing quantity of the battery voltage, the current correction control sets a correction quantity according to the decreasing quantity of the battery voltage and a pressure of the fuel supplied to the injector, and the current correction control suppresses a correction when the required valve-opening force becomes lower while a fuel pressure that is a pressure of the fuel becomes lower in a case where the battery voltage decreases. 2. The fuel injection control device according to claim 1 , wherein the valve-opening control applies the boost voltage to the coil to generate the attractive force that is the required valve-opening force in a case where the current correction control is executed. 3. The fuel injection control device according to claim 1 , wherein the current correction control is executed when a driving of the internal combustion engine starts. 4. The fuel injection control device according to claim 1 , wherein the current correction control is executed for all of multiple injections executed in the driving of the internal combustion engine that executes the multiple injections to divide an injection quantity required in one combustion cycle. 5. The fuel injection control device according to claim 1 , wherein the electric controller is further programmed to select a single injection among multiple injections and execute the current correction control for the single injection, and then use the correction quantity calculated in the current correction control for other injections that are not selected, in the driving of the internal combustion engine that executes the multiple injections to divide an injection quantity required in one combustion cycle. 6. The fuel injection control device according to claim 1 , further comprising: the electric controller includes a valve-opening assist control to assist the opening of the injector by an attractive force generated by applying the battery voltage to the coil, before the valve-opening control is executed. 7. A fuel injection system comprising: at least one injector to inject a fuel into at least one corresponding cylinder of an internal combustion engine; a delivery pipe to distribute and supply the fuel to the injector of each corresponding cylinder of the internal combustion engine; a high-pressure pump to pump a high-pressure fuel that is the fuel a pressure of which is increased into the delivery pipe; a fuel pressure sensor attached to the delivery pipe and to sense a fuel pressure of the fuel in the delivery pipe; and a fuel injection control device to include an electric controller to control an opening and closing of the injector by energizing a coil in the injector, and a booster circuit to boost a battery voltage that is a voltage supplied from a battery to generate a boost voltage, wherein the electric controller includes a computer programmed to at least perform: a valve-opening control to apply the boost voltage to the coil and then to apply the battery voltage to the coil to generate a required valve-opening force that is an attractive force required to start to open the injector, an open valve maintenance control to apply the battery voltage to the coil to generate an open valve maintenance force that is an attractive force holding the opening of the injector and is smaller than the required valve-opening force, after the valve-opening control, and a current correction control to correct a maximum value of a current flowing through the coil when the boost voltage is applied to the coil to increase the maximum value of the current flowing through the coil in the valve-opening control, according to a decreasing quantity of the battery voltage, the current correction control sets a correction quantity according to the decreasing quantity of the battery voltage and a pressure of the fuel supplied to the injector, and the current correction control suppresses a correction when the required valve-opening force becomes lower while a fuel pressure that is a pressure of the fuel becomes lower in a case where the battery voltage decreases. 8. The fuel injection system according to claim 7 , wherein the valve-opening control applies the boost voltage to the coil to generate the attractive force that is the required valve-opening force in a case where the current correction control is executed. 9. The fuel injection system according to claim 7 , wherein the current correction control is executed when a driving of the internal combustion engine starts. 10. The fuel injection system according to claim 7 , wherein the current correction control is executed for all of multiple injections executed in the driving of the internal combustion engine that executes the multiple injections to divide an injection quantity required in one combustion cycle. 11. The fuel injection system according to claim 7 , wherein the electric controller selects a single injection among multiple injections and executes the current correction control for the single injection, and then uses the correction quantity calculated in the current correction control for other injections that are not selected, in the driving of the internal combustion engine that executes the multiple injections to divide an injection quantity required in one combustion cycle. 12. The fuel injection system according to claim 7 , further comprising: the electric controller includes a valve-opening assist control to assist the opening of the injector by an attractive force generated by applying the battery voltage to the coil, before the valve-opening control is executed. 13. A fuel injection control device that controls an operation of an injector that injects a fuel into an internal combustion engine, the fuel injection control device comprising: an electric controller to control an opening and closing of the injector by energizing a coil in the injector; and a booster circuit to boost a battery voltage that is a voltage supplied from a battery to generate a boost voltage, wherein the electric controller includes a computer programmed to at least perform: a valve-opening control to apply the boost voltage to the coil and then to apply the battery voltage to the coil to generate a required valve-opening force that is an attractive force required to start to open the injector, an open valve maintenance control to apply the battery voltage to the coil to genera