Control device and control method

What is claimed is: 1. A control device comprising: a storage configured to store information of a hysteresis area of an actuator, the hysteresis area being a performance region of the actuator within which a driving amount of the actuator is maintained at a predetermined target driving amount of the actuator and a driving current supplied to the actuator is changed; and a processor configured to: select a control mode from a plurality of control modes based on a state of an apparatus within which the actuator is disposed; determine a value of the driving current based on a target current value such that the driving amount of the actuator corresponds to the predetermined target driving amount; supply the determined driving current according to the target current value to the actuator based on the control mode while maintaining the driving amount of the actuator at the predetermined target driving amount; and upon determining that the driving amount of the actuator equals the predetermined target driving amount based on a detected driving amount detected by a sensor, determine the target current value based on the selected control mode and the driving amount of the actuator performing within the hysteresis area associated with the predetermined target driving amount. 2. The control device according to claim 1 , wherein the processor is configured to set the target current value based on: (i) the control mode and (ii) one of either a lower limit, an upper limit, or an intermediate value of the hysteresis area. 3. The control device according to claim 1 , wherein: the plurality of control modes includes: a first mode in which a variation of a driving amount of the actuator is suppressed, a second mode in which power consumption of the actuator is suppressed, and a third mode in which a responsiveness of the actuator is higher than the responsiveness of the actuator in the first mode and second mode when the driving amount of the actuator is changed, and the processor is configured to select the control mode from the plurality of control modes based on the state of the apparatus in which the actuator is disposed. 4. The control device according to claim 3 , wherein: the apparatus in which the actuator is disposed is an engine of a vehicle, the actuator is a linear solenoid disposed in an exhaust gas recirculation (EGR) valve configured to adjust an amount of exhaust gas flowing into a suction side of the EGR valve from an exhaust side of the EGR valve, and the processor is configured to select the control mode from the plurality of control modes based on a rotation speed and a load factor of the engine. 5. The control device according to claim 1 , wherein the processor is configured to learn the hysteresis area based on the driving current and the driving amount of the actuator. 6. A control method of controlling an actuator having a hysteresis area, the control method comprising: storing information of a hysteresis area of the actuator, the hysteresis area being a performance region of the actuator within which a driving amount of the actuator is maintained at a predetermined target driving amount of the actuator and a driving current supplied to the actuator is changed; selecting a control mode from among a plurality of control modes based on a state of an apparatus in which the actuator is disposed; determining a value of the driving current based on a target current value such that the driving amount of the actuator corresponds to the predetermined target driving amount; and supplying the determined driving current according to the target current value to the actuator based on the control mode while maintaining the driving amount of the actuator at the predetermined target driving amount, wherein: upon determining that the driving amount of the actuator equals the predetermined target driving amount based on a detected driving amount detected by a sensor, determining the target current value based on the selected control mode and the driving amount of the actuator performing within the hysteresis area associated with the predetermined target driving amount.