Actuator driving apparatus and camera module including the same

What is claimed is: 1. An actuator driving apparatus comprising: an inductor disposed on a housing to face a magnetic body attached to a lens carrier; a detector configured to apply a reference signal to the inductor and detect an inductor current flowing through the inductor; a calculator configured to determine a position of the lens carrier based on the inductor current; and a driver configured to drive an actuator based on the position of the lens carrier and a position control signal. 2. The actuator driving apparatus of claim 1 , wherein the inductor is a coil, and a movement of the magnetic body relative to the coil changes inductance of the coil. 3. The actuator driving apparatus of claim 2 , wherein a diameter of the coil is larger than a maximum displacement of the magnetic body. 4. The actuator driving apparatus of claim 1 , wherein the reference signal is a square wave voltage signal. 5. The actuator driving apparatus of claim 4 , wherein a pulse width of the reference signal is shorter than a steady-state arrival time of the inductor current. 6. The actuator driving apparatus of claim 1 , wherein the inductor and the actuator are disposed on two opposing side surfaces of the housing. 7. The actuator driving apparatus of claim 1 , wherein the detector, the calculator and the driver comprise one or more integrated circuit. 8. The actuator driving apparatus of claim 1 , wherein the position control signal is a target position of the lens carrier. 9. A camera module comprising: a lens carrier disposed in a housing; a magnetic body attached to the lens carrier; an actuator configured to move the lens carrier within the housing; and an actuator driving apparatus configured to drive the actuator, wherein the actuator driving apparatus comprises a inductor disposed on the housing, a detector configured to apply a reference signal to the inductor to detect an inductor current flowing through the inductor, a calculator configured to determine a position of the lens carrier based on the inductor current, and a driver configured to drive the actuator based on the position of the lens carrier and a position control signal. 10. The camera module of claim 9 , wherein the inductor is a coil, and a movement of the magnetic body changes inductance of the inductor. 11. The camera module of claim 10 , wherein a diameter of the coil is larger than a maximum displacement of the magnetic body. 12. The camera module of claim 9 , wherein the reference signal is a square wave voltage signal. 13. The camera module of claim 12 , wherein a pulse width of the reference signal is shorter than a steady-state arrival time of the inductor current. 14. The camera module of claim 9 , wherein the inductor and the actuator are disposed on opposing side surfaces of the housing. 15. The camera module of claim 9 , wherein the actuator comprises a voice coil motor (VCM). 16. A camera module comprising: a magnetic body configured to move with a lens carrier; an actuator configured to move the lens carrier; an inductor configured to interact with the magnetic body; and a circuit configured to drive the actuator based on an inductance generated in the inductor by the magnetic body, wherein the circuit is configured to determine the inductance of the inductor by applying a reference signal to the inductor and detecting an inductor current flowing through the inductor. 17. The camera module of claim 16 , wherein the inductor comprises a coil, and the magnetic body is movable with respect to the coil such that the movement of the lens carrier within the housing changes the inductance of the inductor. 18. The camera module of claim 16 , wherein the circuit is configured to determine a position of the lens carrier based on the inductance. 19. The camera module of claim 16 , wherein the inductor is configured to be stationary when the actuator moves the lens carrier and the magnetic body.