Voice coil motor and driving method thereof

1. A method of driving a voice coil motor that includes a stator including a magnet for generating a first magnetic field and a base, a mover including a bobbin and a coil block wound on the bobbin, at least one elastic member includes a first elastic member coupled to a lower portion of the bobbin and a second elastic member coupled to an upper portion of the bobbin, and a cover for covering the mover and having an upper plate and a lateral plate, the upper plate having an opening, and the lateral plate extending from an edge of the upper plate to the base to be coupled to a lateral surface of the base, the method for obtaining an optimum focus between a lens and an image sensor disposed below the bobbin comprising steps of:

• providing the mover, at an initial position spaced apart both from the base by a first gap and from the cover by a second gap, wherein the bobbin is supported by the first elastic member and the second elastic member and is distanced from the base and the cover, respectively;
  
  moving the mover provided at the initial position in a first direction, relative to the stator with the magnet, toward a first reference position by supplying a first current to the coil block such that the first gap decreases and the second gap increases, wherein the first direction is a direction from the initial position to the first reference position, and wherein the first current generates a second magnetic field that interacts with the first magnetic field, and the first reference position corresponds to an upper surface of the base;
  
  moving the mover away from the first reference position by reducing an amount of the first current, and then supplying a second current to the coil block to move the mover in a second direction opposite to the first direction towards a second reference position, such that the mover moves past the initial position from the first reference position and the first gap increases and the second gap decreases;
  
  stopping the mover at a position past the optimum focus by increasing the second current to the coil block and then returning the mover to a location corresponding to the optimum focus; and
  
  maintaining the mover at the location corresponding to the optimum focus by maintaining an amount of the second current, such that the optimum focus is formed between the first reference position and the second reference position.