Position sensing circuit and position control device with differential sensing structure

What is claimed is: 1 . A position sensing circuit for use with a position control device, the position control device comprising a differential sensing coil unit having a first sensing coil and a second sensing coil disposed to be spaced apart from a conductor disposed on one side of a lens barrel, the position sensing circuit comprising: a differential oscillation circuit configured to generate a first oscillation signal having a first amplitude based on a first inductance of the first sensing coil, which is variable according to positional movement of the conductor, and to generate a second oscillation signal having a second amplitude based on a second inductance of the second sensing coil, which is variable according to positional movement of the conductor, an amplitude detection circuit configured to detect the first amplitude of the first oscillation signal and to detect the second amplitude of the second oscillation signal; and a signal processing circuit configured to detect a position value by calculating the first amplitude and the second amplitude. 2 . The position sensing circuit of claim 1 , further comprising a position controller configured to control a position of the conductor based on the position value. 3 . The position sensing circuit of claim 1 , wherein the first inductance is an inductance of the first sensing coil having one end connected to one end of the differential oscillation circuit and the other end connected to a ground terminal of the differential oscillation circuit, and the second inductance is an inductance of the second sensing coil having one end connected to the other end of the differential oscillation circuit and the other end connected to the ground terminal, wherein a sum of the first inductance and the second inductance maintains a constant value, regardless of the positional movement of the conductor. 4 . The position sensing circuit of claim 3 , wherein the differential oscillation circuit comprises a capacitor circuit connected to one end of the first sensing coil and one end of the second sensing coil to form a resonance circuit together with the first sensing coil and the second sensing coil; and an oscillation circuit connected to the capacitor circuit, and configured to generate the first oscillation signal and the second oscillation signal having opposite phases. 5 . The position sensing circuit of claim 1 , wherein the amplitude detection circuit comprises one of an amplitude demodulator and a frequency down conversion mixer. 6 . The position sensing circuit of claim 1 , wherein the signal processing circuit comprises: an A/D converter configured to convert the first amplitude and the second amplitude into a digital first amplitude and a digital second amplitude; and an operation circuit configured to compensate for common distortion and to calculate the position value by calculating the digital first amplitude and the digital second amplitude input from the ND converter. 7 . The position sensing circuit of claim 6 , wherein the operation circuit is configured to calculate the position value (PV) according to PV=(VOP−VON)/(VOP+VON), where VOP is the digital first amplitude and VON is the digital second amplitude. 8 . The position sensing circuit of claim 1 , further comprising a calibration circuit configured to correct a variation of a corresponding value by monitoring a variation of at least one of inductance, capacitance, and resistance of the differential sensing coil unit. 9 . A position control device, comprising: a differential sensing coil unit having a first inductance and a second inductance, the first inductance and the second inductance being variable opposite to each other according to positional movement of a conductor disposed on one side of a lens barrel; a differential oscillation circuit connected to the differential sensing coil unit, and configured to generate a first oscillation signal having a first amplitude based on the first inductance, and to generate a second oscillation signal having a second amplitude based on the second inductance; an amplitude detection circuit configured to detect the first amplitude of the first oscillation signal and to detect the second amplitude of the second oscillation signal; and a signal processing circuit configured to detect a position value by calculating the first amplitude and the second amplitude. 10 . The position control device of claim 9 , further comprising a position controller configured to control a position of the conductor based on the position value. 11 . The position control device of claim 9 , wherein the differential sensing coil unit comprises: a first sensing coil including one end connected to one end of the differential oscillation circuit and the other end connected to a ground terminal, the first sensing coil having the first inductance; a second sensing coil including one end connected to the other end of the differential oscillation circuit and the other end connected to the ground terminal, the second sensing coil having the second inductance; and an intermediate connection node connected to a ground terminal at an intermediate connection position between the first sensing coil and the second sensing coil. 12 . The position control device of claim 11 , wherein the differential oscillation circuit comprises: a capacitor circuit connected to the one end of the first sensing coil and the one end of the second sensing coil to form a resonance circuit together with the first sensing coil and the second sensing coil; and an oscillation circuit connected to the capacitor circuit, and configured to generate the first oscillation signal and the second oscillation signal having opposite phases. 13 . The position control device of claim 9 , wherein the amplitude detection circuit comprises one of an amplitude modulator and a frequency down conversion mixer. 14 . The position control device of claim 9 , wherein the signal processing circuit comprises: an A/D converter configured to convert the first amplitude and the second amplitude into a digital first amplitude and a digital second amplitude; and an operation circuit configured to compensate for common distortion and to calculate the position value based on the digital first amplitude and the digital second amplitude. 15 . The position control device of claim 14 , wherein the operation circuit is configured to calculate the position value (PV) according to PV=(VOP−VON)/(VOP+VON), where VOP the digital first amplitude and VON is the digital second amplitude. 16 . The position control device of claim 9 , further comprising a calibration circuit configured to correct a variation of a corresponding value by monitoring a variation of at least one of an inductance, a capacitance, and a resistance of the differential sensing coil unit. 17 . A camera module comprising: a lens barrel; a lens module accommodated within the lens barrel; a conductor disposed on a side of the lens barrel; a first inductor disposed to face the conductor and configured to generate a first inductance that is variable according to positional movement of the conductor; a second inductor disposed to face the conductor and configured a generate a second inductance that is variable according to the positional movement of the conductor such that a sum of the first inductance and the second inductance remains constant; circuitry configured to generate a position value associated with the conductor based on the first inductance and the second inductance; and a controller configur