Shifting lever assembly

What is claimed is: 1. A shifting lever assembly comprising: a shifting lever which rotates around a rotation axis within a predetermined angle range to select one of a plurality of shift stages; a magnet which disposed on the rotation axis to rotate integrally with the shifting lever; and a shifting lever position detection unit coupled adjacent to the magnet to detect a change in magnetic force of the magnet according to a rotation amount of the shifting lever, wherein the shifting lever position detection unit includes a circuit board, a first magnetic force sensor and a second magnetic force sensor, which are installed on a first surface of the circuit board, and a third magnetic force sensor, which is installed on a second surface of the circuit board, wherein each of the first magnetic force sensor, the second magnetic force sensor and the third magnetic force sensor includes a magnetic force detector for detecting a magnetic force of the magnet, and wherein the magnetic force detector of the first magnetic force sensor and the magnetic force detector of the second magnetic force sensor are arranged to be symmetrical with respect to the rotation axis. 2. The shifting lever assembly of claim 1 , wherein the magnetic force detector of the third magnetic force sensor is disposed on the rotation axis. 3. The shifting lever assembly of claim 1 , wherein each of the first magnetic force sensor, the second magnetic force sensor and the third magnetic force sensor further includes a die for modulating an output value of the magnetic force detector to a Pulse Width Modulation signal. 4. The shifting lever assembly of claim 3 , wherein the sum of a duty ratio of the Pulse Width Modulation signal outputted from the die of the first magnetic force sensor and a duty ratio of the Pulse Width Modulation signal outputted from the die of the second magnetic force sensor is constant. 5. The shifting lever assembly of claim 3 , wherein the duty ratio of the Pulse Width Modulation signal outputted from the die of the third magnetic force sensor is less than one of the duty ratio of the Pulse Width Modulation signal outputted from the die of the first magnetic force sensor and the duty ratio of the Pulse Width Modulation signal outputted from the die of the second magnetic force sensor. 6. The shifting lever assembly of claim 1 , wherein the circuit board is separated from the magnet such that the a first surface is disposed opposite to the magnet, and wherein a spacing distance between the magnet and the circuit board is set such that a surface magnetic flux density of the magnet measured by the first magnetic force sensor and the second magnetic force sensor is equal to or less than a first reference value, and a surface magnetic flux density measured by the third magnetic force detector is equal to or greater than a second reference value. 7. The shifting lever assembly of claim 6 , wherein the first reference value is greater than the second reference value. 8. The shifting lever assembly of claim 1 , wherein the rotation axis is formed perpendicular to a longitudinal direction of the shifting lever, and the magnet is positioned at one side of the shifting lever. 9. The shifting lever assembly of claim 1 , wherein the rotation axis is formed in a longitudinal direction of the shifting lever, and the magnet is positioned at a lower end of the shifting lever.