Apparatus for operating optical-reflector and apparatus and method for controlling position of optical-reflector

What is claimed is: 1. An apparatus for operating an optical-reflector, the apparatus comprising: a housing; a first carrier accommodated in the housing and configured to rotate, based on a first direction perpendicular to an optical axis, with respect to the housing; a lens; a second carrier having an optical-reflector for reflecting a light toward the lens and accommodated in the first carrier to rotate based on a second direction perpendicular to both the optical axis and the first direction with respect to the first carrier; a plurality of magnets provided to the second carrier at different positions, the plurality of magnets having the same pole or different poles at surfaces facing a plurality of hall sensors; the plurality of hall sensors configured to output signals respectively corresponding to the positions of the plurality of magnets; and a position control unit configured to calculate the signals input from the plurality of hall sensors to generate a position signal that is a signal about a current position of the second carrier, wherein the position control unit is configured to generate the position signal by doing a subtraction to the signals if the plurality of magnets having the same pole at the surfaces facing the plurality of hall sensors; and the position control unit is configured to generate the position signal by doing an addition to the signals if the plurality of magnets have different poles at the surfaces facing the plurality of hall sensors. 2. The apparatus for operating an optical-reflector according to claim 1 , wherein the plurality of magnets includes: a first magnet provided to the second carrier; and a second magnet provided to the second carrier at a position having a moving displacement opposite to a moving displacement of the first magnet when the second carrier rotates; and wherein the plurality of hall sensors includes: a first hall sensor configured to output a first signal corresponding to the position of the first magnet; and a second hall sensor configured to output a second signal corresponding to the position of the second magnet. 3. The apparatus for operating an optical-reflector according to claim 1 , wherein each of the plurality of magnets has a single pole at the surface that faces the plurality of hall sensors. 4. The apparatus for operating an optical-reflector according to claim 2 , wherein the first and second magnets have the same pole at surfaces facing the first and second hall sensors; and the position control unit generates the position signal by doing the subtraction to the first and second signals. 5. The apparatus for operating an optical-reflector according to claim 2 , wherein the first and second magnets have different poles at surfaces facing the first and second hall sensors; and the position control unit generates the position signal by doing the addition to the first and second signals. 6. The apparatus for operating an optical-reflector according to claim 2 , wherein the first and second hall sensors are provided to the first and second magnets at positions having a relatively great rotating displacement, respectively. 7. An apparatus for controlling a position of an optical-reflector, comprising: a housing; a first carrier accommodated in the housing and configured to rotate based on a first direction perpendicular to an optical axis with respect to the housing; a lens; a second carrier having an optical-reflector for reflecting a light toward the lens and accommodated in the first carrier to rotate based on a second direction perpendicular to both the optical axis and the first direction with respect to the first carrier; first and second magnets provided to the second carrier at different positions, the first and second magnets having the same pole or different poles at surfaces facing the first and second hall sensors; a first hall sensor configured to output a first signal corresponding to the position of the first magnet; a second hall sensor configured to output a second signal corresponding to the position of the second magnet; an input unit configured to receive the first signal from the first hall sensor and the second signal from the second hall sensor; and a signal generating unit configured to calculate the first signal and second signal input from the first and second hall sensors to generate a position signal that is a signal about a current position of the second carrier and, wherein, when the first and second magnets have the same pole at the surfaces facing the first and second hall sensors, the signal generating unit generates the position signal by doing a subtraction to the first and second signals; and when the first and second magnets have different poles at the surfaces facing the first and second hall sensors, the signal generating unit generates the position signal by doing an addition to the first and second signals. 8. The apparatus for controlling a position of an optical-reflector according to claim 7 , further comprising: a driving control unit configured to control a power of magnitude and direction corresponding to the generated position signal to be applied to a driving coil that rotates the second carrier. 9. The apparatus for controlling a position of an optical-reflector according to claim 7 , wherein when the first and second magnets have the same pole at the surfaces facing the first and second hall sensors, the signal generating unit generates the position signal by doing the subtraction to the first and second signals. 10. The apparatus for controlling a position of an optical-reflector according to claim 7 , wherein, when the first and second magnets have different poles at the surfaces facing the first and second hall sensors, the signal generating unit generates the position signal by doing the addition to the first and second signals. 11. The apparatus for controlling a position of an optical-reflector according to claim 7 , wherein the second magnet is provided to the second carrier at a position having a moving displacement opposite to a moving displacement of the first magnet when the second carrier rotates.