Apparatus and method for controlling a ripple current sensing motor

What is claimed is: 1. An apparatus for controlling a ripple current sensing motor, the apparatus comprising: a first shunt resistor having a first end connected to one end of the motor and a second end of the first shunt resistor connected to a ground; a second shunt resistor having a first end connected to the second end of the motor and a second end of the second shunt resistor connected to the ground; a first amplifying circuit configured to amplify a first signal from a first end of the motor; a second amplifying circuit configured to amplify a second signal from a second end of the motor; and a detector configured to detect a rotation amount and a rotation direction of the motor based on a first detection signal from the first amplifying circuit and a second detection signal from the second amplifying circuit; wherein when motor power is applied to the motor, the detector is configured to: set the first detection signal as a reference signal when the first detection signal includes a generated current ripple, or set the second detection signal as the reference signal when the second detection signal includes the generated current ripple; determine a rotation direction of the motor based on whether the first detection signal includes the generated current ripple or the second detection signal includes the generated current ripple; detect an inflection point in the reference signal; determine a voltage difference corresponding to the first detection signal and the second detection signal; and when the voltage difference is greater than or equal to a threshold value, determine a rotation amount of the motor by counting a preset period of the reference signal as one rotation of the motor. 2. The apparatus according to claim 1 , further comprising: a first direct current (DC) remover configured to remove a DC component from the first signal and to transmit a corresponding signal to the first amplifying circuit; and a second direct current (DC) remover configured to remove a DC component from the second signal and to transmit a corresponding signal to the second amplifying circuit. 3. The apparatus according to claim 1 , wherein the first and second amplifying circuits are configured to remove a DC component from the first and second signals, respectively, and to amplify the corresponding first and second signals. 4. The apparatus according to claim 1 , further comprising: a first filter configured to provide the first detection signal obtained by removing high frequency noise from an output signal from the first amplifying circuit, to the detector; and a second filter configured to provide the second detection signal obtained by removing high frequency noise from an output signal from the second amplifying circuit, to the detector. 5. The apparatus according to claim 1 , wherein when it is detected that the motor power being applied is cut off, the detector is configured to detect the rotation amount of the motor by further counting a period of a difference signal between the first and second detection signals equal to or greater than a preset threshold value. 6. A method for controlling a ripple current sensing motor by a detector of an apparatus for controlling a ripple current sensing motor including a first shunt resistor having one end connected to one end of a motor and the other end of the first shunt resistor connected to a ground, a second shunt resistor having one end connected to the other end of the motor and the other end of the second shunt resistor connected to the ground, a first amplifying circuit amplifying a first signal from one end of the motor, a second amplifying circuit amplifying a second signal from the other end of the motor, and the detector, the method comprising: checking whether power is applied to the motor; when power is applied to the motor, detecting a rotation amount and a rotation direction of the motor based on a first detection signal from the first amplifying circuit and a second detection signal from the second amplifying circuit by: setting the first detection signal as a reference signal when the first detection signal includes a generated current ripple, or set the second detection signal as the reference signal when the second detection signal includes the generated current ripple; determining a rotation direction of the motor based on whether the first detection signal includes the generated current ripple or the second detection signal includes the generated current ripple; detecting an inflection point in the reference signal; determining a voltage difference corresponding to the first detection signal and the second detection signal; and when the voltage difference is greater than or equal to a threshold value, determining a rotation amount of the motor by counting a preset period of the reference signal as one rotation of the motor. 7. The method according to claim 6 , further comprising: when it is detected that motor power being applied is cut off, detecting the rotation amount of the motor by further counting a period of a difference signal between the first and second detection signals equal to or greater than a preset threshold value.