Electric apparatus and control method for controlling movement of target object

What is claimed is: 1. An electric apparatus for controlling movement of a target object, comprising: a CPU; an ASIC; and a detector, controlled by the CPU, and configured to detect the movement of the target object, wherein the CPU updates, at a first period, a first operation quantity for controlling the movement of the target object, based on a detection signal output from the detector, the ASIC updates, at a second period shorter than the first period, a second operation quantity, different from the first operation quantity, for controlling a movement quantity smaller than that of the target object controlled by the first operation quantity, based on a detection signal output from the detector, and the ASIC controls the movement of the target object based on a third operation quantity generated by synthesizing the first operation quantity and the second operation quantity. 2. The apparatus according to claim 1 , wherein the second operation quantity is updated based on a first state quantity and a second state quantity obtained based on a detection signal output from the detector, and the second state quantity is obtained by time differentiation of the first state quantity. 3. The apparatus according to claim 2 , wherein a combination of the first state quantity and the second state quantity comprises one of a combination of a position and a velocity of the target object and a combination of a velocity and an acceleration of the target object. 4. The apparatus according to claim 3 , wherein in case of controlling a position vibration of the target object, the combination of the position and the velocity of the target object is selected as the combination of the first state quantity and the second state quantity, and in case of controlling a velocity vibration of the target object, the combination of the velocity and the acceleration of the target object is selected as the combination of the first state quantity and the second state quantity. 5. The apparatus according to claim 2 , wherein a two-dimensional space defined by two variables of the first state quantity and the second state quantity is divided into two spaces, and the sign of the second operation quantity is determined in accordance with which of the two divided spaces includes the first state quantity and the second state quantity. 6. The apparatus according to claim 1 , wherein the electric apparatus comprises a printing apparatus configured to print on a print medium by a printhead by reciprocally moving a carriage mounted with the printhead, and the target object comprises the carriage. 7. The apparatus according to claim 6 , wherein the second operation quantity is updated based on a first state quantity and a second state quantity obtained based on the detection signal output from the detector, the second state quantity is obtained by time differentiation of the first state quantity, the first state quantity comprises a velocity of the carriage, and the second state quantity comprises an acceleration of the carriage. 8. The apparatus according to claim 7 , wherein the detector includes an encoder sensor configured to detect a position of the carriage, and the position of the carriage is estimated by counting a pulse signal of an encoder signal output from the encoder sensor, and a velocity of the carriage is estimated by measuring a pulse width of the pulse signal. 9. The apparatus according to claim 1 , wherein the electric apparatus comprises one of a scanner apparatus configured to read an image of an original by a scanner unit mounted with a CIS or a CCD sensor by moving the scanner unit, and a multi-function printer obtained by providing the scanner apparatus in a printing apparatus for printing on a print medium by a printhead by reciprocally moving a carriage mounted with the printhead, and the target object comprises the scanner unit. 10. The apparatus according to claim 1 , wherein control of the movement of the target object based on the third operation quantity is performed at least during a period of constant movement of the target object. 11. The apparatus according to claim 1 , wherein the first operation quantity is calculated by PID control calculation, and the second operation quantity is calculated by sliding mode control calculation. 12. A control method for an electric apparatus for controlling movement of a target object using a CPU and an ASIC, comprising: detecting the movement of the target object by a detector controlled by the CPU; updating, at a first period, by the CPU, a first operation quantity for controlling the movement of the target object, based on a detection signal output from the detector; updating, at a second period shorter than the first period, by the ASIC, a second operation quantity, different from the first operation quantity, for controlling a movement quantity smaller than that of the target object controlled by the first operation quantity based on a detection signal output from the detector; and controlling, by the ASIC, the movement of the target object based on a third operation quantity generated by synthesizing the first operation quantity and the second operation quantity.