Power system and motor driving apparatus included in power system

What is claimed is: 1. A power system comprising: a first motor; a second motor connected in parallel to the first motor; a driver configured to supply a driving current to the first motor and the second motor; a first current detector configured to detect the driving current to the first motor; a second current detector configured to detect the driving current of the second motor; and a controller configured to: control the driver based on the driving current and a rotating speed of the first motor, and when the rotating speed of the second motor is different than a rotating speed of the first motor, control the driver based on the rotating speed of the first motor and a difference between the rotating speed of the first motor and the rotating speed of the second motor so that the rotating speed of the first motor is equal to the rotating speed of the second motor. 2. The power system of claim 1 , wherein the controller is further configured to estimate the rotating speed of the second motor based on the driving current of the second motor. 3. A power system comprising: a first motor; a second motor connected in parallel to the first motor; a driver configured to supply a driving current to the first motor and the second motor; a first current detector configured to detect the driving current to the first motor; a total current detector configured to detect a total driving current that is supplied by the driver; and a controller configured to: control the driver based on the driving current and a rotating speed of the first motor, and when the rotating speed of the second motor is different than a rotating speed of the first motor, control the driver based on the rotating speed of the first motor and a difference between the rotating speed of the first motor and the rotating speed of the second motor so that the rotating speed of the first motor is equal to the rotating speed of the second motor. 4. The power system of claim 3 , wherein the controller is further configured to estimate the rotating speed of the second motor based on the driving current of the first motor and the total driving current. 5. A power system comprising: a first motor; a second motor connected in parallel to the first motor; a driver configured to supply a driving current to the first motor and the second motor; a total current detector configured to detect a total driving current that is supplied by the driver; a second current detector configured to detect a driving current of the second motor; and a controller configured to: control the driver based on the driving current and a rotating speed of the first motor, and when the rotating speed of the second motor is different than a rotating speed of the first motor, control the driver based on the rotating speed of the first motor and a difference between the rotating speed of the first motor and the rotating speed of the second motor so that the rotating speed of the first motor is equal to the rotating speed of the second motor. 6. The power system of claim 5 , wherein the controller is further configured to estimate the driving current of the first motor based on the driving current of the second motor and the total driving current. 7. The power system of claim 6 , wherein the controller is further configured to estimate the rotating speed of the first motor based on the driving current of the first motor. 8. The power system of claim 5 , wherein the controller is further configured to estimate the rotating speed of the second motor based on the driving current of the second motor. 9. A motor driving apparatus comprising: a driver configured to supply a driving current to a first motor and a second motor connected in parallel to each other; a first current detector configured to detect the driving current of the first motor; a second current detector configured to detect the driving current of the second motor; and a controller configured to: control the driver based on the driving current and a rotating speed of the first motor, and when the rotating speed of the second motor is different from a rotating speed of the first motor, control the driver based on the rotating speed of the first motor and a difference between the rotating speed of the first motor and the rotating speed of the second motor so that the rotating speed of the first motor is equal to the rotating speed of the second motor. 10. A motor driving apparatus comprising: a driver configured to supply a driving current to a first motor and a second motor connected in parallel to each other; a first current detector configured to detect the driving current of the first motor; a total current detector configured to detect a total driving current supplied by the driver; and a controller configured to: control the driver based on the driving current and a rotating speed of the first motor, and when the rotating speed of the second motor is different from a rotating speed of the first motor, control the driver based on the rotating speed of the first motor and a difference between the rotating speed of the first motor and the rotating speed of the second motor so that the rotating speed of the first motor is equal to the rotating speed of the second motor. 11. A motor driving apparatus comprising: a driver configured to supply a driving current to a first motor and a second motor connected in parallel to each other; a total current detector configured to detect a total driving current supplied by the driver; a second current detector configured to detect the driving current of the second motor; and a controller configured to: control the driver based on the driving current and a rotating speed of the first motor, when the rotating speed of the second motor is different from a rotating speed of the first motor, control the driver based on the rotating speed of the first motor and a difference between the rotating speed of the first motor and the rotating speed of the second motor so that the rotating speed of the first motor is equal to the rotating speed of the second motor, and estimate the driving current of the first motor based on the driving current of the second motor and the total driving current. 12. The motor driving apparatus of claim 11 , wherein the controller is further configured to estimate the rotating speed of the first motor based on the driving current of the first motor. 13. The motor driving apparatus of claim 11 , wherein the controller is further configured to estimate the rotating speed of the second motor based on the driving current of the second motor.