Continuously variable valve duration system and operating method thereof

What is claimed is: 1. A continuously variable valve duration (CVVD) system configured to operate a CVVD, comprising: an actuator that selectively varies a rotational center position of a cam, wherein the actuator includes a control shaft; an electronic control unit (ECU) configured to output a command for adjusting the actuator; and a controller configured to determine an operation range of the control shaft of the actuator and adjust the control shaft in the operation range based on the command of the ECU, wherein the controller is configured to position the control shaft at predetermined target phases and determines a control state of each target phase of the predetermined target phases based on a target phase value transmitted by the actuator when the control shaft is positioned at the each target phase, wherein the actuator comprises: a first stopper disposed at a first position to restrict movement of the control shaft in a first direction; a second stopper disposed at a second position to restrict movement of the control shaft in a second direction; and a sensor configured to output a value corresponding to a phase at which the control shaft is positioned to the controller. 2. The CVVD system of claim 1 , wherein the sensor outputs a first restricted phase value, which corresponds to a phase of the control shaft when the movement thereof is restricted by the first stopper, and a second restricted phase value, which corresponds to a phase of the control shaft when the movement thereof is restricted by the second stopper. 3. The CVVD system of claim 2 , wherein the controller is configured to determine the first restricted phase value to be 0% when a difference between the first restricted phase value and a predetermined first restricted phase reference value is within a tolerance range, and determines the second restricted phase value to be 100% when a difference between the second restricted phase value and a predetermined second restricted phase reference value is within the tolerance range. 4. The CVVD system of claim 2 , wherein the controller is configured to determine that a mechanical failure occurs when a difference between the first restricted phase value and a predetermined first restricted phase reference value is greater than a tolerance range or when a difference between the second restricted phase value and a predetermined second restricted phase reference value is greater than the tolerance range. 5. The CVVD system of claim 1 , wherein the controller is configured to determine whether a steady state error for the each target phase exceeds a tolerance range and is configured to determine that a controller failure occurs when there is a target phase having a steady state error greater than the tolerance range. 6. The CVVD system of claim 1 , wherein the controller is configured to monitor the control state of the each target phase while determining the operation range of the control shaft or is configured to monitor the control state of the each target phase during and after determining the operation range of the control shaft. 7. An operating method of a continuously variable valve duration (CVVD) system configured to control a CVVD by adjusting an actuator for operating the CVVD, comprising: determining, by a controller, a first restricted phase value in an operation range of a control shaft of the actuator based on a determining command; determining, by the controller, a control state of each target phase while sequentially positioning the control shaft at predetermined target phases in a first direction after determining the first restricted phase value; and determining, by the controller, a second restricted phase value in the operation range of the control shaft of the actuator after determining the control state of the each target phase, wherein the determining the control state of the each target phase includes determining whether a steady state error at the each target phase is greater than a tolerance range and determining that a controller failure occurs when there is a target phase having a steady state error greater than the tolerance range. 8. The operating method of claim 7 , wherein the determining the first restricted phase value comprises: positioning, by the controller, the control shaft at a first restricted phase; comparing, by the controller, the first restricted phase value output corresponding to the first restricted phase with a predetermined first restricted phase reference value and determining whether a difference between the first restricted phase value and the first restricted phase reference value is within a tolerance range; and setting, by the controller, the first restricted phase value to be 0% when the difference between the first restricted phase value and the first restricted phase reference value is within the tolerance range. 9. The operating method of claim 8 , wherein the determining the first restricted phase value includes determining that a mechanical failure occurs when the difference between the first restricted phase value and the first restricted phase reference value is greater than the tolerance range. 10. The operating method of claim 7 , wherein the determining the control state of the each target phase includes when a steady state error at a target phase is less than the tolerance range, positioning, by the controller, the control shaft at a subsequent target phase and determining whether a steady state error at the subsequent target phase is greater than the tolerance range. 11. The operating method of claim 7 , wherein the determining the second restricted phase value comprises: positioning, by the controller, the control shaft at a second restricted phase; comparing, by the controller, the second restricted phase value output corresponding to the second restricted phase with a predetermined second restricted phase reference value and determining whether a difference between the second restricted phase value and the second restricted phase reference value is within a tolerance range; and setting, by the controller, the second restricted phase value to be 100% when the difference between the second restricted phase value and the second restricted phase reference value is within the tolerance range. 12. The operating method of claim 11 , wherein the determining the second restricted phase value includes determining, by the controller, that a mechanical failure occurs when the difference between the second restricted phase value and the second restricted phase reference value is greater than the tolerance range. 13. The operating method of claim 7 , wherein the determining the second restricted phase value further includes secondarily determining, by the controller, the control state of each target phase while sequentially positioning the control shaft at predetermined target phases in a second direction after determining the second restricted phase value. 14. The operating method of claim 13 , wherein the secondarily determining the control state of the each target phase includes determining, by the controller, whether a steady state error at the each target phase is greater than a tolerance range and determining that a controller failure occurs when there is a target phase having a steady state error exceeding the tolerance range.