Mode control apparatus of hybrid vehicle and control method thereof

What is claimed is: 1. A mode control apparatus of a hybrid vehicle, comprising: a first clutch disposed between an engine and a motor generating power; a second clutch disposed between the motor and a transmission; and a controller configured to execute engagement and disengagement of the first clutch and the second clutch, wherein the controller is configured to adjust a speed of the motor and the engine to be synchronized by generating slip in the second clutch when a transition from an electric vehicle (EV) mode to a hybrid electric vehicle (HEV) mode is requested, wherein the EV mode is a mode that disengages the first clutch and engages the second clutch, and drives the vehicle using the motor driving torque, wherein the HEV mode is a mode that engages the first clutch and the second clutch, and drives the vehicle using the motor driving torque and the engine driving torque, wherein the controller is configured to start the engine, operate the second clutch to slip by reducing coupling force of the second clutch, operate the first clutch to be engaged after synchronizing an engine speed and a motor speed, and operate the second clutch to be fully engaged when the input speed of the transmission is greater than a minimum engine speed, when the transition from the EV mode to the HEV mode is requested in a state where an input speed of the transmission is less than a minimum speed of the engine, and wherein the engagement of the first clutch is prohibited before the engine speed is synchronized with the motor speed. 2. The mode control apparatus of the hybrid vehicle of claim 1 , wherein the controller is configured to operate the second clutch to be released, operate the first clutch to be engaged by starting the engine, operate the second clutch to slip by increasing coupling force of the second clutch, and operate the second clutch to be fully engaged when input speed of the transmission is greater than a minimum engine speed, when the transition from the EV mode to the HEV mode is requested and when the motor cannot be used. 3. The mode control apparatus of the hybrid vehicle of claim 1 , wherein the controller is configured to start the engine while maintaining engagement of the second clutch, and operate the first clutch to be engaged after synchronizing the engine speed and the motor speed, when the transition from the EV mode to the HEV mode is requested and when an input speed of the transmission is greater than a minimum speed of the engine. 4. A mode control method of a hybrid vehicle, comprising: determining, by a controller, whether a transition from an electric vehicle (EV) mode to a hybrid electric vehicle (HEV) mode is requested; determining, by the controller, whether an input speed of a transmission is zero; determining, by the controller, whether the input speed of the transmission is greater than a minimum engine speed, when the input speed of the transmission is greater than zero; generating, by the controller, slip of a second clutch disposed between a motor and a transmission by reducing a coupling force of the second clutch and maintaining an engine in an idle state after starting the engine, when an input speed of the transmission is less than the minimum engine speed; determining, by the controller, whether the engine speed is synchronized with the motor speed; engaging, by the controller, a first clutch disposed between the engine and the motor when the engine speed and the motor speed are synchronized; and fully engaging, by the controller, the second clutch when the input speed of the transmission is greater than the minimum engine speed, wherein the engagement of the first clutch is prohibited before the engine speed is synchronized with the motor speed. 5. The mode control method of the hybrid vehicle of claim 4 , further comprising: operating, by the controller, the second clutch to be released by reducing coupling force of the second clutch, operating the first clutch to be engaged, starting the engine using the motor or an additional starting motor, and operating the second clutch to cause slip by increasing coupling force of the second clutch, when the input speed of the transmission is zero; determining, by the controller, whether the input speed of the transmission is greater than the minimum engine speed; and fully engaging, by the controller, the second clutch when the input speed of the transmission is greater than the minimum engine speed. 6. The mode control method of the hybrid vehicle of claim 4 , further comprising: synchronizing, by the controller, the engine speed with the motor speed after starting the engine while maintaining engagement of the second clutch; and engaging, by the controller, the first clutch after synchronizing the engine speed and the motor speed when the input speed of the transmission is greater than zero and the input speed of the transmission is greater than the minimum engine speed. 7. A non-transitory computer readable medium containing program instructions executed by a controller, the computer readable medium comprising: program instructions that determine whether a transition from an electric vehicle (EV) mode to a hybrid electric vehicle (HEV) mode is requested; program instructions that determine whether an input speed of a transmission is zero; program instructions that determine whether the input speed of the transmission is greater than a minimum engine speed, when the input speed of the transmission is greater than zero; program instructions that generate slip of a second clutch disposed between a motor and a transmission by reducing a coupling force of the second clutch and maintaining an engine in an idle state after starting the engine, when an input speed of the transmission is less than the minimum engine speed; program instructions that determine whether the engine speed is synchronized with the motor speed; program instructions that engage a first clutch disposed between the engine and the motor when the engine speed and the motor speed are synchronized; and program instructions that fully engage the second clutch when the input speed of the transmission is greater than the minimum engine speed, wherein the engagement of the first clutch is prohibited before the engine speed is synchronized with the motor speed. 8. The non-transitory computer readable medium of claim 7 , further comprising: program instructions that operate the second clutch to be released by reducing coupling force of the second clutch, operate the first clutch to be engaged, start the engine using the motor or an additional starting motor, and operate the second clutch to cause slip by increasing coupling force of the second clutch, when the input speed of the transmission is zero; program instructions that determine whether the input speed of the transmission is greater than the minimum engine speed; and program instructions that fully engage the second clutch when the input speed of the transmission is greater than the minimum engine speed. 9. The non-transitory computer readable medium of claim 7 , further comprising: program instructions that synchronize the engine speed with the motor speed after starting the engine while maintaining engagement of the second clutch; and program instructions that engage the first clutch after synchronizing the engine speed and the motor speed when the input speed of the transmission is greater than zero and the input speed of the transmission is greater than the minimum engine speed.