Apparatus for torque vectoring

What is claimed is: 1. A torque vectoring apparatus receiving a vehicle driving torque from a motor/generator, the torque vectoring apparatus comprising: a speed reduction device coupled to the motor/generator and reducing a rotation speed received from the motor/generator; a differential device coupled to the speed reduction device and receiving a reduced rotation speed from the speed reduction device and differentially outputting split torques to first-side and second-side output shafts; and a torque vectoring device coupled to the differential device and controlling a torque ratio of the split torques output to the first-side and second-side output shafts coupled to the torque vectoring device, wherein the torque vectoring device includes: a torque vectoring control motor; a first compound planetary gear set including: a first planetary gear set having a first rotation element and a second rotation element; and a second planetary gear set sharing the second rotation element with the first planetary gear set and having a third rotation element, wherein the first rotation element is fixed to a housing and the second rotation element is fixedly connected to a first output shaft among the first-side and second-side output shafts through the differential device; and a second compound planetary gear set including: a third planetary gear set having a fourth rotation element and a fifth rotation element; and a fourth planetary gear set sharing the fourth rotation element with the third planetary gear set and having a sixth rotation element, wherein the fourth rotation element is fixedly connected to a second output shaft among the first-side and second-side output shafts, the fifth rotation element is fixedly connected to the third rotation element, and the sixth rotation element is gear-engaged with the torque vectoring control motor. 2. The torque vectoring apparatus of claim 1 , wherein an output gear formed at a motor shaft of the torque vectoring control motor is gear-engaged with an input gear fixedly connected to the sixth rotation element. 3. The torque vectoring apparatus of claim 1 , wherein the torque vectoring control motor is formed as a motor of which rotation speed and rotating direction are controllable. 4. The torque vectoring apparatus of claim 1 , wherein the first rotation element, the second rotation element and the third rotation element of the first compound planetary gear set are formed by a first sun gear of the first planetary gear set, a first common planet carrier shared by the first and second planetary gear sets, and a second ring gear of the second planetary gear set, respectively; and wherein the fourth rotation element, the fifth rotation element, and the sixth rotation element of the second compound planetary gear set are formed by a second common planet carrier shared by the third and fourth planetary gear sets, a third ring gear of the third planetary gear set, and a fourth sun gear of the fourth planetary gear set, respectively. 5. The torque vectoring apparatus of claim 1 , wherein the differential device includes a fifth planetary gear set having a seventh rotation element, an eighth rotation element, and a ninth rotation element; wherein the seventh rotation element is fixedly connected to the second output shaft fixedly connected to the fourth rotation element; wherein the eighth rotation element is fixedly connected to the first output shaft; and wherein the ninth rotation element receives the reduced rotation speed from the speed reduction device. 6. The torque vectoring apparatus of claim 5 , wherein the fifth planetary gear set is a double pinion planetary gear set having a fifth sun gear, a fifth planet carrier, and a fifth ring gear as the seventh rotation element, the eighth rotation element, and the ninth rotation element, respectively. 7. The torque vectoring apparatus of claim 5 , wherein the speed reduction device includes: a drive gear connected to a rotor of the motor/generator; a driven gear formed on an external circumference of the ninth rotation element of the differential device; and an idle gear unit coupled to the drive gear and the driven gear and reducing an input speed received from the drive gear and outputting the reduced rotation speed through the driven gear. 8. The torque vectoring apparatus of claim 7 , wherein the idle gear unit includes: an idle shaft mounted external to the differential device and in parallel with the first-side and second-side output shafts; an idle input gear rotatably mounted on the idle shaft and gear-engaged with the drive gear; and an idle output gear fixedly formed on the idle shaft and gear-engaged with the driven gear. 9. The torque vectoring apparatus of claim 8 , wherein the idle gear unit further including a synchronizer mounted between the idle input gear and the idle shaft, and selectively synchronizing the idle input gear to the idle shaft.