In this Thesis, a control structure for improving bandwidth of velocity loop is proposed by applying both the feedforward controller in lead compensation and the notch filter. The bandwidth of the Shihlin AC servo motor in this study can be thus enhanced from 425 Hz to 592 Hz with a limited resonance peak in 2 dB. Furthermore, a control structure for enhancing the contouring error is also proposed. Experimental results on the DYNA CNC 1007 machine tool indicate that disturbance and friction in the machine can be well compensated by applying the disturbance observer (DOB) and the nonlinear compensator (NFC), respectively. When experiments were operated with a feed in 750 mm/min, roundness could be reduced from 66.7 to 4.04 with a well-tuned PI control parameters. Morevoer, by increasing the bandwidth of the motor system, the roundness can be further reduced from 4.04 to 2.07 by including DOB and NFC. When experiments were operated with a higher federate as 1500 mm/min , roundness could still be maintained in 3 . Finally, a man machine interface (HMI) is proposed to provide a more effective way to assist engineers to complete the proposed CNC motion control design to render satisfactory precision.