Two compensators are designed and implemented on the servo motor current driver in this Thesis: (1) the exponential-function current compensator (ECC) in the current loop and (2) digital disturbance observer (DDOB) in the velocity loop. In friction compensation, the motion error increases as the servo control operates around velocity at zero. Therefore, applying the proposed ECC implemented directly on the current driver for the servo motor will effectively decreases the nonlinear effect of friction. In addition, performance of the control system will be degraded due to the external disturbance in practice. Therefore, the DDOB is implemented also on the current driver of the servo motor to improve its linear control performance. The model of the DDOB can be directly obtained through the present C# interface. By integrating both the ECC and DDOB on the current driver, experimental results on the XZ table indicate that the reversal spikes decreases from 6.0μm to 1.5μm and the roundness decreases from 14.1μm to 9.6μm measured by the double bar. Keyword: Exponential-current Compensation, Friction Compensation, CNC Precision Motion Control