The all-electric injection modling machine is a mechatronic product, consisting of a synthesis of precision manufacturing, servomotor driving and advanced digital control. The controllers for the machine are responsible for achieving motion control, temperature control, PLC control, man-machine interfacing, injection speed tracking and holding-pressure control. This paper develops control design methodologies and implementation technologies for an all-electric injection molding machine control system. A novel digital signal processor (DSP)-based, proportional-integral (PI) controller together with feedforward control is presented based on motor torque control mode, in order to accomplish injection speed profile tracking for the machine. To have good control at the holding-pressure stage, a modified-gainscaling PI control based on sliding mode control is proposed to improve the performance of the pressure-holding process without overshoots. Several experimental results have shown that the proposed methods together with the system prototype built for this study are feasible and effective. These developed technologies may be useful in improving and promoting current control system technology for electric injection molding machines.