Electrical discharge machining (EDM) is a machining process transforming electric energy into thermal energy to remove materials. The current impulse stands for the energy function. Therefore, current impulse is a very important factor for providing type of energy. A series of experiments were performed to investigate the influence of current impulse on machining characteristics. The features of current impulse have initial current (I0), current rising slope and impulse pattern. The used patterns of current impulse included rectangular current impulse and trapezoid current impulse and 1st order current impulse. The machining characteristics are associated with wear ratio, material removal rate. Experimental results show the rectangular current impulse has the most MRR and wear ratio. The wear ratio can be improved about 60%, although the MRR decreased 14% for SKD11 when trapezoid current impulse with initial current of 13A and current rising slope of 0.3. Experimental results show the wear ratio can be improved about 30% than rectangular current impulse for tungsten carbide while keeping the same MRR when 1st order current impulse with current rising time of 20μs.