Purposes: The purpose of this study was to investigate the factors of the effect by comparing the biomechanical differences between the highest and lowest performances in regular squat jump. Methods: Ten healthy males were conducted as subjects for this study. Redlake high-speed camera (125Hz; 1/625), and Biovision EMG system (1250Hz) were synchronized with Kistler force plate (1250Hz) to collect the biomechanics parameters during the subjects performing squat jump movement. The net muscle joint moments were calculated by using inverse dynamics process. Differences between mean values of jumping performance were evaluated by means of Student's t-test for repeat subjects. Statistical significance was set at α=.05. Results: During the lowest performance of squat jump the initial times of EMG signals on m. vasti, m. gastrocentius, and m. soleus were delayed while compared them to those signals on highest performance of squat jump. Similarly, the peak angular velocity of hip joint appeared earlier than that in the highest performance, and the peak net muscle joint moment appeared later than that in the highest performance. These phenomena caused the work of hip joint to reduce from 59.39 J to 50.57 J, and the work of ankle joint to reduce from 76.39 J to 67.98 J in the take-off activity. Conclusion: The range of motion, peak net muscle joint moment, and peak ground reaction force were not the effect factors of the lowest performance of squat jump. Hence, the coordination ability during jump was the important factor of jumping performance.