Introduction: Previous studies have demonstrated that poaching is one of the more aggressive volleying technique, as well as, one of the most important scoring method in the game of tennis doubles. Poaching can disrupt the opponent’s rhythm, which causes a psychological uneasiness on the opponent to lead a higher percentage of return error. Poaching requires a combination of skill sets to complete including craftiness, timing, technique, and great synergy between teammates. In addition, both members of the team must utilize their positioning to create scoring opportunity. Therefore, this study focuses on tennis doubles matches using EMG analysis, and followed up by action analysis to compensate for the lack of research done on tennis motion. Method: The subjects were the top 8 nationally ranked male tennis players in the country (age 21.00 ± 2.33 years, height 182.06 ± 2.73 cm, weight 74.62 ± 6.23 kg). Two FASTEC high-speed cameras (250Hz) and EMG system (2000Hz) were used to synchronize the collection of three-dimensional motion data. The t-test was used to compare the difference of forehand and backhand poaching. The results show that: (1) During the split-step stretch reflex motion, the centrifugal period is longer than the centripetal period, accumulating more energy within the muscle. Hence, the split-step motion may help facilitate an instantaneous energy conversion mechanism. (2) The centrifugal integral value of the maximum spontaneous contraction integral (MVIC) suggests that in the forehand motion left foot gastrocnemius was significantly greater than the right foot’s; in the backhand motion right foot of the gastrocnemius muscle was significantly larger than left foot’s. (3) The results are consistent between the amount of the muscle force generated and the direction of preparation. Conclusion: A tennis split-step poaching action can achieve a faster instantaneous breakout speed, by accumulating more energy through the squat motion. The athletes exert a large amount of gastrocnemius on the opposite side of the poaching direction, which contributes to the ground force and to the speed of the push pedal throughout the time of instantaneous start thereby improving the effectiveness of poaching.