Introduction: Inertial measurement units (IMU) have been able to accurately detect kinematic parameters during baseball batting. The purpose of this study was to investigate differences in hip, upper torso, and hand kinematics between elite and sub-elite college baseball batters during the stride and swing phases of batting. Methods: Six elite and six sub-elite college players participated in this study. Three IMUs were attached to the hip, upper torso, and back of the batting hand to detect the timing of stride and swing phases peak of hip horizontal acceleration , peak of rotational angular velocity, and peak of upper torso rotational angular velocity at the foot-off and foot-on of the front foot. During the swing phase, the hip velocity peak, upper torso velocity peak, hand velocity peak, and the duration between the occurrence of the three different body position's rotational angular velocity peak to the time of contact between the bat and the ball have collected. Kinematic differences between elite and sub-elite batters were analyzed via Mann-Whitney U tests. Result: The stride phase was shorter in elite college batters than in sub-elite players (p < .01), whereas the swing phase was longer in elite players than in sub-elite batters (p < .01). The hip horizontal acceleration, hip angular velocity, and chest angular velocity at foot-on timing were lower in elite batters than in sub-elite batters (p < .01). However, hip, chest, and hand angular velocities during the swing phase were higher in elite batters than in sub-elite batters (p < .01). Moreover, shorter duration between each body segment's velocity peak and the time of contact between the bat and the ball was observed in elite batters than in sub-elite batters (p < .01). Conclusion: Elite and sub-elite college batters showed differences in timings, front foot-on, and kinematics of the hip, upper torso and hand during the swing phase. Specifically, shorter stride phase and reduced hip and chest rotation at foot planting were reported for elite batters in comparison with sub-elite batters. In contrast, elite batters prolonged the swing phase and developed higher hip, chest, and hand velocities at a time closer to impact. The findings of this study and the applied method of IMU usage may contribute to practices of performance assessment and the improvement of the batting skill.