Although muscle power output has been evaluated from various dynamic muscle contractions, muscle power outputs exerted by concentric and eccentric contractions due to different physiological mechanisms have not been examined thoroughly. This study aimed to reveal characteristics of eccentric power output exerted by elbow flexion, and to examine the relationship between eccentric and concentric outputs. Ten young males performed single power output tasks via concentric contraction with 40%, 50%, and 60% maximal voluntary contraction (MVC), and by eccentric contraction with 130% and 140% MVC. Power output due to concentric and eccentric contractions was measured using a power measurement instrument with a rotary encoder attached to the pulley. The eccentric contraction velocities in both loads were maximal, about 0.5 s, at about a 90°bend of the elbow joint after the onset of contraction. Although eccentric contraction with 140% MVC completed in about 0.5 s (range, 0.22-0.73 s), contractions with 130% MVC completed in about 8 s (range, 1.41-12.08 s) due to moderate contraction velocities. The reliability of the eccentric power parameters was found to be good, as well as that of the concentric power. The average velocity of eccentric contraction with 130% MVC correlated significantly with the peak power of concentric contraction with 60% MVC. In conclusion, eccentric power may be influenced more by maximal strength rather than muscle contraction velocity.