This paper presents experimental data on the change of relative density in a cohesionless fill due to vibratory compaction at different vibration frequencies. A variable-frequency plate compactor with a frequency range of 10 ~ 100 Hz was constructed at National Chiao Tung University. Air-dry Ottawa sand was used as fill material. The initial relative density of the uncompacted fill was about 33.3 %. The vibratory compaction was applied on the surface of a 1.5m-thick lift. Soil density molds were buried in the cohesionless specimen to measure the distribution of relative density with depth. The cyclic normal stress applied on the surface of the fill was 30 kN/m2, and the compaction frequencies of 45, 58, 64, 74, 83, 89 and 100 Hz were used. Based on the test results, the following conclusions were drawn. Within the depth of 0.3 m, which was the width of the compaction plate, the density increase was most significant. The density increase effect was reduced with increasing depth. The measured peak relative densities varied from 114 to 119 %. The peak relative density of the fill was not significantly influenced by the compaction frequency. In the top 0.3 m of fill, the average relative density increment varied from 60.9 to 70 %. The relative density increment values slightly increased with increasing compaction frequency. It may be concluded that the average relative density increment was not influenced by different frequencies compaction. The effective compaction depths varied from 0.43 to 0.54 m, which was much deeper than the maximum permissible lift thickness 0.15 ~ 0.3 m suggested by NAVFAC DM-7.2 (1982).The effective compaction depth was not significantly influenced by the compaction frequency.