The thesis is focused on the study of the tuning characteristics for asynchronous mode-locked Er-doped fiber lasers. With the experimental laser structure of hybrid active/passive mode-locking, laser performance data under parameter tuning are collected by the RF spectrum and optical spectrum analyzer to understand the relationship among the synchronous/asynchronous mode-locking and the modulation intensity/frequency. We also use the variational method and numerical solution to study the transition between the synchronization and non-synchronization operation states. In the experiment, the phase modulator is operated with the modulation frequency around the 10GHz and 20GHz with different modulation strengths. The changes of the RF spectra and the transition from synchronization to non-synchronization are the main focuses of observation. The 10GHz and 20GHz operation states exhibit slightly different performance characteristics. We experimentally verify the synchronous/asynchronous laser transition properties and compare the experimental observations with the theoretical predictions based on the variational method.