This research is aimed to study on the vibration control of a time-varying mass distribution cantilever beam. Since natural frequencies of a time-variant system are not constants, the controller of the system therefore is required to simultaneously minimize the excitation to a specific range of frequency. In this research, we apply the piezoelectric materials to be the materials of our senor and actuator due to their attributes of interchanging mechanical energy with electrical energy. The physical quantity of piezoelectric senor’s output is charge; a charge amplifier is therefore used for enlarging signal. When a time-varying cantilever beam vibrates, the senor receives its signal of vibration. The signal feedbacks to the actuator and executes a vibration control on the beam with being reversely amplified. Different frequencies of signal occur phase shifts while pass through the controller; hence, in order to improve the overall effects, we introduce phase compensation circuit to adjust the phase of feedback signal. Furthermore, we tap a charge amplifier specifically for needs to the phase of feedback signal. The experimental results indicate that the controller with our proposed charge amplifier can provide an effective solution to suppress the overall vibrations of a time-variant system even without phase compensation circuit.