The present thesis investigates the behavior of mixed parallel-series connection of weakly coupled piezoelectric energy harvesters attached to the synchronized switch harvesting on inductor (SSHI) circuit. The thesis is motivated by the fact that power of a single piezoelectric oscillator with weak electromechanical coupling is able to be boosted by the SSHI circuit. Hence, the results from the mixed SSHI array are expected to be superior to the standard array system. Specifically, multiple piezoelectric oscillators are prepared such that their natural frequencies are different and sequentially arranged. Thus, the peaks of power of the mixed array with specific electric connection can be tuned to be uniformly distributed and the switching between different array configurations can be realized by frequency sensing and circuit switching techniques. Thus, both power and bandwidth are expected to be further improved if the SSHI circuit is implemented for the case of weak electromechanical coupling. The thesis starts with the development of theoretical model and the derivation of analytic estimate of harvested power. The analytic results are validated by PSPICE circuit simulation. In addition, the experimental validation is preformed and found in good agreement with analytic estimate. The results show there is significant improvement on both harvested power and bandwidth for mixed SSHI arrays in comparison to the standard array system as long as the electromechanical coupling is weak or medium weak.