This paper presents a successful achievement on lowering bias voltage of CMUS (capacity micromachined ultrasound sensor). By using the TSMC CMOS 0.35 process and etching post-process the devices are fabricated on the CMOS chips bottom layers. Based on the CMUTs’ construct theory, we etch the top cross-metal layers and polysilicon layer to release the membrane. By polysilicon layer etching and adding contact as the part of top electrode, the equivalent gap will be reduced and the bias voltage will decrease obviously (0~5V). Furthermore, we propose a novel structure between etching holes and sacrificial layer. The structure called etching ditch improves the etching rate and yield by exposing larger area when wet etching. On the other hand, the device will be easily water-proven due to the small size of etching hole (0.5um*0.5um) over the ditch. Also, by wire-bonding with CMOS ASIC fabricated in TSMC 0.18-μm CMOS process, the integrated sensing circuit reduces the parasitic capacitance and enhances the signal to noise ratio effectively. For reducing the charging effect of the devises, an alternating bias voltage is applied, and the characterization of CMOS-electronics shows the large fractional bandwidth (112.88%) and 45.54dB signal to noise ratio in the 7.39MHz resonant frequency.