A new electrically driving and controlling 128 element×128 element Liquid Crystal (LC) micro-lens array with tunable focal length is proposed based on the structure and design methods of a single circular hole electrode LC lens. The Indium Tin Oxide (ITO) glasses are used as the top and bottom substrates of the LC micro-lens array. The top electrode patterns containing 128 element×128 element are obtained by a lithography and a hydrochloric acid etching,in which every element is a single circular hole of 50 μm diameter and the distance between the two circular holes is 100 μm. The bottom electrode is just the ITO film. Furthermore, the thickness of LC layer between the top and the bottom electrodes is about 20 μm and the focal length of the LC micro-lens array can be electrically tuned from 50 μm to 400 μm under the operating voltage from 0.2 V (RMS) to 5.0 V(RMS). The result of the test indicates that the point spread function of the LC micro-lens array is close to the theory value,and the relationship of operating voltage and focal length is in an inverse proportion. These results show that the imaging characteristic of the LC micro-lens array can be comparable to those of the conventional optical micro-lens arrays.