We propose a wide-field digital holographic microscopy system to enhance the field of view. In wide-field system, the field of view is limited by image sensor. So we use telescope to enhance the field of view. To resolve the low pixel resolution, we use up-sampling method in Fresnel transform to enhance the pixel resolution in reconstruction plane. Then, to enhance the lateral resolution, we use spherical reference wave to product the additional magnification in spectrum plane. And using space bandwidth product and high spatial frequency with spherical reference wave to analysis the optimized recording distance in WF-DHM, It’s can get the high resolution and keep the wide field of view. After enhancing the pixel resolution and found the optimized recording distance, we can get the lateral resolution from 13.92um becomes to 8.77um and FOV can reach to 25mm X 25mm. Finally. We have established a prototype for glass substrate quantitative defect detection, with a wide field of view and real-time three-dimensional high-resolution imaging capabilities. Finally, design the FOV about five-inch of the wide field system to explore its problems and solutions to increase the potential of optical detection applications in the future.