In this thesis, a novel auto-focus system based on a differential technique and the moiré method is presented. Two linear gratings and the structure of the microscope are used for detection of the sample’s defocus situation. The system basically solves the auto-focusing problems in the AOI (Automatic Optical Inspection) and LR (Laser Repair), and is a simple, cheap, and useful to apply. The system is based on optical images, the moiré effect principle and the architecture of the microscope, and is able to shows the image and auto-focus at the same time. The moiré fringe is formed from two similar gratings with the lower frequency. If the size of the projected image size is the same as the (bigger or smaller) grating, a horizontal linear moiré pattern (having a positive or negative angle) is detected along the horizon line. We can determine whether the sample is located on focus or not from the detected moiré patterns. Finally, we combine the moiré detection system with P control and a feedback algorithm. The simulation and experimental results show our system to have a higher sensitivity with a smaller grating period and a higher magnification objective lens. We also provide advanced setting function to improve the system’s sensitivity by choosing the exact detected pixels on a Linear CCD. The features distinguish between in focus or far focus by rotating the gratings. All the advanced choices are set for objective lenses with different magnifications. The experimental results show that we can obtain an accuracy of about 0.2 um with a 50X objective lens, or a long detection range of about 200 um with a 10X objective lens. Our system has a high resolution and simple structure, which is based on the moiré technique, the differential signal, and a novel feedback algorithm. It has the ability to enhance stability with a non-coherent light source focusing system.